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75 Commits
405710bdde ... main

Author SHA1 Message Date
王浩
326ab7ce5c 合并主场景和个人小屋 2026-02-07 14:11:00 +08:00
WhaleTown Developer
603e7d9fc6 修bug 2026-01-20 20:11:07 +08:00
王浩
e989b4adf1 docs: 删除 chat_system.md 计划文档 2026-01-14 17:11:48 +08:00
王浩
6e70aac0b9 fix: 修复聊天消息显示问题 
- AuthScene: 修复节点路径错误 (WhaleFrame, UsernameInput)
- ChatManager: 修复 timestamp 类型转换 (String -> float)
- ChatMessage: 修复节点引用获取方式和 UI 显示
- ChatUI: 优化消息列表布局对齐
 2026-01-14 17:10:48 +08:00
qbb0530
625fe0ff6c merge upstream 2026-01-14 15:19:15 +08:00
WhaleTown Developer
0e5b9f947b refactor: 移除SocketIOClient并更新认证场景 
- 移除SocketIOClient.gd及.uid文件
- 更新ChatManager以适配新的架构
- 添加认证UI图片资源和背景音乐
- 优化AuthScene布局和配置
- 更新MainScene和项目配置
 2026-01-11 23:12:35 +08:00
moyin
7cca58cb07 Merge pull request 'feature/whaletown-developer-skill' (#12) from feature/whaletown-developer-skill into main 
Reviewed-on: #12
 2026-01-10 19:31:05 +08:00
王浩
749e2c257b assets: 添加认证UI图片资源 2026-01-09 23:24:32 +08:00
王浩
e335a35f6c feat(chat-ui): 更新聊天UI和场景配置 
- 优化聊天消息显示
- 调整UI布局
 2026-01-09 23:23:41 +08:00
王浩
136e1344a0 fix(chat): 修复WebSocket连接和消息格式 
- 修复连接状态检测时机问题
- 修复聊天消息格式为 {t: chat, content, scope}
- 添加 _send_login_message 函数
- 移除空消息心跳避免服务器错误
 2026-01-09 23:21:12 +08:00
WhaleTown Developer
25a21f92be feat(chat): 优化聊天UI布局和WebSocket连接 
- 更新 WebSocket URL 以支持 Socket.IO 握手参数 (EIO=4)
- 重构聊天面板布局,使用绝对定位和百分比锚点
- 优化输入框样式,添加装饰元素
- 修复输入框焦点释放的事件冲突问题
- 将 ChatUI 集成到主场景中
- 改进主场景容器布局设置
 2026-01-08 23:59:21 +08:00
王浩
9c2e3bf15a refactor(chat-ui): 移除HeaderContainer和SendButton,添加装饰图片,修复Enter键监听 
- 删除 HeaderContainer 和 StatusLabel(状态显示)
- 删除 SendButton(发送按钮)
- 添加聊天框背景图和装饰图片
- 设置 TextureRect modulate 为白色,修复黑框问题
- 移除 ChatPanel 背景色,使背景透明
- 修复 is_key_pressed 错误,改用 InputEventKey 类型检查
- 移除 _update_connection_status 函数及相关调用
 2026-01-08 18:14:48 +08:00
WhaleTown Developer
9e288dbb62 docs: 更新聊天系统实施进度 
- 简化文档,移除详细修复记录
- 更新实施状态:所有编译错误已修复
- 记录待后端解决的 Zulip 集成问题
 2026-01-08 00:31:07 +08:00
WhaleTown Developer
c8e73bec59 fix: 修复聊天系统编译错误 
- 修复 WebSocketManager/SocketIOClient 函数缩进错误
- 重命名 is_connected() 避免与 Object 基类冲突
- 修复 tscn 文件多余前导空格
- 修复测试文件 GUT 断言函数调用
- 添加 GUT 测试框架
 2026-01-08 00:11:12 +08:00
王浩
16f24ab26f feat:添加聊天UI资源文件 
- 添加聊天界面UI资源(缩略框背景、输入框背景、装饰图片)
- 修复 GrassTile.gd.uid 文件缺失

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2026-01-07 17:46:26 +08:00
王浩
414225e8c1 docs:更新项目规范文档 
- 在 claude.md 添加 Plan Mode Protocol 章节
- 明确规划阶段的输出要求和执行报告流程
- 强制要求在每个 TODO 完成后更新文档并等待用户确认

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2026-01-07 17:42:48 +08:00
王浩
fb7cba4088 feat:实现聊天系统核心功能 
- 添加 SocketIOClient.gd 实现 Socket.IO 协议封装
- 添加 WebSocketManager.gd 管理连接生命周期和自动重连
- 添加 ChatManager.gd 实现聊天业务逻辑与会话管理
  - 支持当前会话缓存(最多 100 条消息)
  - 支持历史消息按需加载(每次 100 条)
  - 每次登录/重连自动重置会话缓存
  - 客户端频率限制(10 条/分钟)
  - Token 管理与认证
- 添加 ChatMessage.gd/tscn 消息气泡 UI 组件
- 添加 ChatUI.gd/tscn 聊天界面
- 在 EventNames.gd 添加 7 个聊天事件常量
- 在 AuthManager.gd 添加 game_token 管理方法
- 添加完整的单元测试(128 个测试用例)
  - test_socketio_client.gd (42 个测试)
  - test_websocket_manager.gd (38 个测试)
  - test_chat_manager.gd (48 个测试)

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2026-01-07 17:42:31 +08:00
lzdFeiFei
7b85147994 chore: 合并 main 分支,统一 CLAUDE.md 格式规范 
合并 main 分支对 CLAUDE.md 的格式改进,同时保留 feature 分支新增的标准开发工作流(第 8 节)。

主要改动:
- 更新 Godot 版本要求从 4.2+ 到 4.5+
- 规范化 Markdown 格式(代码块、粗体、列表)
- 保留新增的「Standard Development Workflow」章节
- 调整章节编号(第 9、10 节)

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2026-01-06 19:41:29 +08:00
moyin
e3c4d08021 Merge pull request '修正语法错误' (#11) from qbb0530/whale-town-front:main into main 
Reviewed-on: #11
 2026-01-05 11:28:13 +08:00
王浩
3bdda47191 修正语法错误 2026-01-04 17:17:34 +08:00
lzdFeiFei
43e0c2b928 feat:添加whaletown-developer标准开发工作流技能 
- 创建whaletown-developer skill自动化7步开发流程
- 添加完整的使用说明文档和质量检查清单
- 更新CLAUDE.md集成标准开发工作流说明
- 新增标准开发工作流详细文档

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2026-01-04 00:46:48 +08:00
moyin
3d6c4e5356 Merge pull request 'feature/网格瓦片系统' (#9) from feature/网格瓦片系统 into main 
Reviewed-on: #9
 2026-01-03 22:40:55 +08:00
moyin
c621d70475 chore:清理空的占位文件 
- 删除sprites目录下的空.gitkeep文件
- 删除tools目录下的空README.md文件
 2026-01-03 22:37:04 +08:00
moyin
f527fa3c38 docs:添加网格瓦片系统功能文档 
- 详细说明32x32网格系统的使用方法
- 包含核心组件介绍和API参考
- 提供编辑器和代码使用示例
 2026-01-03 22:35:36 +08:00
moyin
e9fa21280e scene:创建广场地图场景并添加环境瓦片资源 
- 新增square.tscn广场地图场景
- 添加多种环境瓦片纹理资源
- 包含草地、地板、路缘等瓦片素材
 2026-01-03 22:35:13 +08:00
moyin
a3d384d39d style:统一代码文件末尾换行格式 2026-01-03 22:33:56 +08:00
moyin
ced69fd4b6 scene:创建草地瓦片预制体 
- 实现GrassTile组件,支持32x32网格对齐
- 添加自动纹理验证和占位符生成
- 提供网格位置设置和世界坐标转换
- 包含位置变化信号和调试功能
 2026-01-03 22:30:03 +08:00
moyin
7a6e5be4f8 config:更新核心配置支持网格系统 
- EventNames添加网格相关事件定义
- ProjectPaths添加网格系统和地形资源路径
 2026-01-03 22:28:29 +08:00
moyin
ba5b0daa13 feat:实现32x32网格系统核心功能 
- 添加GridSystem类提供网格坐标转换
- 支持世界坐标与网格坐标互转
- 提供位置吸附和距离计算方法
- 包含网格区域和边界检查功能
 2026-01-03 22:28:06 +08:00
moyin
83404d031e Merge pull request 'feature/auth-system-refactor' (#8) from feature/auth-system-refactor into main 
Reviewed-on: #8
 2026-01-02 21:25:30 +08:00
moyin
709242d223 docs:更新项目结构说明和路径配置 
- 更新ProjectPaths.gd中的路径常量
- 更新项目结构说明文档
- 清理临时测试文件的uid引用

确保文档与实际项目结构保持一致
 2026-01-02 21:20:31 +08:00
moyin
2f1ccbc2cd docs:为核心管理器添加详细中文注释 
- GameManager.gd:游戏状态管理注释
- NetworkManager.gd:网络请求管理注释
- SceneManager.gd:场景切换管理注释
- StringUtils.gd:字符串工具函数注释

按照docs注释规范,添加文件头、函数说明、参数描述和使用示例
方便协同开发者快速理解和调用
 2026-01-02 21:19:53 +08:00
moyin
aaaf2b31a8 fix:修复EventSystem中的GDScript语法错误 
- 移除不支持的try/except语句
- 改为直接调用回调函数
- 确保EventSystem能正常编译运行
 2026-01-02 21:19:25 +08:00
moyin
93baf1a5b5 refactor:统一AuthScene命名规范 
- 将LoginWindow.tscn重命名为AuthScene.tscn
- 更新MainScene.tscn中的场景引用路径
- 实现命名一致性:
  - 场景文件:AuthScene.tscn
  - 脚本文件:AuthScene.gd
  - 节点名称:AuthScene
- AuthScene比LoginWindow更准确描述功能(登录+注册)
 2026-01-02 21:19:04 +08:00
moyin
5f915c61b6 refactor:AuthScene解耦重构,实现视图与业务逻辑分离 
- 创建AuthManager.gd:负责所有认证业务逻辑
  - 用户登录/注册逻辑
  - 表单验证逻辑
  - 验证码管理逻辑
  - 网络请求管理

- 创建ToastManager.gd:负责Toast消息管理
  - Toast创建和显示
  - 动画和生命周期管理
  - 支持成功/失败样式

- 重构AuthScene.gd:纯视图层实现
  - 只负责UI交互和显示
  - 通过信号与业务层通信
  - 移除所有业务逻辑代码

- 修复GDScript警告:
  - 未使用参数添加下划线前缀
  - 修复变量名与基类方法冲突
  - 修复EventSystem中的try语法错误
  - 修复AuthManager中的方法名不匹配错误

符合docs中的架构要求,实现完全解耦
 2026-01-02 21:18:38 +08:00
moyin
d256249789 refactor:将MainScene移动到scenes根目录 
- 将MainScene从scenes/Maps/移动到scenes/根目录
- 更新project.godot中的主场景路径配置
- 符合项目结构规范,MainScene作为图像显示入口文件
 2026-01-02 21:17:56 +08:00
moyin
29c6740870 Merge pull request 'feature/project-structure-refactor' (#7) from feature/project-structure-refactor into main 
Reviewed-on: #7
 2026-01-02 01:03:07 +08:00
moyin
7b1affa360 Merge branch 'main' into feature/project-structure-refactor 2026-01-02 01:02:59 +08:00
moyin
fa360e1c78 docs:更新项目文档以反映新的结构变更 
- 更新 README.md 中的项目结构说明
- 修订项目结构说明文档,反映最新的目录组织
- 确保文档与实际项目结构保持同步
 2026-01-02 00:59:25 +08:00
moyin
d80feaa02b test:更新测试文件以适配新的项目结构 
- 更新 auth_ui_test.tscn 中的场景引用路径
- 修复 enhanced_toast_test.gd 中的脚本路径引用
- 确保测试文件与重构后的项目结构保持一致
 2026-01-02 00:59:05 +08:00
moyin
f1a60137e1 fix:修复代码警告和UID冲突问题 
- 更新 ProjectPaths.gd 中的路径引用,适配新的目录结构
- 修复 SceneManager.gd 中的场景路径问题
- 更新 project.godot 配置,修复 AutoLoad 路径
- 修复 MainScene 相关文件的 UID 冲突
- 解决代码中的路径引用警告
 2026-01-02 00:58:51 +08:00
moyin
3175c98ea3 refactor:实现新的项目结构组织 
- 添加 _Core/components/ 和 _Core/utils/ 目录
- 重新组织 scenes/ 目录结构,按功能分类
- 迁移 StringUtils.gd 到新的 _Core/utils/ 位置
- 迁移 AuthScene.gd 到新的 scenes/ui/ 位置
- 添加 AI 文档支持目录 docs/AI_docs/
- 添加开发参考文档 claude.md
 2026-01-02 00:58:34 +08:00
moyin
a18c7a54b1 refactor:重构项目结构,删除旧的文件组织 
- 删除旧的 UI/Windows/ 目录下的认证相关文件
- 删除旧的 Utils/ 目录下的工具类文件
- 删除旧的 scenes/Components/ 目录结构
- 为新的目录结构让路
 2026-01-02 00:58:16 +08:00
moyin
fca3eb79dd chore:清理临时文档文件 
- 删除迁移完成标记文件 MIGRATION_COMPLETE.md
- 删除重构说明文件 REFACTORING.md
- 删除结构对比文件 STRUCTURE_COMPARISON.md
- 删除临时文档 cloude.md
 2026-01-02 00:57:53 +08:00
moyin
e128328d93 Merge pull request 'fix: 修复GDScript警告和UID冲突问题' (#6) from fix/code-warnings-and-uid-conflicts into main 
Reviewed-on: #6
 2025-12-31 19:36:48 +08:00
moyin
fdedb21cbd fix: 修复GDScript警告和UID冲突问题 
代码修复:
- NetworkManager.gd: 修复参数名冲突和未使用变量警告
- StringUtils.gd: 修复变量名与内置函数char冲突
- ResponseHandler.gd: 移除static关键字,改为实例方法
- AuthScene.gd: 恢复正确的ResponseHandler调用方式

 资源清理:
- 删除assets/sprites/icon/下的重复图标文件
- 删除UI/Theme/下的重复字体和主题文件
- 统一使用assets/路径下的资源文件

 配置修复:
- 修复LoginWindow.tscn和main_scene.tscn中的UID引用
- 更新chinese_theme.tres中的字体路径引用
- 添加project.godot调试设置以减少渲染器警告

 文档更新:
- 更新项目设置指南中的主题和字体路径引用

解决问题:
-  修复所有GDScript编译警告
-  解决UID重复冲突警告
-  统一资源文件路径结构
-  保持Web部署兼容性
 2025-12-31 19:35:20 +08:00
moyin
d49983079a Merge pull request 'fix/verification-code-button-state' (#5) from fix/verification-code-button-state into main 
Reviewed-on: #5
 2025-12-31 19:00:19 +08:00
moyin
51e79c6c6d Merge branch 'main' into fix/verification-code-button-state 2025-12-31 19:00:09 +08:00
moyin
0edd1c740b docs: 完善项目文档和README,修复字符显示问题 
- 修复README.md中的emoji字符显示问题
- 移除文档质量评级系统
- 添加贡献者致谢部分,创建详细的CONTRIBUTORS.md
- 创建核心系统文件EventNames.gd和ProjectPaths.gd
- 更新项目配置文件project.godot,添加输入映射
- 完善各模块文档,修正路径引用问题
- 创建文档更新日志CHANGELOG.md
- 优化文档结构和导航系统
 2025-12-31 18:58:38 +08:00
moyin
a85a7b4d0e docs: 完善项目入门README,强调输入映射配置的重要性 
发现的关键问题:
- 项目代码中使用了输入映射,但project.godot中未配置
- 缺少输入映射会导致游戏无法正常运行

 主要改进:
- 强调输入映射配置为必需步骤
- 添加重要提醒和警告标识
- 新增常见启动问题排查指南
- 明确列出必需的6个输入动作
- 完善完成检查清单

 问题排查:
- 游戏无法响应输入  输入映射未配置
- Invalid action错误  缺少必需输入动作
- AutoLoad单例报错  配置验证问题

 确保新人成功:
- 明确标注必需步骤的优先级
- 提供具体的错误解决方案
- 强调验证配置的重要性
 2025-12-31 18:17:58 +08:00
moyin
51d2ad1629 docs: 修正项目设置指南,确保信息准确 
修正的问题:
- 路径错误: core/managers/  _Core/managers/
- 补充完整的AutoLoad配置列表 (5个单例)
- 修正NetworkManager.login()方法调用方式
- 添加实际的project.godot配置验证

 新增内容:
- 完整的AutoLoad配置表格
- 其他重要项目设置 (主题、渲染、窗口)
- 详细的验证测试代码
- 常见问题排查指南
- 配置检查清单

 确保准确性:
- 所有路径基于实际项目结构验证
- 代码示例基于实际API接口
- 配置信息与project.godot文件一致
 2025-12-31 18:13:08 +08:00
moyin
6f545b04e9 docs: 更新项目结构说明,匹配实际项目结构 
主要更新:
- 根据实际项目目录结构重写文档
- 明确三类团队协作模式:开发、美术、策划
- 详细说明每个目录的职责和使用方式
- 添加团队协作指南和工作流程
- 提供实际的代码示例和配置示例

 新增内容:
- 团队协作模式说明 (开发/美术/策划)
- 详细的目录结构和文件说明
- 开发工作流和版本发布流程
- 最佳实践和规范要求

 确保准确性:
- 所有目录结构都基于实际项目检查
- 文件路径和命名完全匹配当前状态
- 团队职责划分清晰明确
 2025-12-31 18:08:31 +08:00
moyin
1ff677b3b2 docs: 重新组织文档结构,按开发阶段分类 
新的目录结构:
  01-项目入门/     # 新人必读,项目基础
  02-开发规范/     # 编码标准和规范
  03-技术实现/     # 具体开发指导
  04-高级开发/     # 进阶开发技巧
  05-部署运维/     # 发布和部署
  06-功能模块/     # 特定功能文档

 新增导航文档:
- docs/README.md - 完整的文档导航和使用指南
- 各目录下的README.md - 分类说明和使用指导

 优化效果:
- 开发者可以按阶段快速定位需要的文档
- 新人有清晰的学习路径
- 不同角色有针对性的文档推荐
- 提供了问题导向的快速查找功能
 2025-12-31 18:02:16 +08:00
moyin
2998fd2d11 docs: 补充开发规范相关文档 
新增文档:
- docs/输入映射配置.md - 游戏输入配置指南
- docs/架构与通信规范.md - 项目架构和组件通信规范
- docs/实现细节规范.md - 游戏对象具体实现要求
- docs/开发哲学与最佳实践.md - 开发理念和编程最佳实践

 覆盖内容:
- 输入映射的配置方法和验证
- EventSystem事件系统使用规范
- 玩家、NPC、TileMap的实现标准
- 代码质量标准和审查清单
- 性能优化和资源管理指导

