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import os
import pandas as pd
import numpy as np
import easyocr
import streamlit as st
from annotated_text import annotated_text
from streamlit_option_menu import option_menu
from sentiment_analysis import SentimentAnalysis
from keyword_extraction import KeywordExtractor
from part_of_speech_tagging import POSTagging
from emotion_detection import EmotionDetection
from named_entity_recognition import NamedEntityRecognition
from Object_Detector import ObjectDetector
from OCR_Detector import OCRDetector
import PIL
from PIL import Image
from PIL import ImageColor
from PIL import ImageDraw
from PIL import ImageFont
import time

# Imports de Object Detection
import tensorflow as tf
import tensorflow_hub as hub
# Load compressed models from tensorflow_hub
os.environ['TFHUB_MODEL_LOAD_FORMAT'] = 'COMPRESSED'
import matplotlib.pyplot as plt
import matplotlib as mpl
# For drawing onto the image.
import numpy as np
from tensorflow.python.ops.numpy_ops import np_config
np_config.enable_numpy_behavior()

import torch
import librosa
from models import infere_speech_emotion, infere_text_emotion, infere_voice2text

st.set_page_config(layout="wide")

hide_streamlit_style = """
            <style>
            #MainMenu {visibility: hidden;}
            footer {visibility: hidden;}
            </style>
            """
st.markdown(hide_streamlit_style, unsafe_allow_html=True)

@st.cache_resource
def load_sentiment_model():
    return SentimentAnalysis()

@st.cache_resource
def load_keyword_model():
    return KeywordExtractor()

@st.cache_resource
def load_pos_model():
    return POSTagging()

@st.cache_resource
def load_emotion_model():
    return EmotionDetection()

@st.cache_resource
def load_ner_model():
    return NamedEntityRecognition()

@st.cache_resource
def load_objectdetector_model():
    return ObjectDetector()

@st.cache_resource
def load_ocrdetector_model():
    return OCRDetector()

sentiment_analyzer = load_sentiment_model()
keyword_extractor = load_keyword_model()
pos_tagger = load_pos_model()
emotion_detector = load_emotion_model()
ner = load_ner_model()
objectdetector1 = load_objectdetector_model()
ocrdetector1 = load_ocrdetector_model()

def rectangle(image, result):
    draw = ImageDraw.Draw(image)
    for res in result:
        top_left = tuple(res[0][0]) # top left coordinates as tuple
        bottom_right = tuple(res[0][2]) # bottom right coordinates as tuple
        draw.rectangle((top_left, bottom_right), outline="blue", width=2)
    st.image(image)

example_text = "My name is Daniel: The attention to detail, swift resolution, and accuracy demonstrated by ITACA Insurance Company in Spain  in handling my claim were truly impressive. This undoubtedly reflects their commitment to being a customer-centric insurance provider."

with st.sidebar:
    image = Image.open('./itaca_logo.png')
    st.image(image,width=150) #use_column_width=True)
    page = option_menu(menu_title='Menu',
                       menu_icon="robot",
                       options=["Sentiment Analysis",
                                "Keyword Extraction",
                                "Part of Speech Tagging",
                                "Emotion Detection",
                                "Named Entity Recognition",
                                "Speech & Text Emotion",
                                "Object Detector",
                                "OCR Detector"],
                       icons=["chat-dots",
                              "key",
                              "tag",
                              "emoji-heart-eyes",
                              "building",
                              "book",
                              "camera",
                              "list-task"],
                       default_index=0
                       )

st.title('ITACA Insurance Core AI Module')

# Replace '20px' with your desired font size
font_size = '20px'

if page == "Sentiment Analysis":
    st.header('Sentiment Analysis')
    # st.markdown("![Alt Text](https://media.giphy.com/media/XIqCQx02E1U9W/giphy.gif)")
    st.write(
        """
        """
    )

    text = st.text_area("Paste text here", value=example_text)

    if st.button('🔥 Run!'):
        with st.spinner("Loading..."):
            preds, html = sentiment_analyzer.run(text)
            st.success('All done!')
            st.write("")
            st.subheader("Sentiment Predictions")
            st.bar_chart(data=preds, width=0, height=0, use_container_width=True)
            st.write("")
            st.subheader("Sentiment Justification")
            raw_html = html._repr_html_()
            st.components.v1.html(raw_html, height=500)

elif page == "Keyword Extraction":
    st.header('Keyword Extraction')
    # st.markdown("![Alt Text](https://media.giphy.com/media/xT9C25UNTwfZuk85WP/giphy-downsized-large.gif)")
    st.write(
        """
        """
    )

    text = st.text_area("Paste text here", value=example_text)

    max_keywords = st.slider('# of Keywords Max Limit', min_value=1, max_value=10, value=5, step=1)

    if st.button('🔥 Run!'):
        with st.spinner("Loading..."):
            annotation, keywords = keyword_extractor.generate(text, max_keywords)
            st.success('All done!')

