""" 图谱相关API路由 采用项目上下文机制,服务端持久化状态 """ import os import traceback import threading from flask import request, jsonify from . import graph_bp from ..config import Config from ..services.ontology_generator import OntologyGenerator from ..services.graph_builder import GraphBuilderService from ..services.text_processor import TextProcessor from ..utils.file_parser import FileParser from ..utils.logger import get_logger from ..utils.locale import t, get_locale, set_locale from ..models.task import TaskManager, TaskStatus from ..utils.zep_rate_limiter import graph_data_cache from ..models.project import ProjectManager, ProjectStatus # 获取日志器 logger = get_logger('mirofish.api') def allowed_file(filename: str) -> bool: """检查文件扩展名是否允许""" if not filename or '.' not in filename: return False ext = os.path.splitext(filename)[1].lower().lstrip('.') return ext in Config.ALLOWED_EXTENSIONS # ============== 项目管理接口 ============== @graph_bp.route('/project/', methods=['GET']) def get_project(project_id: str): """ 获取项目详情 """ project = ProjectManager.get_project(project_id) if not project: return jsonify({ "success": False, "error": t('api.projectNotFound', id=project_id) }), 404 return jsonify({ "success": True, "data": project.to_dict() }) @graph_bp.route('/project/list', methods=['GET']) def list_projects(): """ 列出所有项目 """ limit = request.args.get('limit', 50, type=int) projects = ProjectManager.list_projects(limit=limit) return jsonify({ "success": True, "data": [p.to_dict() for p in projects], "count": len(projects) }) @graph_bp.route('/project/', methods=['DELETE']) def delete_project(project_id: str): """ 删除项目 """ success = ProjectManager.delete_project(project_id) if not success: return jsonify({ "success": False, "error": t('api.projectDeleteFailed', id=project_id) }), 404 return jsonify({ "success": True, "message": t('api.projectDeleted', id=project_id) }) @graph_bp.route('/project//reset', methods=['POST']) def reset_project(project_id: str): """ 重置项目状态(用于重新构建图谱) """ project = ProjectManager.get_project(project_id) if not project: return jsonify({ "success": False, "error": t('api.projectNotFound', id=project_id) }), 404 # 重置到本体已生成状态 if project.ontology: project.status = ProjectStatus.ONTOLOGY_GENERATED else: project.status = ProjectStatus.CREATED project.graph_id = None project.graph_build_task_id = None project.error = None ProjectManager.save_project(project) return jsonify({ "success": True, "message": t('api.projectReset', id=project_id), "data": project.to_dict() }) # ============== 接口1:上传文件并生成本体 ============== @graph_bp.route('/ontology/generate', methods=['POST']) def generate_ontology(): """ 接口1:上传文件,分析生成本体定义 请求方式:multipart/form-data 参数: files: 上传的文件(PDF/MD/TXT),可多个 simulation_requirement: 模拟需求描述(必填) project_name: 项目名称(可选) additional_context: 额外说明(可选) 返回: { "success": true, "data": { "project_id": "proj_xxxx", "ontology": { "entity_types": [...], "edge_types": [...], "analysis_summary": "..." }, "files": [...], "total_text_length": 12345 } } """ try: logger.info("=== 开始生成本体定义 ===") # 获取参数 simulation_requirement = request.form.get('simulation_requirement', '') project_name = request.form.get('project_name', 'Unnamed Project') additional_context = request.form.get('additional_context', '') logger.debug(f"项目名称: {project_name}") logger.debug(f"模拟需求: {simulation_requirement[:100]}...") if not simulation_requirement: return jsonify({ "success": False, "error": t('api.requireSimulationRequirement') }), 400 # 获取上传的文件 