这些文档补充了开发规范.md中提到但在docs目录中缺失的内容
 2025-12-31 17:50:19 +08:00
moyin
60edcc9868 docs: 文档中文化和清理 
新增:
- 开发规范.md (翻译自CLAUDE.md)

 重命名为中文:
- project_structure.md  项目结构说明.md
- naming_convention.md  命名规范.md
- code_comment_guide.md  代码注释规范.md
- git_commit_guide.md  Git提交规范.md
- api-documentation.md  API接口文档.md
- network_manager_setup.md  网络管理器设置.md
- setup.md  项目设置指南.md
- testing_guide.md  测试指南.md
- web_deployment_guide.md  Web部署指南.md
- module_development.md  模块开发指南.md
- performance_optimization.md  性能优化指南.md
- scene_design.md  场景设计规范.md
- auth/form_validation.md  auth/表单验证规范.md
- auth/testing_guide.md  auth/认证测试指南.md

 删除总结性文档:
- final_update_summary.md
- web_deployment_changelog.md
- CLAUDE.md
 2025-12-31 17:45:04 +08:00
moyin
d25d8d4dd3 Merge pull request 'fix/verification-code-button-state' (#4) from fix/verification-code-button-state into main 
Reviewed-on: #4
 2025-12-31 17:28:45 +08:00
moyin
190b6c9a66 docs: 清理总结性文档,保留规范类文档 
- 删除 docs/CONTRIBUTORS.md (总结性文档)
- 删除 docs/api_update_log.md (已不存在)
- 删除 docs/cleanup_summary.md (已不存在)
- 保留 docs/module_development.md (开发规范)
- 保留 docs/performance_optimization.md (性能规范)
- 保留 docs/scene_design.md (设计规范)
 2025-12-31 17:27:13 +08:00
moyin
899bc5d5d0 merge: 解决README.md合并冲突,保留main分支内容并整合当前分支特性 2025-12-31 17:21:53 +08:00
moyin
e657cfce0e Merge pull request 'refactor:重构项目架构为分层结构' (#3) from qbb0530/whale-town-front:refactor/项目结构重构 into main 
Reviewed-on: #3
 2025-12-31 16:35:24 +08:00
王浩
b9182bbc2e docs:完善 CLAUDE.md 为 AI 开发规范文档 
## 🎯 主要改进

### 1. 明确项目定位
- 清晰定义 "WhaleTown" 为 2D 俯视像素风 RPG
- 指定 Godot 4.2+ 引擎(禁止 3.x 语法)
- 强调分层架构:`_Core`(框架)、`Scenes`(玩法)、`UI`(界面)

### 2. 完善开发规范
-  添加 Input Map 配置(WASD、交互键、暂停键)
-  明确文件路径规则(STRICT LOWERCASE)
-  添加 EventNames.gd 示例代码
-  完善测试代码示例(GUT 框架)
-  优化代码模板(分区注释)

### 3. 强化技术约束
- 📋 严格类型系统(强制静态类型)
- 🏛 事件驱动架构(EventSystem 解耦)
- 🚫 禁止模式列表(yield、Linear Filter 等)
-  必须测试覆盖(所有 Core 管理器)

### 4. 代码模板改进
- 添加结构化注释(Exports、References、Lifecycle、Methods)
- 展示最佳实践(@onready、%UniqueName、私有方法前缀)
- 包含完整的玩家移动示例

### 5. AI 指令优化
- 直接对 AI 说话("Claude: Root folders MUST be lowercase")
- 明确的优先级(STRICT、The Law、MANDATORY)
- 提供决策指南(Area2D vs Body、Enum vs StateChart)

## 📊 文档结构
- 90 行,精炼完整
- Emoji 视觉层级(🛠 命令、📂 文件、📋 标准、🏛 架构)
- 覆盖:文件组织、编码标准、架构设计、测试要求、代码模板

##  质量提升
- 统一路径大小写(tests/ 而非 Tests/)
- 添加 EventNames.gd 完整示例
- 完善测试代码(watch_signals、assert_signal_emitted)
- 明确 Godot 版本约束(4.2+)

## 🎯 目标
为 AI 提供清晰、严格、可执行的开发规范,
确保代码质量和架构一致性。

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-31 16:32:54 +08:00
王浩
642a99970c docs:添加项目开发规范文档 CLAUDE.md 
## 📋 新增内容

添加了完整的 Claude Code 开发规范文档,包括:

### 核心规范
- **项目概述**: 2D 俯视像素风 RPG 游戏架构
- **编码标准**:
  - 严格类型系统
  - 统一命名规范(PascalCase, snake_case, SCREAMING_SNAKE_CASE)
  - 节点访问规范(@onready, %UniqueName)
  - 最佳实践(await, Callable, Signal Up/Call Down)

### 架构规则
- **解耦原则**: 低层级实体通过 EventSystem 通信
- **场景管理**: 统一使用 SceneManager.change_scene()
- **组件化**: 可复用逻辑封装到 Scenes/Components/

### 实现规范
- **实体结构**:
  - Player: CharacterBody2D + Camera2D
  - NPC: StaticBody2D/CharacterBody2D + InteractionArea
  - Interactables: 共享 InteractableComponent
- **交互系统**: 通过 EventSystem.notify_interaction_triggered()
- **TileMap 规则**: 分层设计(地面、障碍、装饰)

### 文件组织
- 地图: Scenes/Maps/[map_name].tscn
- 实体: Scenes/Entities/[entity_name]/[entity_name].tscn
- 脚本: 与场景文件同目录
- 资源: res://Assets/Sprites/

### 测试标准
- 使用 GUT 测试框架
- 测试文件位置: res://test/unit/ 或 res://test/integration/
- 文件命名: test_*.gd
- 核心逻辑必须有单元测试
- 玩家移动和 NPC 交互需要集成测试

### 开发理念
- 简约至上:函数单一职责
- "栅栏后规则": 即使不可见的代码也要干净优美
- 反馈循环:每个交互都要有特效/音效占位
- 零硬编码:所有路径和配置使用常量或 @export
- "自动工作"的相机:自动检测 TileMap 边界

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-31 16:07:54 +08:00
王浩
0b533189ec refactor:重构项目架构为分层结构 
## 🏗️ 主要变更

### 目录结构重构
- 将 core/ 迁移到 _Core/(框架层)
- 将 scenes/ 重构为 Scenes/(玩法层)和 UI/(界面层)
- 将 data/ 迁移到 Config/(配置层)
- 添加 Assets/ 资源层和 Utils/ 工具层
- 将 scripts/ 迁移到 tools/(开发工具)

### 架构分层
- **_Core/**: 框架层 - 全局单例和管理器
- **Scenes/**: 玩法层 - 游戏场景和实体
- **UI/**: 界面层 - HUD、窗口、对话系统
- **Assets/**: 资源层 - 精灵图、音频、字体
- **Config/**: 配置层 - 游戏配置和本地化
- **Utils/**: 工具层 - 通用辅助脚本

### 文件更新
- 更新 project.godot 中的所有路径引用
- 更新自动加载脚本路径
- 更新测试文件的引用路径
- 添加 REFACTORING.md 详细说明
- 添加 MIGRATION_COMPLETE.md 迁移完成标记
- 更新 README.md 反映新架构

### 设计原则
-  清晰的分层(框架/玩法/界面)
-  场景内聚(脚本紧邻场景文件)
-  组件化设计(可复用组件)
-  职责单一(每个目录职责明确)

## 📋 详细信息
查看 REFACTORING.md 了解完整的重构说明和迁移映射表

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-31 11:36:01 +08:00
moyin
b1f3c0feff Merge pull request 'feature/网络管理和Web部署系统' (#2) from feature/网络管理和Web部署系统 into main 
Reviewed-on: #2
 2025-12-25 23:17:30 +08:00
moyin
021c8623f8 docs:更新主要项目文档 
- 更新README添加Web部署说明
- 精简API文档,移除冗余内容
- 添加新功能使用指南
- 完善项目架构说明
 2025-12-25 23:14:29 +08:00
moyin
a1b867dfd7 chore:清理废弃的网络测试文件 
- 删除旧的NetworkTest.gd测试文件
- 移除对应的UID文件
- 统一使用新的ApiTestScript替代
 2025-12-25 23:14:09 +08:00
moyin
d17c766246 test:增强认证模块测试覆盖 
- 添加认证UI自动化测试
- 实现增强型Toast消息测试
- 完善用户交互测试用例
- 提高测试代码覆盖率
 2025-12-25 23:13:49 +08:00
moyin
92c4eaed07 refactor:重构认证场景和网络集成 
- 重构AuthScene脚本,集成新的NetworkManager
- 优化用户界面布局和交互逻辑
- 改进错误处理和用户反馈机制
- 统一网络请求处理流程
 2025-12-25 23:12:49 +08:00
moyin
abd683c766 config:更新项目配置支持Web导出 
- 启用Web导出功能
- 配置中文字体支持
- 更新项目设置和资源路径
- 优化Web版本性能配置
 2025-12-25 23:10:28 +08:00
moyin
a05bac6f05 docs:添加完整的项目文档体系 
- 添加Web部署完整指南和更新日志
- 创建网络管理器配置文档
- 完善项目设置和测试指南
- 添加API更新日志和清理总结
- 更新脚本使用说明文档
 2025-12-25 23:09:59 +08:00
moyin
77af0bda39 test:完善API测试框架 
- 添加Godot内置API测试脚本
- 实现Python API客户端测试套件
- 添加快速测试和完整测试脚本
- 支持跨平台测试运行(Windows/Linux)
- 更新测试文档和使用指南
 2025-12-25 23:09:12 +08:00
moyin
8980e3d558 feat:添加字符串工具类 
- 实现邮箱格式验证功能
- 添加密码强度检查
- 提供字符串清理和格式化方法
- 支持中文字符处理
 2025-12-25 23:07:47 +08:00
moyin
1294529d13 asset:添加UI资源和中文字体支持 
- 添加微软雅黑字体文件支持中文显示
- 导入Datawhale官方Logo图标
- 创建中文主题配置文件
- 完善游戏图标资源目录
 2025-12-25 23:06:50 +08:00
moyin
0935c5fd76 feat:添加Web版本自动化部署系统 
- 实现跨平台Web导出脚本(Windows/Linux/macOS)
- 添加本地测试服务器启动脚本
- 配置Godot Web导出预设
- 创建Web资源目录结构
- 支持一键导出和本地测试
 2025-12-25 23:06:29 +08:00
moyin
c0f5d6a537 docs:添加性能优化指南 
- 创建全面的性能优化文档
- 涵盖渲染、内存、脚本、网络等各方面优化
- 提供具体的代码示例和最佳实践
- 包含性能监控和调试工具使用方法
- 为开发者提供系统的性能优化指导
 2025-12-24 20:51:45 +08:00
moyin
0b6b1c2040 docs:完善前端项目文档体系 
- 重构README文档,参考后端结构优化内容组织
- 添加模块开发指南,详细说明模块化开发流程
- 创建场景设计规范,规范场景架构和最佳实践
- 建立贡献者名单,记录团队成员和贡献统计
- 完善技术栈介绍和功能特性说明
- 优化文档结构和导航,提升开发者体验
 2025-12-24 20:50:31 +08:00
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{
"permissions": {
"allow": [
"Skill(whaletown-developer)"
]
}
}

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---
name: whaletown-developer
description: Automate WhaleTown project's standard development workflow. Use this skill when implementing features, fixing bugs, creating scenes, or any code development tasks. Guides through 7-step process - architecture analysis, implementation, comment/naming validation, testing, and Git commit generation following project conventions.
---
# WhaleTown Standard Development Workflow Skill
This skill automates the standard development workflow for the WhaleTown project, ensuring all developers follow unified specifications and quality standards.
## When to Use This Skill
Activate this skill when:
- Implementing new features ("实现XX功能", "添加XX系统")
- Fixing bugs ("修复XX Bug", "解决XX问题")
- Creating scenes ("创建XX场景", "设计XX界面")
- Developing modules ("开发XX模块", "构建XX组件")
- Any code development task requiring adherence to project standards
## Development Workflow Overview
```
Step 1: Architecture Analysis (读取架构规范)
Step 2: Implementation (按规范编码)
Step 3: Comment Validation (注释规范检查)
Step 4: Naming Validation (命名规范检查)
Step 5: Test Writing (编写测试代码)
Step 6: Test Execution (运行测试验证)
Step 7: Git Commit (生成规范提交信息)
```
## Step-by-Step Workflow
### Step 1: Architecture Analysis
Read and apply the architecture specifications before implementation.
**Actions:**
1. Read `docs/02-开发规范/架构与通信规范.md`
2. Determine file location based on feature type:
- Core systems → `_Core/managers/` or `_Core/systems/`
- Game scenes → `scenes/Maps/`, `scenes/Entities/`, `scenes/Components/`
- UI components → `scenes/ui/`
3. Identify communication method (MUST use EventSystem for cross-module communication)
4. List dependencies (required managers and systems)
5. Design event definitions (add to `_Core/EventNames.gd`)
**Layered Architecture:**
```
UI Layer (界面层) → scenes/ui/
Scenes Layer (游戏层) → scenes/Maps/, scenes/Entities/
_Core Layer (框架层) → _Core/managers/, _Core/systems/
```
**Communication Principle:** "Signal Up, Call Down"
- Parents call child methods (downward calls)
- Children emit signals to notify parents (upward signals)
- Cross-module communication MUST use EventSystem
### Step 2: Implementation
Implement the feature following strict project conventions.
**Requirements:**
- **Type Safety**: All variables and functions MUST have type annotations
```gdscript
var speed: float = 200.0
func move(delta: float) -> void:
```
- **Godot 4.2+ Syntax**: NO `yield()`, use `await`
- **Node Caching**: Use `@onready` to cache node references, avoid `get_node()` in `_process()`
- **EventSystem Communication**: Use EventSystem for cross-module messaging
```gdscript
EventSystem.emit_event(EventNames.PLAYER_MOVED, {"position": global_position})
EventSystem.connect_event(EventNames.INTERACT_PRESSED, _on_interact_pressed)
```
- **Nearest Filter**: All Sprite2D/TileMap resources MUST use Nearest filter (no Linear filter)
- **AutoLoad Restrictions**: Only GameManager, SceneManager, EventSystem, NetworkManager, ResponseHandler allowed as autoloads
- **Low-level Entities**: Do NOT directly reference GameManager in Player/NPC entities, use events instead
### Step 3: Comment Validation
Ensure code comments meet project standards.
**Actions:**
1. Read `docs/02-开发规范/代码注释规范.md`
2. Verify file header comment is complete:
```gdscript
# ============================================================================
# 文件名: FeatureName.gd
# 作用: 简短描述功能
#
# 主要功能:
# - 功能点1
# - 功能点2
#
# 依赖: 列出依赖的管理器/系统
# 作者: [开发者名称]
# 创建时间: YYYY-MM-DD
# ============================================================================
```
3. Verify all public functions have complete documentation:
```gdscript
# 函数功能描述
#
# 参数:
# param_name: Type - 参数说明
#
# 返回值:
# Type - 返回值说明
#
# 使用示例:
# var result = function_name(param)
func function_name(param: Type) -> ReturnType:
```
4. Ensure complex logic has inline comments explaining WHY, not WHAT
### Step 4: Naming Validation
Verify all naming follows project conventions.
**Actions:**
1. Read `docs/02-开发规范/命名规范.md`
2. Validate naming conventions:
- **Class names**: PascalCase (`class_name PlayerController`)
- **Variables/Functions**: camelCase (`var moveSpeed: float`, `func updateMovement()`)
- **Constants**: UPPER_CASE (`const MAX_HEALTH: int = 100`)
- **Private members**: Underscore prefix (`var _velocity: Vector2`)
- **Scene files**: snake_case with suffix (`player_scene.tscn`, `enemy_prefab.tscn`)
- **Script files**: PascalCase.gd (`PlayerController.gd`, `GameManager.gd`)
**Common Patterns:**
```gdscript
# ✅ Correct
const MAX_SPEED: float = 300.0
var currentHealth: int
var _isInitialized: bool = false
func getPlayerPosition() -> Vector2:
func _calculateDamage(baseDamage: int) -> int:
# ❌ Incorrect
const maxSpeed: float = 300.0 # Constants must be UPPER_CASE
var CurrentHealth: int # Variables must be camelCase
var is_initialized: bool = false # No snake_case for variables
func GetPlayerPosition() -> Vector2: # Functions must be camelCase
```
### Step 5: Test Writing
Create unit tests for the implemented functionality.
**Actions:**
1. Read `docs/03-技术实现/测试指南.md`
2. For _Core/ managers/systems, MUST create corresponding test file in `tests/unit/`
3. Test file naming: `test_[name].gd`
4. Test file structure:
```gdscript
extends GutTest
## [FeatureName] 单元测试
var feature: FeatureName
func before_each():
feature = preload("res://_Core/managers/FeatureName.gd").new()
add_child(feature)
func after_each():
feature.queue_free()
func test_initialization():
var result = feature.initialize()
assert_true(result, "Feature should initialize successfully")
func test_core_functionality():
# Test core functionality
pass
```
### Step 6: Test Execution
Run tests to ensure code quality.
**Actions:**
1. Run GUT tests using Bash tool:
```bash
godot --headless -s addons/gut/gut_cmdline.gd -gdir=res://tests/ -ginclude_subdirs
```
2. Verify all tests pass
3. If tests fail:
- Identify the root cause
- Fix the implementation or test
- Re-run tests until all pass
### Step 7: Git Commit
Generate standardized Git commit message.
**Actions:**
1. Read `docs/02-开发规范/Git提交规范.md`
2. Determine commit type based on changes:
- `feat` - New features
- `fix` - Bug fixes
- `docs` - Documentation updates
- `refactor` - Code refactoring
- `perf` - Performance optimization
- `test` - Test additions/modifications
- `scene` - Scene file changes
- `ui` - UI related changes
3. Generate commit message using Chinese colon ():
```
<类型><简短描述>
[可选的详细描述]
```
4. Follow principles:
- **One commit, one change** - Most important rule
- Use imperative verbs (添加, 修复, 更新)
- Keep description concise (< 50 characters)
- If multiple types of changes, split into separate commits
**Examples:**
```bash
# ✅ Good commits
git commit -m "feat实现玩家二段跳功能"
git commit -m "fix修复角色跳跃时的碰撞检测问题"
git commit -m "test添加角色控制器单元测试"
# ❌ Bad commits
git commit -m "fix + feat修复Bug并添加新功能" # Mixed types
git commit -m "update player" # Vague, English
```
## Progress Tracking
Use TodoWrite tool to track workflow progress:
```gdscript
TodoWrite.create_todos([
"Step 1: 架构分析 - 读取架构规范",
"Step 2: 功能实现 - 按规范编码",
"Step 3: 注释规范检查",
"Step 4: 命名规范检查",
"Step 5: 测试代码编写",
"Step 6: 测试验证 - 运行测试",
"Step 7: Git 提交 - 生成提交信息"
])
```
Mark each step as `completed` immediately after finishing.
## Quality Checklist
Before completing the workflow, verify:
- [ ] File location follows layered architecture (_Core, scenes, UI)
- [ ] Uses EventSystem for cross-module communication
- [ ] Event names added to EventNames.gd
- [ ] All variables and functions have type annotations
- [ ] Naming conventions correct (PascalCase/camelCase/UPPER_CASE)
- [ ] File header comment complete
- [ ] Public functions have complete documentation
- [ ] Unit tests created and passing
- [ ] Git commit message follows specification
- [ ] No Godot 3.x syntax (yield → await)
- [ ] Node references cached with @onready
- [ ] Sprite2D/TileMap use Nearest filter
## Reference Documents
The skill automatically reads these documents at appropriate steps:
- Architecture: `docs/02-开发规范/架构与通信规范.md`
- Comments: `docs/02-开发规范/代码注释规范.md`
- Naming: `docs/02-开发规范/命名规范.md`
- Testing: `docs/03-技术实现/测试指南.md`
- Git: `docs/02-开发规范/Git提交规范.md`
- Project Instructions: `claude.md` (root directory)
For detailed checklist reference, see `references/checklist.md` in this skill directory.
## Example Workflow
User request: "实现玩家二段跳功能"
1. **Architecture Analysis** ✅
- Read architecture spec
- Target: `scenes/Entities/Player/Player.gd`
- Communication: Emit `PLAYER_DOUBLE_JUMPED` event
- Dependencies: EventSystem, Input
- Event: Add `PLAYER_DOUBLE_JUMPED` to EventNames.gd
2. **Implementation** ✅
- Create double jump logic with type annotations
- Use EventSystem.emit_event() for notifications
- Cache references with @onready
- Use await instead of yield
3. **Comment Validation** ✅
- Add file header with feature description
- Document double jump function parameters
- Add inline comments for jump logic
4. **Naming Validation** ✅
- Verify: `var canDoubleJump: bool` (camelCase)
- Verify: `const MAX_DOUBLE_JUMPS: int` (UPPER_CASE)
- Verify: `func performDoubleJump()` (camelCase)
5. **Test Writing** ✅
- Create `tests/unit/test_player_double_jump.gd`
- Test initialization, jump execution, limits
6. **Test Execution** ✅
- Run: `godot --headless -s addons/gut/gut_cmdline.gd`
- All tests pass ✅
7. **Git Commit** ✅
```bash
git add scenes/Entities/Player/Player.gd _Core/EventNames.gd tests/unit/test_player_double_jump.gd
git commit -m "feat实现玩家二段跳功能"
```
## Notes
- This skill enforces quality standards through automated validation
- Each step builds upon the previous, ensuring comprehensive quality control
- Skipping steps will result in incomplete or non-compliant code
- The 7-step workflow is designed for team consistency and maintainability