        if annotation:
            st.subheader("Keyword Annotation")
            st.write("")
            annotated_text(*annotation)
            st.text("")

        st.subheader("Extracted Keywords")
        st.write("")
        df = pd.DataFrame(keywords, columns=['Extracted Keywords'])
        csv = df.to_csv(index=False).encode('utf-8')
        st.download_button('Download Keywords to CSV', csv, file_name='news_intelligence_keywords.csv')

        data_table = st.table(df)

elif page == "Part of Speech Tagging":
    st.header('Part of Speech Tagging')
    # st.markdown("![Alt Text](https://media.giphy.com/media/WoWm8YzFQJg5i/giphy.gif)")
    st.write(
        """
        """
    )

    text = st.text_area("Paste text here", value=example_text)

    if st.button('🔥 Run!'):
        with st.spinner("Loading..."):
            preds = pos_tagger.classify(text)
            st.success('All done!')
            st.write("")
            st.subheader("Part of Speech tags")
            annotated_text(*preds)
            st.write("")
            st.components.v1.iframe('https://www.ling.upenn.edu/courses/Fall_2003/ling001/penn_treebank_pos.html', height=1000)

elif page == "Emotion Detection":
    st.header('Emotion Detection')
    # st.markdown("![Alt Text](https://media.giphy.com/media/fU8X6ozSszyEw/giphy.gif)")
    st.write(
        """
        """
    )

    text = st.text_area("Paste text here", value=example_text)

    if st.button('🔥 Run!'):
        with st.spinner("Loading..."):
            preds, html = emotion_detector.run(text)
            st.success('All done!')
            st.write("")
            st.subheader("Emotion Predictions")
            st.bar_chart(data=preds, width=0, height=0, use_container_width=True)
            raw_html = html._repr_html_()
            st.write("")
            st.subheader("Emotion Justification")
            st.components.v1.html(raw_html, height=500)

elif page == "Named Entity Recognition":
    st.header('Named Entity Recognition')
    # st.markdown("![Alt Text](https://media.giphy.com/media/lxO8wdWdu4tig/giphy.gif)")
    st.write(
        """
        """
    )

    text = st.text_area("Paste text here", value=example_text)

    if st.button('🔥 Run!'):
        with st.spinner("Loading..."):
            preds, ner_annotation = ner.classify(text)
            st.success('All done!')
            st.write("")
            st.subheader("NER Predictions")
            annotated_text(*ner_annotation)
            st.write("")
            st.subheader("NER Prediction Metadata")
            st.write(preds)

elif page == "Object Detector":
    st.header('Object Detector')
    st.write(
    """
    """
    )

    img_file_buffer = st.file_uploader("Load an image", type=["png", "jpg", "jpeg"])
    if img_file_buffer is not None:
        image = np.array(Image.open(img_file_buffer))    

    if st.button('🔥 Run!'):
        with st.spinner("Loading..."):
            img, primero = objectdetector1.run_detector(image)
            st.success('The first image detected is: ' + primero)
            st.image(img, caption="Imagen", use_column_width=True)

elif page == "OCR Detector":
    st.header('OCR Detector')
    st.write(
    """
    """
    )

    file = st.file_uploader("Load an image", type=["png", "jpg", "jpeg"])

    #read the csv file and display the dataframe
    if file is not None:
        image = Image.open(file) # read image with PIL library

    if st.button('🔥 Run!'):
        with st.spinner("Loading..."):
            result = ocrdetector1.reader.readtext(np.array(image))  # turn image to numpy array
        
            # collect the results in dictionary:
            textdic_easyocr = {}
            for idx in range(len(result)):
                pred_coor = result[idx][0]
                pred_text = result[idx][1]
                pred_confidence = result[idx][2]
                textdic_easyocr[pred_text] = {}
                textdic_easyocr[pred_text]['pred_confidence'] = pred_confidence
    
            # get boxes on the image 
            rectangle(image, result)
                
            # create a dataframe which shows the predicted text and prediction confidence
            df = pd.DataFrame.from_dict(textdic_easyocr).T
            st.table(df)
elif page == "Speech & Text Emotion":
    st.header('Speech & Text Emotion')
    st.write(
    """
    """
    )
    uploaded_file = st.file_uploader("Choose an audio file", type=["mp3", "wav", "ogg"])

    if uploaded_file is not None:
        st.audio(uploaded_file, format='audio/' + uploaded_file.type.split('/')[1])
        st.write("Audio file uploaded and playing.")
                    
    else:
        st.write("Please upload an audio file.")

    if st.button("Analysis"):
        with st.spinner("Loading..."):
            st.header('Results of the Audio & Text analysis:')
            samples, sample_rate = librosa.load(uploaded_file, sr=16000)
            p_voice2text = infere_voice2text (samples)
            p_speechemotion = infere_speech_emotion(samples)
            p_textemotion = infere_text_emotion(p_voice2text)
            st.subheader("Text from the Audio:")
            st.write(p_voice2text)
            st.write("---")
            st.subheader("Speech emotion:")
            st.write(p_speechemotion)
            st.write("---")
            st.subheader("Text emotion:")
            st.write(p_textemotion)
            st.write("---")