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from googletrans import Translator
import spacy
import gradio as gr
import nltk
from nltk.corpus import wordnet
import wikipedia
import re
import time
import random
import os
import zipfile
import ffmpeg
from gtts import gTTS
#from io import BytesIO
from collections import Counter
from PIL import Image, ImageDraw, ImageFont
import numpy as np


#Uncomment these for Huggingface
nltk.download('maxent_ne_chunker') #Chunker
nltk.download('stopwords') #Stop Words List (Mainly Roman Languages)
nltk.download('words') #200 000+ Alphabetical order list
nltk.download('punkt') #Tokenizer
nltk.download('verbnet') #For Description of Verbs
nltk.download('omw')
nltk.download('omw-1.4') #Multilingual Wordnet
nltk.download('wordnet') #For Definitions, Antonyms and Synonyms
nltk.download('shakespeare')
nltk.download('dolch') #Sight words
nltk.download('names') #People Names NER
nltk.download('gazetteers') #Location NER
nltk.download('opinion_lexicon') #Sentiment words
nltk.download('averaged_perceptron_tagger') #Parts of Speech Tagging

spacy.cli.download("en_core_web_sm")
spacy.cli.download('ko_core_news_sm')
spacy.cli.download('ja_core_news_sm')
spacy.cli.download('zh_core_web_sm')

nlp = spacy.load('en_core_web_sm')
translator = Translator()

def Sentencechunker(sentence):
    Sentchunks = sentence.split(" ")
    chunks = []
    for i in range(len(Sentchunks)):
        chunks.append(" ".join(Sentchunks[:i+1]))
    return " | ".join(chunks)

def ReverseSentenceChunker(sentence):
    reversed_sentence = " ".join(reversed(sentence.split()))
    chunks = Sentencechunker(reversed_sentence)
    return chunks

def three_words_chunk(sentence):
    words = sentence.split()
    chunks = [words[i:i+3] for i in range(len(words)-2)]
    chunks = [" ".join(chunk) for chunk in chunks]
    return " | ".join(chunks)

def keep_nouns_verbs(sentence):
    doc = nlp(sentence)
    nouns_verbs = []
    for token in doc:
        if token.pos_ in ['NOUN','VERB','PUNCT']:
            nouns_verbs.append(token.text)
    return " ".join(nouns_verbs)

def unique_word_count(text="", state=None):
    if state is None:
        state = {}
    words = text.split()
    word_counts = state
    for word in words:
        if word in word_counts:
            word_counts[word] += 1
        else:
            word_counts[word] = 1
    sorted_word_counts = sorted(word_counts.items(), key=lambda x: x[1], reverse=True)
    return sorted_word_counts,    

def Wordchunker(word):
    chunks = []
    for i in range(len(word)):
        chunks.append(word[:i+1])
    return chunks

def BatchWordChunk(sentence):
  words = sentence.split(" ")
  FinalOutput = ""
  Currentchunks = ""
  ChunksasString = ""
  for word in words:
    ChunksasString = ""
    Currentchunks = Wordchunker(word)
    for chunk in Currentchunks:
      ChunksasString += chunk + " "
    FinalOutput += "\n" + ChunksasString
  return FinalOutput

# Translate from English to French

langdest = gr.Dropdown(choices=["af", "de", "es", "ko", "ja", "zh-cn"], label="Choose Language", value="de")

ChunkModeDrop = gr.Dropdown(choices=["Chunks", "Reverse", "Three Word Chunks", "Spelling Chunks"], label="Choose Chunk Type", value="Chunks")

def FrontRevSentChunk (Chunkmode, Translate, Text, langdest):
  FinalOutput = ""
  TransFinalOutput = ""
  if Chunkmode=="Chunks": 
    FinalOutput += Sentencechunker(Text)
  if Chunkmode=="Reverse":
    FinalOutput += ReverseSentenceChunker(Text)
  if Chunkmode=="Three Word Chunks": 
    FinalOutput += three_words_chunk(Text) 
  if Chunkmode=="Spelling Chunks":
    FinalOutput += BatchWordChunk(Text)
  
  if Translate: 
    TransFinalOutput = FinalOutput
    translated = translator.translate(TransFinalOutput, dest=langdest)
    FinalOutput += "\n" + translated.text
  return FinalOutput

