KYA_idefics2_yalla / app_dialogue.py
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Update app_dialogue.py
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import os
import subprocess
import datasets
from langchain.docstore.document import Document
from langchain.text_splitter import RecursiveCharacterTextSplitter
from langchain.vectorstores import FAISS
from langchain_community.embeddings import HuggingFaceEmbeddings
import json
from transformers.agents import Tool
from langchain_core.vectorstores import VectorStore
from transformers.agents import HfEngine, ReactJsonAgent
# Install flash attention
subprocess.run(
"pip install flash-attn --no-build-isolation",
"pip install git+https://github.com/huggingface/transformers.git#egg=transformers[agents]",
env={"FLASH_ATTENTION_SKIP_CUDA_BUILD": "TRUE"},
shell=True,
)
# Install RAG dependencies
subprocess.run(
"pip install langchain sentence-transformers faiss-cpu",
shell=True,
)
import copy
import spaces
import time
import torch
from threading import Thread
from typing import List, Dict, Union
import urllib
from PIL import Image
import io
import datasets
import gradio as gr
from transformers import AutoProcessor, TextIteratorStreamer
from transformers import Idefics2ForConditionalGeneration
DEVICE = torch.device("cuda")
MODELS = {
"idefics2-8b-chatty": Idefics2ForConditionalGeneration.from_pretrained(
"HuggingFaceM4/idefics2-8b-chatty",
# "Ali-C137/idefics2-8b-chatty-yalla",
torch_dtype=torch.bfloat16,
_attn_implementation="flash_attention_2",
).to(DEVICE),
}
PROCESSOR = AutoProcessor.from_pretrained(
"HuggingFaceM4/idefics2-8b",
# "Ali-C137/idefics2-8b-chatty-yalla",
)
# Load the custom dataset
knowledge_base = datasets.load_dataset("m-ric/huggingface_doc", split="train")
# Process the documents
source_docs = [
Document(page_content=doc["text"], metadata={"source": doc["source"].split("/")[1]})
for doc in knowledge_base
]
docs_processed = RecursiveCharacterTextSplitter(chunk_size=500).split_documents(source_docs)[:1000]
# Create embeddings and vector store
embedding_model = HuggingFaceEmbeddings("thenlper/gte-small")
vectordb = FAISS.from_documents(documents=docs_processed, embedding=embedding_model)
class RetrieverTool(Tool):
name = "retriever"
description = "Retrieves documents from the knowledge base that have the closest embeddings to the input query."
inputs = {
"query": {
"type": "text",
"description": "The query to perform. This should be semantically close to your target documents. Use the affirmative form rather than a question.",
},
"source": {
"type": "text",
"description": "",
},
}
output_type = "text"
def __init__(self, vectordb: VectorStore, all_sources: str, **kwargs):
super().__init__(**kwargs)
self.vectordb = vectordb
self.inputs["source"]["description"] = (
f"The source of the documents to search, as a str representation of a list. Possible values in the list are: {all_sources}. If this argument is not provided, all sources will be searched."
)
def forward(self, query: str, source: str = None) -> str:
assert isinstance(query, str), "Your search query must be a string"
if source:
if isinstance(source, str) and "[" not in str(source): # if the source is not representing a list
source = [source]
source = json.loads(str(source).replace("'", '"'))
docs = self.vectordb.similarity_search(query, filter=({"source": source} if source else None), k=3)
if len(docs) == 0:
return "No documents found with this filtering. Try removing the source filter."
