import pyjokes import gradio as gr import numpy as np from nltk.corpus import wordnet as wn from sentence_transformers import SentenceTransformer from sklearn.metrics.pairwise import cosine_similarity import nltk nltk.download('all') import string from sklearn.feature_extraction.text import TfidfVectorizer # import fastai def similarity(input, joke): return cosine_similarity(input, joke) def get_best(input): model = SentenceTransformer('bert-base-nli-mean-tokens') max_similarity = -1 max_idx = 0 jokes = pyjokes.get_jokes(language='en', category='all') jokes_embedding = model.encode(jokes) input_embedding = model.encode(input) for idx, joke_embedding in enumerate(jokes_embedding): sim = similarity(joke_embedding.reshape(-1, 1), input_embedding.reshape(-1, 1)) if(np.sum(sim) > np.sum(max_similarity)): max_idx = idx max_similarity = sim if(np.sum(max_similarity) != -1): return jokes[max_idx]+'😁🤣' else: return None def generate_list(input): result = [] n = len(input) for Len in range(2, n + 1): for i in range(n - Len + 1): j = i + Len - 1 tem = "" for k in range(i, j + 1): tem += input[k] result.append(tem) return result def pattern(input): response = input for substr in generate_list(input): try: syn = wn.synsets(substr)[1].hypernyms()[0].hyponyms()[ 0].hyponyms()[0].lemmas()[0].name() except: continue if(syn != None): response = response.replace(substr, syn.upper()) break if(input == response): return None else: return response+'??😁🤣' lemmer = nltk.stem.WordNetLemmatizer() def LemTokens(tokens): return [lemmer.lemmatize(token) for token in tokens] remove_punct_dict= dict((ord(punct), None) for punct in string.punctuation) def LemNormalize(text): return LemTokens(nltk.word_tokenize(text.lower().translate(remove_punct_dict))) def NLTK(input): f = open('corpus.txt', errors='strict') data = f.read() data = data.lower() sent_tokens = nltk.sent_tokenize(data) return bot(sent_tokens) def bot(sent_tokens): robo1_response = '' TfidfVec = TfidfVectorizer(tokenizer = LemNormalize, stop_words='english') tfidf = TfidfVec.fit_transform(sent_tokens) vals = cosine_similarity(tfidf[-1], tfidf) idx = vals.argsort()[0][-2] flat = vals.flatten() flat.sort() req_tfidf = flat[-2] if (req_tfidf == 0): robo1_response= robo1_response+"I could not answer this right now but you can contact the head of our dept (PUSPHA RAJ)." # add the dept recommendation engine and contact details return robo1_response else: robo1_response = robo1_response+sent_tokens[idx] return robo1_response def generator(input=None): response = [] if input: out1 = NLTK(input) if(out1): response.append(out) out2 = pattern(input) if(out2): response.append(out2) out3 = get_best(input) if(out3): response.append(out3) else: out1 = NLTK("Hi, what's the matter") if(out1): for out in out1: response.append(out) out2 = pyjokes.get_joke(language='en', category='all') if(out2): response.append(out2) return response # think of doing this iface = gr.Interface(fn=generator, inputs="text", outputs="text") iface.launch()