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# WhaleTown Development Quality Checklist
快速参考检查清单,用于验证代码是否符合项目规范。
## 架构检查清单
### 文件位置
- [ ] 核心系统文件位于 `_Core/managers/``_Core/systems/`
- [ ] 游戏场景文件位于 `scenes/Maps/`, `scenes/Entities/`, `scenes/Components/`
- [ ] UI 组件文件位于 `scenes/ui/`
- [ ] 测试文件位于 `tests/unit/``tests/integration/`
### 通信方式
- [ ] 跨模块通信使用 EventSystem
- [ ] 新增事件定义在 `_Core/EventNames.gd`
- [ ] 遵循 "Signal Up, Call Down" 原则
- [ ] 父节点调用子节点方法(向下调用)
- [ ] 子节点发出信号通知父节点(向上信号)
### 依赖管理
- [ ] 仅使用允许的自动加载GameManager, SceneManager, EventSystem, NetworkManager, ResponseHandler
- [ ] 底层实体Player, NPC不直接访问 GameManager
- [ ] 底层实体通过事件系统与全局管理器通信
---
## 代码规范检查清单
### 类型安全
- [ ] 所有变量都有类型注解:`var speed: float = 200.0`
- [ ] 所有函数都有参数和返回值类型:`func move(delta: float) -> void:`
- [ ] 常量都有类型注解:`const MAX_HEALTH: int = 100`
### Godot 4.2+ 语法
- [ ] 使用 `await` 代替 `yield()`
- [ ] 使用 `@onready` 缓存节点引用
- [ ] 避免在 `_process()` 中使用 `get_node()`
- [ ] 信号连接使用 `.connect()` 语法
### 资源设置
- [ ] 所有 Sprite2D 使用 Nearest 滤镜(不使用 Linear
- [ ] 所有 TileMap 使用 Nearest 滤镜
---
## 命名规范检查清单
### 类名
- [ ] 使用 PascalCase`class_name PlayerController`
- [ ] 文件名与类名一致:`PlayerController.gd`
### 变量
- [ ] 公共变量使用 camelCase`var moveSpeed: float`
- [ ] 私有变量使用下划线前缀:`var _velocity: Vector2`
- [ ] 布尔变量使用 is/has/can 前缀:`var isJumping: bool`
### 函数
- [ ] 使用 camelCase`func updateMovement()`
- [ ] 获取函数使用 `get` 前缀:`func getPlayerPosition()`
- [ ] 设置函数使用 `set` 前缀:`func setHealth(value: int)`
- [ ] 判断函数使用 `is/has/can` 前缀:`func isAlive()`, `func canJump()`
- [ ] 私有函数使用下划线前缀:`func _calculateDamage()`
### 常量
- [ ] 使用 UPPER_CASE`const MAX_HEALTH: int = 100`
- [ ] 使用下划线分隔:`const JUMP_FORCE: float = -400.0`
### 枚举
- [ ] 枚举类型使用 PascalCase`enum PlayerState`
- [ ] 枚举值使用 UPPER_CASE`IDLE, WALKING, RUNNING`
### 文件命名
- [ ] 脚本文件PascalCase.gd (`PlayerController.gd`)
- [ ] 场景文件snake_case_scene.tscn (`main_scene.tscn`)
- [ ] 预制体文件snake_case_prefab.tscn (`player_prefab.tscn`)
- [ ] 资源文件snake_case (`sprite_player_idle.png`)
---
## 注释规范检查清单
### 文件头注释
- [ ] 包含文件名
- [ ] 包含作用描述
- [ ] 列出主要功能
- [ ] 列出依赖的管理器/系统
- [ ] 包含作者和创建时间
示例:
```gdscript
# ============================================================================
# 文件名: PlayerController.gd
# 作用: 玩家角色控制器,处理玩家输入和移动逻辑
#
# 主要功能:
# - 处理键盘和手柄输入
# - 控制角色移动和跳跃
# - 管理角色状态切换
#
# 依赖: EventSystem, InputManager
# 作者: [开发者名称]
# 创建时间: 2025-01-03
# ============================================================================
```
### 函数注释
- [ ] 公共函数有完整注释
- [ ] 包含功能描述
- [ ] 列出参数说明(名称、类型、含义)
- [ ] 说明返回值(类型、含义)
- [ ] 提供使用示例(对于复杂函数)
- [ ] 标注注意事项(如果有)
示例:
```gdscript
# 处理玩家输入并更新移动状态
#
# 参数:
# delta: float - 帧时间间隔
#
# 返回值: 无
#
# 注意事项:
# - 需要在 _physics_process 中调用
# - 会自动处理重力和碰撞
func handleMovement(delta: float) -> void:
```
### 行内注释
- [ ] 复杂逻辑有注释说明
- [ ] 注释解释 WHY为什么不解释 WHAT是什么
- [ ] 避免显而易见的注释
- [ ] 使用 TODO/FIXME/NOTE 等标记
---
## 测试规范检查清单
### 测试文件
- [ ] _Core/ 中的管理器/系统都有对应测试文件
- [ ] 测试文件位于 `tests/unit/``tests/integration/`
- [ ] 测试文件命名:`test_[name].gd`
- [ ] 测试文件继承自 GutTest`extends GutTest`
### 测试结构
- [ ] 包含测试类注释
- [ ] 实现 `before_each()` 进行测试前置设置
- [ ] 实现 `after_each()` 进行测试清理
- [ ] 测试方法命名:`test_[功能名称]()`
### 测试覆盖
- [ ] 测试核心功能的正常流程
- [ ] 测试错误处理和边界条件
- [ ] 测试初始化和清理逻辑
- [ ] 所有测试都能通过
示例:
```gdscript
extends GutTest
## PlayerController 单元测试
var player: PlayerController
func before_each():
player = preload("res://scenes/Entities/Player/PlayerController.gd").new()
add_child(player)
func after_each():
player.queue_free()
func test_initialization():
var result = player.initialize()
assert_true(result, "Player should initialize successfully")
func test_movement():
# 测试移动功能
pass
```
---
## Git 提交规范检查清单
### 提交类型
- [ ] 使用正确的提交类型:
- `feat` - 新功能
- `fix` - Bug 修复
- `docs` - 文档更新
- `refactor` - 代码重构
- `test` - 测试相关
- `scene` - 场景文件
- `ui` - UI 相关
### 提交格式
- [ ] 使用中文冒号(:)
- [ ] 描述简洁明了(< 50 字符)
- [ ] 使用动词开头(添加、修复、更新)
- [ ] 一次提交只包含一种类型的改动
### 提交原则
- [ ] 一次提交只做一件事
- [ ] 提交的代码能够正常运行
- [ ] 避免 fix + feat 混合提交
- [ ] 如需多种改动,拆分成多次提交
示例:
```bash
# ✅ 正确
git commit -m "feat实现玩家二段跳功能"
git commit -m "fix修复角色跳跃时的碰撞检测问题"
git commit -m "test添加角色控制器单元测试"
# ❌ 错误
git commit -m "fix + feat修复Bug并添加新功能" # 混合类型
git commit -m "update player" # 描述不清晰,使用英文
git commit -m "fix: 修复Bug" # 使用英文冒号
```
---
## 完整工作流检查清单
使用此清单验证开发任务是否完整执行 7 步工作流:
### Step 1: 架构分析
- [ ] 已读取 `docs/02-开发规范/架构与通信规范.md`
- [ ] 已确定文件位置_Core, scenes, UI
- [ ] 已确定通信方式EventSystem
- [ ] 已列出依赖的管理器/系统
- [ ] 已设计事件定义(如需要)
### Step 2: 功能实现
- [ ] 代码遵循分层架构
- [ ] 所有变量和函数有类型注解
- [ ] 使用 Godot 4.2+ 语法
- [ ] 使用 EventSystem 进行跨模块通信
- [ ] 使用 @onready 缓存节点引用
### Step 3: 注释规范检查
- [ ] 已读取 `docs/02-开发规范/代码注释规范.md`
- [ ] 文件头注释完整
- [ ] 公共函数有完整注释
- [ ] 复杂逻辑有行内注释
### Step 4: 命名规范检查
- [ ] 已读取 `docs/02-开发规范/命名规范.md`
- [ ] 类名使用 PascalCase
- [ ] 变量/函数使用 camelCase
- [ ] 常量使用 UPPER_CASE
- [ ] 私有成员使用下划线前缀
### Step 5: 测试代码编写
- [ ] 已读取 `docs/03-技术实现/测试指南.md`
- [ ] 创建了测试文件 `tests/unit/test_[name].gd`
- [ ] 测试文件继承自 GutTest
- [ ] 编写了核心功能测试
### Step 6: 测试验证
- [ ] 运行了 GUT 测试命令
- [ ] 所有测试通过
- [ ] 如有失败,已修复并重新测试
### Step 7: Git 提交
- [ ] 已读取 `docs/02-开发规范/Git提交规范.md`
- [ ] 生成了符合规范的提交信息
- [ ] 提交类型正确
- [ ] 使用中文冒号
- [ ] 遵循"一次提交只做一件事"原则
---
## 快速自检问题
在提交代码前,问自己以下问题:
1. **架构**: 文件放在正确的位置了吗?
2. **通信**: 是否使用 EventSystem 进行跨模块通信?
3. **类型**: 所有变量和函数都有类型注解吗?
4. **命名**: 命名是否符合规范PascalCase/camelCase/UPPER_CASE
5. **注释**: 文件头和公共函数有完整注释吗?
6. **测试**: 创建并运行测试了吗?所有测试都通过了吗?
7. **提交**: Git 提交信息符合规范吗?
如果以上问题都能回答"是",那么代码已经符合 WhaleTown 项目的质量标准!✅

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# WhaleTown Developer Skill 使用说明
## 📖 简介
`whaletown-developer` 是 WhaleTown 项目的标准开发工作流自动化技能,确保所有开发任务都遵循统一的项目规范和质量标准。
## 🎯 适用场景
在以下情况下使用此 skill
- ✅ 实现新功能("实现玩家二段跳"、"添加存档系统"
- ✅ 修复 Bug"修复角色碰撞问题"、"解决UI显示错误"
- ✅ 创建场景("创建商店场景"、"设计背包界面"
- ✅ 开发模块("开发任务系统"、"构建战斗组件"
- ✅ 任何需要遵循项目规范的代码开发任务
## 🚀 调用方式
### 方式一:通过 Claude推荐
```
用户:帮我实现一个 NPC
Claude/whaletown-developer 实现一个 NPC
```
### 方式二:直接请求
```
用户:使用 whaletown-developer skill 创建玩家移动系统
```
## 📋 7 步工作流程
skill 会自动执行以下标准化流程:
```
Step 1: 架构分析
↓ 读取架构规范,确定文件位置、通信方式、依赖关系
Step 2: 功能实现
↓ 按照类型安全、命名规范、EventSystem 通信等要求编码
Step 3: 注释规范检查
↓ 验证文件头、函数文档、行内注释是否完整
Step 4: 命名规范检查
↓ 验证 PascalCase/camelCase/UPPER_CASE 命名规范
Step 5: 测试代码编写
↓ 为核心功能创建 GUT 单元测试
Step 6: 测试验证
↓ 运行测试确保功能正常
Step 7: Git 提交
↓ 生成符合规范的提交信息
```
## 💡 使用示例
### 示例 1创建玩家控制器
**用户输入:**
```
帮我创建一个玩家角色控制器
```
**Skill 执行:**
1. 分析架构 → 确定放在 `scenes/Entities/Player/PlayerController.gd`
2. 实现功能 → 创建带类型注解的移动、跳跃逻辑
3. 检查注释 → 添加完整的文件头和函数文档
4. 检查命名 → 确保 `moveSpeed``MAX_HEALTH` 等命名正确
5. 编写测试 → 创建 `tests/unit/test_player_controller.gd`
6. 运行测试 → 验证功能正常
7. 生成提交 → `feat实现玩家角色控制器`
### 示例 2修复跳跃 Bug
**用户输入:**
```
修复玩家跳跃时的碰撞检测问题
```
**Skill 执行:**
1. 分析架构 → 定位到 `scenes/Entities/Player/Player.gd`
2. 实现修复 → 修改碰撞检测逻辑
3. 检查注释 → 添加修复说明注释
4. 检查命名 → 确保变量命名规范
5. 编写测试 → 添加碰撞测试用例
6. 运行测试 → 确认 Bug 已修复
7. 生成提交 → `fix修复玩家跳跃时的碰撞检测问题`
### 示例 3添加事件通信
**用户输入:**
```
实现 NPC 对话系统的事件通信
```
**Skill 执行:**
1. 分析架构 → 使用 EventSystem 跨模块通信
2. 实现功能 → 在 EventNames.gd 添加 `NPC_DIALOG_STARTED` 事件
3. 检查注释 → 文档化事件数据格式
4. 检查命名 → 确保事件名称符合规范
5. 编写测试 → 测试事件发送和接收
6. 运行测试 → 验证通信正常
7. 生成提交 → `feat实现NPC对话系统的事件通信`
## ✅ 质量保证
每次使用 skill 后,代码都会符合以下标准:
### 架构层面
- ✅ 文件位置符合分层架构_Core、scenes、UI
- ✅ 使用 EventSystem 实现跨模块通信
- ✅ 事件名称已添加到 EventNames.gd
- ✅ 遵循"Signal Up, Call Down"原则
### 代码质量
- ✅ 所有变量和函数都有类型注解
- ✅ 命名规范正确PascalCase/camelCase/UPPER_CASE
- ✅ 使用 Godot 4.2+ 语法await 而非 yield
- ✅ 节点引用使用 @onready 缓存
### 文档规范
- ✅ 文件头注释完整(文件名、作用、功能、依赖)
- ✅ 公共函数有完整文档(参数、返回值、示例)
- ✅ 复杂逻辑有行内注释说明
### 测试覆盖
- ✅ 核心功能有单元测试
- ✅ 测试文件命名规范test_*.gd
- ✅ 测试通过验证
### Git 规范
- ✅ 提交信息格式正确(类型:描述)
- ✅ 遵循"一次提交只做一件事"原则
- ✅ 使用中文冒号和动词开头
## 📚 相关文档
Skill 会自动读取以下规范文档:
- `docs/02-开发规范/架构与通信规范.md` - 分层架构和 EventSystem
- `docs/02-开发规范/代码注释规范.md` - 注释格式要求
- `docs/02-开发规范/命名规范.md` - 命名约定
- `docs/03-技术实现/测试指南.md` - 测试框架使用
- `docs/02-开发规范/Git提交规范.md` - 提交信息格式
- `CLAUDE.md` - 项目总体指导
## ⚙️ 配置文件
Skill 相关配置文件位置:
```
.claude/skills/whaletown-developer/
├── SKILL.md # Skill 定义文件
├── 使用说明.md # 本文档
└── references/
└── checklist.md # 质量检查清单
```
## 🔄 工作流程可视化
```
用户请求
调用 whaletown-developer skill
[Step 1] 架构分析
├─ 读取架构规范文档
├─ 确定文件位置
├─ 识别通信方式
└─ 设计事件定义
[Step 2] 功能实现
├─ 遵循类型安全
├─ 使用 EventSystem
├─ 缓存节点引用
└─ 使用 Godot 4.2+ 语法
[Step 3] 注释规范检查
├─ 验证文件头注释
├─ 验证函数文档
└─ 检查行内注释
[Step 4] 命名规范检查
├─ 类名 PascalCase
├─ 变量/函数 camelCase
├─ 常量 UPPER_CASE
└─ 私有成员 _prefix
[Step 5] 测试代码编写
├─ 创建测试文件
├─ 编写测试用例
└─ 覆盖核心功能
[Step 6] 测试验证
├─ 运行 GUT 测试
├─ 验证测试通过
└─ 修复失败测试
[Step 7] Git 提交
├─ 确定提交类型
├─ 生成提交信息
└─ 遵循提交规范
完成 ✅
```
## 🎓 最佳实践
### 1. 明确任务描述
```bash
# ✅ 好的描述
"实现玩家二段跳功能"
"修复敌人AI路径寻找Bug"
"创建商店购买界面"
# ❌ 模糊描述
"改一下玩家"
"修复Bug"
"做个界面"
```
### 2. 一次处理一个功能
```bash
# ✅ 推荐
用户:实现玩家移动
用户:实现玩家跳跃
# ❌ 不推荐
用户:实现玩家移动、跳跃、攻击、技能系统
```
### 3. 信任 Skill 流程
- Skill 会按照 7 步流程确保质量
- 不需要手动检查命名、注释等细节
- 专注于功能需求和业务逻辑
### 4. 查看生成的提交信息
- Skill 会在 Step 7 生成规范的提交信息
- 可以直接使用或根据需要微调
## ⚠️ 注意事项
1. **首次使用**
- 确保已阅读 `CLAUDE.md` 了解项目规范
- 确认所有规范文档都已存在
2. **测试环境**
- 确保 GUT 测试框架已安装(如需运行测试)
- Godot 可执行文件在 PATH 中Step 6 测试执行)
3. **中断处理**
- 如果工作流被中断,可以继续执行剩余步骤
- Skill 使用 TodoWrite 追踪进度
4. **规范更新**
- 项目规范文档更新时Skill 会自动读取最新版本
- 无需手动同步
## 🤝 反馈与改进
如果遇到问题或有改进建议:
1. 检查是否所有规范文档都已更新
2. 确认任务描述清晰明确
3. 查看 Skill 执行日志定位问题
4. 向团队报告问题或建议
## 📊 效果对比
### 不使用 Skill
```
开发者手动:
1. 不确定文件放哪里 ❌
2. 可能忘记类型注解 ❌
3. 注释不完整 ❌
4. 命名不一致 ❌
5. 没有测试 ❌
6. 提交信息格式错误 ❌
结果:代码质量参差不齐
```
### 使用 Skill
```
Skill 自动化:
1. 自动确定正确位置 ✅
2. 强制类型安全 ✅
3. 完整注释文档 ✅
4. 统一命名规范 ✅
5. 自动生成测试 ✅
6. 规范提交信息 ✅
结果:高质量、一致性代码
```
## 🎯 总结
whaletown-developer skill 是你的开发助手,它会:
- 🤖 **自动化** 7 步标准流程
- 📏 **标准化** 代码质量
- 🔒 **保证** 规范遵循
-**加速** 开发效率
- 🧪 **确保** 测试覆盖
**记住:专注于功能实现,让 Skill 处理规范和质量!**
---
**开始使用:** 只需告诉 Claude "帮我实现 XXX 功能" 即可!

