Compreensão de documentos com Mistral OCR e Milvus
Este tutorial demonstra como construir um sistema de compreensão de documentos usando:
Mistral OCR
Um poderoso serviço de reconhecimento ótico de caracteres que:
- Processa PDFs, imagens e outros formatos de documentos
- Preserva a estrutura e a formatação do documento
- Lida com documentos de várias páginas
- Reconhece tabelas, listas e outros elementos complexos
Mistral Embeddings
- Transforma texto em representações numéricas:
- Converte texto em vectores de 1024 dimensões
- Captura relações semânticas entre conceitos
- Permite a correspondência de semelhanças com base no significado
- Fornece a base para a pesquisa semântica
Base de dados vetorial Milvus
Base de dados especializada para pesquisa de semelhanças vectoriais:
- Código aberto
- Efectua uma pesquisa vetorial eficiente
- Escala para grandes colecções de documentos
- Suporta pesquisa híbrida (similaridade vetorial + filtragem de metadados)
- Optimizado para aplicações de IA
No final deste tutorial, você terá um sistema que pode:
- Processar documentos (PDFs/imagens) através de URLs
- Extrair texto usando OCR
- Armazenar o texto e os embeddings vectoriais em Milvus
- Efetuar pesquisas semânticas na sua coleção de documentos
Configuração e dependências
Primeiro, vamos instalar os pacotes necessários:
$ pip install mistralai pymilvus python-dotenv
Configuração do ambiente
Você precisará de:
- Uma chave de API Mistral (obtenha uma em https://console.mistral.ai/)
- Milvus sendo executado localmente através do Docker ou com o Zilliz Cloud
Vamos configurar nosso ambiente:
import json
import os
import re
from dotenv import load_dotenv
from mistralai import Mistral
from pymilvus import CollectionSchema, DataType, FieldSchema, MilvusClient
from pymilvus.client.types import LoadState
# Load environment variables from .env file
load_dotenv()
# Initialize clients
api_key = os.getenv("MISTRAL_API_KEY")
if not api_key:
api_key = input("Enter your Mistral API key: ")
os.environ["MISTRAL_API_KEY"] = api_key
client = Mistral(api_key=api_key)
# Define models
text_model = "mistral-small-latest" # For chat interactions
ocr_model = "mistral-ocr-latest" # For OCR processing
embedding_model = "mistral-embed" # For generating embeddings
# Connect to Milvus (default: localhost)
milvus_uri = os.getenv("MILVUS_URI", "http://localhost:19530")
milvus_client = MilvusClient(uri=milvus_uri)
# Milvus collection name
COLLECTION_NAME = "document_ocr"
print(f"Connected to Mistral API and Milvus at {milvus_uri}")
Connected to Mistral API and Milvus at http://localhost:19530
Configurando a coleção do Milvus
Agora, vamos criar uma coleção Milvus para armazenar nossos dados de documentos. A coleção terá os seguintes campos:
id: Chave primária (gerada automaticamente)url: URL de origem do documentopage_num: Número de página no documentocontent: Conteúdo do texto extraídoembedding: Representação vetorial do conteúdo (1024 dimensões)
def setup_milvus_collection():
"""Create Milvus collection if it doesn't exist."""
# Check if collection already exists
if milvus_client.has_collection(COLLECTION_NAME):
print(f"Collection '{COLLECTION_NAME}' already exists.")
return
# Define collection schema
fields = [
FieldSchema(name="id", dtype=DataType.INT64, is_primary=True, auto_id=True),
FieldSchema(name="url", dtype=DataType.VARCHAR, max_length=500),
FieldSchema(name="page_num", dtype=DataType.INT64),
FieldSchema(name="content", dtype=DataType.VARCHAR, max_length=65535),
FieldSchema(name="embedding", dtype=DataType.FLOAT_VECTOR, dim=1024),
]
schema = CollectionSchema(fields=fields)
# Create collection
milvus_client.create_collection(
collection_name=COLLECTION_NAME,
schema=schema,
)
# Create index for vector search
index_params = milvus_client.prepare_index_params()
index_params.add_index(
field_name="embedding",
index_type="IVF_FLAT", # Index type for approximate nearest neighbor search
metric_type="COSINE", # Similarity metric
params={"nlist": 128}, # Number of clusters
)
milvus_client.create_index(
collection_name=COLLECTION_NAME, index_params=index_params
)
print(f"Collection '{COLLECTION_NAME}' created successfully with index.")
setup_milvus_collection()
Collection 'document_ocr' already exists.
