start auswertung

This commit is contained in:
jannis.grundmann 2017-11-27 12:49:05 +01:00
parent 7214911606
commit 873e9ff7d2
11 changed files with 251 additions and 103 deletions

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@ -90,6 +90,7 @@ def autocorrectWord(word):
def clean(stringstream,autocorrect=False):
for string in stringstream:
@ -165,6 +166,8 @@ autocorrect = config.getboolean("preprocessing", "autocorrect")
def cleanCorpus(corpus_path, clean_in_meta, lang="de", printrandom=10,autocorrect=False):
autocorrect = False #todo STELLSCHRAUBE
logprint("Clean {0}_corpus at {1}".format(lang, datetime.now()))
rawCorpus_name = lang + "_raw_ticket"

26
main.py
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@ -3,7 +3,7 @@ import matplotlib
matplotlib.use('Agg')
import time
import init
from datetime import datetime
import corporization
import preprocessing
import topicModeling
@ -21,6 +21,8 @@ start = time.time()
# idee häufige n-gramme raus (zB damen und herren)
# idee llda topics zusammenfassen
# idee lda so trainieren, dass zuordnung term <-> topic nicht zu schwach wird, aber möglichst viele topics
# frage welche mitarbeiter bearbeiteten welche Topics? idee topics mit mitarbeiternummern erstzen
@ -29,9 +31,10 @@ start = time.time()
# todo modelle testen
logprint("main.py started at {}".format(datetime.now()))
"""
init.main()
logprint("")
@ -41,13 +44,13 @@ logprint("")
cleaning.main()
logprint("")
preprocessing.main() # ~5h
preprocessing.main()
logprint("")
"""
#topicModeling.main(algorithm="lsa")
logprint("")
@ -56,16 +59,17 @@ logprint("")
logprint("")
topicModeling.main(algorithm="llda")
logprint("")
#topicModeling.main(algorithm="llda")
logprint("")
topicModeling.main(algorithm="lda")
logprint("")
end = time.time()
logprint("main.py finished at {}".format(datetime.now()))
logprint("Total Time Elapsed: {0} min".format((end - start) / 60))
#800*400

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@ -49,6 +49,10 @@ def filterTokens(tokens, funclist):
for f in funclist:
tokens = list(filter(f, tokens))
for tok in tokens:
if tok.pos_ =="NOUN":
x=0
return tokens
@ -57,7 +61,9 @@ def keepPOS(pos_list):
def keepNouns(noun_list=NOUNS):
return lambda tok: tok.lower_ in noun_list
#return lambda tok: tok.lower_ in noun_list
return lambda tok: tok.lower_ in noun_list or tok.pos_ == "NOUN"
def removePOS(pos_list):
@ -204,8 +210,8 @@ def processContentstream(textstream, parser, token_filterlist=None):
tokens = filterTokens(tokens, token_filterlist)
# post parse
tokens = [postparse(tok) for tok in tokens] #todo: informationsverlust von pos,tag etc.!
#todo STELLSCHRAUBE tokens = [postparse(tok) for tok in tokens] #todo: informationsverlust von pos,tag etc.!
tokens = [tok.lower_ for tok in tokens]
yield " ".join(tokens)
def preparse(stringstream):
@ -360,16 +366,13 @@ def main():
keepNouns(NOUNS),
remove_words_containing_Numbers(),
removeWords(DE_STOP_WORDS + custom_words + VORNAMEN),
removePOS(["PUNCT", "SPACE", "NUM"]),
removeWords(DE_STOP_WORDS + custom_words + VORNAMEN),
#removeWords(DE_STOP_WORDS),
remove_long_words(),
remove_short_words(),
remove_first_names()
#todo STELLSCHRAUBE remove_words_containing_Numbers(),
#todo STELLSCHRAUBE remove_long_words(),
#todo STELLSCHRAUBE remove_short_words()
]