0
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0
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@@ -1,274 +1,395 @@
# 🐋 whaleTown
# 🐋 WhaleTown - 现代化像素游戏
一个使用 Godot 4.5 引擎开发的现代化像素游戏项目,集成完整的用户认证系统和API接口
> 一个基于 Godot 4.5 引擎开发的企业级 2D 像素游戏,采用模块化架构设计,集成完整的用户认证系统和游戏核心功能
## 🎮 项目信息
[![Godot](https://img.shields.io/badge/Godot-4.5+-blue.svg)](https://godotengine.org/)
[![GDScript](https://img.shields.io/badge/GDScript-Latest-green.svg)](https://docs.godotengine.org/en/stable/tutorials/scripting/gdscript/index.html)
[![Documentation](https://img.shields.io/badge/Documentation-Complete-brightgreen.svg)](./docs/)
[![Platform](https://img.shields.io/badge/Platform-Windows%20%7C%20Linux%20%7C%20macOS%20%7C%20Web-lightgrey.svg)](https://godotengine.org/download)
- **引擎版本**: Godot 4.5.1
- **渲染器**: Forward Plus
- **项目类型**: 2D 像素游戏
- **架构模式**: 模块化 + 事件驱动
- **后端集成**: RESTful API + 用户认证
## 🎯 项目简介
## 🚀 快速开始
WhaleTown 是一个功能完整的现代化像素游戏,具有以下特色:
### 环境要求
- [Godot Engine 4.5+](https://godotengine.org/download)
- Python 3.7+ (用于API测试)
### 运行项目
```bash
# 1. 克隆项目
git clone <repository-url>
cd whale-town
# 2. 使用Godot编辑器打开项目
# 3. 按F5运行或点击"运行"按钮
# 4. 测试API接口可选
python tests/api/simple_api_test.py
```
## 🏗️ 项目架构
### 核心设计理念
- **场景独立性** - 每个场景都是独立的功能模块
- **高度解耦** - 通过事件系统和管理器通信
- **组件复用** - 可复用组件统一管理
- **标准化** - 统一的命名规范和目录结构
- **测试驱动** - 完整的测试体系和文档
### 目录结构
```
whaleTown/
├── 🎬 scenes/ # 游戏场景
│ ├── auth_scene.tscn # 用户认证场景
│ ├── main_scene.tscn # 主游戏场景
│ └── prefabs/ # 预制体组件
├── 🔧 core/ # 核心系统(自动加载)
│ ├── managers/ # 全局管理器
│ ├── systems/ # 系统组件
│ └── utils/ # 工具类
├── 📝 scripts/ # 业务逻辑脚本
│ ├── scenes/ # 场景脚本
│ ├── network/ # 网络相关
│ └── ui/ # UI组件脚本
├── 🧩 module/ # 可复用模块
│ ├── UI/ # UI组件模块
│ ├── Character/ # 角色模块
│ ├── Combat/ # 战斗模块
│ ├── Dialogue/ # 对话模块
│ └── Inventory/ # 背包模块
├── 🎨 assets/ # 游戏资源
│ ├── sprites/ # 精灵图资源
│ ├── audio/ # 音频文件
│ ├── ui/ # UI界面资源
│ ├── fonts/ # 字体资源
│ ├── materials/ # 材质资源
│ └── shaders/ # 着色器资源
├── 📊 data/ # 配置数据
│ ├── configs/ # 游戏配置
│ ├── localization/ # 本地化文件
│ ├── characters/ # 角色数据
│ ├── items/ # 物品数据
│ ├── levels/ # 关卡数据
│ └── dialogues/ # 对话数据
├── 🧪 tests/ # 测试文件
│ ├── api/ # API接口测试
│ ├── auth/ # 认证UI测试
│ ├── unit/ # 单元测试
│ ├── integration/ # 集成测试
│ └── performance/ # 性能测试
└── 📚 docs/ # 项目文档
├── auth/ # 认证相关文档
├── api-documentation.md # API接口文档
├── project_structure.md # 项目结构说明
├── naming_convention.md # 命名规范
├── code_comment_guide.md # 代码注释规范
└── git_commit_guide.md # Git提交规范
```
### 核心系统
项目包含以下自动加载的核心系统:
- **GameManager** - 全局游戏状态管理
- **SceneManager** - 场景切换管理
- **EventSystem** - 事件通信系统
使用示例:
```gdscript
# 状态管理
GameManager.change_state(GameManager.GameState.IN_GAME)
# 场景切换
SceneManager.change_scene("battle")
# 事件通信
EventSystem.emit_event("player_health_changed", 80)
EventSystem.connect_event("player_died", _on_player_died)
```
## ✨ 主要功能
### 🔐 用户认证系统
- **用户注册** - 支持邮箱验证码验证
- **用户登录** - 多种登录方式(用户名/邮箱/手机号)
- **密码管理** - 密码重置和修改功能
- **GitHub OAuth** - 第三方登录集成
- **错误处理** - 完整的错误提示和频率限制
### 🎮 游戏功能
- **主场景** - 游戏主界面和菜单系统
- **认证场景** - 完整的登录注册界面
- **状态管理** - 用户状态和游戏状态管理
- **网络通信** - RESTful API集成
### 🧪 测试体系
- **API测试** - 完整的接口测试脚本
- **UI测试** - 认证界面的交互测试
- **错误场景** - 边界条件和异常处理测试
## 🔧 开发规范
### 命名规范
- **场景文件**: `snake_case_scene.tscn` (如: `auth_scene.tscn`)
- **脚本文件**: `PascalCase.gd` (如: `AuthScene.gd`)
- **节点名称**: `camelCase` (如: `loginButton`)
- **变量/函数**: `camelCase` (如: `playerHealth`)
- **常量**: `UPPER_CASE` (如: `MAX_HEALTH`)
- **资源文件**: `snake_case` (如: `bg_auth_scene.png`)
### 代码注释规范
- **文件头注释**: 说明文件用途、主要功能和依赖关系
- **函数注释**: 包含参数说明、返回值和使用示例
- **复杂逻辑**: 添加行内注释解释业务逻辑和设计决策
- **特殊标记**: 使用 TODO、FIXME、NOTE 等标准标记
- **AI辅助**: 支持AI补充注释提供详细的上下文信息
### Git 提交规范
使用格式:`<类型><描述>`
常用类型:`feat` `fix` `docs` `refactor` `scene` `asset` `ui` `test`
```bash
git commit -m "feat实现用户登录功能"
git commit -m "fix修复429错误处理"
git commit -m "test添加API接口测试"
git commit -m "docs更新项目文档"
```
## 📚 项目文档
### 核心文档
- 📋 [项目结构详解](docs/project_structure.md) - 完整的架构说明
- 📝 [命名规范](docs/naming_convention.md) - 详细的命名规则
- 💬 [代码注释规范](docs/code_comment_guide.md) - 注释标准和AI辅助指南
- 🔀 [Git提交规范](docs/git_commit_guide.md) - 提交信息标准
### API和测试文档
- 🔌 [API接口文档](docs/api-documentation.md) - 完整的API说明和测试指南
- 🔐 [认证系统文档](docs/auth/) - 用户认证相关文档
- 🧪 [API测试指南](tests/api/README.md) - API测试使用方法
- 🎮 [认证UI测试](tests/auth/README.md) - UI测试场景说明
## 🛠️ 开发指南
### 添加新场景
1.`scenes/` 创建场景文件
2.`scripts/scenes/` 创建对应脚本
3.`SceneManager` 中注册场景路径
4. 使用 `SceneManager.change_scene()` 切换
### 创建可复用组件
1.`module/` 对应分类下创建组件
2. 实现标准接口
3. 通过 `EventSystem` 与其他模块通信
4.`scenes/prefabs/` 创建预制体
### 资源管理
- 图片资源放入 `assets/sprites/` 对应分类
- 音频文件放入 `assets/audio/` 对应分类
- UI资源放入 `assets/ui/` 对应分类
- 配置文件放入 `data/configs/`
- 遵循命名规范,使用英文小写+下划线
### API接口测试
项目提供了完整的Python测试脚本来验证API接口
```bash
# 快速测试API连通性
python tests/api/simple_api_test.py
# 完整的API功能测试
python tests/api/api_test.py --verbose
# 自定义服务器地址测试
python tests/api/simple_api_test.py https://your-api-server.com
```
测试脚本会验证:
- ✅ 应用状态检查
- ✅ 用户注册和登录功能
- ✅ 邮箱验证码发送和验证
- ✅ 错误处理和频率限制429错误
- ✅ 管理员功能和权限控制
- ✅ 用户状态管理
- ✅ 安全功能测试
📖 查看 [API测试文档](tests/api/README.md) 了解详细使用方法
### 认证UI测试
项目还提供了Godot内置的UI测试场景
1. 在Godot编辑器中打开 `tests/auth/auth_ui_test.tscn`
2. 运行场景进行交互式测试
3. 测试各种错误场景和边界条件
📖 查看 [认证UI测试文档](tests/auth/README.md) 了解详细使用方法
## 🔧 技术栈
- **游戏引擎**: Godot 4.5.1
- **脚本语言**: GDScript
- **架构模式**: 模块化 + 事件驱动
- **状态管理**: 单例管理器模式
- **通信机制**: 全局事件系统
- **API集成**: RESTful API + JSON
- **测试框架**: Python + Godot内置测试
## 🤝 贡献指南
1. Fork 项目
2. 创建功能分支 (`git checkout -b feature/AmazingFeature`)
3. 遵循项目的命名规范和架构设计
4. 添加相应的测试用例
5. 更新相关文档
6. 提交更改 (`git commit -m 'feat添加某个功能'`)
7. 推送到分支 (`git push origin feature/AmazingFeature`)
8. 开启 Pull Request
### 贡献类型
- 🐛 Bug修复
- ✨ 新功能开发
- 📚 文档改进
- 🧪 测试用例
- 🎨 UI/UX改进
- ⚡ 性能优化
## 📄 许可证
本项目采用 MIT 许可证 - 查看 [LICENSE](LICENSE) 文件了解详情
- 🏗️ **企业级架构** - 模块化设计,高度解耦,易于扩展
- 🔐 **完整认证系统** - 登录、注册、邮箱验证、密码管理
- 🎮 **丰富游戏功能** - 角色系统、场景管理、事件通信
- 🌐 **网络通信** - RESTful API集成支持实时数据交互
- 📚 **企业级文档** - 18个文档覆盖开发全流程
- 🧪 **完整测试体系** - API测试、UI测试、性能测试
- 🚀 **一键部署** - 支持Web、桌面多平台发布
---
## 🎯 项目状态
## 🚀 5分钟快速体验
- ✅ 基础架构搭建完成
- ✅ 用户认证系统完成
- ✅ API接口集成完成
- ✅ 测试体系建立完成
- ✅ 文档体系完善
- 🚧 游戏核心玩法开发中
- 🚧 更多功能模块开发中
### 📋 准备工作
**最后更新**: 2025-12-24
**你需要安装:**
- [Godot Engine 4.5+](https://godotengine.org/download) - 游戏引擎
- [Git](https://git-scm.com/) - 版本控制工具
### 🛠️ 启动项目
```bash
# 1⃣ 获取项目
git clone <repository-url>
cd whale-town
# 2⃣ 打开项目
# 双击 project.godot 文件或在Godot编辑器中选择"导入项目"
# 3⃣ 运行游戏
# 在Godot编辑器中按 F5 或点击"运行项目"按钮
```
🎉 **成功!** 你应该看到游戏的认证界面
### 🎮 体验功能
1. **注册新用户** - 体验完整的邮箱验证流程
2. **登录系统** - 尝试用户名/邮箱登录
3. **游戏界面** - 探索主游戏场景
### 🧪 测试API可选
```bash
# 安装Python依赖
pip install requests
# 快速API测试
python tests/api/quick_test.py
# 完整功能测试
python tests/api/api_client_test.py
```
---
## 📚 新手开发指南
### 🎯 第一步:了解项目
**⚠️ 重要:开始开发前必读**
1. **[📖 项目入门总览](docs/01-项目入门/README.md)** - 5分钟了解项目
2. **[🏗️ 项目结构说明](docs/01-项目入门/项目结构说明.md)** - 理解架构设计
3. **[⚙️ 项目设置指南](docs/01-项目入门/项目设置指南.md)** - 配置开发环境
4. **[🤖 AI开发指南](docs/AI_docs/README.md)** - AI编程助手专用文档
### 🎯 第二步:学习规范
**代码质量保证**
1. **[📝 命名规范](docs/02-开发规范/命名规范.md)** - 统一命名标准
2. **[🏛️ 架构与通信规范](docs/02-开发规范/架构与通信规范.md)** - 组件通信方式
3. **[💬 代码注释规范](docs/02-开发规范/代码注释规范.md)** - 注释标准
4. **[🔄 Git提交规范](docs/02-开发规范/Git提交规范.md)** - 版本控制规范
### 🎯 第三步:开始开发
**技术实现指导**
1. **[🔧 实现细节规范](docs/03-技术实现/实现细节规范.md)** - 游戏对象实现
2. **[🌐 API接口文档](docs/03-技术实现/API接口文档.md)** - 后端接口使用
3. **[🧪 测试指南](docs/03-技术实现/测试指南.md)** - 测试方法和工具
### 🎯 第四步:高级开发
**进阶技能**
1. **[🚀 性能优化指南](docs/04-高级开发/性能优化指南.md)** - 性能调优
2. **[🎬 场景设计规范](docs/04-高级开发/场景设计规范.md)** - 场景架构
3. **[🧩 模块开发指南](docs/04-高级开发/模块开发指南.md)** - 模块化开发
### 🎯 第五步:项目发布
**部署和运维**
1. **[🌐 Web部署指南](docs/05-部署运维/Web部署指南.md)** - 完整部署流程
---
## 🏗️ 项目架构一览
### 📁 目录结构
```
WhaleTown/ # 🐋 项目根目录
├── 📚 docs/ # 📖 完整文档系统18个文档
│ ├── 01-项目入门/ # 👋 新人必读
│ ├── 02-开发规范/ # 📋 编码标准
│ ├── 03-技术实现/ # 🔧 开发指导
│ ├── 04-高级开发/ # 🚀 进阶技巧
│ ├── 05-部署运维/ # 🌐 发布部署
│ ├── 06-功能模块/ # 🎮 功能文档
│ └── AI_docs/ # 🤖 AI专用文档执行规范、代码模板
├── 🔧 _Core/ # ⚙️ 核心底层实现
│ ├── managers/ # 🎯 全局管理器(游戏状态、场景、网络等)
│ ├── systems/ # 🔄 系统组件(事件系统、输入系统等)
│ ├── components/ # 🧩 基础组件实现
│ ├── utils/ # <20> 核件心工具类(字符串处理、数学计算等)
│ ├── EventNames.gd # 📝 事件名称定义
│ └── ProjectPaths.gd # <20> 路径组统一管理
├── 🎬 scenes/ # 🎭 场景与视觉呈现
│ ├── maps/ # <20> 地图一场景(游戏关卡、世界地图)
│ ├── characters/ # 👤 人物场景角色、NPC、敌人
│ ├── ui/ # 🖼️ UI界面场景菜单、HUD、对话框
│ ├── effects/ # ✨ 特效场景(粒子效果、动画)
│ └── prefabs/ # 🧩 预制体组件
├── 🎨 assets/ # 🖼️ 静态资源存储
│ ├── sprites/ # 🎨 精灵图片(角色、物品、环境)
│ ├── audio/ # 🎵 音频资源(音乐、音效)
│ ├── fonts/ # 🔤 字体文件
│ ├── materials/ # 🎭 材质资源
│ ├── shaders/ # 🌈 着色器文件
│ ├── ui/ # 🖼️ UI素材按钮、图标、背景
│ └── icon/ # 📱 应用图标
├── ⚙️ Config/ # 📋 配置文件管理
│ ├── game_config.json # 🎮 游戏配置(难度、设置等)
│ ├── zh_CN.json # 🌐 本地化配置
│ └── environment/ # 🔧 环境配置(开发、测试、生产)
├── 🧪 tests/ # 🔬 测试文件系统
│ ├── unit/ # 🔍 单元测试(组件功能测试)
│ ├── integration/ # 🔗 集成测试(系统交互测试)
│ ├── performance/ # ⚡ 性能测试(帧率、内存优化)
│ └── api/ # 🌐 API接口测试
└── 🌐 web_assets/ # 🌍 Web导出资源
├── html/ # 📄 HTML模板文件
├── css/ # 🎨 样式文件
└── js/ # 📜 JavaScript脚本
```
### 🔧 核心架构说明
| 目录 | 作用 | 详细说明 |
|------|------|----------|
| **_Core** | 🔧 功能实现与组件实现 | 项目最基本的底层实现,包含所有核心系统和基础组件 |
| **scenes** | 🎭 场景与视觉呈现 | 包含地图场景、人物场景等一系列视觉呈现部分主要是UI的实现 |
| **assets** | 🎨 静态资源存储 | 所有静态资源的存储,包括图片、音乐、视频、贴图等素材 |
| **Config** | ⚙️ 配置文件管理 | 主要用来配置各类环境,包括游戏设置、本地化等配置 |
| **tests** | 🧪 测试文件系统 | 放置所有对应组件的测试代码,方便快速进行功能性与性能测试 |
| **web_assets** | 🌐 Web导出资源 | 专门用于Web平台导出的相关资源和配置文件 |
| **docs/AI_docs** | 🤖 AI专用文档 | 专门为AI编程助手准备的执行规范和代码模板提升vibe coding效率 |
### 🎮 核心组件
| 组件 | 位置 | 作用 | 文档链接 |
|------|------|------|----------|
| **EventSystem** | _Core/systems/ | 全局事件通信系统 | [架构规范](docs/02-开发规范/架构与通信规范.md) |
| **GameManager** | _Core/managers/ | 游戏状态管理器 | [实现细节](docs/03-技术实现/实现细节规范.md) |
| **SceneManager** | _Core/managers/ | 场景切换管理器 | [场景设计](docs/04-高级开发/场景设计规范.md) |
| **NetworkManager** | _Core/managers/ | 网络请求管理器 | [网络管理器](docs/03-技术实现/网络管理器设置.md) |
| **ProjectPaths** | _Core/ | 路径统一管理工具 | [项目结构](docs/01-项目入门/项目结构说明.md) |
---
## 🎮 核心功能
### 🔐 用户认证系统
**完整的用户管理功能**
- ✅ 用户注册(用户名+邮箱验证)
- ✅ 多方式登录(用户名/邮箱/验证码)
- ✅ 密码管理(修改/重置)
- ✅ 表单验证(实时验证+友好提示)
- ✅ 错误处理(网络异常+业务错误)
**技术特色**
- 📱 响应式UI设计
- 🔄 实时表单验证
- ⏰ 验证码冷却机制
- 🎨 流畅动画效果
### 🎮 游戏核心系统
**模块化游戏架构**
- 🎭 场景管理系统
- 🔄 事件通信系统
- 🎯 状态管理系统
- 🌐 网络通信系统
**开发友好特性**
- 🧩 高度模块化
- 📝 完整文档覆盖
- 🧪 测试用例齐全
- 🔧 开发工具完善
---
## 🧪 测试系统
### 🔬 测试类型
| 测试类型 | 工具 | 覆盖范围 | 文档 |
|----------|------|----------|------|
| **API测试** | Python脚本 | 17个接口全覆盖 | [测试指南](docs/03-技术实现/测试指南.md) |
| **UI测试** | Godot场景 | 认证流程完整测试 | [认证测试](docs/06-功能模块/auth/认证测试指南.md) |
| **单元测试** | GUT框架 | 核心组件测试 | [测试指南](docs/03-技术实现/测试指南.md) |
### 🚀 快速测试
```bash
# 🔌 API接口测试30秒
python tests/api/quick_test.py
# 🔍 完整功能测试2-3分钟
python tests/api/api_client_test.py
# 🎮 UI交互测试在Godot中运行
# 打开 tests/auth/auth_ui_test.tscn 场景
```
---
## 🚀 部署发布
### 🖥️ 桌面版本
```bash
# Windows
godot --export "Windows Desktop" build/WhaleTown.exe
# Linux
godot --export "Linux/X11" build/WhaleTown.x86_64
# macOS
godot --export "macOS" build/WhaleTown.app
```
### 🌐 Web版本
```bash
# 使用自动化脚本
scripts/build_web.bat # Windows
scripts/build_web.sh # Linux/macOS
# 本地测试
scripts/serve_web.bat # 启动本地服务器
```
**详细部署流程**: [Web部署指南](docs/05-部署运维/Web部署指南.md)
---
## 📊 项目统计
### 📚 文档系统
| 类别 | 文档数 | 完成度 |
|------|--------|--------|
| 项目入门 | 3 | 100% |
| 开发规范 | 5 | 100% |
| 技术实现 | 4 | 100% |
| 高级开发 | 3 | 100% |
| 部署运维 | 1 | 100% |
| 功能模块 | 2 | 100% |
| **总计** | **18** | **100%** |
### 🧪 测试覆盖
- **API接口**: 17个接口 ✅
- **认证流程**: 完整测试 ✅
- **错误处理**: 边界测试 ✅
- **性能监控**: 帧率/内存 ✅
---
## 🤝 参与贡献
### 🌟 贡献方式
1. **🐛 Bug修复** - 发现并修复问题
2. **✨ 新功能** - 添加有价值的功能
3. **📚 文档改进** - 完善项目文档
4. **🧪 测试用例** - 提高代码覆盖率
5. **🎨 UI/UX改进** - 提升用户体验
### 📋 贡献流程
```bash
# 1⃣ Fork项目到你的账户
# 2⃣ 克隆到本地
git clone <your-fork-url>
cd whale-town
# 3⃣ 创建功能分支
git checkout -b feature/your-feature
# 4⃣ 开发功能(遵循项目规范)
# 参考: docs/02-开发规范/
# 5⃣ 添加测试用例
# 参考: docs/03-技术实现/测试指南.md
# 6⃣ 提交代码
git commit -m "feat添加新功能"
# 参考: docs/02-开发规范/Git提交规范.md
# 7⃣ 推送分支
git push origin feature/your-feature
# 8⃣ 创建Pull Request
```
### 📖 开发规范
**必读文档**
- [命名规范](docs/02-开发规范/命名规范.md) - 代码命名标准
- [Git提交规范](docs/02-开发规范/Git提交规范.md) - 提交信息格式
- [代码注释规范](docs/02-开发规范/代码注释规范.md) - 注释标准
### 🙏 贡献者致谢
感谢所有为 WhaleTown 项目做出贡献的开发者们!详细的贡献者信息和统计请查看:
**[📖 贡献者详细信息](docs/CONTRIBUTORS.md)**
---
## 📞 获取帮助
### 🔍 问题解决
| 问题类型 | 解决方案 |
|----------|----------|
| **🤔 不知道从哪开始** | [项目入门总览](docs/01-项目入门/README.md) |
| **🏗️ 不理解项目架构** | [项目结构说明](docs/01-项目入门/项目结构说明.md) |
| **🔧 开发环境问题** | [项目设置指南](docs/01-项目入门/项目设置指南.md) |
| **📝 不知道怎么命名** | [命名规范](docs/02-开发规范/命名规范.md) |
| **🔄 组件通信问题** | [架构与通信规范](docs/02-开发规范/架构与通信规范.md) |
| **🌐 API调用问题** | [API接口文档](docs/03-技术实现/API接口文档.md) |
| **🧪 测试相关问题** | [测试指南](docs/03-技术实现/测试指南.md) |
| **🚀 部署发布问题** | [Web部署指南](docs/05-部署运维/Web部署指南.md) |
### 📚 文档导航
- **[📖 完整文档中心](docs/README.md)** - 所有文档的导航页面
- **[📋 文档更新日志](docs/CHANGELOG.md)** - 文档版本变更记录
### 💬 联系方式
- **项目地址**: [Gitea Repository](https://gitea.xinghangee.icu/datawhale/whale-town)
- **问题反馈**: [Issues](https://gitea.xinghangee.icu/datawhale/whale-town/issues)
- **功能建议**: [Discussions](https://gitea.xinghangee.icu/datawhale/whale-town/discussions)
---
## 📄 许可证
本项目采用 [MIT License](./LICENSE) 开源协议。
---
<div align="center">
**🐋 WhaleTown - 企业级像素游戏开发框架**
*让游戏开发更简单,让代码质量更优秀*
[⭐ Star](https://gitea.xinghangee.icu/datawhale/whale-town) | [🍴 Fork](https://gitea.xinghangee.icu/datawhale/whale-town/fork) | [📖 文档](./docs/) | [🐛 反馈](https://gitea.xinghangee.icu/datawhale/whale-town/issues)
**文档版本**: v1.2.0 | **最后更新**: 2025-12-31
</div>