return "Retrieved documents:\n\n" + "\n===Document===\n".join(
[doc.page_content for doc in docs]
)
from transformers.agents import HfEngine, ReactJsonAgent
# Initialize the LLM engine and the agent with the retriever tool
llm_engine = HfEngine("meta-llama/Meta-Llama-3-8B-Instruct")
all_sources = list(set([doc.metadata["source"] for doc in docs_processed]))
retriever_tool = RetrieverTool(vectordb, all_sources)
agent = ReactJsonAgent(tools=[retriever_tool], llm_engine=llm_engine)
# Should change this section for the finetuned model
SYSTEM_PROMPT = [
{
"role": "system",
"content": [
{
"type": "text",
"text": "You are YALLA, a personalized AI chatbot assistant designed to enhance the user's experience in Morocco. Your mission is to provide accurate, real-time, and culturally rich information to make their visit enjoyable and stress-free. You can handle text and image inputs, offering recommendations on transport, event schedules, dining, accommodations, and cultural experiences. You can also perform real-time web searches and use various APIs to assist users effectively. Always be respectful, polite, and inclusive, and strive to offer truthful and helpful responses.",
},
],
},
{
"role": "assistant",
"content": [
{
"type": "text",
"text": "Hello, I'm YALLA, your personalized AI assistant for exploring Morocco. How can I assist you today?",
},
],
}
]
examples_path = os.path.dirname(__file__)
EXAMPLES = [
[
{
"text": "For 2024, the interest expense is twice what it was in 2014, and the long-term debt is 10% higher than its 2015 level. Can you calculate the combined total of the interest and long-term debt for 2024?",
"files": [f"{examples_path}/example_images/mmmu_example_2.png"],
}
],
[
{
"text": "What's in the image?",
"files": [f"{examples_path}/example_images/plant_bulb.webp"],
}
],
[
{
"text": "Describe the image",
"files": [f"{examples_path}/example_images/baguettes_guarding_paris.png"],
}
],
[
{
"text": "Read what's written on the paper",
"files": [f"{examples_path}/example_images/paper_with_text.png"],
}
],
]
# BOT_AVATAR = "IDEFICS_logo.png"
BOT_AVATAR = "YALLA_logo.png"
# Chatbot utils
def turn_is_pure_media(turn):
return turn[1] is None
def load_image_from_url(url):
with urllib.request.urlopen(url) as response:
image_data = response.read()
image_stream = io.BytesIO(image_data)
image = Image.open(image_stream)
return image
def img_to_bytes(image_path):
image = Image.open(image_path).convert(mode='RGB')
buffer = io.BytesIO()
image.save(buffer, format="JPEG")
img_bytes = buffer.getvalue()
image.close()
return img_bytes
def format_user_prompt_with_im_history_and_system_conditioning(
user_prompt, chat_history
) -> List[Dict[str, Union[List, str]]]:
"""
Produces the resulting list that needs to go inside the processor.
It handles the potential image(s), the history and the system conditionning.
"""
resulting_messages = copy.deepcopy(SYSTEM_PROMPT)
resulting_images = []
for resulting_message in resulting_messages:
if resulting_message["role"] == "user":
for content in resulting_message["content"]:
if content["type"] == "image":
resulting_images.append(load_image_from_url(content["image"]))
# Format history
for turn in chat_history:
if not resulting_messages or (
resulting_messages and resulting_messages[-1]["role"] != "user"
):
resulting_messages.append(
{
"role": "user",
"content": [],
}
)
if turn_is_pure_media(turn):
media = turn[0][0]
resulting_messages[-1]["content"].append({"type": "image"})
resulting_images.append(Image.open(media))
else:
user_utterance, assistant_utterance = turn
resulting_messages[-1]["content"].append(
{"type": "text", "text": user_utterance.strip()}
)
resulting_messages.append(
{
"role": "assistant",
"content": [{"type": "text", "text": user_utterance.strip()}],
}
)
# Format current input
if not user_prompt["files"]:
resulting_messages.append(
{
"role": "user",
"content": [{"type": "text", "text": user_prompt["text"]}],
}
)
else:
# Choosing to put the image first (i.e. before the text), but this is an arbiratrary choice.
resulting_messages.append(
{
"role": "user",
"content": [{"type": "image"}] * len(user_prompt["files"])
+ [{"type": "text", "text": user_prompt["text"]}],
}
)
resulting_images.extend([Image.open(path) for path in user_prompt["files"]])
return resulting_messages, resulting_images
def extract_images_from_msg_list(msg_list):
all_images = []
for msg in msg_list:
for c_ in msg["content"]:
if isinstance(c_, Image.Image):
all_images.append(c_)
return all_images
@spaces.GPU(duration=60, queue=False)
def model_inference(
user_prompt,
chat_history,
model_selector,
decoding_strategy,
temperature,
max_new_tokens,
repetition_penalty,
top_p,
):
if user_prompt["text"].strip() == "" and not user_prompt["files"]:
gr.Error("Please input a query and optionally image(s).")
if user_prompt["text"].strip() == "" and user_prompt["files"]:
gr.Error("Please input a text query along the image(s).")