200
test.py
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@ -27,16 +27,189 @@ corpus_de_path = FILEPATH + config.get("de_corpus", "path")
preCorpus_name = "de" + "_pre_ticket"
corpus, parser = load_corpus(corpus_name=preCorpus_name, corpus_path=corpus_de_path)
logprint("Corpus loaded: {0}".format(corpus.lang))
#
#todo randomize
split_index = int(float(len(corpus)) * 0.8)
split = 0.8
weighting = "tf"
min_df = 0
max_df = 1
ngrams = 1
n_topics = 3
top_n = 7
split_index = int(float(len(corpus)) * split)
corpus_train = corpus[0:split_index]
corpus_test = corpus[split_index:len(corpus)-1]
###### Initialize and train a topic model
vectorizer = Vectorizer(weighting=weighting, min_df=min_df, max_df=max_df)
terms_list = (doc.to_terms_list(ngrams=ngrams, named_entities=False, as_strings=True) for doc in corpus_train)
doc_term_matrix = vectorizer.fit_transform(terms_list)
id2term = vectorizer.__getattribute__("id_to_term")
model = textacy.tm.TopicModel("lda", n_topics=n_topics)
model.fit(doc_term_matrix)
######
compenents = model.model.components_
"""
components_ : array, [n_components, n_features]
Variational parameters for topic word distribution.
Since the complete conditional for topic word distribution is a Dirichlet,
components_[i, j] can be viewed as pseudocount that represents
the number of times word j was assigned to topic i.
It can also be viewed as distribution over the words for each topic after normalization:
model.components_ / model.components_.sum(axis=1)[:, np.newaxis].
"""
test_doc = corpus_test[0]
end = time.time()
print("\n\n\nTime Elapsed Test:{0}\n\n".format(end - start))
"""
# frage wieviele tickets pro topic?
ticket_gen = textacy.fileio.read_csv(FILEPATH + "M42-Export/de_tickets.csv", delimiter=";")
cat_dict = {}
cat2id_dict = {}
for line in ticket_gen:
tick_id = line[0]
cat = normalize(line[3])
cat2id_dict[cat] = tick_id
if cat not in cat_dict.keys():
cat_dict[cat] = 1
else:
cat_dict[cat] += 1
import operator
sorted_dict = sorted(cat_dict.items(), key=operator.itemgetter(1))
for k, v in sorted_dict:
if k == "sd":
print(cat2id_dict[k])
print(k, v)
print(len(sorted_dict))
kb2ticket_gen = textacy.fileio.read_csv(FILEPATH + "M42-Export/KB2Ticket_2017-09-13.csv", delimiter=";")
ticket2kb_dict = {}
@ -118,14 +291,7 @@ for k,v in kb2keywords_dict.items(): #str,list
import operator
"""
sorted_dict = sorted(count_dict.items(), key=operator.itemgetter(1))
for k,v in sorted_dict:
print(k,v)
print(len(sorted_dict))
"""
@ -152,6 +318,7 @@ for kb_entry in kb2keywords_gen:
else:
count_dict[entry_] += 1
import operator
sorted_dict = sorted(count_dict.items(), key=operator.itemgetter(1))
@ -159,20 +326,7 @@ sorted_dict = sorted(count_dict.items(), key=operator.itemgetter(1))
# print(k,v)
#print(len(sorted_dict))
end = time.time()
print("\n\n\nTime Elapsed Test:{0}\n\n".format(end - start))
"""