Funcionalidade principal
Vamos implementar as funções principais do nosso sistema de compreensão de documentos:
# Generate embeddings using Mistral
def generate_embedding(text):
"""Generate embedding for text using Mistral embedding model."""
response = client.embeddings.create(model=embedding_model, inputs=[text])
return response.data[0].embedding
# Store OCR results in Milvus
def store_ocr_in_milvus(url, ocr_result):
"""Process OCR results and store in Milvus."""
# Extract pages from OCR result
pages = []
current_page = ""
page_num = 0
for line in ocr_result.split("\n"):
if line.startswith("### Page "):
if current_page:
pages.append((page_num, current_page.strip()))
page_num = int(line.replace("### Page ", ""))
current_page = ""
else:
current_page += line + "\n"
# Add the last page
if current_page:
pages.append((page_num, current_page.strip()))
# Prepare data for Milvus
entities = []
for page_num, content in pages:
# Generate embedding for the page content
embedding = generate_embedding(content)
# Create entity
entity = {
"url": url,
"page_num": page_num,
"content": content,
"embedding": embedding,
}
entities.append(entity)
# Insert into Milvus
if entities:
milvus_client.insert(collection_name=COLLECTION_NAME, data=entities)
print(f"Stored {len(entities)} pages from {url} in Milvus.")
return len(entities)
# Define OCR function
def perform_ocr(url):
"""Apply OCR to a URL (PDF or image)."""
try:
# Try PDF OCR first
response = client.ocr.process(
model=ocr_model, document={"type": "document_url", "document_url": url}
)
except Exception:
try:
# If PDF OCR fails, try Image OCR
response = client.ocr.process(
model=ocr_model, document={"type": "image_url", "image_url": url}
)
except Exception as e:
return str(e) # Return error message
# Format the OCR results
ocr_result = "\n\n".join(
[
f"### Page {i + 1}\n{response.pages[i].markdown}"
for i in range(len(response.pages))
]
)
# Store in Milvus
store_ocr_in_milvus(url, ocr_result)
return ocr_result
# Process URLs
def process_document(url):
"""Process a document URL and return its contents."""
print(f"Processing document: {url}")
ocr_result = perform_ocr(url)
return ocr_result
Funcionalidade de pesquisa
Agora, vamos implementar a funcionalidade de pesquisa para recuperar o conteúdo relevante do documento:
def search_documents(query, limit=5):
"""Search Milvus for similar content to the query."""
# Check if collection exists
if not milvus_client.has_collection(COLLECTION_NAME):
return "No documents have been processed yet."
# Load collection if not already loaded
if milvus_client.get_load_state(COLLECTION_NAME) != LoadState.Loaded:
milvus_client.load_collection(COLLECTION_NAME)
print(f"Searching for: {query}")
query_embedding = generate_embedding(query)
search_params = {"metric_type": "COSINE", "params": {"nprobe": 10}}
search_results = milvus_client.search(
collection_name=COLLECTION_NAME,
data=[query_embedding],
anns_field="embedding",
search_params=search_params,
limit=limit,
output_fields=["url", "page_num", "content"],
)
results = []
if not search_results or not search_results[0]:
return "No matching documents found."
for i, hit in enumerate(search_results[0]):
url = hit["entity"]["url"]
page_num = hit["entity"]["page_num"]
content = hit["entity"]["content"]
score = hit["distance"]
results.append(
{
"rank": i + 1,
"score": score,
"url": url,
"page": page_num,
"content": content[:500] + "..." if len(content) > 500 else content,
}
)
return results
# Get statistics about stored documents
def get_document_stats():
"""Get statistics about documents stored in Milvus."""
if not milvus_client.has_collection(COLLECTION_NAME):
return "No documents have been processed yet."
# Get collection stats
stats = milvus_client.get_collection_stats(COLLECTION_NAME)
row_count = stats["row_count"]
# Get unique URLs
results = milvus_client.query(
collection_name=COLLECTION_NAME, filter="", output_fields=["url"], limit=10000
)
unique_urls = set()
for result in results:
unique_urls.add(result["url"])
return {
"total_pages": row_count,
"unique_documents": len(unique_urls),
"documents": list(unique_urls),
}
Demonstração: Processamento de documentos
Vamos processar alguns documentos de exemplo. Pode substituir estes URLs pelos seus próprios documentos.
