""" XMLScraperGraph Module """ from typing import Optional from pydantic import BaseModel from .base_graph import BaseGraph from .abstract_graph import AbstractGraph from ..nodes import ( FetchNode, GenerateAnswerNode ) class XMLScraperGraph(AbstractGraph): """ XMLScraperGraph is a scraping pipeline that extracts information from XML files using a natural language model to interpret and answer prompts. Attributes: prompt (str): The prompt for the graph. source (str): The source of the graph. config (dict): Configuration parameters for the graph. schema (BaseModel): The schema for the graph output. llm_model: An instance of a language model client, configured for generating answers. embedder_model: An instance of an embedding model client, configured for generating embeddings. verbose (bool): A flag indicating whether to show print statements during execution. headless (bool): A flag indicating whether to run the graph in headless mode. model_token (int): The token limit for the language model. Args: prompt (str): The prompt for the graph. source (str): The source of the graph. config (dict): Configuration parameters for the graph. schema (BaseModel): The schema for the graph output. Example: >>> xml_scraper = XMLScraperGraph( ... "List me all the attractions in Chioggia.", ... "data/chioggia.xml", ... {"llm": {"model": "openai/gpt-3.5-turbo"}} ... ) >>> result = xml_scraper.run() """ def __init__(self, prompt: str, source: str, config: dict, schema: Optional[BaseModel] = None): super().__init__(prompt, config, source, schema) self.input_key = "xml" if source.endswith("xml") else "xml_dir" def _create_graph(self) -> BaseGraph: """ Creates the graph of nodes representing the workflow for web scraping. Returns: BaseGraph: A graph instance representing the web scraping workflow. """ fetch_node = FetchNode( input="xml | xml_dir", output=["doc"] ) generate_answer_node = GenerateAnswerNode( input="user_prompt & (relevant_chunks | doc)", output=["answer"], node_config={ "llm_model": self.llm_model, "additional_info": self.config.get("additional_info"), "schema": self.schema } ) return BaseGraph( nodes=[ fetch_node, generate_answer_node, ], edges=[ (fetch_node, generate_answer_node) ], entry_point=fetch_node, graph_name=self.__class__.__name__ ) def run(self) -> str: """ Executes the web scraping process and returns the answer to the prompt. Returns: str: The answer to the prompt. """ inputs = {"user_prompt": self.prompt, self.input_key: self.source} self.final_state, self.execution_info = self.graph.execute(inputs) return self.final_state.get("answer", "No answer found.")