View File

@ -5,6 +5,7 @@ import draw
import draw1
import time
import numpy as np
import operator
import csv
import sys
@ -80,9 +81,8 @@ def textacyTopicModeling(corpus,
doc_topic_matrix = model.transform(doc_term_matrix)
for topic_idx, top_terms in model.top_topic_terms(vectorizer.id_to_term, top_n=top_topic_words):
logprint('{0}: {1}'.format(topic_idx, " ".join(top_terms)))
for topic_idx, top_terms in model.top_topic_terms(vectorizer.id_to_term, top_n=top_topic_words, weights=True):
logprint('{0}: {1}'.format(topic_idx, str(top_terms)))
for topic_idx, top_docs in model.top_topic_docs(doc_topic_matrix, top_n=top_document_labels_per_topic):
logprint(topic_idx)
@ -96,7 +96,7 @@ def textacyTopicModeling(corpus,
grams_label = "uni" if ngrams == 1 else "bi"
draw1.termite_plot(model,doc_term_matrix, id2term,
draw1.termite_plot(model,doc_term_matrix, vectorizer.id_to_term,
n_terms=n_terms,
sort_terms_by=sort_terms_by,
@ -117,8 +117,6 @@ def jgibbsLLDA(labeldict,line_gen,path2save_results, top_topic_words=7):
LLDA_filepath = "{0}models/tickets/tickets.gz".format(jgibbsLLDA_root)
textacy.fileio.write_file_lines(line_gen, filepath=LLDA_filepath)
@ -241,24 +239,31 @@ def jgibbsLLDA_category(corpus, path2save_results, top_topic_words=7):
logprint("start Category-LLDA:")
# build dictionary of ticketcategories
labelist = []
for doc in corpus:
labelist.append(normalize(doc.metadata["categoryName"]))
category = normalize(doc.metadata["categoryName"])
labelist.append(category)
labelist = list(set(labelist))
print("len(labelist): {}".format(len(labelist)))
#print("len(labelist): {}".format(len(labelist)))
labeldict = {k: v for v, k in enumerate(labelist)}
labeldict.update({'DEFAULT' : len(labeldict)})
def gen_cat_lines(textacyCorpus, labeldict):
""" generates [topic1, topic2....] tok1 tok2 tok3 out of corpi"""
for doc in textacyCorpus:
yield "[" + str(labeldict.get(doc.metadata["categoryName"], len(labeldict))) + "] " + doc.text
label = labeldict.get(normalize(doc.metadata["categoryName"]), labeldict['DEFAULT'])
# frage nur die x häufigsten labels benutzen, rest raus?
yield "[ " + str(label) + " ] " + doc.text
line_gen = gen_cat_lines(corpus, labeldict)
@ -274,6 +279,7 @@ def jgibbsLLDA_category(corpus, path2save_results, top_topic_words=7):
logprint("\n\n\nTime Elapsed Category-LLDA :{0} min\n\n".format((end - start) / 60))
@deprecated
def jgibbsLLDA_KB(corpus, path2save_results, top_topic_words = 7, kb_keywords=False):
"""ticket_ID -> KB_ID -> keywords / subject -> llda"""
@ -420,7 +426,7 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
# kb2keywords_dict / kb2subj_dict {str : [str]}
# kb2keywords_dict / kb2subjects_dict --> {str : [str]}
kb2keywords_dict = {}
kb2subjects_dict = {}
@ -458,7 +464,7 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
# ticket2kbs_dict
# ticket2kbs_dict --> {str : [str]}
ticket2kbs_dict = {}
kb2ticket_gen = textacy.fileio.read_csv(FILEPATH + "M42-Export/KB2Ticket_2017-09-13.csv", delimiter=";")
next(kb2ticket_gen, None) # skip first line"TicketNumber";"ArticleID"
@ -479,8 +485,8 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
# ticket2keywords
ticket2keywords_dict = {} # {str:[str]}
# ticket2keywords --> {str:[str]}
ticket2keywords_dict = {}
for ticket_id, kb_ids in ticket2kbs_dict.items():
@ -496,8 +502,8 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
# ticket2subjects
ticket2subjects_dict = {} # {str:[str]}
# ticket2subjects --> {str:[str]}
ticket2subjects_dict = {}
for ticket_id, kb_ids in ticket2kbs_dict.items():
@ -513,13 +519,12 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
# kb2keywords_dict {'KBA10230': ['DEFAULT'], 'KBA10129': ['DEFAULT'], 'KBA10287': ['sd_ansys_informationen'], } len = 260
#kb2subjects_dict {'KBA10230': ['unicard nochmal beantragen'], 'KBA10129': ['sd_entsperrung unicard nach verlust/wiederfinden'], } len = 260