# Define a function to filter out non-verb, noun, or adjective words
def filter_words(words):
    # Use NLTK to tag each word with its part of speech
    tagged_words = nltk.pos_tag(words)

    # Define a set of parts of speech to keep (verbs, nouns, adjectives)
    keep_pos = {'VB', 'VBD', 'VBG', 'VBN', 'VBP', 'VBZ', 'NN', 'NNS', 'NNP', 'NNPS', 'JJ', 'JJR', 'JJS'}

    # Filter the list to only include words with the desired parts of speech
    filtered_words = [word for word, pos in tagged_words if pos in keep_pos]

    return filtered_words

def SepHypandSynExpansion(text):
  # Tokenize the text
  tokens = nltk.word_tokenize(text)
  NoHits = ""
  FinalOutput = ""

  # Find synonyms and hypernyms of each word in the text
  for token in tokens:
      synonyms = []
      hypernyms = []
      for synset in wordnet.synsets(token):
          synonyms += synset.lemma_names()
          hypernyms += [hypernym.name() for hypernym in synset.hypernyms()]
      if not synonyms and not hypernyms:
          NoHits += f"{token} | "
      else:
          FinalOutput += "\n" f"{token}: hypernyms={hypernyms}, synonyms={synonyms} \n"
  NoHits = set(NoHits.split(" | "))  
  NoHits = filter_words(NoHits)
  NoHits = "Words to pay special attention to: \n" + str(NoHits)
  return NoHits, FinalOutput


def WikiSearch(term):
    termtoks = term.split(" ")

    for item in termtoks:
      # Search for the term on Wikipedia and get the first result
      result = wikipedia.search(item, results=20)
    return result 

def create_dictionary(word_list, word_dict = {}):
    word_list = set(word_list.split(" "))
    for word in word_list:
        key = word[:2]
        if key not in word_dict:
            word_dict[key] = [word]
        else:
            word_dict[key].append(word)
    return word_dict

def merge_lines(roman_file, w4w_file, full_mean_file, macaronic_file):
    files = [roman_file, w4w_file, full_mean_file, macaronic_file]
    merged_lines = []

    with open(roman_file.name, "r") as f1, open(w4w_file.name, "r") as f2, \
            open(full_mean_file.name, "r") as f3, open(macaronic_file.name, "r") as f4:
        for lines in zip(f1, f2, f3, f4):
            merged_line = "\n".join(line.strip() for line in lines)
            merged_lines.append(merged_line)

    return "\n".join(merged_lines)

TTSLangOptions = gr.Dropdown(choices=["en", "ja", "ko", "zh-cn"], value="en", label="choose the language of the srt")
TTSLangOptions2 = gr.Dropdown(choices=["en", "ja", "ko", "zh-cn"], value="en", label="choose the language of the srt")

def TTSforListeningPractice(text, language = "en"):
    speech = gTTS(text=text, lang=language, slow="False")
    speech.save("CurrentTTSFile.mp3")
    #file = BytesIO()
    #speech.write_to_fp(file)
    #file.seek(0)
    return "CurrentTTSFile.mp3" #file

def AutoChorusInvestigator(sentences):
    sentences = sentences.splitlines()
    # Use Counter to count the number of occurrences of each sentence
    sentence_counts = Counter(sentences)

    # Identify duplicate sentences
    duplicates = [s for s, count in sentence_counts.items() if count > 1]

    FinalOutput = ""
    if len(duplicates) == 0:
        FinalOutput += "No duplicate sentences found in the file."
    else:
        FinalOutput += "The following sentences appear more than once in the file:"
        for sentence in duplicates:
            FinalOutput += "\n" + sentence
    return FinalOutput

def AutoChorusPerWordScheduler(sentences):
    words = set(sentences.split(" "))
    wordsoneattime =[]
    practicestring = ""