# Example PDF URL (Mistral AI paper)
pdf_url = "https://arxiv.org/pdf/2310.06825.pdf"
# Process the document
ocr_result = process_document(pdf_url)
# Display a preview of the OCR result
print("\nOCR Result Preview:")
print("====================")
print(ocr_result[:1000] + "...")
Processing document: https://arxiv.org/pdf/2310.06825.pdf
Stored 9 pages from https://arxiv.org/pdf/2310.06825.pdf in Milvus.
OCR Result Preview:
====================
### Page 1
# Mistral 7B
Albert Q. Jiang, Alexandre Sablayrolles, Arthur Mensch, Chris Bamford, Devendra Singh Chaplot, Diego de las Casas, Florian Bressand, Gianna Lengyel, Guillaume Lample, Lucile Saulnier, Lélio Renard Lavaud, Marie-Anne Lachaux, Pierre Stock, Teven Le Scao, Thibaut Lavril, Thomas Wang, Timothée Lacroix, William El Sayed
#### Abstract
We introduce Mistral 7B, a 7-billion-parameter language model engineered for superior performance and efficiency. Mistral 7B outperforms the best open 13B model (Llama 2) across all evaluated benchmarks, and the best released 34B model (Llama 1) in reasoning, mathematics, and code generation. Our model leverages grouped-query attention (GQA) for faster inference, coupled with sliding window attention (SWA) to effectively handle sequences of arbitrary length with a reduced inference cost. We also provide a model fine-tuned to follow instructions, Mistral 7B - Instruct, that surpasses Llama 2 13B - chat mod...
Vamos também processar uma imagem:
# Example image URL (replace with your own)
image_url = "https://s3.eu-central-1.amazonaws.com/readcoop.cis.public-assets.prod/hero/old-german-scripts.png"
# Process the image
try:
ocr_result = process_document(image_url)
print("\nImage OCR Result:")
print("=================")
print(ocr_result)
except Exception as e:
print(f"Error processing image: {e}")
Processing document: https://s3.eu-central-1.amazonaws.com/readcoop.cis.public-assets.prod/hero/old-german-scripts.png
Stored 1 pages from https://s3.eu-central-1.amazonaws.com/readcoop.cis.public-assets.prod/hero/old-german-scripts.png in Milvus.
Image OCR Result:
=================
### Page 1
Demonstração: Pesquisa de documentos
Agora que já processámos alguns documentos, vamos pesquisá-los:
# Get document statistics
stats = get_document_stats()
print(f"Total pages stored: {stats['total_pages']}")
print(f"Unique documents: {stats['unique_documents']}")
print("\nProcessed documents:")
for i, url in enumerate(stats["documents"]):
print(f"{i + 1}. {url}")
Total pages stored: 58
Unique documents: 3
Processed documents:
1. https://arxiv.org/pdf/2310.06825.pdf
2. https://s3.eu-central-1.amazonaws.com/readcoop.cis.public-assets.prod/hero/old-german-scripts.png
3. https://arxiv.org/pdf/2410.07073
# Search for information
query = "What is Mistral 7B?"
results = search_documents(query, limit=3)
print(f"Search results for: '{query}'\n")
if isinstance(results, str):
print(results)
else:
for result in results:
print(f"Result {result['rank']} (Score: {result['score']:.2f})")
print(f"Source: {result['url']} (Page {result['page']})")
print(f"Content: {result['content']}\n")
Searching for: What is Mistral 7B?
Search results for: 'What is Mistral 7B?'
Result 1 (Score: 0.83)
Source: https://arxiv.org/pdf/2310.06825.pdf (Page 2)
Content: Mistral 7B is released under the Apache 2.0 license. This release is accompanied by a reference implementation ${ }^{1}$ facilitating easy deployment either locally or on cloud platforms such as AWS, GCP, or Azure using the vLLM [17] inference server and SkyPilot ${ }^{2}$. Integration with Hugging Face ${ }^{3}$ is also streamlined for easier integration. Moreover, Mistral 7B is crafted for ease of fine-tuning across a myriad of tasks. As a demonstration of its adaptability and superior perform...