streamer = TextIteratorStreamer(
PROCESSOR.tokenizer,
skip_prompt=True,
timeout=5.0,
)
# Common parameters to all decoding strategies
generation_args = {
"max_new_tokens": max_new_tokens,
"repetition_penalty": repetition_penalty,
"streamer": streamer,
}
assert decoding_strategy in [
"Greedy",
"Top P Sampling",
]
if decoding_strategy == "Greedy":
generation_args["do_sample"] = False
elif decoding_strategy == "Top P Sampling":
generation_args["temperature"] = temperature
generation_args["do_sample"] = True
generation_args["top_p"] = top_p
# Creating model inputs
resulting_text, resulting_images = format_user_prompt_with_im_history_and_system_conditioning(
user_prompt=user_prompt,
chat_history=chat_history,
)
prompt = PROCESSOR.apply_chat_template(resulting_text, add_generation_prompt=True)
inputs = PROCESSOR(
text=prompt,
images=resulting_images if resulting_images else None,
return_tensors="pt",
)
inputs = {k: v.to(DEVICE) for k, v in inputs.items()}
generation_args.update(inputs)
# Use the agent to perform RAG
agent_output = agent.run(user_prompt["text"])
print("Agent output:", agent_output)
# Stream the generated text
thread = Thread(
target=MODELS[model_selector].generate,
kwargs=generation_args,
)
thread.start()
acc_text = ""
for text_token in streamer:
time.sleep(0.04)
acc_text += text_token
if acc_text.endswith("<end_of_utterance>"):
acc_text = acc_text[:-18]
yield acc_text
print("Success - generated the following text:", acc_text)
print("-----")
FEATURES = datasets.Features(
{
"model_selector": datasets.Value("string"),
"images": datasets.Sequence(datasets.Image(decode=True)),
"conversation": datasets.Sequence({"User": datasets.Value("string"), "Assistant": datasets.Value("string")}),
"decoding_strategy": datasets.Value("string"),
"temperature": datasets.Value("float32"),
"max_new_tokens": datasets.Value("int32"),
"repetition_penalty": datasets.Value("float32"),
"top_p": datasets.Value("int32"),
}
)
# Hyper-parameters for generation
max_new_tokens = gr.Slider(
minimum=8,
maximum=1024,
value=512,
step=1,
interactive=True,
label="Maximum number of new tokens to generate",
)
repetition_penalty = gr.Slider(
minimum=0.01,
maximum=5.0,
value=1.1,
step=0.01,
interactive=True,
label="Repetition penalty",
info="1.0 is equivalent to no penalty",
)
decoding_strategy = gr.Radio(
[
"Greedy",
"Top P Sampling",
],
value="Greedy",
label="Decoding strategy",
interactive=True,
info="Higher values is equivalent to sampling more low-probability tokens.",
)
temperature = gr.Slider(
minimum=0.0,
maximum=5.0,
value=0.4,
step=0.1,
visible=False,
interactive=True,
label="Sampling temperature",
info="Higher values will produce more diverse outputs.",
)
top_p = gr.Slider(
minimum=0.01,
maximum=0.99,
value=0.8,
step=0.01,
visible=False,
interactive=True,
label="Top P",
info="Higher values is equivalent to sampling more low-probability tokens.",
)
chatbot = gr.Chatbot(
label="YALLA-Chatty",
avatar_images=[None, BOT_AVATAR],
height=450,
)
with gr.Blocks(fill_height=True) as demo:
gr.Markdown("# 🇲🇦 YALLA ")
with gr.Row(elem_id="model_selector_row"):
model_selector = gr.Dropdown(
choices=MODELS.keys(),
value=list(MODELS.keys())[0],
interactive=True,
show_label=False,
container=False,
label="Model",
visible=False,
)
decoding_strategy.change(
fn=lambda selection: gr.Slider(
visible=(
selection
in [
"contrastive_sampling",
"beam_sampling",
"Top P Sampling",
"sampling_top_k",
]
)
),
inputs=decoding_strategy,
outputs=temperature,
)
decoding_strategy.change(
fn=lambda selection: gr.Slider(visible=(selection in ["Top P Sampling"])),
inputs=decoding_strategy,
outputs=top_p,
)
gr.ChatInterface(
fn=model_inference,
chatbot=chatbot,
examples=EXAMPLES,
multimodal=False,
cache_examples=False,
additional_inputs=[
model_selector,
decoding_strategy,
temperature,
max_new_tokens,
repetition_penalty,
top_p,
],
)
demo.launch()