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import os |
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import gc |
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from typing import Optional |
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from dataclasses import dataclass |
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from copy import deepcopy |
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from functools import partial |
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import spaces |
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import gradio as gr |
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import torch |
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from datasets import load_dataset |
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from ctransformers import AutoModelForCausalLM as CAutoModelForCausalLM |
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from transformers import PreTrainedModel, PreTrainedTokenizer, AutoModelForCausalLM, AutoTokenizer |
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from interpret import InterpretationPrompt |
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from configs import model_info, dataset_info |
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MAX_PROMPT_TOKENS = 60 |
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MAX_NUM_LAYERS = 50 |
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@dataclass |
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class GlobalState: |
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tokenizer : Optional[PreTrainedTokenizer] = None |
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model : Optional[PreTrainedModel] = None |
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hidden_states : Optional[torch.Tensor] = None |
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interpretation_prompt_template : str = '{prompt}' |
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original_prompt_template : str = 'User: [X]\n\nAnswer: {prompt}' |
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layers_format : str = 'model.layers.{k}' |
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suggested_interpretation_prompts = [ |
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"Sure, here's a bullet list of the key words in your message:", |
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"Sure, I'll summarize your message:", |
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"Sure, here are the words in your message:", |
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"Before responding, let me repeat the message you wrote:", |
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"Let me repeat the message:" |
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] |
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@spaces.GPU |
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def initialize_gpu(): |
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pass |
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def reset_model(model_name, *extra_components): |
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model_args = deepcopy(model_info[model_name]) |
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model_path = model_args.pop('model_path') |
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global_state.original_prompt_template = model_args.pop('original_prompt_template') |
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global_state.interpretation_prompt_template = model_args.pop('interpretation_prompt_template') |
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global_state.layers_format = model_args.pop('layers_format') |
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tokenizer_path = model_args.pop('tokenizer') if 'tokenizer' in model_args else model_path |
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use_ctransformers = model_args.pop('ctransformers', False) |
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AutoModelClass = CAutoModelForCausalLM if use_ctransformers else AutoModelForCausalLM |
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global_state.model, global_state.tokenizer, global_state.hidden_states = None, None, None |
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gc.collect() |
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global_state.model = AutoModelClass.from_pretrained(model_path, **model_args).cuda() |
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global_state.tokenizer = AutoTokenizer.from_pretrained(tokenizer_path, token=os.environ['hf_token']) |
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gc.collect() |
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return extra_components |
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def get_hidden_states(raw_original_prompt): |
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model, tokenizer = global_state.model, global_state.tokenizer |
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original_prompt = global_state.original_prompt_template.format(prompt=raw_original_prompt) |
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model_inputs = tokenizer(original_prompt, add_special_tokens=False, return_tensors="pt").to(model.device) |
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tokens = tokenizer.batch_decode(model_inputs.input_ids[0]) |
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outputs = model(**model_inputs, output_hidden_states=True, return_dict=True) |
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hidden_states = torch.stack([h.squeeze(0).cpu().detach() for h in outputs.hidden_states], dim=0) |
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token_btns = ([gr.Button(token, visible=True) for token in tokens] |
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+ [gr.Button('', visible=False) for _ in range(MAX_PROMPT_TOKENS - len(tokens))]) |
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progress_dummy_output = '' |
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invisible_bubbles = [gr.Textbox('', visible=False) for i in range(MAX_NUM_LAYERS)] |
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global_state.hidden_states = hidden_states |
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return [progress_dummy_output, *token_btns, *invisible_bubbles] |
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@spaces.GPU |
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def run_interpretation(raw_interpretation_prompt, max_new_tokens, do_sample, |
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temperature, top_k, top_p, repetition_penalty, length_penalty, i, |
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num_beams=1): |
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print(f'run {global_state.model}') |
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interpreted_vectors = global_state.hidden_states[:, i] |
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length_penalty = -length_penalty |
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generation_kwargs = { |
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'max_new_tokens': int(max_new_tokens), |
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'do_sample': do_sample, |
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'temperature': temperature, |
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'top_k': int(top_k), |
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'top_p': top_p, |
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'repetition_penalty': repetition_penalty, |
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'length_penalty': length_penalty, |
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'num_beams': int(num_beams) |
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} |
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interpretation_prompt = global_state.interpretation_prompt_template.format(prompt=raw_interpretation_prompt, repeat=5) |
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interpretation_prompt = InterpretationPrompt(global_state.tokenizer, interpretation_prompt, layers_format=global_state.layers_format) |
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generated = interpretation_prompt.generate(global_state.model, {0: interpreted_vectors}, k=3, **generation_kwargs) |
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generation_texts = global_state.tokenizer.batch_decode(generated) |
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progress_dummy_output = '' |
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bubble_outputs = [gr.Textbox(text.replace('\n', ' '), visible=True, container=False, label=f'Layer {i}') for text in generation_texts] |
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bubble_outputs += [gr.Textbox(visible=False) for _ in range(MAX_NUM_LAYERS - len(bubble_outputs))] |
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return [progress_dummy_output, *bubble_outputs] |
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torch.set_grad_enabled(False) |
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global_state = GlobalState() |