    FinalOutput = "This is supposed to output the words in repetition format (i.e. schedule for repitition) \nCurrent Idea = 1 new word every min and 1 old word every second" + "\n\nWords: \n"
    for word in words:
        wordsoneattime.append(word)
        for i in range(0, 59):
            practicestring += word + " "
            practicestring += random.choice(wordsoneattime) + " "    
        FinalOutput += word + "\n "
        practicestring += "\n"

    FinalOutput += practicestring
    return FinalOutput

def group_words(inlist):
    inlisttoks = inlist.split(" ")
    inlistset = set(inlisttoks)

    word_groups = []
    current_group = []

    for word in inlisttoks:
        current_group.append(word)
        if len(current_group) == 10:
            word_groups.append(current_group)
            current_group = []
    if current_group:
        word_groups.append(current_group)

    current_group_index = 0
    current_group_time = 0

    while True:
        if current_group_time == 60:
            current_group_index = (current_group_index + 1) % len(word_groups)
            current_group_time = 0
        else:
            if current_group_time % 10 == 0:
                random.shuffle(word_groups[current_group_index])
            current_group_time += 10

        yield " ".join(word_groups[current_group_index])
        time.sleep(10) 

def split_verbs_nouns(text):
    nlp = spacy.load("en_core_web_sm")
    doc = nlp(text)
    
    verbs_nouns = []
    other_words = []
    pos_string = []

    for token in doc:
        if token.pos_ in ["VERB", "NOUN"]:
            verbs_nouns.append(token.text)
        elif token.text in [punct.text for punct in doc if punct.is_punct]:
            verbs_nouns.append(token.text)
            other_words.append(token.text)
        else:
            other_words.append(token.text)
        pos_string.append(token.pos_)

    verbs_nouns_text = " ".join(verbs_nouns)
    other_words_text = " ".join(other_words)
    pos_string_text = " ".join(pos_string)
    
    return pos_string_text, verbs_nouns_text, other_words_text

SRTLangOptions = gr.Dropdown(choices=["en", "ja", "ko", "zh-cn"], value="en", label="choose the language of the srt")

def split_srt_file(text, lang): #file_path):
    # Open the SRT file and read its contents
    #with open(file_path, 'r') as f:
    #    srt_contents = f.read()
    
    if lang == "en": nlp = spacy.load('en_core_web_sm')
    if lang == "ja": nlp = spacy.load('ja_core_news_sm')
    if lang == "ko": nlp = spacy.load('ko_core_news_sm')
    if lang == "zn-cn": nlp = spacy.load('zn_core_web_sm')

    srt_contents = text
    
    # Split the SRT file by timestamp
    srt_sections = srt_contents.split('\n\n')
    srt_sections_POSversion = []

    # Loop through each section of the SRT file
    for i in range(len(srt_sections)):
        # Split the section into its timestamp and subtitle text
        section_lines = srt_sections[i].split('\n')
        timestamp = section_lines[1]
        subtitle_text = ' | '.join(section_lines[2:])
        sub_split_line = nlp(subtitle_text)
        subtitle_textPOSversion = ""

        # Replace spaces in the subtitle text with " | "
        #subtitle_text = subtitle_text.replace(' ', ' | ')
        for token in sub_split_line:
            subtitle_text += token.text + " | "
            subtitle_textPOSversion += token.pos_ + " | "

        # Reconstruct the section with the updated subtitle text
        srt_sections[i] = f"{section_lines[0]}\n{timestamp}\n{subtitle_text[3:]}"
        srt_sections_POSversion.append(f"{section_lines[0]}\n{timestamp}\n{subtitle_textPOSversion[3:]}\n\n")

    # Join the SRT sections back together into a single string
    return '\n\n'.join(srt_sections), ''.join(srt_sections_POSversion)

def find_string_positions(s, string):
    positions = []
    start = 0
    while True:
        position = s.find(string, start)
        if position == -1:
            break
        positions.append(position)
        start = position + len(string)
    return positions

def splittext(string):
  string_no_formaterror = string.replace(" -- > ", " --> ")
  split_positions = find_string_positions(string_no_formaterror, " --> ")  
  split_strings = []
  prepos = 0
  for pos in split_positions:
      pos -= 12
      split_strings.append((string[prepos:pos])) #, string[pos:]))
      prepos = pos
  
