import os import re import time import msgpack import numpy as np import streamlit as st from numpy import ndarray from scipy.sparse import csr_matrix, save_npz, load_npz, vstack from qdrant_client import QdrantClient, models from langchain_community.llms.llamacpp import LlamaCpp from langchain_community.document_loaders.wikipedia import WikipediaLoader from langchain_community.document_loaders.unstructured import UnstructuredFileLoader from langchain_core.prompts import PromptTemplate from langchain.chains.summarize import load_summarize_chain from langchain_experimental.text_splitter import SemanticChunker from fastembed.sparse.splade_pp import supported_splade_models from fastembed import SparseTextEmbedding, SparseEmbedding from fastembed_ext import FastEmbedEmbeddingsLc from langchain_core.output_parsers import StrOutputParser from langchain_core.runnables import RunnablePassthrough from langchain_core.documents import Document from huggingface_hub import hf_hub_download from qdrant_client.models import ( NamedSparseVector, NamedVector, SparseVector, PointStruct, SearchRequest, ScoredPoint, ) MAP_PROMPT = """ You will be given a single passage of a book. This section will be enclosed in triple backticks (```) Your goal is to give a summary of this section so that a reader will have a full understanding of what happened. Your response should be at least three paragraphs and fully encompass what said in the passage. ```{text}``` FULL SUMMARY: """ COMBINE_PROMPT = """ You will be given a series of summaries from a book. The summaries will be enclosed in triple backticks (```) Your goal is to give a verbose summary of what happened in the story. The reader should be able to grasp what happened in the book. ```{text}``` VERBOSE SUMMARY: """ def make_points(chunks: list[str], dense: list[ndarray], sparse: list[SparseEmbedding])-> list[PointStruct]: points = [] for idx, (sparse_vector, chunk, dense_vector) in enumerate(zip(sparse, chunks, dense)): sparse_vec = SparseVector(indices=sparse_vector.indices.tolist(), values=sparse_vector.values.tolist()) point = PointStruct( id=idx, vector={ "text-sparse": sparse_vec, "text-dense": dense_vector, }, payload={ "text": chunk } ) points.append(point) return points def search(client: QdrantClient, collection_name: str, dense, sparse): search_results = client.search_batch( collection_name, [ SearchRequest( vector=NamedVector( name="text-dense", vector=dense, ), limit=10 ), SearchRequest( vector=NamedSparseVector( name="text-sparse", vector=SparseVector( indices=sparse[0].indices.tolist(), values=sparse[0].values.tolist(), ), ), limit=10 ), ], ) return search_results def rank_list(search_result: list[ScoredPoint]): return [(point.id, rank + 1) for rank, point in enumerate(search_result)] def rrf(rank_lists, alpha=60, default_rank=1000): """ Optimized Reciprocal Rank Fusion (RRF) using NumPy for large rank lists. :param rank_lists: A list of rank lists. Each rank list should be a list of (item, rank) tuples. :param alpha: The parameter alpha used in the RRF formula. Default is 60. :param default_rank: The default rank assigned to items not present in a rank list. Default is 1000. :return: Sorted list of items based on their RRF scores. """ all_items = set(item for rank_list in rank_lists for item, _ in rank_list) item_to_index = {item: idx for idx, item in enumerate(all_items)} rank_matrix = np.full((len(all_items), len(rank_lists)), default_rank) for list_idx, rank_list in enumerate(rank_lists): for item, rank in rank_list: rank_matrix[item_to_index[item], list_idx] = rank rrf_scores = np.sum(1.0 / (alpha + rank_matrix), axis=1) sorted_indices = np.argsort(-rrf_scores) sorted_items = [(list(item_to_index.keys())[idx], rrf_scores[idx]) for idx in sorted_indices] return sorted_items def main(query: str, client: QdrantClient, collection_name: str, llm, dense_model, sparse_model): # name = 'Kia_EV6' # filepath = os.path.join(os.getcwd(), name + '.pdf') # docs = UnstructuredFileLoader( # file_path=filepath, # mode='elements', # strategy='hi_res', # skip_infer_table_types=['png', 'pdf', 'jpg', 'xls', 'xlsx', 'heic'], # hi_res_model_name='yolox', # include_page_breaks=True # ) # docs = docs.load() dense_query = list(dense_model.embed_query(query, 32)) sparse_query = list(sparse_model.embed(query, 32)) search_results = search( client, collection_name, dense_query, sparse_query ) dense_rank_list, sparse_rank_list = rank_list(search_results[0]), rank_list(search_results[1]) rrf_rank_list = rrf([dense_rank_list, sparse_rank_list]) records_list = client.retrieve( collection_name, [item[0] for item in rrf_rank_list] ) docs = [record.payload['text'] for record in records_list[:3]] combined_docs = "\n".join(docs) template = """Use the following pieces of context to answer the question at the end. If you don't know the answer, just say that you don't know, don't try to make up an answer. Use three sentences maximum and keep the answer as concise as possible. Always say "thanks for asking!" at the end of the answer. {context} Question: {question} Helpful Answer:""" rag_prompt = PromptTemplate.from_template(template) chain = {"context": combined_docs, "question": RunnablePassthrough()} | rag_prompt | llm | StrOutputParser() output = chain.invoke(query) print('THHFGHFGBFGBFB') prompt = """Write a summary of the following text delimited by triple backquotes that includes the main points and any important details. Return your response in bullet points which covers the key points of the text. ```{text}``` BULLET POINT SUMMARY: """ summary_chain = load_summarize_chain(llm, "stuff", prompt=prompt ) summary = summary_chain.invoke(output['output_text']) print('ADSDGFGVHBTFEFSDGFES') return summary['output_text'] @st.cache_resource def load_models_and_documents(): supported_splade_models[0] = { "model": "prithivida/Splade_PP_en_v2", "vocab_size": 30522, "description": "Implementation of SPLADE++ Model for English v2", "size_in_GB": 0.532, "sources": { "hf": "devve1/Splade_PP_en_v2_onnx" }, "model_file": "model.onnx" } with st.spinner('Load models...'): model_path = hf_hub_download(repo_id='MaziyarPanahi/Llama-3-8B-Instruct-32k-v0.1-GGUF', filename='Llama-3-8B-Instruct-32k-v0.1.Q8_0.gguf' ) llm = LlamaCpp( model_path=model_path, n_ctx=32000, max_tokens=2000, n_gpu_layers=32, n_batch=256, f16_kv=True ) provider = ['CPUExecutionProvider'] dense_model = FastEmbedEmbeddingsLc( model_name='mixedbread-ai/mxbai-embed-large-v1', providers=provider, cache_dir=os.getenv('HF_HOME'), batch_size=32 ) sparse_model = SparseTextEmbedding( 'prithivida/Splade_PP_en_v2', cache_dir=os.getenv('HF_HOME'), providers=provider ) client = QdrantClient(':memory:') collection_name = 'collection_demo' client.create_collection( collection_name, { "text-dense": models.VectorParams( size=1024, distance=models.Distance.COSINE, on_disk=False, quantization_config=models.BinaryQuantization( binary=models.BinaryQuantizationConfig( always_ram=True ) ) ) }, { "text-sparse": models.SparseVectorParams( index=models.SparseIndexParams( on_disk=False ) ) }, 2, optimizers_config=models.OptimizersConfigDiff( indexing_threshold=0 ), hnsw_config=models.HnswConfigDiff( on_disk=False, m=16, ef_construct=100 ) ) with st.spinner('Parse and chunk documents...'): name = 'action_rpg' embeddings_path = os.path.join(os.getenv('HF_HOME'), 'embeddings') chunks_path = os.path.join(embeddings_path, name + '_chunks.msgpack') dense_path = os.path.join(embeddings_path, name + '_dense.npz') sparse_path = os.path.join(embeddings_path, name + '_sparse.npz') if not os.path.exists(embeddings_path): os.mkdir(embeddings_path) docs = WikipediaLoader(query='Action-RPG').load() chunks, dense_embeddings, sparse_embeddings = chunk_documents(docs, dense_model, sparse_model) with open(chunks_path, "wb") as outfile: packed = msgpack.packb(chunks, use_bin_type=True) outfile.write(packed) np.savez_compressed(dense_path, *dense_embeddings) max_index = max(np.max(embedding.indices) for embedding in sparse_embeddings) sparse_matrices = [] for embedding in sparse_embeddings: data = embedding.values indices = embedding.indices indptr = np.array([0, len(data)]) matrix = csr_matrix((data, indices, indptr), shape=(1, max_index + 1)) sparse_matrices.append(matrix) combined_sparse_matrix = vstack(sparse_matrices) save_npz(sparse_path, combined_sparse_matrix) else: with open(chunks_path, "rb") as data_file: byte_data = data_file.read() chunks = msgpack.unpackb(byte_data, raw=False) dense_embeddings = list(np.load(dense_path).values()) sparse_embeddings = [] loaded_sparse_matrix = load_npz(sparse_path) for i in range(loaded_sparse_matrix.shape[0]): row = loaded_sparse_matrix.getrow(i) values = row.data indices = row.indices embedding = SparseEmbedding(values, indices) sparse_embeddings.append(embedding) with st.spinner('Save documents...'): client.upsert( collection_name, make_points( chunks, dense_embeddings, sparse_embeddings ) ) client.update_collection( collection_name=collection_name, optimizer_config=models.OptimizersConfigDiff(indexing_threshold=20000) ) return client, collection_name, llm, dense_model, sparse_model def chunk_documents(docs, dense_model, sparse_model): text_splitter = SemanticChunker( dense_model, breakpoint_threshold_type='standard_deviation' ) documents = [doc.page_content for doc in text_splitter.transform_documents(list(docs))] dense_embeddings = dense_model.embed_documents(documents,32) sparse_embeddings = list(sparse_model.embed(documents, 32)) return documents, dense_embeddings, sparse_embeddings if __name__ == '__main__': st.set_page_config(page_title="Video Game Assistant", layout="wide" ) st.title("Video Game Assistant :sunglasses:") client, collection_name, llm, dense_model, sparse_model = load_models_and_documents() if "messages" not in st.session_state: st.session_state.messages = [] for message in st.session_state.messages: with st.chat_message(message["role"]): st.markdown(message["content"]) if prompt := st.chat_input("Message Video Game Assistant"): st.chat_message("user").markdown(prompt) st.session_state.messages.append({"role": "user", "content": prompt}) ai_response = main(prompt, client, collection_name, llm, dense_model, sparse_model) response = f"Echo: {ai_response}" with st.chat_message("assistant"): message_placeholder = st.empty() full_response = "" for chunk in re.split(r'(\s+)', response): full_response += chunk + " " time.sleep(0.01) message_placeholder.markdown(full_response + "▌") st.session_state.messages.append({"role": "assistant", "content": full_response})