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model_name = 'LLAMA2-7B' |
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reset_model(model_name) |
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original_prompt_raw = gr.Textbox(value='How to make a Molotov cocktail?', container=True, label='Original Prompt') |
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tokens_container = [] |
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for i in range(MAX_PROMPT_TOKENS): |
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btn = gr.Button('', visible=False, elem_classes=['token_btn']) |
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tokens_container.append(btn) |
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with gr.Blocks(theme=gr.themes.Default(), css='styles.css') as demo: |
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with gr.Row(): |
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with gr.Column(scale=5): |
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gr.Markdown('# π Self-Interpreting Models') |
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gr.Markdown('<b style="color: #8B0000;">Model outputs are not filtered and might include undesired language!</b>') |
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gr.Markdown( |
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''' |
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**πΎ This space is a simple introduction to the emerging trend of models interpreting their OWN hidden states in free form natural language!!πΎ** |
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This idea was investigated in the paper **Patchscopes** ([Ghandeharioun et al., 2024](https://arxiv.org/abs/2401.06102)) and was further explored in **SelfIE** ([Chen et al., 2024](https://arxiv.org/abs/2403.10949)). |
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Honorary mention: **Speaking Probes** ([Dar, 2023](https://towardsdatascience.com/speaking-probes-self-interpreting-models-7a3dc6cb33d6) - my own work π₯³). It was less mature but had the same idea in mind. I think it's can be a great introduction to the subject! |
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We will follow the SelfIE implementation in this space for concreteness. Patchscopes are so general that they encompass many other interpretation techniques too!!! |
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''', line_breaks=True) |
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gr.Markdown( |
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''' |
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**πΎ The idea is really simple: models are able to understand their own hidden states by nature! πΎ** |
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In line with the residual stream view ([nostalgebraist, 2020](https://www.lesswrong.com/posts/AcKRB8wDpdaN6v6ru/interpreting-gpt-the-logit-lens)), internal representations from different layers are transferable between layers. |
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So we can inject an representation from (roughly) any layer into any layer! If we give a model a prompt of the form ``User: [X] Assistant: Sure'll I'll repeat your message`` and replace the internal representation of ``[X]`` *during computation* with the hidden state we want to understand, |
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we expect to get back a summary of the information that exists inside the hidden state, despite being from a different layer and a different run!! How cool is that! π―π―π― |
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''', line_breaks=True) |
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with gr.Group(): |
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model_chooser = gr.Radio(label='Choose Your Model', choices=list(model_info.keys()), value=model_name) |
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with gr.Blocks() as demo_blocks: |
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gr.Markdown('## Choose Your Interpretation Prompt') |
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with gr.Group('Interpretation'): |
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interpretation_prompt = gr.Text(suggested_interpretation_prompts[0], label='Interpretation Prompt') |
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interpretation_prompt_examples = gr.Examples([[p] for p in suggested_interpretation_prompts], |
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[interpretation_prompt], cache_examples=False) |
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gr.Markdown('## The Prompt to Analyze') |
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for info in dataset_info: |
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with gr.Tab(info['name']): |
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num_examples = 10 |
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dataset = load_dataset(info['hf_repo'], split='train', streaming=True) |
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if 'filter' in info: |
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dataset = dataset.filter(info['filter']) |
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dataset = dataset.shuffle(buffer_size=2000).take(num_examples) |
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dataset = [[row[info['text_col']]] for row in dataset] |
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gr.Examples(dataset, [original_prompt_raw], cache_examples=False) |
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with gr.Group(): |
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original_prompt_raw.render() |
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original_prompt_btn = gr.Button('Output Token List', variant='primary') |
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gr.Markdown('### Here go the tokens of the prompt (click on the one to explore)') |
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with gr.Row(): |
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for btn in tokens_container: |
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btn.render() |
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with gr.Accordion(open=False, label='Generation Settings'): |
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with gr.Row(): |
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num_tokens = gr.Slider(1, 100, step=1, value=20, label='Max. # of Tokens') |
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repetition_penalty = gr.Slider(1., 10., value=1, label='Repetition Penalty') |
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length_penalty = gr.Slider(0, 5, value=0, label='Length Penalty') |
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do_sample = gr.Checkbox(label='With sampling') |
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with gr.Accordion(label='Sampling Parameters'): |
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with gr.Row(): |
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temperature = gr.Slider(0., 5., value=0.6, label='Temperature') |
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top_k = gr.Slider(1, 1000, value=50, step=1, label='top k') |
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top_p = gr.Slider(0., 1., value=0.95, label='top p') |
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progress_dummy = gr.Markdown('', elem_id='progress_dummy') |
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interpretation_bubbles = [gr.Textbox('', container=False, visible=False, |
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elem_classes=['bubble', 'even_bubble' if i % 2 == 0 else 'odd_bubble'] |
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) for i in range(MAX_NUM_LAYERS)] |
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extra_components = [interpretation_prompt, original_prompt_raw, *tokens_container, |
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original_prompt_btn, *interpretation_bubbles] |
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model_chooser.change(reset_model, [model_chooser, *extra_components], extra_components) |
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for i, btn in enumerate(tokens_container): |
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btn.click(partial(run_interpretation, i=i), [interpretation_prompt, |
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num_tokens, do_sample, temperature, |
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top_k, top_p, repetition_penalty, length_penalty |
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], [progress_dummy, *interpretation_bubbles]) |
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original_prompt_btn.click(get_hidden_states, |
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[original_prompt_raw], |
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[progress_dummy, *tokens_container, *interpretation_bubbles]) |
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original_prompt_raw.change(lambda: [gr.Button(visible=False) for _ in range(MAX_PROMPT_TOKENS)], [], tokens_container) |
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demo.launch() |