# ticket2kbs_dict {'INC44526': ['KBA10056'], 'INC67205': ['KBA10056'], } len = 4832
# kb2subjects_dict {'KBA10230': ['unicard nochmal beantragen'], 'KBA10129': ['sd_entsperrung unicard nach verlust/wiederfinden'], } len = 260
# ticket2kbs_dict {'INC44526': ['KBA10056'], 'INC67205': ['KBA10056'], } len = 4832
# ticket2keywords_dict {'INC44526': ['DEFAULT'], 'INC67205': ['DEFAULT'], 'INC71863': ['DEFAULT'], 'INC44392': ['asknet'] } len=4832
#ticket2subjects_dioct {'INC44526': ['sd_telefon (antrag: neuanschluss, umzug, aenderung erledigt)'], len=4832
# ticket2subjects_dict {'INC44526': ['sd_telefon (antrag: neuanschluss, umzug, aenderung erledigt)'], len=4832
# frage wieviele tickets pro topic?
count_dict = {}
for v in ticket2kbs_dict.values():
for kb in v:
@ -527,18 +532,17 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
count_dict[kb] +=1
else:
count_dict[kb] = 1
import operator
sorted_dict = sorted(count_dict.items(), key=operator.itemgetter(1))
print("kb_entrys used: {}".format(len(sorted_dict)))
for k,v in sorted_dict:
print(k,kb2subjects_dict[k],v) #todo das selbe mit keywords
subs = kb2subjects_dict[k]
keys = kb2keywords_dict[k]
print(subs, keys , v) # frage wieviele tickets pro topic?
print("kb_entrys used: {}".format(len(sorted_dict))) # frage wie viele kb_entry's insg genutzt?: 155
#todo hier weiter
# todo frage wie viele kb_entry's insg genutzt?
labelist = ticket2keywords_dict.values()
labelist = flatten(labelist)
@ -564,6 +568,7 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
yield "[ " + label + "] " + doc.text
keys_line_gen = gen_key_lines(corpus, labeldict, ticket2keywords_dict)
path2save_keys_results = path2save_results + "_kb_keys_llda_{}".format("top" + str(top_topic_words))
@ -574,28 +579,13 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
"""
def gen_subj_lines(textacyCorpus, labeldict, ticket2subjects_dict):
for doc in corpus:
ticket_number = doc.metadata["TicketNumber"]
keywords = ticket2subjects_dict.get(ticket_number, ['DEFAULT'])
if keywords != ['DEFAULT']:
label = ""
for kw in keywords:
label = label + str(labeldict.get(normalize(str(kw)), len(labeldict))) + " "
yield "[ " + label + "] " + doc.text
"""
labelist = ticket2subjects_dict.values()
labelist = flatten(labelist)
labelist = list(set(labelist))
labeldict = {k: v for v, k in enumerate(labelist)}
labeldict.update({'DEFAULT' : len(labeldict)})
subj_line_gen = gen_key_lines(corpus, labeldict, ticket2subjects_dict)
@ -616,19 +606,13 @@ def jgibbsLLDA_KB_v2(corpus, path2save_results, top_topic_words = 7):
def main( algorithm="llda"):
logprint("Topic Modeling: {0}".format(datetime.now()))
corpus_de_path = FILEPATH + config.get("de_corpus", "path")
corpus_en_path = FILEPATH + config.get("en_corpus", "path")
preCorpus_name = "de" + "_pre_ticket_old"
preCorpus_name = "de" + "_pre_ticket"
resultspath = FILEPATH + "results/pre"
# load corpus
de_corpus, parser = load_corpus(corpus_name=preCorpus_name, corpus_path=corpus_de_path)
logprint("Corpus loaded: {0}".format(de_corpus.lang))
@ -643,15 +627,15 @@ def main( algorithm="llda"):
jgibbsLLDA_KB_v2(de_corpus, path2save_results=resultspath, top_topic_words=top_topic_words)
kb_keywords = False
#jgibbsLLDA_KB(de_corpus, path2save_results=resultspath, top_topic_words=top_topic_words, kb_keywords=kb_keywords)
kb_keywords = True
#jgibbsLLDA_KB(de_corpus, path2save_results=resultspath, top_topic_words=top_topic_words, kb_keywords=kb_keywords)
"""
kb_keywords = False
jgibbsLLDA_KB(de_corpus, path2save_results=resultspath, top_topic_words=top_topic_words, kb_keywords=kb_keywords)
kb_keywords = True
jgibbsLLDA_KB(de_corpus, path2save_results=resultspath, top_topic_words=top_topic_words, kb_keywords=kb_keywords)
top_topic_words = 10
path2save_results = resultspath + "_{}_{}".format(algorithm,"top"+str(top_topic_words))
jgibbsLLDA(de_corpus, path2save_results=path2save_results, top_topic_words=top_topic_words)