  FinalOutput = ""
  stoutput = ""
  linenumber = 1
  #print(linenumber)
  for item in split_strings[1:]:
    stoutput = item[0:29] + "\n" + item[30:]
    stspaces = find_string_positions(stoutput, " ")
    FinalOutput += str(linenumber) + "\n" + stoutput[:stspaces[-2]] + "\n"
    FinalOutput += "\n"
    linenumber += 1
  return FinalOutput[2:]   

def VideotoSegment(video_file, subtitle_file):
    # Read the subtitle file and extract the timings for each subtitle
    timings = []
    for line in subtitle_file:
        if '-->' in line:
            start, end = line.split('-->')
            start_time = start.strip().replace(',', '.')
            end_time = end.strip().replace(',', '.')
            timings.append((start_time, end_time))

    # Cut the video into segments based on the subtitle timings
    video_segments = []
    for i, (start_time, end_time) in enumerate(timings):
        output_file = f'segment_{i}.mp4'
        ffmpeg.input(video_file, ss=start_time, to=end_time).output(output_file, codec='copy').run()
        video_segments.append(output_file)

    # Convert each segment to an MP3 audio file using FFmpeg
    audio_segments = []
    for i in range(len(timings)):
        output_file = f'segment_{i}.mp3'
        ffmpeg.input(video_segments[i]).output(output_file, codec='libmp3lame', qscale='4').run()
        audio_segments.append(output_file)

    # Create a ZIP archive containing all of the segmented files
    zip_file = zipfile.ZipFile('segmented_files.zip', 'w')
    for segment in video_segments + audio_segments:
        zip_file.write(segment)
        os.remove(segment)
    zip_file.close()

    # Return the ZIP archive for download
    return 'segmented_files.zip'

def text_to_dropdown(text, id=None): #TextCompFormat
    lines = text.strip().split("\n")
    html = "<select"
    if id:
        html += f' id="{id}"'
    html += "> \n"
    for line in lines:
        html += f"    <option>{line}</option>\n"
    html += "</select> \n"
    return html

def text_to_links(text): #TextCompFormat
    lines = text.strip().split("\n")
    html = ""
    for line in lines:
        if line.startswith("http"):
            html += f"<a href='{line}'>{line}</a><br> \n"
        else:
            html += line + "Not a link <br> \n"
    return html

HTMLCompMode = gr.Dropdown(choices=["Dropdown", "Links"], value="Dropdown")

def TextCompFormat(text, HTMLCompMode):
    FinalOutput = ""
    if HTMLCompMode == "Dropdown":
        FinalOutput = text_to_dropdown(text)
    if HTMLCompMode == "Links":
        FinalOutput = text_to_links(text)
    return FinalOutput

def create_collapsiblebutton(button_id, button_caption, div_content):
    button_html = f'<button id="{button_id}" class="accordionbtn">{button_caption}</button>'
    div_html = f'<div id="{button_id}Div" class="panel">\n{div_content}\n    </div>'
    return button_html + "\n    " + div_html

#---------------

def removeTonalMarks(string):
    tonalMarks = "āēīōūǖáéíóúǘǎěǐǒǔǚàèìòùǜ"
    nonTonalMarks = "aeiouuaeiouuaeiouuaeiou"
    noTonalMarksStr = ""
    for char in string:
        index = tonalMarks.find(char)
        if index != -1:
            noTonalMarksStr += nonTonalMarks[index]
        else:
            noTonalMarksStr += char
    return noTonalMarksStr


def add_text_to_image(input_image, text, output_image_path="output.png", border_size=2):
    imagearr = np.asarray(input_image) #Image.open(input_image_path)
    width, height = imagearr.shape[:2] #width, height = image.size
    img = Image.fromarray(imagearr)
    draw = ImageDraw.Draw(img)
    font = ImageFont.truetype("ShortBaby.ttf", 36) #ShortBaby-Mg2w.ttf
    text_width, text_height = draw.textbbox((0, 0), text, font=font)[2:] #draw.textsize(text, font)
    # calculate the x, y coordinates of the text box
    x = (width - text_width) / 2
    y = (height - text_height) / 2
    # put the text on the image with a border
    for dx, dy in [(0, 0), (border_size, border_size), (-border_size, -border_size), (border_size, -border_size), (-border_size, border_size)]:
        draw.text((x + dx, y + dy), text, font=font, fill=(255, 255, 255))
    draw.text((x, y), text, font=font, fill=(0, 0, 0))
    img.save(output_image_path, "PNG")
    return "output.png"