uploaded_files = request.files.getlist('files') if not uploaded_files or all(not f.filename for f in uploaded_files): return jsonify({ "success": False, "error": t('api.requireFileUpload') }), 400 # 创建项目 project = ProjectManager.create_project(name=project_name) project.simulation_requirement = simulation_requirement logger.info(f"创建项目: {project.project_id}") # 保存文件并提取文本 document_texts = [] all_text = "" for file in uploaded_files: if file and file.filename and allowed_file(file.filename): # 保存文件到项目目录 file_info = ProjectManager.save_file_to_project( project.project_id, file, file.filename ) project.files.append({ "filename": file_info["original_filename"], "size": file_info["size"] }) # 提取文本 text = FileParser.extract_text(file_info["path"]) text = TextProcessor.preprocess_text(text) document_texts.append(text) all_text += f"\n\n=== {file_info['original_filename']} ===\n{text}" if not document_texts: ProjectManager.delete_project(project.project_id) return jsonify({ "success": False, "error": t('api.noDocProcessed') }), 400 # 保存提取的文本 project.total_text_length = len(all_text) ProjectManager.save_extracted_text(project.project_id, all_text) logger.info(f"文本提取完成,共 {len(all_text)} 字符") # 生成本体 logger.info("调用 LLM 生成本体定义...") generator = OntologyGenerator() ontology = generator.generate( document_texts=document_texts, simulation_requirement=simulation_requirement, additional_context=additional_context if additional_context else None ) # 保存本体到项目 entity_count = len(ontology.get("entity_types", [])) edge_count = len(ontology.get("edge_types", [])) logger.info(f"本体生成完成: {entity_count} 个实体类型, {edge_count} 个关系类型") project.ontology = { "entity_types": ontology.get("entity_types", []), "edge_types": ontology.get("edge_types", []) } project.analysis_summary = ontology.get("analysis_summary", "") project.status = ProjectStatus.ONTOLOGY_GENERATED ProjectManager.save_project(project) logger.info(f"=== 本体生成完成 === 项目ID: {project.project_id}") return jsonify({ "success": True, "data": { "project_id": project.project_id, "project_name": project.name, "ontology": project.ontology, "analysis_summary": project.analysis_summary, "files": project.files, "total_text_length": project.total_text_length } }) except Exception as e: return jsonify({ "success": False, "error": str(e), "traceback": traceback.format_exc() }), 500 # ============== 接口2:构建图谱 ============== @graph_bp.route('/build', methods=['POST']) def build_graph(): """ 接口2:根据project_id构建图谱 请求(JSON): { "project_id": "proj_xxxx", // 必填,来自接口1 "graph_name": "图谱名称", // 可选 "chunk_size": 500, // 可选,默认500 "chunk_overlap": 50 // 可选,默认50 } 返回: { "success": true, "data": { "project_id": "proj_xxxx", "task_id": "task_xxxx", "message": "图谱构建任务已启动" } } """ try: logger.info("=== 开始构建图谱 ===") # 检查配置 errors = [] if not Config.ZEP_API_KEY: errors.append(t('api.zepApiKeyMissing')) if errors: logger.error(f"配置错误: {errors}") return jsonify({ "success": False, "error": t('api.configError', details="; ".join(errors)) }), 500 # 解析请求 data = request.get_json() or {} project_id = data.get('project_id') logger.debug(f"请求参数: project_id={project_id}") if not project_id: return jsonify({ "success": False, "error": t('api.requireProjectId') }), 400 # 获取项目 project = ProjectManager.get_project(project_id) if not project: return jsonify({ "success": False, "error": t('api.projectNotFound', id=project_id) }), 404 # 检查项目状态 force = data.get('force', False) # 强制重新构建 if project.status == ProjectStatus.CREATED: return jsonify({ "success": False, "error": t('api.ontologyNotGenerated') }), 400 if project.status == ProjectStatus.GRAPH_BUILDING and not force: return jsonify({ "success": False, "error": t('api.graphBuilding'), "task_id": project.graph_build_task_id }), 400 # 如果强制重建,重置状态 if force and project.status in [ProjectStatus.GRAPH_BUILDING, ProjectStatus.FAILED, ProjectStatus.GRAPH_COMPLETED]: project.status = ProjectStatus.ONTOLOGY_GENERATED project.graph_id = None project.graph_build_task_id = None project.error = None # 获取配置 graph_name = data.get('graph_name', project.name or 'MiroFish Graph') chunk_size = data.get('chunk_size', project.chunk_size or Config.DEFAULT_CHUNK_SIZE) chunk_overlap = data.get('chunk_overlap', project.chunk_overlap or Config.DEFAULT_CHUNK_OVERLAP) # 更新项目配置 project.chunk_size = chunk_size project.chunk_overlap = chunk_overlap # 获取提取的文本 text = ProjectManager.get_extracted_text(project_id) if not text: return jsonify({ "success": False, "error": t('api.textNotFound') }), 400 # 获取本体 ontology = project.ontology if not ontology: return jsonify({ "success": False, "error": t('api.ontologyNotFound') }), 400 # 创建异步任务 task_manager = TaskManager() task_id = task_manager.create_task(f"构建图谱: {graph_name}") logger.info(f"创建图谱构建任务: task_id={task_id}, project_id={project_id}") # 更新项目状态 project.status = ProjectStatus.GRAPH_BUILDING project.graph_build_task_id = task_id ProjectManager.save_project(project) # Capture locale before spawning background thread current_locale = get_locale() # 启动后台任务 def build_task(): set_locale(current_locale) build_logger = get_logger('mirofish.build') try: build_logger.info(f"[{task_id}] 开始构建图谱...") task_manager.update_task( task_id, status=TaskStatus.PROCESSING, message=t('progress.initGraphService') ) # 创建图谱构建服务 builder = GraphBuilderService(api_key=Config.ZEP_API_KEY) # 分块 task_manager.update_task( task_id, message=t('progress.textChunking'), progress=5 ) chunks = TextProcessor.split_text( text, chunk_size=chunk_size, overlap=chunk_overlap ) total_chunks = len(chunks) # 创建图谱 task_manager.update_task( task_id, message=t('progress.creatingZepGraph'), progress=10 ) graph_id = builder.create_graph(name=graph_name) # 更新项目的graph_id project.graph_id = graph_id ProjectManager.save_project(project) # 设置本体 task_manager.update_task( task_id, message=t('progress.settingOntology'), progress=15 ) builder.set_ontology(graph_id, ontology) # 添加文本(progress_callback 签名是 (msg, progress_ratio)) def add_progress_callback(msg, progress_ratio): progress = 15 + int(progress_ratio * 40) # 15% - 55% task_manager.update_task( task_id, message=msg, progress=progress ) task_manager.update_task( task_id, message=t('progress.addingChunks', count=total_chunks), progress=15 ) episode_uuids = builder.add_text_batches( graph_id, chunks, batch_size=3, progress_callback=add_progress_callback ) # 等待Zep处理完成(查询每个episode的processed状态) task_manager.update_task( task_id, message=t('progress.waitingZepProcess'), progress=55 ) def wait_progress_callback(msg, progress_ratio): progress = 55 + int(progress_ratio * 35) # 55% - 90% task_manager.update_task( task_id, message=msg, progress=progress ) builder._wait_for_episodes(episode_uuids, wait_progress_callback) # 获取图谱数据 task_manager.update_task( task_id, message=t('progress.fetchingGraphData'), progress=95 ) graph_data = builder.get_graph_data(graph_id) # 更新项目状态 project.status = ProjectStatus.GRAPH_COMPLETED ProjectManager.save_project(project) node_count = graph_data.get("node_count", 