# mermaid画图 ```mermaid graph TD A[多智能体随机网络结构分析] --> B[多智能体协同学习与推理] A --> A1["谱参数实时估算"] A1 --> A11["卡尔曼滤波"] A1 --> A12["矩阵扰动理论"] A1 --> A13["输出:谱参数"] A --> A2["网络拓扑重构"] A2 --> A21["低秩分解重构"] A2 --> A22["聚类量化"] A2 --> A23["输出:邻接矩阵、特征矩阵"] ``` ```mermaid graph TD B[多智能体协同学习与推理] B --> B1["联邦学习、强化学习"] B1 --> B11["谱驱动学习率调整"] B1 --> B12["自适应节点选择策略"] B --> B2["动态图神经网络"] B2 --> B21["动态图卷积设计"] B2 --> B22["一致性推理"] ``` ```mermaid graph TD %% 颜色和样式定义 classDef startEnd fill:#e6ffe6,stroke:#333,stroke-width:2px classDef operation fill:#fff,stroke:#000,stroke-width:1px classDef decision fill:#ffcccc,stroke:#000,stroke-width:1px classDef update fill:#ccffcc,stroke:#000,stroke-width:1px %% 节点定义(严格按图片顺序) A([开始]):::startEnd B[交易信息\n外部订单号]:::operation C{判断是否为锁单订单}:::decision D[查询拼团组队信息]:::operation E[更新订单详情\n状态为交易完成]:::update F[更新拼团组队进度]:::update G{拼团组队完结\n目标量判断}:::decision H[写入回调任务表]:::operation I([结束]):::startEnd %% 流程连接(完全还原图片走向) A --> B B --> C C -->|是| D D --> E E --> F F --> G G -->|是| H H --> I C -->|否| I G -->|否| I %% 保持原图连接线样式 linkStyle 0,1,2,3,4,5,6,7,8 stroke-width:1px ``` ```mermaid graph TD A[用户发起退单请求] --> B{检查拼团状态} B -->|拼团未完成| C1[场景1:拼团中退单] C1 --> D1{是否已支付?} D1 -->|未支付| E1[取消订单] E1 --> F1[更新订单状态为2] F1 --> G1[通知拼团失败] G1 --> H1[退单完成] D1 -->|已支付| I1[发起退款] I1 --> F1 B -->|拼团已完成| C2[场景2:完成后退单] C2 --> D2{是否超时限?} D2 -->|未超时| E2[发起退款] E2 --> F2[更新订单状态] F2 --> H1 D2 -->|超时| G2[退单失败] style A fill:#f9f,stroke:#333 style B fill:#66f,stroke:#333 style C1 fill:#fbb,stroke:#f66 style C2 fill:#9f9,stroke:#090 ``` ```mermaid flowchart LR %% ===================== 左侧:模板模式块 ===================== subgraph Template["设计模式 - 模板"] direction TB SM["StrategyMapper 策略映射器"] SH["StrategyHandler 策略处理器"] ASR["AbstractStrategyRouter 策略路由抽象类"] SM -->|实现| ASR SH -->|实现| ASR end %% ===================== 右侧:策略工厂与支持类 ===================== DASFactory["DefaultActivityStrategyFactory 默认的拼团活动策略工厂"] AGMS["AbstractGroupBuyMarketSupport 功能服务支撑类"] DASFactory --> AGMS AGMS -->|继承| ASR %% ===================== 业务节点链路 ===================== Root["RootNode 根节点"] Switch["SwitchRoot 开关节点"] Market["MarketNode 营销节点"] End["EndNode 结尾节点"] Other["其他节点"] AGMS --> Root Root --> Switch Switch --> Market Market --> End Switch -.-> Other Other --> End %% ===================== 样式(可选) ===================== classDef green fill:#DFF4E3,stroke:#3B7A57,stroke-width:1px; classDef red fill:#E74C3C,color:#fff,stroke:#B03A2E; classDef purple fill:#7E60A2,color:#fff,stroke:#4B3B6B; classDef blue fill:#3DA9F5,color:#fff,stroke:#1B6AA5; class SM,SH,Root,Switch,Market,End,Other green; class DASFactory red; class AGMS purple; class ASR blue; style Template stroke-dasharray: 5 5; ``` ```mermaid sequenceDiagram participant A as 启动时 participant B as BeanPostProcessor participant C as 管理后台 participant D as Redis Pub/Sub participant E as RTopic listener participant F as Bean 字段热更新 A->>B: 扫描 @DCCValue 标注的字段 B->>B: 写入默认值 / 读取 Redis B->>B: 注入字段值 B->>B: 缓存 key→Bean 映射 A->>A: Bean 初始化完成 C->>D: publish("myKey,newVal") D->>E: 订阅频道 "dcc_update" E->>E: 收到消息,更新 Redis E->>E: 从 Map 找到 Bean E->>E: 反射注入新值到字段 E->>F: Bean 字段热更新完成 ``` ```mermaid sequenceDiagram participant A as 后台/系统 participant B as Redis Pub/Sub participant C as DCC监听器 participant D as Redis数据库 participant E as 反射更新字段 participant F as Bean实例 A->>B: 发布消息 ("cutRange:50") B->>D: 将消息 "cutRange:50" 写入 Redis B->>C: 触发订阅者接收消息 C->>D: 更新 Redis 中的 "cutRange" 配置值 C->>F: 根据映射找到对应的 Bean C->>E: 通过反射更新 Bean 中的字段 E->>C: 更新成功,字段值被同步 C->>A: 配置变更更新完成 ``` ```mermaid classDiagram class Client class Context { - Strategy strategy + execute() } class Strategy { <> + execute() } class ConcreteStrategyA { + execute() } class ConcreteStrategyB { + execute() } Client --> Context Context --> Strategy Strategy <|.. ConcreteStrategyA Strategy <|.. ConcreteStrategyB ```