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Update app.py
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app.py
CHANGED
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@@ -188,6 +188,42 @@ def generateNames(type, amount, max_length=30, temperature=0.5, seed_text=""):
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names.append(name)
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return pd.DataFrame(names, columns=['Names'])
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elif type == "Fantasy":
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max_seq_len = 16 # For fantasy, 16
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sp = spm.SentencePieceProcessor()
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@@ -226,7 +262,7 @@ def generateNames(type, amount, max_length=30, temperature=0.5, seed_text=""):
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demo = gr.Interface(
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fn=generateNames,
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inputs=[gr.Radio(choices=["Terraria", "Skyrim", "Fantasy"], label="Choose a model for your request", value="Terraria"), gr.Slider(1,100, step=1, label='Amount of Names', info='How many names to generate, must be greater than 0'), gr.Slider(10, 60, value=30, step=1, label='Max Length', info='Max length of the generated word'), gr.Slider(0.1, 1, value=0.5, label='Temperature', info='Controls randomness of generation, higher values = more creative, lower values = more probalistic'), gr.Textbox('', label='Seed text (optional)', info='The starting text to begin with', max_lines=1, )],
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outputs=[gr.Dataframe(row_count = (2, "dynamic"), col_count=(1, "fixed"), label="Generated Names", headers=["Names"])],
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title='Dungen - Name Generator',
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description='A fun game-inspired name generator. For an example of how to create, and train your model, similar to this one, head over to: https://github.com/Infinitode/OPEN-ARC/tree/main/Project-5-TWNG. There you will find our base model, the dataset we used, and implementation code in the form of a Jupyter Notebook (exported from Kaggle).'
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names.append(name)
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return pd.DataFrame(names, columns=['Names'])
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elif type == "Witcher":
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max_seq_len = 20 # For skyrim = 13, for terraria = 12
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sp = spm.SentencePieceProcessor()
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sp.load("models/witcher_names.model")
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amount = int(amount)
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max_length = int(max_length)
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names = []
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# Define necessary variables
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vocab_size = sp.GetPieceSize()
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# Load TFLite model
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interpreter = tf.lite.Interpreter(model_path="models/dungen_witcher_model.tflite")
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interpreter.allocate_tensors()
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# Use the function to generate a name
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for _ in range(amount):
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generated_name = generate_random_name(interpreter, vocab_size, sp, seed_text=seed_text, max_length=max_length, temperature=temperature, max_seq_len=max_seq_len)
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stripped = generated_name.strip()
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hate_speech = detect_hate_speech(stripped)
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profanity = detect_profanity([stripped], language='All')
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name = ''
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if profanity > 0:
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name = "Profanity Detected"
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else:
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if hate_speech == ['Hate Speech']:
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name = 'Hate Speech Detected'
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elif hate_speech == ['Offensive Speech']:
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name = 'Offensive Speech Detected'
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elif hate_speech == ['No Hate and Offensive Speech']:
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name = stripped
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names.append(name)
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return pd.DataFrame(names, columns=['Names'])
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elif type == "Fantasy":
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max_seq_len = 16 # For fantasy, 16
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sp = spm.SentencePieceProcessor()
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demo = gr.Interface(
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fn=generateNames,
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inputs=[gr.Radio(choices=["Terraria", "Skyrim", "Witcher", "Fantasy"], label="Choose a model for your request", value="Terraria"), gr.Slider(1,100, step=1, label='Amount of Names', info='How many names to generate, must be greater than 0'), gr.Slider(10, 60, value=30, step=1, label='Max Length', info='Max length of the generated word'), gr.Slider(0.1, 1, value=0.5, label='Temperature', info='Controls randomness of generation, higher values = more creative, lower values = more probalistic'), gr.Textbox('', label='Seed text (optional)', info='The starting text to begin with', max_lines=1, )],
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outputs=[gr.Dataframe(row_count = (2, "dynamic"), col_count=(1, "fixed"), label="Generated Names", headers=["Names"])],
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title='Dungen - Name Generator',
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description='A fun game-inspired name generator. For an example of how to create, and train your model, similar to this one, head over to: https://github.com/Infinitode/OPEN-ARC/tree/main/Project-5-TWNG. There you will find our base model, the dataset we used, and implementation code in the form of a Jupyter Notebook (exported from Kaggle).'
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