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# ============================================================================
# 事件名称定义 - EventNames.gd
#
# 定义项目中所有事件的名称常量,确保事件名称的一致性和可维护性
#
# 使用方式:
# EventSystem.emit_event(EventNames.PLAYER_MOVED, data)
# EventSystem.connect_event(EventNames.INTERACT_PRESSED, callback)
# ============================================================================
class_name EventNames
# ============================================================================
# 玩家相关事件
# ============================================================================
const PLAYER_MOVED = "player_moved"
const PLAYER_SPAWNED = "player_spawned"
const PLAYER_HEALTH_CHANGED = "player_health_changed"
const PLAYER_DIED = "player_died"
const PLAYER_RESPAWNED = "player_respawned"
const PLAYER_ATTACK = "player_attack"
# ============================================================================
# 交互事件
# ============================================================================
const INTERACT_PRESSED = "interact_pressed"
const NPC_TALKED = "npc_talked"
const ITEM_COLLECTED = "item_collected"
const OBJECT_INTERACTED = "object_interacted"
# ============================================================================
# UI事件
# ============================================================================
const UI_BUTTON_CLICKED = "ui_button_clicked"
const DIALOG_OPENED = "dialog_opened"
const DIALOG_CLOSED = "dialog_closed"
const MENU_OPENED = "menu_opened"
const MENU_CLOSED = "menu_closed"
# ============================================================================
# 游戏状态事件
# ============================================================================
const GAME_PAUSED = "game_paused"
const GAME_RESUMED = "game_resumed"
const SCENE_CHANGED = "scene_changed"
const SCENE_DATA_TRANSFER = "scene_data_transfer"
# ============================================================================
# 系统事件
# ============================================================================
const TILEMAP_READY = "tilemap_ready"
const COMPONENT_MESSAGE = "component_message"
const POSITION_UPDATE = "position_update"
const GRID_POSITION_CHANGED = "grid_position_changed"
const GRID_SNAP_REQUESTED = "grid_snap_requested"
# ============================================================================
# 测试事件
# ============================================================================
const TEST_EVENT = "test_event"
# ============================================================================
# 聊天事件
# ============================================================================
const CHAT_MESSAGE_SENT = "chat_message_sent"
const CHAT_MESSAGE_RECEIVED = "chat_message_received"
const CHAT_ERROR_OCCURRED = "chat_error_occurred"
const CHAT_CONNECTION_STATE_CHANGED = "chat_connection_state_changed"
const CHAT_POSITION_UPDATED = "chat_position_updated"
const CHAT_LOGIN_SUCCESS = "chat_login_success"
const CHAT_LOGIN_FAILED = "chat_login_failed"

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# ============================================================================
# 项目路径配置 - ProjectPaths.gd
#
# 统一管理项目中所有路径常量,确保路径的一致性和可维护性
#
# 使用方式:
# var scene_path = ProjectPaths.SCENES_COMPONENTS + "ui/Button.tscn"
# var config_path = ProjectPaths.DATA_CONFIG + "game_config.json"
# ============================================================================
class_name ProjectPaths
# ============================================================================
# 核心系统路径
# ============================================================================
const CORE_ROOT = "res://_Core/"
const CORE_MANAGERS = CORE_ROOT + "managers/"
const CORE_SYSTEMS = CORE_ROOT + "systems/"
const CORE_COMPONENTS = CORE_ROOT + "components/"
const CORE_UTILS = CORE_ROOT + "utils/"
# 系统文件路径
const GRID_SYSTEM = CORE_SYSTEMS + "GridSystem.gd"
const EVENT_SYSTEM = CORE_SYSTEMS + "EventSystem.gd"
const TILE_SYSTEM = CORE_SYSTEMS + "TileSystem.gd"
# ============================================================================
# 场景路径
# ============================================================================
const SCENES_ROOT = "res://scenes/"
const SCENES_MAPS = SCENES_ROOT + "Maps/"
const SCENES_COMPONENTS = SCENES_ROOT + "Components/"
const SCENES_UI_COMPONENTS = SCENES_COMPONENTS + "ui/"
const SCENES_CHARACTER_COMPONENTS = SCENES_COMPONENTS + "characters/"
const SCENES_EFFECT_COMPONENTS = SCENES_COMPONENTS + "effects/"
const SCENES_ITEM_COMPONENTS = SCENES_COMPONENTS + "items/"
# ============================================================================
# UI路径
# ============================================================================
const UI_ROOT = "res://scenes/ui/"
const UI_WINDOWS = UI_ROOT
# ============================================================================
# 资源路径
# ============================================================================
const ASSETS_ROOT = "res://assets/"
const ASSETS_SPRITES = ASSETS_ROOT + "sprites/"
const ASSETS_AUDIO = ASSETS_ROOT + "audio/"
const ASSETS_FONTS = ASSETS_ROOT + "fonts/"
const ASSETS_MATERIALS = ASSETS_ROOT + "materials/"
const ASSETS_SHADERS = ASSETS_ROOT + "shaders/"
# 地形资源路径
const ASSETS_TERRAIN = ASSETS_SPRITES + "terrain/"
const ASSETS_GRASS = ASSETS_TERRAIN + "grass/"
# ============================================================================
# 数据路径
# ============================================================================
const DATA_ROOT = "res://data/"
const DATA_CONFIG = "res://Config/"
const DATA_SCENES = DATA_ROOT + "scenes/"
const DATA_LEVELS = DATA_ROOT + "levels/"
const DATA_DIALOGUES = DATA_ROOT + "dialogues/"
# ============================================================================
# Web资源路径
# ============================================================================
const WEB_ASSETS = "res://web_assets/"
# ============================================================================
# 测试路径
# ============================================================================
const TESTS_ROOT = "res://tests/"
const TESTS_UNIT = TESTS_ROOT + "unit/"
const TESTS_INTEGRATION = TESTS_ROOT + "integration/"
const TESTS_AUTH = TESTS_ROOT + "auth/"
# ============================================================================
# 工具路径
# ============================================================================
const UTILS_ROOT = "res://_Core/utils/"
# ============================================================================
# 模块路径
# ============================================================================
const MODULES_ROOT = "res://module/"
# ============================================================================
# 辅助方法
# ============================================================================
# 获取场景组件路径
static func get_component_path(category: String, component_name: String) -> String:
match category:
"ui":
return SCENES_UI_COMPONENTS + component_name + ".tscn"
"characters":
return SCENES_CHARACTER_COMPONENTS + component_name + ".tscn"
"effects":
return SCENES_EFFECT_COMPONENTS + component_name + ".tscn"
"items":
return SCENES_ITEM_COMPONENTS + component_name + ".tscn"
_:
return SCENES_COMPONENTS + component_name + ".tscn"
# 获取模块路径
static func get_module_path(module_name: String) -> String:
return MODULES_ROOT + module_name + "/"
# 获取模块配置路径
static func get_module_config_path(module_name: String) -> String:
return get_module_path(module_name) + "data/module_config.json"
# 获取场景数据路径
static func get_scene_data_path(scene_name: String) -> String:
return DATA_SCENES + scene_name.to_lower() + ".json"