# Define the Gradio interface inputs and outputs for video split
spvvideo_file_input = gr.File(label='Video File')
spvsubtitle_file_input = gr.File(label='Subtitle File')
spvdownload_output = gr.File(label='Download Segmented Files')


groupinput_text = gr.inputs.Textbox(lines=2, label="Enter a list of words")
groupoutput_text = gr.outputs.Textbox(label="Grouped words")

with gr.Blocks() as lliface:
  gr.HTML("<p> Target 1: Dual audio at word Level while using repitition to train random recall --> Word level Time <br> Target 2: Video --> Split by sentence --> each word repeated (60) + each phrase (10) + each sentence (10) --> TTS file for practice --> State Management/Known word Tracker <hr> The trick is minimum one minute of focus on a new word --> Listening is hard because there are new word within seconds and you need repeated focus on each to learn </p> <p>Audio = best long form attention mechanism AS it is ANTICIPATION (Awareness of something before it happens like knowing song Lyrics) FOCUSED - Attention (Focused Repitition) + Exposure (Random Repitition) </p>")
  gr.HTML("""<hr> <a href="https://translate.google.com/?hl=en&tab=TT"> -- Google Translate -- </a> | <a href='https://huggingface.co/spaces/damo-vilab/modelscope-text-to-video-synthesis'> -- Modelscope Text to Video -- </a> | <a href='https://huggingface.co/spaces/stabilityai/stable-diffusion'> -- stable-diffusion 2 -- </a> | <a href='https://huggingface.co/spaces/stabilityai/stable-diffusion-1'> -- stable-diffusion 1 -- </a>""")
  with gr.Tab("Welcome"):
    gr.HTML("""<p>Spaces Test - Still Undercontruction  | Knowledge is a Language but productive knowledge is find replace as well | LingQ is good option for per word state management</p> <p> Arrows app json creator for easy knowledge graphing and spacy POS graph? --> Questions? -->  
    <p> ChatGPT Turns Learning into a read only what you dont know ask only what you dont know feedback loop --> All you have to do is keep track of what prompts you have asked in the past</p> """)
    gr.HTML("Timing Practice - Repitition <hr> <p>Run from it, Dread it, Repitition is inevitable - Thanos  --> Next Milestone is Turning this interface handsfree</p>")
    gr.Interface(fn=group_words, inputs=groupinput_text, outputs=groupoutput_text, description="Word Grouping and Rotation - Group a list of words into sets of 10 and rotate them every 60 seconds.") #.queue()          
    gr.HTML("""HTML Version <hr> <iframe height="1200" style="width: 100%;" scrolling="no" title="Memorisation Aid" src="https://codepen.io/kwabs22/embed/preview/GRXKQgj?default-tab=result&editable=true" frameborder="no" loading="lazy" allowtransparency="true" allowfullscreen="true">
               See the Pen <a href="https://codepen.io/kwabs22/pen/GRXKQgj"> Memorisation Aid</a> by kwabs22 (<a href="https://codepen.io/kwabs22">@kwabs22</a>) on <a href="https://codepen.io">CodePen</a>. </iframe>""")
  with gr.Tab("Unknown Tracker"):
    gr.HTML("Repitition of things you know is a waste of time when theres stuff you dont know <p> In Language the goal is bigger vocab --> Knowledge equivalent = question answer pairs but to get to those you need related information pairs</p> <p> Vocab = Glossary + all non text wall(lists, diagrams, etc.)</p>")
    gr.Textbox("Placeholder for a function that creates a set list and can takes a list for known words and auto find replaces the stuff you know out of the content")
    with gr.Tab("Unique word ID - use in Infranodus"):
      gr.Interface(fn=unique_word_count, inputs="text", outputs="text", description="Wordcounter")
      gr.Interface(fn=SepHypandSynExpansion, inputs="text", outputs=["text", "text"], description="Word suggestions - Analyse the unique words in infranodus")
      gr.Interface(fn=WikiSearch, inputs="text", outputs="text", description="Unique word suggestions(wiki articles)")
    with gr.Tab("Automating related information linking"):
      gr.HTML("Questions - Tacking and suggesting questions to ask = new education")  