Result 2 (Score: 0.83)
Source: https://arxiv.org/pdf/2310.06825.pdf (Page 2)
Content: Mistral 7B is released under the Apache 2.0 license. This release is accompanied by a reference implementation ${ }^{1}$ facilitating easy deployment either locally or on cloud platforms such as AWS, GCP, or Azure using the vLLM [17] inference server and SkyPilot ${ }^{2}$. Integration with Hugging Face ${ }^{3}$ is also streamlined for easier integration. Moreover, Mistral 7B is crafted for ease of fine-tuning across a myriad of tasks. As a demonstration of its adaptability and superior perform...
Result 3 (Score: 0.82)
Source: https://arxiv.org/pdf/2310.06825.pdf (Page 1)
Content: # Mistral 7B
Albert Q. Jiang, Alexandre Sablayrolles, Arthur Mensch, Chris Bamford, Devendra Singh Chaplot, Diego de las Casas, Florian Bressand, Gianna Lengyel, Guillaume Lample, Lucile Saulnier, Lélio Renard Lavaud, Marie-Anne Lachaux, Pierre Stock, Teven Le Scao, Thibaut Lavril, Thomas Wang, Timothée Lacroix, William El Sayed
#### Abstract
We introduce Mistral 7B, a 7-billion-parameter language model engineered for superior performance and efficiency. Mistral 7...
Experimente outra consulta de pesquisa:
# Search for more specific information
query = "What are the capabilities of Mistral's language models?"
results = search_documents(query, limit=3)
print(f"Search results for: '{query}'\n")
if isinstance(results, str):
print(results)
else:
for result in results:
print(f"Result {result['rank']} (Score: {result['score']:.2f})")
print(f"Source: {result['url']} (Page {result['page']})")
print(f"Content: {result['content']}\n")
Searching for: What are the capabilities of Mistral's language models?
Search results for: 'What are the capabilities of Mistral's language models?'
Result 1 (Score: 0.85)
Source: https://arxiv.org/pdf/2310.06825.pdf (Page 2)
Content: Mistral 7B is released under the Apache 2.0 license. This release is accompanied by a reference implementation ${ }^{1}$ facilitating easy deployment either locally or on cloud platforms such as AWS, GCP, or Azure using the vLLM [17] inference server and SkyPilot ${ }^{2}$. Integration with Hugging Face ${ }^{3}$ is also streamlined for easier integration. Moreover, Mistral 7B is crafted for ease of fine-tuning across a myriad of tasks. As a demonstration of its adaptability and superior perform...
Result 2 (Score: 0.85)
Source: https://arxiv.org/pdf/2310.06825.pdf (Page 2)
Content: Mistral 7B is released under the Apache 2.0 license. This release is accompanied by a reference implementation ${ }^{1}$ facilitating easy deployment either locally or on cloud platforms such as AWS, GCP, or Azure using the vLLM [17] inference server and SkyPilot ${ }^{2}$. Integration with Hugging Face ${ }^{3}$ is also streamlined for easier integration. Moreover, Mistral 7B is crafted for ease of fine-tuning across a myriad of tasks. As a demonstration of its adaptability and superior perform...
Result 3 (Score: 0.84)
Source: https://arxiv.org/pdf/2310.06825.pdf (Page 6)
Content: | Model | Answer |
| :--: | :--: |
| Mistral 7B - Instruct with Mistral system prompt | To kill a Linux process, you can use the `kill' command followed by the process ID (PID) of the process you want to terminate. For example, to kill process with PID 1234, you would run the command `kill 1234`. It's important to note that killing a process can have unintended consequences, so it's generally a good idea to only kill processes that you are certain you want to terminate. Additionally, it's genera...
Conclusão
Neste tutorial, construímos um sistema completo de compreensão de documentos usando Mistral OCR e Milvus. Este sistema pode:
- Processar documentos a partir de URLs
- Extrair texto usando os recursos de OCR do Mistral
- Gerar embeddings vetoriais para o conteúdo
- Armazenar o texto e os vectores no Milvus
- Efetuar pesquisa semântica em todos os documentos processados
Esta abordagem permite capacidades poderosas de compreensão de documentos que vão além da simples correspondência de palavras-chave, permitindo aos utilizadores encontrar informações com base no significado e não em correspondências de texto exactas.