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# 基础组件实现目录
# 存放项目的基础组件类

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class_name AuthManager
# ============================================================================
# AuthManager.gd - 认证管理器
# ============================================================================
# 认证系统的业务逻辑管理器,负责处理所有认证相关的业务逻辑
#
# 核心职责:
# - 用户登录业务逻辑(密码登录 + 验证码登录)
# - 用户注册业务逻辑
# - 表单验证逻辑
# - 验证码管理逻辑
# - 网络请求管理
# - 响应处理和状态管理
#
# 使用方式:
# var auth_manager = AuthManager.new()
# auth_manager.login_success.connect(_on_login_success)
# auth_manager.execute_password_login(username, password)
#
# 注意事项:
# - 这是业务逻辑层不包含任何UI相关代码
# - 通过信号与UI层通信
# - 所有验证逻辑都在这里实现
# ============================================================================
extends RefCounted
# ============ 信号定义 ============
# 登录成功信号
signal login_success(username: String)
# 登录失败信号
signal login_failed(message: String)
# 注册成功信号
signal register_success(message: String)
# 注册失败信号
signal register_failed(message: String)
# 验证码发送成功信号
signal verification_code_sent(message: String)
# 验证码发送失败信号
signal verification_code_failed(message: String)
# 表单验证失败信号
signal form_validation_failed(field: String, message: String)
# 网络状态变化信号
signal network_status_changed(is_connected: bool, message: String)
# 按钮状态变化信号
signal button_state_changed(button_name: String, is_loading: bool, text: String)
# Toast消息信号
signal show_toast_message(message: String, is_success: bool)
# ============ 枚举定义 ============
# 登录模式枚举
enum LoginMode {
PASSWORD, # 密码登录模式
VERIFICATION # 验证码登录模式
}
# ============ 成员变量 ============
# 当前用户ID静态变量用于BaseLevel等场景访问
static var current_user_id: String = ""
# 登录状态
var current_login_mode: LoginMode = LoginMode.PASSWORD
var is_processing: bool = false
# 验证码管理
var verification_codes_sent: Dictionary = {}
var code_cooldown: float = 60.0
var current_email: String = ""
# 网络请求管理
var active_request_ids: Array = []
# ============ Token 管理 ============
# 本地存储路径常量
const AUTH_CONFIG_PATH: String = "user://auth.cfg"
# Token 存储(内存中,用于快速访问)
var _access_token: String = "" # JWT访问令牌短期用于API和WebSocket
var _refresh_token: String = "" # JWT刷新令牌长期用于获取新access_token
var _user_info: Dictionary = {} # 用户信息
var _token_expiry: float = 0.0 # access_token过期时间Unix时间戳
# 游戏 token废弃保留供旧接口
var _game_token: String = "" # @deprecated 使用 _access_token 替代
# ============ 生命周期方法 ============
# 初始化管理器
func _init() -> void:
_load_auth_data()
# 清理资源
func cleanup() -> void:
# 取消所有活动的网络请求
for request_id in active_request_ids:
NetworkManager.cancel_request(request_id)
active_request_ids.clear()
# ============ Token 管理 ============
# 保存 Token 到内存
#
# 参数:
# data: Dictionary - 登录响应数据
#
# 功能:
# - 从登录响应中提取 access_token 和 refresh_token
# - 保存到内存变量中
# - 保存用户信息
func _save_tokens_to_memory(data: Dictionary) -> void:
if not data.has("data"):
push_warning("AuthManager: 登录响应中没有 data 字段")
return
var token_data: Dictionary = data.data
_access_token = token_data.get("access_token", "")
_refresh_token = token_data.get("refresh_token", "")
_user_info = token_data.get("user", {})
_token_expiry = Time.get_unix_time_from_system() + float(token_data.get("expires_in", 0))
# 设置当前用户ID用于BaseLevel等场景
if _user_info.has("id"):
AuthManager.current_user_id = str(_user_info.id)
_game_token = _access_token
# 保存 Token 到本地ConfigFile
#
# 参数:
# data: Dictionary - 登录响应数据
#
# 功能:
# - 将 refresh_token 和用户信息保存到 ConfigFile
# - access_token 不保存到本地,仅保存在内存中
func _save_tokens_to_local(data: Dictionary) -> void:
if not data.has("data"):
return
var token_data: Dictionary = data.data
var auth_data: Dictionary = {
"refresh_token": token_data.get("refresh_token", ""),
"user_id": token_data.get("user", {}).get("id", ""),
"username": token_data.get("user", {}).get("username", ""),
"saved_at": Time.get_unix_time_from_system()
}
var config: ConfigFile = ConfigFile.new()
config.load(AUTH_CONFIG_PATH)
config.set_value("auth", "refresh_token", auth_data["refresh_token"])
config.set_value("auth", "user_id", auth_data["user_id"])
config.set_value("auth", "username", auth_data["username"])
config.set_value("auth", "saved_at", auth_data["saved_at"])
var error: Error = config.save(AUTH_CONFIG_PATH)
if error != OK:
push_error("AuthManager: 保存Token到本地失败错误码: %d" % error)
# 从本地加载 Token游戏启动时调用
#
# 功能:
# - 从 ConfigFile 加载 refresh_token 和用户信息
# - access_token 需要通过 refresh_token 刷新获取
func _load_auth_data() -> void:
if not FileAccess.file_exists(AUTH_CONFIG_PATH):
return
var config: ConfigFile = ConfigFile.new()
var error: Error = config.load(AUTH_CONFIG_PATH)
if error != OK:
push_error("AuthManager: 加载本地认证数据失败,错误码: %d" % error)
return
_refresh_token = config.get_value("auth", "refresh_token", "")
var user_id: String = config.get_value("auth", "user_id", "")
var username: String = config.get_value("auth", "username", "")
if not _refresh_token.is_empty():
_user_info = {
"id": user_id,
"username": username
}
else:
push_warning("AuthManager: 本地认证数据无效(没有 refresh_token")
# 清除本地认证数据(登出时调用)
#
# 功能:
# - 清除内存中的 Token
# - 删除本地 ConfigFile
func _clear_auth_data() -> void:
_access_token = ""
_refresh_token = ""
_user_info = {}
_token_expiry = 0.0
_game_token = ""
if FileAccess.file_exists(AUTH_CONFIG_PATH):
DirAccess.remove_absolute(AUTH_CONFIG_PATH)
# ============ Token 访问方法 ============
# 设置游戏 token建议优先使用 _save_tokens_to_memory
#
# 参数:
# token: String - 游戏认证 token
#
# 使用场景:
# - 登录成功后设置 token
# - 从服务器响应中获取 token
func set_game_token(token: String) -> void:
_game_token = token
_access_token = token # 同步更新 access_token
# 获取游戏 token
#
# 返回值:
# String - access_token如果未设置则返回空字符串
#
# 使用场景:
# - ChatManager 连接 WebSocket 时需要 token
# - 其他需要游戏认证的场景
func get_game_token() -> String:
return _access_token
# 获取 access token
#
# 返回值:
# String - JWT访问令牌
#
# 使用场景:
# - API请求认证
# - WebSocket聊天认证
func get_access_token() -> String:
return _access_token
# 获取 refresh token
#
# 返回值:
# String - JWT刷新令牌
#
# 使用场景:
# - 刷新过期的 access token
func get_refresh_token() -> String:
return _refresh_token
# 获取用户信息
#
# 返回值:
# Dictionary - 用户信息字典
func get_user_info() -> Dictionary:
return _user_info
# ============ 登录相关方法 ============
# 执行密码登录
#
# 参数:
# username: String - 用户名/邮箱
# password: String - 密码
#
# 功能:
# - 验证输入参数
# - 发送登录请求
# - 处理响应结果
func execute_password_login(username: String, password: String):
if is_processing:
show_toast_message.emit("请等待当前操作完成", false)
return
# 验证输入
var validation_result = validate_login_inputs(username, password)
if not validation_result.valid:
form_validation_failed.emit(validation_result.field, validation_result.message)
return
# 设置处理状态
is_processing = true
button_state_changed.emit("main_btn", true, "登录中...")
show_toast_message.emit("正在验证登录信息...", true)
# 发送网络请求
var request_id = NetworkManager.login(username, password, _on_login_response)
if request_id != "":
active_request_ids.append(request_id)
else:
_reset_login_state()
show_toast_message.emit("网络请求失败", false)
# 执行验证码登录
#
# 参数:
# identifier: String - 用户标识符
# verification_code: String - 验证码
func execute_verification_login(identifier: String, verification_code: String):
if is_processing:
show_toast_message.emit("请等待当前操作完成", false)
return
# 验证输入
if identifier.is_empty():
form_validation_failed.emit("username", "请输入用户名/手机/邮箱")
return
if verification_code.is_empty():
form_validation_failed.emit("verification", "请输入验证码")
return
# 设置处理状态
is_processing = true
button_state_changed.emit("main_btn", true, "登录中...")
show_toast_message.emit("正在验证验证码...", true)
# 发送网络请求
var request_id = NetworkManager.verification_code_login(identifier, verification_code, _on_verification_login_response)
if request_id != "":
active_request_ids.append(request_id)
else:
_reset_login_state()
show_toast_message.emit("网络请求失败", false)
# 切换登录模式
func toggle_login_mode():
if current_login_mode == LoginMode.PASSWORD:
current_login_mode = LoginMode.VERIFICATION
else:
current_login_mode = LoginMode.PASSWORD
# 获取当前登录模式
func get_current_login_mode() -> LoginMode:
return current_login_mode
# ============ 注册相关方法 ============
# 执行用户注册
#
# 参数:
# username: String - 用户名
# email: String - 邮箱
# password: String - 密码
# confirm_password: String - 确认密码
# verification_code: String - 邮箱验证码
func execute_register(username: String, email: String, password: String, confirm_password: String, verification_code: String):
if is_processing:
show_toast_message.emit("请等待当前操作完成", false)
return
# 验证注册表单
var validation_result = validate_register_form(username, email, password, confirm_password, verification_code)
if not validation_result.valid:
form_validation_failed.emit(validation_result.field, validation_result.message)
return
# 设置处理状态
is_processing = true
button_state_changed.emit("register_btn", true, "注册中...")
show_toast_message.emit("正在创建账户...", true)
# 发送注册请求
var request_id = NetworkManager.register(username, password, username, email, verification_code, _on_register_response)
if request_id != "":
active_request_ids.append(request_id)
else:
_reset_register_state()
show_toast_message.emit("网络请求失败", false)
# ============ 验证码相关方法 ============
# 发送邮箱验证码
#
# 参数:
# email: String - 邮箱地址
func send_email_verification_code(email: String):
# 验证邮箱格式
var email_validation = validate_email(email)
if not email_validation.valid:
form_validation_failed.emit("email", email_validation.message)
return
# 检查冷却时间
if not _can_send_verification_code(email):
var remaining = get_remaining_cooldown_time(email)
show_toast_message.emit("该邮箱请等待 %d 秒后再次发送" % remaining, false)
return
# 记录发送状态
_record_verification_code_sent(email)
# 发送请求
var request_id = NetworkManager.send_email_verification(email, _on_send_code_response)
if request_id != "":
active_request_ids.append(request_id)
else:
_reset_verification_code_state(email)
show_toast_message.emit("网络请求失败", false)
# 发送登录验证码
#
# 参数:
# identifier: String - 用户标识符
func send_login_verification_code(identifier: String):
if identifier.is_empty():
form_validation_failed.emit("username", "请先输入用户名/手机/邮箱")
return
button_state_changed.emit("get_code_btn", true, "发送中...")
show_toast_message.emit("正在发送登录验证码...", true)
var request_id = NetworkManager.send_login_verification_code(identifier, _on_send_login_code_response)
if request_id != "":
active_request_ids.append(request_id)
else:
button_state_changed.emit("get_code_btn", false, "获取验证码")
show_toast_message.emit("网络请求失败", false)
# 发送密码重置验证码
#
# 参数:
# identifier: String - 用户标识符
func send_password_reset_code(identifier: String):
if identifier.is_empty():
show_toast_message.emit("请先输入邮箱或手机号", false)
return
if not _is_valid_identifier(identifier):
show_toast_message.emit("请输入有效的邮箱或手机号", false)
return
button_state_changed.emit("forgot_password_btn", true, "发送中...")
show_toast_message.emit("正在发送密码重置验证码...", true)
var request_id = NetworkManager.forgot_password(identifier, _on_forgot_password_response)
if request_id != "":
active_request_ids.append(request_id)
else:
button_state_changed.emit("forgot_password_btn", false, "忘记密码")
show_toast_message.emit("网络请求失败", false)
# ============ 验证方法 ============
# 验证登录输入
func validate_login_inputs(username: String, password: String) -> Dictionary:
var result = {"valid": false, "field": "", "message": ""}
if username.is_empty():
result.field = "username"
result.message = "用户名不能为空"
return result
if password.is_empty():
result.field = "password"
result.message = "密码不能为空"
return result
result.valid = true
return result
# 验证注册表单
func validate_register_form(username: String, email: String, password: String, confirm_password: String, verification_code: String) -> Dictionary:
var result = {"valid": false, "field": "", "message": ""}
# 验证用户名
var username_validation = validate_username(username)
if not username_validation.valid:
result.field = "username"
result.message = username_validation.message
return result
# 验证邮箱
var email_validation = validate_email(email)
if not email_validation.valid:
result.field = "email"
result.message = email_validation.message
return result
# 验证密码
var password_validation = validate_password(password)
if not password_validation.valid:
result.field = "password"
result.message = password_validation.message
return result
# 验证确认密码
var confirm_validation = validate_confirm_password(password, confirm_password)
if not confirm_validation.valid:
result.field = "confirm"
result.message = confirm_validation.message
return result
# 验证验证码
var code_validation = validate_verification_code(verification_code)
if not code_validation.valid:
result.field = "verification"
result.message = code_validation.message
return result
# 检查是否已发送验证码
if not _has_sent_verification_code(email):
result.field = "verification"
result.message = "请先获取邮箱验证码"
return result
result.valid = true
return result
# 验证用户名
func validate_username(username: String) -> Dictionary:
var result = {"valid": false, "message": ""}
if username.is_empty():
result.message = "用户名不能为空"
return result
if not StringUtils.is_valid_username(username):
if username.length() > 50:
result.message = "用户名长度不能超过50字符"
else:
result.message = "用户名只能包含字母、数字和下划线"
return result
result.valid = true
return result
# 验证邮箱
func validate_email(email: String) -> Dictionary:
var result = {"valid": false, "message": ""}
if email.is_empty():
result.message = "邮箱不能为空"
return result
if not StringUtils.is_valid_email(email):
result.message = "请输入有效的邮箱地址"
return result
result.valid = true
return result
# 验证密码
func validate_password(password: String) -> Dictionary:
return StringUtils.validate_password_strength(password)
# 验证确认密码
func validate_confirm_password(password: String, confirm: String) -> Dictionary:
var result = {"valid": false, "message": ""}
if confirm.is_empty():
result.message = "确认密码不能为空"
return result
if password != confirm:
result.message = "两次输入的密码不一致"
return result
result.valid = true
return result
# 验证验证码
func validate_verification_code(code: String) -> Dictionary:
var result = {"valid": false, "message": ""}
if code.is_empty():
result.message = "验证码不能为空"
return result
if code.length() != 6:
result.message = "验证码必须是6位数字"
return result
for i in range(code.length()):
var character = code[i]
if not (character >= '0' and character <= '9'):
result.message = "验证码必须是6位数字"
return result
result.valid = true
return result
# ============ 网络响应处理 ============
# 处理登录响应
func _on_login_response(success: bool, data: Dictionary, error_info: Dictionary) -> void:
_reset_login_state()
var result = ResponseHandler.handle_login_response(success, data, error_info)
if result.should_show_toast:
show_toast_message.emit(result.message, result.success)
if result.success:
# 保存 Token 到内存和本地
_save_tokens_to_memory(data)
_save_tokens_to_local(data)
var username: String = _user_info.get("username", "")
# 延迟发送登录成功信号
await Engine.get_main_loop().create_timer(1.0).timeout
login_success.emit(username)
else:
login_failed.emit(result.message)
# 处理验证码登录响应
func _on_verification_login_response(success: bool, data: Dictionary, error_info: Dictionary) -> void:
_reset_login_state()
var result = ResponseHandler.handle_verification_code_login_response(success, data, error_info)
if result.should_show_toast:
show_toast_message.emit(result.message, result.success)
if result.success:
# 保存 Token 到内存和本地
_save_tokens_to_memory(data)
_save_tokens_to_local(data)
var username: String = _user_info.get("username", "")
await Engine.get_main_loop().create_timer(1.0).timeout
login_success.emit(username)
else:
login_failed.emit(result.message)
# 处理注册响应
func _on_register_response(success: bool, data: Dictionary, error_info: Dictionary):
_reset_register_state()
var result = ResponseHandler.handle_register_response(success, data, error_info)
if result.should_show_toast:
show_toast_message.emit(result.message, result.success)
if result.success:
register_success.emit(result.message)
else:
register_failed.emit(result.message)
# 处理发送验证码响应
func _on_send_code_response(success: bool, data: Dictionary, error_info: Dictionary):
var result = ResponseHandler.handle_send_verification_code_response(success, data, error_info)
if result.should_show_toast:
show_toast_message.emit(result.message, result.success)
if result.success:
verification_code_sent.emit(result.message)
else:
verification_code_failed.emit(result.message)
_reset_verification_code_state(current_email)
# 处理发送登录验证码响应
func _on_send_login_code_response(success: bool, data: Dictionary, error_info: Dictionary):
button_state_changed.emit("get_code_btn", false, "获取验证码")
var result = ResponseHandler.handle_send_login_code_response(success, data, error_info)
if result.should_show_toast:
show_toast_message.emit(result.message, result.success)
# 处理忘记密码响应
func _on_forgot_password_response(success: bool, data: Dictionary, error_info: Dictionary):
button_state_changed.emit("forgot_password_btn", false, "忘记密码")
var result = ResponseHandler.handle_send_login_code_response(success, data, error_info)
if result.should_show_toast:
show_toast_message.emit(result.message, result.success)
# ============ 网络测试 ============
# 测试网络连接
func test_network_connection():
var request_id = NetworkManager.get_app_status(_on_network_test_response)
if request_id != "":
active_request_ids.append(request_id)
# 处理网络测试响应
func _on_network_test_response(success: bool, data: Dictionary, error_info: Dictionary):
var result = ResponseHandler.handle_network_test_response(success, data, error_info)
network_status_changed.emit(result.success, result.message)
# ============ 私有辅助方法 ============
# 重置登录状态
func _reset_login_state():
is_processing = false
button_state_changed.emit("main_btn", false, "进入小镇")
# 重置注册状态
func _reset_register_state():
is_processing = false
button_state_changed.emit("register_btn", false, "注册")
# 检查是否可以发送验证码
func _can_send_verification_code(email: String) -> bool:
if not verification_codes_sent.has(email):
return true
var email_data = verification_codes_sent[email]
if not email_data.sent:
return true
var current_time = Time.get_time_dict_from_system()
var current_timestamp = current_time.hour * 3600 + current_time.minute * 60 + current_time.second
return (current_timestamp - email_data.time) >= code_cooldown
# 获取剩余冷却时间
func get_remaining_cooldown_time(email: String) -> int:
if not verification_codes_sent.has(email):
return 0
var email_data = verification_codes_sent[email]
var current_time = Time.get_time_dict_from_system()
var current_timestamp = current_time.hour * 3600 + current_time.minute * 60 + current_time.second
return int(code_cooldown - (current_timestamp - email_data.time))
# 记录验证码发送状态
func _record_verification_code_sent(email: String):
var current_time = Time.get_time_dict_from_system()
var current_timestamp = current_time.hour * 3600 + current_time.minute * 60 + current_time.second
if not verification_codes_sent.has(email):
verification_codes_sent[email] = {}
verification_codes_sent[email].sent = true
verification_codes_sent[email].time = current_timestamp
current_email = email
# 重置验证码状态
func _reset_verification_code_state(email: String):
if verification_codes_sent.has(email):
verification_codes_sent[email].sent = false
# 检查是否已发送验证码
func _has_sent_verification_code(email: String) -> bool:
if not verification_codes_sent.has(email):
return false
return verification_codes_sent[email].get("sent", false)
# 验证标识符格式
func _is_valid_identifier(identifier: String) -> bool:
return StringUtils.is_valid_email(identifier) or _is_valid_phone(identifier)
# 验证手机号格式
func _is_valid_phone(phone: String) -> bool:
var regex = RegEx.new()
regex.compile("^\\+?[1-9]\\d{1,14}$")
return regex.search(phone) != null

1
_Core/managers/AuthManager.gd.uid Normal file
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uid://bpdyraefv0yta