0) edge_count = graph_data.get("edge_count", 0) build_logger.info(f"[{task_id}] 图谱构建完成: graph_id={graph_id}, 节点={node_count}, 边={edge_count}") # 完成 task_manager.update_task( task_id, status=TaskStatus.COMPLETED, message=t('progress.graphBuildComplete'), progress=100, result={ "project_id": project_id, "graph_id": graph_id, "node_count": node_count, "edge_count": edge_count, "chunk_count": total_chunks } ) except Exception as e: # 更新项目状态为失败 build_logger.error(f"[{task_id}] 图谱构建失败: {str(e)}") build_logger.debug(traceback.format_exc()) project.status = ProjectStatus.FAILED project.error = str(e) ProjectManager.save_project(project) task_manager.update_task( task_id, status=TaskStatus.FAILED, message=t('progress.buildFailed', error=str(e)), error=traceback.format_exc() ) # 启动后台线程 thread = threading.Thread(target=build_task, daemon=True) thread.start() return jsonify({ "success": True, "data": { "project_id": project_id, "task_id": task_id, "message": t('api.graphBuildStarted', taskId=task_id) } }) except Exception as e: return jsonify({ "success": False, "error": str(e), "traceback": traceback.format_exc() }), 500 # ============== 任务查询接口 ============== @graph_bp.route('/task/', methods=['GET']) def get_task(task_id: str): """ 查询任务状态 """ task = TaskManager().get_task(task_id) if not task: return jsonify({ "success": False, "error": t('api.taskNotFound', id=task_id) }), 404 return jsonify({ "success": True, "data": task.to_dict() }) @graph_bp.route('/tasks', methods=['GET']) def list_tasks(): """ 列出所有任务 """ tasks = TaskManager().list_tasks() return jsonify({ "success": True, "data": [t.to_dict() for t in tasks], "count": len(tasks) }) # ============== 配置接口 ============== @graph_bp.route('/config', methods=['GET']) def get_graph_config(): """ 返回前端需要的图谱轮询配置。 前端根据这些值决定是否自动轮询以及间隔。 """ # 初始化缓存 TTL(确保与 Config 同步) graph_data_cache.ttl = Config.ZEP_CACHE_TTL return jsonify({ "success": True, "data": { "poll_interval": Config.ZEP_GRAPH_POLL_INTERVAL, # 0 = 仅手动刷新 "cache_ttl": Config.ZEP_CACHE_TTL, "rate_limit": Config.ZEP_RATE_LIMIT, "rate_limit_window": Config.ZEP_RATE_LIMIT_WINDOW, } }) # ============== 图谱数据接口 ============== @graph_bp.route('/data/', methods=['GET']) def get_graph_data(graph_id: str): """ 获取图谱数据(节点和边)。 使用响应缓存避免频繁调用 Zep API。 """ try: if not Config.ZEP_API_KEY: return jsonify({ "success": False, "error": t('api.zepApiKeyMissing') }), 500 # 检查缓存 cache_key = f"graph_data:{graph_id}" cached = graph_data_cache.get(cache_key) if cached is not None: logger.debug(f"Serving cached graph data for {graph_id}") return jsonify({ "success": True, "data": cached, "cached": True }) # 缓存未命中,调用 Zep API builder = GraphBuilderService(api_key=Config.ZEP_API_KEY) graph_data = builder.get_graph_data(graph_id) # 缓存成功响应 graph_data_cache.set(cache_key, graph_data) return jsonify({ "success": True, "data": graph_data, "cached": False }) except Exception as e: return jsonify({ "success": False, "error": str(e), "traceback": traceback.format_exc() }), 500 @graph_bp.route('/delete/', methods=['DELETE']) def delete_graph(graph_id: str): """ 删除Zep图谱 """ try: if not Config.ZEP_API_KEY: return jsonify({ "success": False, "error": t('api.zepApiKeyMissing') }), 500 builder = GraphBuilderService(api_key=Config.ZEP_API_KEY) builder.delete_graph(graph_id) return jsonify({ "success": True, "message": t('api.graphDeleted', id=graph_id) }) except Exception as e: return jsonify({ "success": False, "error": str(e), "traceback": traceback.format_exc() }), 500