  with gr.Tab("Beginner - Listen + Read"):
    with gr.Tab("Listening - Songs - Chorus"):
        gr.HTML("Anticipation of the item to remember is how you learn lyrics that is why songs are easy as if you heard it 10 times already your capacity to anticipate the words is great <br><br> This is where TTS helps as you are ignoring all words except the words just before the actual <hr>")
        gr.HTML("<p>Fastest way to learn words = is to have your own sound reference --> probably why babies learn fast as they make random noise</p> <p>If you know the flow of the song you can remember the spelling easier</p><p>Essentially if the sounds are repeated or long notes they are easy to remember</p>")
        gr.Interface(fn=AutoChorusInvestigator, inputs="text", outputs="text", description="Paste Full Lyrics to try find only chorus lines")
        gr.Interface(fn=AutoChorusPerWordScheduler, inputs="text", outputs="text", description="Create order of repitition for tts practice")
        gr.Interface(fn=TTSforListeningPractice, inputs=["text", TTSLangOptions], outputs="audio", description="Placeholder - paste chorus here and use TTS or make notes to save here")
    with gr.Tab("Reading - Caption images (SD/Dalle-E)"):
        gr.HTML("Predictable to identify the parts of picture being described --> The description moves in one direction from one side of the image to the other side is easiest <hr>")
        gr.HTML("Image = instant comprehension like Stable Diffusion --> Audiovisual experience is the most optimal reading experience <br> Manga with summary descriptions for the chapters = Most aligned visual to audio experience")
        gr.HTML("""<a href="https://huggingface.co/spaces/pharma/CLIP-Interrogator"> --Huggingface CLIP-Interrogator Space-- </a><br> """)
        gr.Interface(fn=removeTonalMarks, inputs="text", outputs="text", description="For text with characters use this function to remove any conflicting characters (if error below)")
        gr.Interface(fn=add_text_to_image , inputs=["image", "text"], outputs="image", description="Create Annotated images (Can create using stable diffusion and use the prompt)")
  #with gr.Tab("Transcribe - RASMUS Whisper"):
    #gr.Interface.load("spaces/RASMUS/Whisper-youtube-crosslingual-subtitles", title="Subtitles")
  with gr.Tab("Advanced - LingQ Addon Ideas"):
    with gr.Tab("Audio - Only English thoughts as practice"):
        gr.HTML("For Audio Most productive is real time recall of native (where your full reasoning ability will always be) <br><hr> Find Replace new lines of the foreign text with full stops or | to get per word translation")
        gr.Interface(fn=TTSforListeningPractice, inputs=["text", TTSLangOptions2], outputs="audio", description="Paste only english words in foreign order and then keep removing the words from this to practice as effectively")  
    with gr.Tab("Visual - Multiline Custom Video Subtitles"):
        gr.HTML("LingQ Companion Idea - i.e. Full Translation Read along, and eventually Videoplayer watch along like RAMUS whisper space <br><br>Extra functions needed - Persitent Sentence translation, UNWFWO, POS tagging and Word Count per user of words in their account. Macaronic Text is also another way to practice only the important information")
        gr.HTML("""<hr> <p>For Transcripts to any video on youtube use the link below ⬇️</p> <a href="https://huggingface.co/spaces/RASMUS/Whisper-youtube-crosslingual-subtitles">https://huggingface.co/spaces/RASMUS/Whisper-youtube-crosslingual-subtitles</a> | <a href="https://huggingface.co/spaces/vumichien/whisper-speaker-diarization">https://huggingface.co/spaces/vumichien/whisper-speaker-diarization</a>""")
        #gr.HTML("<p>If Space not loaded its because of offline devopment errors please message for edit</p> <hr>")
        with gr.Tab("Merged Subtitles"):
            gr.HTML("Step 1 - Word for Word Translation Creation in both Directions (Paste Google Translation here)")