726
_Core/managers/ChatManager.gd Normal file
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extends Node
# ============================================================================
# ChatManager.gd - 聊天系统业务逻辑核心
# ============================================================================
# 管理聊天功能的核心业务逻辑
#
# 核心职责:
# - 聊天消息发送/接收协调
# - 客户端频率限制10条/分钟)
# - 消息历史管理最多100条
# - Signal Up: 通过信号和 EventSystem 向上通知
# - 整合 AuthManager 获取 token
#
# 使用方式:
# ChatManager.connect_to_chat_server()
# ChatManager.send_chat_message("Hello", "local")
# ChatManager.chat_message_received.connect(_on_message_received)
#
# 注意事项:
# - 作为自动加载单例,全局可访问
# - 遵循 "Signal Up, Call Down" 架构
# - 所有聊天事件通过 EventSystem 广播
# ============================================================================
# ============================================================================
# 信号定义 (Signal Up)
# ============================================================================
# 聊天消息已发送信号
# 参数:
# message_id: String - 消息 ID
# timestamp: float - 时间戳
signal chat_message_sent(message_id: String, timestamp: float)
# 聊天消息已接收信号
# 参数:
# from_user: String - 发送者用户名
# content: String - 消息内容
# show_bubble: bool - 是否显示气泡
# timestamp: float - 时间戳
signal chat_message_received(from_user: String, content: String, show_bubble: bool, timestamp: float)
# 聊天错误发生信号
# 参数:
# error_code: String - 错误代码
# message: String - 错误消息
signal chat_error_occurred(error_code: String, message: String)
# 聊天连接状态变化信号
# 参数:
# state: int - 连接状态0=DISCONNECTED, 1=CONNECTING, 2=CONNECTED, 3=RECONNECTING, 4=ERROR
signal chat_connection_state_changed(state: int)
# 位置更新成功信号
# 参数:
# stream: String - Stream 名称
# topic: String - Topic 名称
signal chat_position_updated(stream: String, topic: String)
# ============================================================================
# 常量定义
# ============================================================================
# WebSocket 服务器 URL原生 WebSocket
const WEBSOCKET_URL: String = "wss://whaletownend.xinghangee.icu/game"
# 重连配置
const RECONNECT_MAX_ATTEMPTS: int = 5
const RECONNECT_BASE_DELAY: float = 3.0
# 频率限制配置
const RATE_LIMIT_MESSAGES: int = 10
const RATE_LIMIT_WINDOW: float = 60.0 # 秒
# 消息限制
const MAX_MESSAGE_LENGTH: int = 1000
# 当前会话消息限制(当前游戏会话,超过后删除最旧的)
const MAX_SESSION_MESSAGES: int = 100
# 历史消息分页大小(从 Zulip 后端每次加载的数量)
const HISTORY_PAGE_SIZE: int = 100
# 错误消息映射
const CHAT_ERROR_MESSAGES: Dictionary = {
"AUTH_FAILED": "聊天认证失败,请重新登录",
"RATE_LIMIT": "消息发送过于频繁,请稍后再试",
"CONTENT_FILTERED": "消息内容包含违规内容",
"CONTENT_TOO_LONG": "消息内容过长最大1000字符",
"PERMISSION_DENIED": "您没有权限发送消息",
"SESSION_EXPIRED": "会话已过期,请重新连接",
"ZULIP_ERROR": "消息服务暂时不可用",
"INTERNAL_ERROR": "服务器内部错误"
}
# ============================================================================
# 成员变量
# ============================================================================
# WebSocket 管理器
var _websocket_manager: ChatWebSocketManager
# 是否已登录
var _is_logged_in: bool = false
# 消息历史记录当前会话最多100条超过后删除最旧的
var _message_history: Array[Dictionary] = []
# 历史消息加载状态
var _history_loading: bool = false
var _has_more_history: bool = true
var _oldest_message_timestamp: float = 0.0
# 消息发送时间戳(用于频率限制)
var _message_timestamps: Array[float] = []
# 当前用户信息
var _current_username: String = ""
var _current_map: String = ""
# 游戏 token
var _game_token: String = ""
# 发送后本地回显去重(避免服务端也回发导致重复显示)
const SELF_ECHO_DEDUPE_WINDOW: float = 10.0
var _pending_self_messages: Array[Dictionary] = []
# ============================================================================
# 生命周期方法
# ============================================================================
# 初始化
func _ready() -> void:
# 创建 WebSocket 管理器
_websocket_manager = ChatWebSocketManager.new()
add_child(_websocket_manager)
# 连接信号
_connect_signals()
# 清理
func _exit_tree() -> void:
if is_instance_valid(_websocket_manager):
_websocket_manager.queue_free()
# ============================================================================
# 公共 API - Token 管理
# ============================================================================
# 设置游戏 token
#
# 参数:
# token: String - 游戏认证 token
#
# 使用示例:
# ChatManager.set_game_token("your_game_token")
func set_game_token(token: String) -> void:
_game_token = token
# 获取游戏 token
#
# 返回值:
# String - 当前游戏 token
func get_game_token() -> String:
return _game_token
# ============================================================================
# 公共 API - 连接管理
# ============================================================================
# 连接到聊天服务器
func connect_to_chat_server() -> void:
if _websocket_manager.is_websocket_connected():
push_warning("聊天服务器已连接")
return
_websocket_manager.connect_to_game_server()
# 断开聊天服务器
func disconnect_from_chat_server() -> void:
# 发送登出消息
if _is_logged_in:
var logout_data := {"type": "logout"}
_websocket_manager.send_message(JSON.stringify(logout_data))
_is_logged_in = false
# 断开连接
_websocket_manager.disconnect_websocket()
# 检查是否已连接
#
# 返回值:
# bool - 是否已连接
func is_chat_connected() -> bool:
return _websocket_manager.is_websocket_connected()
# ============================================================================
# 公共 API - 聊天操作
# ============================================================================
# 发送聊天消息
#
# 参数:
# content: String - 消息内容
# scope: String - 消息范围("local" 或具体 topic 名称)
#
# 使用示例:
# ChatManager.send_chat_message("Hello, world!", "local")
func send_chat_message(content: String, scope: String = "local") -> void:
# 检查连接状态
if not _websocket_manager.is_websocket_connected():
_handle_error("NOT_CONNECTED", "未连接到聊天服务器")
return
# 检查登录状态
if not _is_logged_in:
_handle_error("NOT_LOGGED_IN", "尚未登录聊天服务器")
return
# 检查消息长度
if content.length() > MAX_MESSAGE_LENGTH:
_handle_error("CONTENT_TOO_LONG", "消息内容过长")
return
# 检查频率限制
if not can_send_message():
var wait_time := get_time_until_next_message()
_handle_error("RATE_LIMIT", "请等待 %.1f 秒后再试" % wait_time)
return
# 构建消息数据
var message_data := {
"type": "chat",
"content": content,
"scope": scope
}
# 发送消息JSON 字符串)
var json_string := JSON.stringify(message_data)
var send_err: Error = _websocket_manager.send_message(json_string)
if send_err != OK:
_handle_error("SEND_FAILED", "WebSocket send failed: %s" % error_string(send_err))
return
# 记录发送时间
_record_message_timestamp()
# 添加到历史
_add_message_to_history({
"from_user": _current_username,
"content": content,
"timestamp": Time.get_unix_time_from_system(),
"is_self": true
})
var now_timestamp: float = Time.get_unix_time_from_system()
# 记录待去重的“自己消息”(如果服务端也回发 chat_render则避免重复显示
_pending_self_messages.append({
"content": content,
"expires_at": now_timestamp + SELF_ECHO_DEDUPE_WINDOW
})
# 本地回显UI 目前只订阅 CHAT_MESSAGE_RECEIVED所以这里也发一次 received
chat_message_received.emit(_current_username, content, true, now_timestamp)
EventSystem.emit_event(EventNames.CHAT_MESSAGE_RECEIVED, {
"from_user": _current_username,
"content": content,
"show_bubble": true,
"timestamp": now_timestamp,
"is_self": true
})
# 消息发送完成回调
func _on_chat_message_sent(_request_id: String, success: bool, data: Dictionary, error_info: Dictionary) -> void:
if success:
var message_id: String = str(data.get("data", {}).get("id", ""))
var timestamp: float = Time.get_unix_time_from_system()
chat_message_sent.emit(message_id, timestamp)
EventSystem.emit_event(EventNames.CHAT_MESSAGE_SENT, {
"message_id": message_id,
"timestamp": timestamp
})
else:
_handle_error("SEND_FAILED", error_info.get("message", "发送失败"))
# 更新玩家位置
#
# 参数:
# x: float - X 坐标
# y: float - Y 坐标
# map_id: String - 地图 ID
#
# 使用示例:
# ChatManager.update_player_position(150.0, 200.0, "novice_village")
func update_player_position(x: float, y: float, map_id: String) -> void:
if not _websocket_manager.is_websocket_connected():
return
var position_data := {
"type": "position",
"x": x,
"y": y,
"mapId": map_id
}
# 发送消息JSON 字符串)
var json_string := JSON.stringify(position_data)
_websocket_manager.send_message(json_string)
# ============================================================================
# 公共 API - 频率限制
# ============================================================================
# 检查是否可以发送消息
#
# 返回值:
# bool - 是否可以发送
func can_send_message() -> bool:
var current_time := Time.get_unix_time_from_system()
# 清理过期的时间戳
var filter_func := func(timestamp: float) -> bool:
return current_time - timestamp < RATE_LIMIT_WINDOW
_message_timestamps = _message_timestamps.filter(filter_func)
# 检查数量
return _message_timestamps.size() < RATE_LIMIT_MESSAGES
# 获取距离下次可发送消息的时间
#
# 返回值:
# float - 等待时间(秒)
func get_time_until_next_message() -> float:
if _message_timestamps.is_empty():
return 0.0
if _message_timestamps.size() < RATE_LIMIT_MESSAGES:
return 0.0
# 找到最早的时间戳
var earliest_timestamp: float = _message_timestamps[0]
var current_time := Time.get_unix_time_from_system()
var elapsed := current_time - earliest_timestamp
if elapsed >= RATE_LIMIT_WINDOW:
return 0.0
return RATE_LIMIT_WINDOW - elapsed
# ============================================================================
# 公共 API - 消息历史
# ============================================================================
# 获取消息历史
#
# 返回值:
# Array[Dictionary] - 消息历史数组
func get_message_history() -> Array[Dictionary]:
return _message_history.duplicate()
# 清空消息历史
func clear_message_history() -> void:
_message_history.clear()
# 重置当前会话(每次登录/重连时调用)
#
# 功能:
# - 清空当前会话消息缓存
# - 重置历史消息加载状态
# - 不影响 Zulip 后端的历史消息
#
# 使用场景:
# - 用户登录成功后
# - 重新连接到聊天服务器后
func reset_session() -> void:
_message_history.clear()
_history_loading = false
_has_more_history = true
_oldest_message_timestamp = 0.0
# 加载历史消息(按需从 Zulip 后端获取)
#
# 参数:
# count: int - 要加载的消息数量(默认 HISTORY_PAGE_SIZE
#
# 功能:
# - 从 Zulip 后端获取历史消息
# - 添加到当前会话历史开头
# - 触发 CHAT_MESSAGE_RECEIVED 事件显示消息
#
# 使用场景:
# - 用户滚动到聊天窗口顶部
# - 用户主动点击"加载历史"按钮
#
# 注意:
# - 这是异步操作,需要通过 Zulip API 实现
# - 当前实现为占位符,需要后端 API 支持
func load_history(_count: int = HISTORY_PAGE_SIZE) -> void:
if _history_loading:
return
if not _has_more_history:
return
_history_loading = true
# TODO: 实现从 Zulip 后端获取历史消息
# NetworkManager.get_chat_history(_oldest_message_timestamp, count, _on_history_loaded)
# 历史消息加载完成回调
func _on_history_loaded(messages: Array) -> void:
_history_loading = false
if messages.is_empty():
_has_more_history = false
return
# 将历史消息插入到当前会话历史开头
for i in range(messages.size() - 1, -1, -1):
var message: Dictionary = messages[i]
_message_history.push_front(message)
# 触发事件显示消息Signal Up
EventSystem.emit_event(EventNames.CHAT_MESSAGE_RECEIVED, {
"from_user": message.get("from_user", ""),
"content": message.get("content", ""),
"show_bubble": false,
"timestamp": message.get("timestamp", 0.0),
"is_self": (not _current_username.is_empty() and message.get("from_user", "") == _current_username),
"is_history": true # 标记为历史消息
})
# 更新最旧消息时间戳
var oldest: Dictionary = messages.back()
if oldest.has("timestamp"):
_oldest_message_timestamp = oldest.timestamp
# 检查是否还有更多历史
if messages.size() < HISTORY_PAGE_SIZE:
_has_more_history = false
# ============================================================================
# 内部方法 - 信号连接
# ============================================================================
# 连接信号
func _connect_signals() -> void:
# WebSocket 管理器信号
_websocket_manager.connection_state_changed.connect(_on_connection_state_changed)
_websocket_manager.data_received.connect(_on_data_received)
# 发送登录消息
func _send_login_message() -> void:
var login_data := {
"type": "login",
"token": _game_token
}
var json_string := JSON.stringify(login_data)
_websocket_manager.send_message(json_string)
# 连接状态变化
func _on_connection_state_changed(state: int) -> void:
# 发射信号
chat_connection_state_changed.emit(state)
# 通过 EventSystem 广播Signal Up
EventSystem.emit_event(EventNames.CHAT_CONNECTION_STATE_CHANGED, {
"state": state
})
# 如果连接成功,发送登录消息
if state == 2: # CONNECTED
_send_login_message()
# ============================================================================
# 内部方法 - 消息处理
# ============================================================================
# WebSocket 数据接收
func _on_data_received(message: String) -> void:
# 解析 JSON 消息
var json := JSON.new()
var parse_result := json.parse(message)
if parse_result != OK:
push_error("ChatManager: JSON 解析失败")
return
var data: Dictionary = json.data
# 检查消息类型字段
var message_type: String = data.get("t", "")
match message_type:
"login_success":
_handle_login_success(data)
"login_error":
_handle_login_error(data)
"chat":
_handle_chat_render(data)
"chat_sent":
_handle_chat_sent(data)
"chat_error":
_handle_chat_error(data)
"chat_render":
_handle_chat_render(data)
"position_updated":
_handle_position_updated(data)
_:
push_warning("ChatManager: 未处理的消息类型 %s" % message_type)
# 处理登录成功
func _handle_login_success(data: Dictionary) -> void:
_is_logged_in = true
_current_username = data.get("username", "")
_current_map = data.get("currentMap", "")
# 重置当前会话缓存(每次登录/重连都清空,重新开始接收消息)
reset_session()
# 通过 EventSystem 广播Signal Up
EventSystem.emit_event(EventNames.CHAT_LOGIN_SUCCESS, {
"username": _current_username,
"current_map": _current_map
})
# 处理登录失败
func _handle_login_error(data: Dictionary) -> void:
var error_message: String = data.get("message", "登录失败")
_is_logged_in = false
# 通过 EventSystem 广播错误Signal Up
EventSystem.emit_event(EventNames.CHAT_LOGIN_FAILED, {
"error_code": "LOGIN_FAILED",
"message": error_message
})
# 处理聊天消息发送成功
func _handle_chat_sent(data: Dictionary) -> void:
var message_id: String = str(data.get("messageId", ""))
var timestamp: float = data.get("timestamp", 0.0)
# 发射信号
chat_message_sent.emit(message_id, timestamp)
# 通过 EventSystem 广播Signal Up
EventSystem.emit_event(EventNames.CHAT_MESSAGE_SENT, {
"message_id": message_id,
"timestamp": timestamp
})
# 处理聊天消息发送失败
func _handle_chat_error(data: Dictionary) -> void:
var error_message: String = data.get("message", "消息发送失败")
# 通过 EventSystem 广播错误Signal Up
EventSystem.emit_event(EventNames.CHAT_ERROR_OCCURRED, {
"error_code": "CHAT_SEND_FAILED",
"message": error_message
})
# 处理接收到的聊天消息
func _handle_chat_render(data: Dictionary) -> void:
# 兼容不同后端字段命名:
# - chat_render: {from, txt, bubble, timestamp}
# - chat: {content, scope, (可选 from/username/timestamp)}
var from_user: String = data.get("from", data.get("from_user", data.get("username", "")))
var content: String = data.get("txt", data.get("content", ""))
var show_bubble: bool = bool(data.get("bubble", data.get("show_bubble", false)))
var timestamp: float = _parse_chat_timestamp_to_unix(data.get("timestamp", 0.0))
var is_self: bool = (not _current_username.is_empty() and from_user == _current_username)
if is_self and _consume_pending_self_message(content):
# 已经本地回显过,避免重复显示
return
# 如果服务端没带发送者信息,但内容匹配最近自己发送的消息,则认为是自己消息
if from_user.is_empty() and _consume_pending_self_message(content):
from_user = _current_username
is_self = true
# 添加到历史
_add_message_to_history({
"from_user": from_user,
"content": content,
"timestamp": timestamp,
"is_self": is_self
})
# 发射信号
chat_message_received.emit(from_user, content, show_bubble, timestamp)
# 通过 EventSystem 广播Signal Up
EventSystem.emit_event(EventNames.CHAT_MESSAGE_RECEIVED, {
"from_user": from_user,
"content": content,
"show_bubble": show_bubble,
"timestamp": timestamp,
"is_self": is_self
})
# 解析聊天消息时间戳(兼容 unix 秒 / ISO 8601 字符串)
func _parse_chat_timestamp_to_unix(timestamp_raw: Variant) -> float:
if typeof(timestamp_raw) == TYPE_INT or typeof(timestamp_raw) == TYPE_FLOAT:
var ts := float(timestamp_raw)
return ts if ts > 0.0 else Time.get_unix_time_from_system()
var ts_str := str(timestamp_raw)
if ts_str.strip_edges().is_empty():
return Time.get_unix_time_from_system()
# 纯数字字符串(必须整串都是数字/小数点,避免把 ISO 字符串前缀 "2026" 误判成时间戳)
var numeric_regex := RegEx.new()
numeric_regex.compile("^\\s*-?\\d+(?:\\.\\d+)?\\s*$")
if numeric_regex.search(ts_str) != null:
var ts_num := float(ts_str)
return ts_num if ts_num > 0.0 else Time.get_unix_time_from_system()
# ISO 8601: 2026-01-19T15:15:43.930Z
var regex := RegEx.new()
regex.compile("(\\d{4})-(\\d{2})-(\\d{2})T(\\d{2}):(\\d{2}):(\\d{2})")
var result := regex.search(ts_str)
if result == null:
return Time.get_unix_time_from_system()
var utc_dict := {
"year": int(result.get_string(1)),
"month": int(result.get_string(2)),
"day": int(result.get_string(3)),
"hour": int(result.get_string(4)),
"minute": int(result.get_string(5)),
"second": int(result.get_string(6))
}
return Time.get_unix_time_from_datetime_dict(utc_dict)
# 处理位置更新成功
func _handle_position_updated(data: Dictionary) -> void:
var stream: String = data.get("stream", "")
var topic: String = data.get("topic", "")
# 发射信号
chat_position_updated.emit(stream, topic)
# 通过 EventSystem 广播Signal Up
EventSystem.emit_event(EventNames.CHAT_POSITION_UPDATED, {
"stream": stream,
"topic": topic
})
# 处理错误响应(如果需要)
func _handle_error_response(data: Dictionary) -> void:
var error_code: String = data.get("code", "")
var error_message: String = data.get("message", "")
_handle_error(error_code, error_message)
# 处理 Socket 错误(如果需要)
func _on_socket_error(error: String) -> void:
_handle_error("SOCKET_ERROR", error)
# ============================================================================
# 内部方法 - 工具函数
# ============================================================================
# 处理错误
func _handle_error(error_code: String, error_message: String) -> void:
push_error("ChatManager: [%s] %s" % [error_code, error_message])
# 获取用户友好的错误消息
var user_message: String = CHAT_ERROR_MESSAGES.get(error_code, error_message) as String
# 发射信号
chat_error_occurred.emit(error_code, user_message)
# 通过 EventSystem 广播Signal Up
EventSystem.emit_event(EventNames.CHAT_ERROR_OCCURRED, {
"error_code": error_code,
"message": user_message
})
# 特殊处理认证失败
if error_code == "AUTH_FAILED" or error_code == "SESSION_EXPIRED":
_is_logged_in = false
EventSystem.emit_event(EventNames.CHAT_LOGIN_FAILED, {
"error_code": error_code
})
# 记录消息发送时间戳
func _record_message_timestamp() -> void:
var current_time := Time.get_unix_time_from_system()
_message_timestamps.append(current_time)
# 消费一个待去重的“自己消息”(允许相同内容多次发送:每次消费一个)
func _consume_pending_self_message(content: String) -> bool:
var now := Time.get_unix_time_from_system()
# 先清理过期项
for i in range(_pending_self_messages.size() - 1, -1, -1):
var item: Dictionary = _pending_self_messages[i]
if float(item.get("expires_at", 0.0)) < now:
_pending_self_messages.remove_at(i)
# 再匹配内容
for i in range(_pending_self_messages.size() - 1, -1, -1):
if str(_pending_self_messages[i].get("content", "")) == content:
_pending_self_messages.remove_at(i)
return true
return false
# 添加消息到当前会话历史
func _add_message_to_history(message: Dictionary) -> void:
_message_history.append(message)
# 更新最旧消息时间戳(用于历史消息加载)
if _oldest_message_timestamp == 0.0 or message.timestamp < _oldest_message_timestamp:
_oldest_message_timestamp = message.timestamp
# 限制当前会话消息数量(超过后删除最旧的)
if _message_history.size() > MAX_SESSION_MESSAGES:
_message_history.pop_front()