            gr.Interface(fn=split_srt_file, inputs=["text", SRTLangOptions] , outputs=["text", "text"], description="SRT Contents to W4W Split SRT for Google Translate")
            gr.HTML("Step 2 - Pronounciation (Roman) to Subtitle Format --> GTranslate returns unformatted string")
            gr.Interface(fn=splittext, inputs="text", outputs="text", description="Text for w4w creation in G Translate")
            gr.HTML("Step 3 - Merge into one file")
            with gr.Row():
                RomanFile = gr.File(label="Paste Roman")
                W4WFile = gr.File(label="Paste Word 4 Word")
                FullMeanFile = gr.File(label="Paste Full Meaning")
                MacaronicFile = gr.File(label="Paste Macaronic Text")
                SentGramFormula = gr.File(label="Paste Sentence Grammar Formula Text")
            with gr.Row():
                MergeButton = gr.Button()
            with gr.Row():
                MergeOutput = gr.TextArea(label="Output")
                MergeButton.click(merge_lines, inputs=[RomanFile, W4WFile, FullMeanFile, MacaronicFile], outputs=[MergeOutput])
        with gr.Tab("Split video to segments"):
            gr.HTML("<a href='https://www.vlchelp.com/automated-screenshots-interval/'>How to make screenshot in vlc - https://www.vlchelp.com/automated-screenshots-interval/</a><br>")
            gr.Interface(VideotoSegment, inputs=[spvvideo_file_input, spvsubtitle_file_input], outputs=spvdownload_output)
        gr.Text("Text to Closed Class + Adjectives + Punctuation or Noun Verb + Punctuation ")
  with gr.Tab("Spelling + Chunks"):
    gr.Text("Merged Spelling Practice Placeholder - Spell multiple words simultaneously for simultaneous access")  
    gr.HTML("<p> Spell multiple words simultaneously for simultaneous access </p> <p> Spelling Simplification - Use a dual language list? | Spelling is the end goal, you already know many letter orders called words so you need leverage them to remember random sequences")
    gr.Interface(fn=create_dictionary, inputs="text", outputs="text", title="Sort Text by first two letters")
    gr.Interface(fn=keep_nouns_verbs, inputs=["text"], outputs="text", description="Noun and Verbs only (Plus punctuation)")
    gr.Interface(fn=FrontRevSentChunk, inputs=[ChunkModeDrop, "checkbox", "text", langdest], outputs="text", description="Chunks creator")
  with gr.Tab("Thinking Practice"):      
    with gr.Tab("Sentence to Format"):
        gr.Interface(fn=split_verbs_nouns , inputs="text", outputs=["text", "text", "text"], description="Comprehension reading and Sentence Format Creator")
  with gr.Tab("Knowledge Ideas - Notetaking"):
      gr.HTML("""<p>Good knowledge = ability to answer questions --> find Questions you cant answer and look for hidden answer within them </p>
      <p>My One Word Theory = We only use more words than needed when we have to or are bored --> Headings exist because title is not sufficient, subheadings exist because headings are not sufficient, Book Text exists because subheadings are not sufficient</p>
      <p>Big Picture = Expand the Heading and the subheadings and compare them to each other</p>
      <p>Application of Knowledge = App Version of the text (eg. Jupyter Notebooks) is what you create and learn first</p>
	  """)
      gr.Interface(fn=TextCompFormat, inputs=["textarea", HTMLCompMode], outputs="text", description="Convert Text to HTML Dropdown or Links which you paste in any html file")    
      gr.Interface(fn=create_collapsiblebutton, inputs=["textbox", "textbox", "textarea"], outputs="textarea", description="Button and Div HTML Generator, Generate the HTML for a button and the corresponding div element.")
  with gr.Tab("Automated Reading Assitant"):
      gr.HTML("Tree and Branches approach to learning = familiarity with keywords/headings/summaries before reading the whole text <hr> Productivity/Work revolves around repitition which can be found looking for plurals and grouping terms eg. Headings and Hyper/Hyponyms Analysis")        
  
lliface.queue().launch() #(inbrowser="true")