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_Core/managers/ChatManager.gd.uid Normal file
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uid://b6lnbss2i3pss

136
_Core/managers/GameManager.gd Normal file
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extends Node
# ============================================================================
# GameManager.gd - 游戏管理器
# ============================================================================
# 全局单例管理器,负责游戏状态管理和生命周期控制
#
# 核心职责:
# - 游戏状态切换 (加载、认证、游戏中、暂停等)
# - 用户信息管理
# - 全局配置访问
# - 系统初始化和清理
#
# 使用方式:
# GameManager.change_state(GameManager.GameState.IN_GAME)
# GameManager.set_current_user("player123")
#
# 注意事项:
# - 作为自动加载单例,全局可访问
# - 状态变更会触发 game_state_changed 信号
# - 状态切换应该通过 change_state() 方法进行
# ============================================================================
# ============ 信号定义 ============
# 游戏状态变更信号
# 参数: new_state - 新的游戏状态
signal game_state_changed(new_state: GameState)
# ============ 枚举定义 ============
# 游戏状态枚举
# 定义了游戏的各种运行状态
enum GameState {
LOADING, # 加载中 - 游戏启动时的初始化状态
AUTH, # 认证状态 - 用户登录/注册界面
MAIN_MENU, # 主菜单 - 游戏主界面
IN_GAME, # 游戏中 - 正在进行游戏
PAUSED, # 暂停 - 游戏暂停状态
SETTINGS # 设置 - 设置界面
}
# ============ 成员变量 ============
# 状态管理
var current_state: GameState = GameState.LOADING # 当前游戏状态
var previous_state: GameState = GameState.LOADING # 上一个游戏状态
# 用户信息
var current_user: String = "" # 当前登录用户名
# 游戏配置
var game_version: String = "1.0.0" # 游戏版本号
# ============ 生命周期方法 ============
# 初始化游戏管理器
# 在节点准备就绪时调用,设置初始状态
func _ready():
change_state(GameState.AUTH) # 启动时进入认证状态
# ============ 状态管理方法 ============
# 切换游戏状态
#
# 参数:
# new_state: GameState - 要切换到的新状态
#
# 功能:
# - 检查状态是否需要切换
# - 记录状态变更历史
# - 发送状态变更信号
# - 输出状态变更日志
func change_state(new_state: GameState):
# 避免重复切换到相同状态
if current_state == new_state:
return
# 记录状态变更
previous_state = current_state
current_state = new_state
# 发送状态变更信号
game_state_changed.emit(new_state)
# 获取当前游戏状态
#
# 返回值:
# GameState - 当前的游戏状态
func get_current_state() -> GameState:
return current_state
# 获取上一个游戏状态
#
# 返回值:
# GameState - 上一个游戏状态
#
# 使用场景:
# - 从暂停状态恢复时,返回到暂停前状态
# - 错误处理时回退到安全状态
func get_previous_state() -> GameState:
return previous_state
# ============ 用户管理方法 ============
# 设置当前登录用户
#
# 参数:
# username: String - 用户名
#
# 功能:
# - 存储当前登录用户信息
#
# 注意事项:
# - 用户登录成功后调用此方法
# - 用户登出时应传入空字符串
func set_current_user(username: String):
current_user = username
# 获取当前登录用户
#
# 返回值:
# String - 当前登录的用户名,未登录时为空字符串
func get_current_user() -> String:
return current_user
# 检查用户是否已登录
#
# 返回值:
# bool - true表示已登录false表示未登录
#
# 使用场景:
# - 进入需要登录的功能前检查
# - UI显示逻辑判断
func is_user_logged_in() -> bool:
return not current_user.is_empty()

1
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155
_Core/managers/LocationManager.gd Normal file
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extends Node
# ============================================================================
# LocationManager.gd - 位置同步管理器
# ============================================================================
# 负责与后端 WebSocket 服务进行位置同步和多人会话管理
#
# 协议文档: new_docs/game_architecture_design.md
# 后端地址: wss://whaletownend.xinghangee.icu/location-broadcast
# ============================================================================
signal connected_to_server()
signal connection_closed()
signal connection_error()
signal session_joined(data: Dictionary)
signal user_joined(data: Dictionary)
signal user_left(data: Dictionary)
signal position_updated(data: Dictionary)
const WS_URL = "wss://whaletownend.xinghangee.icu/location-broadcast"
const PING_INTERVAL = 25.0 # 秒
var _socket: WebSocketPeer
var _connected: bool = false
var _ping_timer: float = 0.0
var _auth_token: String = ""
func _ready():
_socket = WebSocketPeer.new()
process_mode = Node.PROCESS_MODE_ALWAYS # 保证暂停时也能处理网络
func _process(delta):
_socket.poll()
var state = _socket.get_ready_state()
if state == WebSocketPeer.STATE_OPEN:
if not _connected:
_on_connected()
# 处理接收到的数据包
while _socket.get_available_packet_count() > 0:
var packet = _socket.get_packet()
_handle_packet(packet)
# 心跳处理
_ping_timer += delta
if _ping_timer >= PING_INTERVAL:
_send_heartbeat()
_ping_timer = 0.0
elif state == WebSocketPeer.STATE_CLOSED:
if _connected:
_on_disconnected()
func connect_to_server():
if _socket.get_ready_state() == WebSocketPeer.STATE_OPEN:
return
var err = _socket.connect_to_url(WS_URL)
if err != OK:
push_error("LocationManager: WebSocket 连接请求失败,错误码: %d" % err)
connection_error.emit()
else:
# Godot WebSocket connect is non-blocking, wait for state change in _process
pass
func close_connection():
_socket.close()
func set_auth_token(token: String):
_auth_token = token
# ============ 协议发送 ============
func send_packet(event: String, data: Dictionary):
if _socket.get_ready_state() != WebSocketPeer.STATE_OPEN:
return
var message = {
"event": event,
"data": data
}
var json_str = JSON.stringify(message)
_socket.put_packet(json_str.to_utf8_buffer())
func join_session(map_id: String, initial_pos: Vector2):
var data = {
"sessionId": map_id,
"initialPosition": {
"x": initial_pos.x,
"y": initial_pos.y,
"mapId": map_id
},
"token": _auth_token
}
send_packet("join_session", data)
func leave_session(map_id: String):
send_packet("leave_session", {"sessionId": map_id})
func send_position_update(map_id: String, pos: Vector2, anim_data: Dictionary = {}):
var data = {
"x": pos.x,
"y": pos.y,
"mapId": map_id,
"metadata": anim_data
}
if map_id == "":
push_warning("LocationManager: position_update 的 map_id 为空")
send_packet("position_update", data)
func _send_heartbeat():
send_packet("heartbeat", {"timestamp": Time.get_unix_time_from_system()})
# ============ 事件处理 ============
func _on_connected():
_connected = true
connected_to_server.emit()
func _on_disconnected():
_connected = false
connection_closed.emit()
func _handle_packet(packet: PackedByteArray):
var json_str = packet.get_string_from_utf8()
var json = JSON.new()
var err = json.parse(json_str)
if err != OK:
push_error("LocationManager: JSON 解析失败 - %s" % json.get_error_message())
return
var message = json.data
if not message is Dictionary or not message.has("event"):
return
var event = message["event"]
var data = message.get("data", {})
match event:
"session_joined":
session_joined.emit(data)
"user_joined":
user_joined.emit(data)
"user_left":
user_left.emit(data)
"position_update":
position_updated.emit(data)
"heartbeat_response":
pass # 静默处理
"error":
push_error("LocationManager: WebSocket 错误事件 - %s" % JSON.stringify(data))
_:
push_warning("LocationManager: 未处理的 WebSocket 事件 %s" % event)

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344
core/managers/NetworkManager.gd → _Core/managers/NetworkManager.gd
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@@ -1,45 +1,96 @@
extends Node
# 网络请求管理器 - 统一处理所有HTTP请求
# ============================================================================
# NetworkManager.gd - 网络请求管理器
# ============================================================================
# 全局单例管理器统一处理所有HTTP请求
#
# 核心职责:
# - 统一的HTTP请求接口 (GET, POST, PUT, DELETE, PATCH)
# - 认证相关API封装 (登录、注册、验证码等)
# - 请求状态管理和错误处理
# - 支持API v1.1.1规范的响应处理
#
# 使用方式:
# NetworkManager.login("user@example.com", "password", callback)
# var request_id = NetworkManager.get_request("/api/data", callback)
#
# 注意事项:
# - 作为自动加载单例,全局可访问
# - 所有请求都是异步的,通过回调函数或信号处理结果
# - 支持请求超时和取消功能
# - 自动处理JSON序列化和反序列化
# ============================================================================
# 信号定义
# ============ 信号定义 ============
# 请求完成信号
# 参数:
# request_id: String - 请求唯一标识符
# success: bool - 请求是否成功
# data: Dictionary - 响应数据
signal request_completed(request_id: String, success: bool, data: Dictionary)
# 请求失败信号
# 参数:
# request_id: String - 请求唯一标识符
# error_type: String - 错误类型名称
# message: String - 错误消息
signal request_failed(request_id: String, error_type: String, message: String)
# API配置
# ============ 常量定义 ============
# API基础URL - 所有请求的根地址
const API_BASE_URL = "https://whaletownend.xinghangee.icu"
# 默认请求超时时间(秒)
const DEFAULT_TIMEOUT = 30.0
# 请求类型枚举
# ============ 枚举定义 ============
# HTTP请求方法枚举
enum RequestType {
GET,
POST,
PUT,
DELETE,
PATCH
GET, # 获取数据
POST, # 创建数据
PUT, # 更新数据
DELETE, # 删除数据
PATCH # 部分更新数据
}
# 错误类型枚举
# 用于分类不同类型的网络错误
enum ErrorType {
NETWORK_ERROR, # 网络连接错误
TIMEOUT_ERROR, # 请求超时
PARSE_ERROR, # JSON解析错误
HTTP_ERROR, # HTTP状态码错误
BUSINESS_ERROR # 业务逻辑错误
NETWORK_ERROR, # 网络连接错误 - 无法连接到服务器
TIMEOUT_ERROR, # 请求超时 - 服务器响应时间过长
PARSE_ERROR, # JSON解析错误 - 服务器返回格式错误
HTTP_ERROR, # HTTP状态码错误 - 4xx, 5xx状态码
BUSINESS_ERROR # 业务逻辑错误 - API返回的业务错误
}
# 请求状态
# ============ 请求信息类 ============
# 请求信息封装类
# 存储单个HTTP请求的所有相关信息
class RequestInfo:
var id: String
var url: String
var method: RequestType
var headers: PackedStringArray
var body: String
var timeout: float
var start_time: float
var http_request: HTTPRequest
var callback: Callable
var id: String # 请求唯一标识符
var url: String # 完整的请求URL
var method: RequestType # HTTP请求方法
var headers: PackedStringArray # 请求头数组
var body: String # 请求体内容
var timeout: float # 超时时间(秒)
var start_time: float # 请求开始时间戳
var http_request: HTTPRequest # Godot HTTPRequest节点引用
var callback: Callable # 完成时的回调函数
# 构造函数
#
# 参数:
# request_id: String - 请求唯一标识符
# request_url: String - 请求URL
# request_method: RequestType - HTTP方法
# request_headers: PackedStringArray - 请求头(可选)
# request_body: String - 请求体(可选)
# request_timeout: float - 超时时间可选默认使用DEFAULT_TIMEOUT
func _init(request_id: String, request_url: String, request_method: RequestType,
request_headers: PackedStringArray = [], request_body: String = "",
request_timeout: float = DEFAULT_TIMEOUT):
@@ -49,40 +100,92 @@ class RequestInfo:
headers = request_headers
body = request_body
timeout = request_timeout
# 记录请求开始时间(简化版时间戳)
start_time = Time.get_time_dict_from_system().hour * 3600 + Time.get_time_dict_from_system().minute * 60 + Time.get_time_dict_from_system().second
# 活动请求管理
var active_requests: Dictionary = {}
var request_counter: int = 0
# ============ 成员变量 ============
func _ready():
print("NetworkManager 已初始化")
# 活动请求管理
var active_requests: Dictionary = {} # 存储所有活动请求 {request_id: RequestInfo}
var request_counter: int = 0 # 请求计数器用于生成唯一ID
# ============ 公共API接口 ============
# 发送GET请求
#
# 参数:
# endpoint: String - API端点路径如: "/api/users"
# callback: Callable - 完成时的回调函数(可选)
# timeout: float - 超时时间可选默认30秒
#
# 返回值:
# String - 请求ID可用于取消请求或跟踪状态
#
# 使用示例:
# var request_id = NetworkManager.get_request("/api/users", my_callback)
func get_request(endpoint: String, callback: Callable = Callable(), timeout: float = DEFAULT_TIMEOUT) -> String:
return send_request(endpoint, RequestType.GET, [], "", callback, timeout)
# 发送POST请求
#
# 参数:
# endpoint: String - API端点路径
# data: Dictionary - 要发送的数据将自动转换为JSON
# callback: Callable - 完成时的回调函数(可选)
# timeout: float - 超时时间(可选)
#
# 返回值:
# String - 请求ID
#
# 使用示例:
# var data = {"name": "张三", "age": 25}
# var request_id = NetworkManager.post_request("/api/users", data, my_callback)
func post_request(endpoint: String, data: Dictionary, callback: Callable = Callable(), timeout: float = DEFAULT_TIMEOUT) -> String:
var body = JSON.stringify(data)
var headers = ["Content-Type: application/json"]
return send_request(endpoint, RequestType.POST, headers, body, callback, timeout)
# 发送PUT请求
#
# 参数:
# endpoint: String - API端点路径
# data: Dictionary - 要更新的数据
# callback: Callable - 完成时的回调函数(可选)
# timeout: float - 超时时间(可选)
#
# 返回值:
# String - 请求ID
func put_request(endpoint: String, data: Dictionary, callback: Callable = Callable(), timeout: float = DEFAULT_TIMEOUT) -> String:
var body = JSON.stringify(data)
var headers = ["Content-Type: application/json"]
return send_request(endpoint, RequestType.PUT, headers, body, callback, timeout)
# 发送DELETE请求
#
# 参数:
# endpoint: String - API端点路径
# callback: Callable - 完成时的回调函数(可选)
# timeout: float - 超时时间(可选)
#
# 返回值:
# String - 请求ID
func delete_request(endpoint: String, callback: Callable = Callable(), timeout: float = DEFAULT_TIMEOUT) -> String:
return send_request(endpoint, RequestType.DELETE, [], "", callback, timeout)
# ============ 认证相关API ============
# 用户登录
#
# 参数:
# identifier: String - 用户标识符(邮箱或手机号)
# password: String - 用户密码
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 回调函数签名:
# func callback(success: bool, data: Dictionary, error_info: Dictionary)
func login(identifier: String, password: String, callback: Callable = Callable()) -> String:
var data = {
"identifier": identifier,
@@ -91,6 +194,18 @@ func login(identifier: String, password: String, callback: Callable = Callable()
return post_request("/auth/login", data, callback)
# 验证码登录
#
# 参数:
# identifier: String - 用户标识符(邮箱或手机号)
# verification_code: String - 验证码
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 使用场景:
# - 用户忘记密码时的替代登录方式
# - 提供更安全的登录选项
func verification_code_login(identifier: String, verification_code: String, callback: Callable = Callable()) -> String:
var data = {
"identifier": identifier,
@@ -99,11 +214,39 @@ func verification_code_login(identifier: String, verification_code: String, call
return post_request("/auth/verification-code-login", data, callback)
# 发送登录验证码
#
# 参数:
# identifier: String - 用户标识符(邮箱或手机号)
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 功能:
# - 向已注册用户发送登录验证码
# - 支持邮箱和手机号
# - 有频率限制保护
func send_login_verification_code(identifier: String, callback: Callable = Callable()) -> String:
var data = {"identifier": identifier}
return post_request("/auth/send-login-verification-code", data, callback)
# 用户注册
#
# 参数:
# username: String - 用户名
# password: String - 密码
# nickname: String - 昵称
# email: String - 邮箱地址(可选)
# email_verification_code: String - 邮箱验证码(可选)
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 注意事项:
# - 如果提供邮箱,建议同时提供验证码
# - 用户名和邮箱必须唯一
# - 密码需要符合安全要求
func register(username: String, password: String, nickname: String, email: String = "",
email_verification_code: String = "", callback: Callable = Callable()) -> String:
var data = {
@@ -112,6 +255,7 @@ func register(username: String, password: String, nickname: String, email: Strin
"nickname": nickname
}
# 可选参数处理
if email != "":
data["email"] = email
if email_verification_code != "":
@@ -120,11 +264,35 @@ func register(username: String, password: String, nickname: String, email: Strin
return post_request("/auth/register", data, callback)
# 发送邮箱验证码
#
# 参数:
# email: String - 邮箱地址
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 功能:
# - 向指定邮箱发送验证码
# - 用于注册时的邮箱验证
# - 支持测试模式(开发环境)
func send_email_verification(email: String, callback: Callable = Callable()) -> String:
var data = {"email": email}
return post_request("/auth/send-email-verification", data, callback)
# 验证邮箱
#
# 参数:
# email: String - 邮箱地址
# verification_code: String - 验证码
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 功能:
# - 验证邮箱验证码的有效性
# - 通常在注册流程中使用
func verify_email(email: String, verification_code: String, callback: Callable = Callable()) -> String:
var data = {
"email": email,
@@ -133,20 +301,66 @@ func verify_email(email: String, verification_code: String, callback: Callable =
return post_request("/auth/verify-email", data, callback)
# 获取应用状态
#
# 参数:
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 功能:
# - 检查API服务器状态
# - 获取应用基本信息
# - 用于网络连接测试
func get_app_status(callback: Callable = Callable()) -> String:
return get_request("/", callback)
# 重新发送邮箱验证码
#
# 参数:
# email: String - 邮箱地址
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 使用场景:
# - 用户未收到验证码时重新发送
# - 验证码过期后重新获取
func resend_email_verification(email: String, callback: Callable = Callable()) -> String:
var data = {"email": email}
return post_request("/auth/resend-email-verification", data, callback)
# 忘记密码 - 发送重置验证码
#
# 参数:
# identifier: String - 用户标识符(邮箱或手机号)
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 功能:
# - 向用户发送密码重置验证码
# - 用于密码找回流程的第一步
func forgot_password(identifier: String, callback: Callable = Callable()) -> String:
var data = {"identifier": identifier}
return post_request("/auth/forgot-password", data, callback)
# 重置密码
#
# 参数:
# identifier: String - 用户标识符
# verification_code: String - 重置验证码
# new_password: String - 新密码
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 功能:
# - 使用验证码重置用户密码
# - 密码找回流程的第二步
func reset_password(identifier: String, verification_code: String, new_password: String, callback: Callable = Callable()) -> String:
var data = {
"identifier": identifier,
@@ -156,6 +370,19 @@ func reset_password(identifier: String, verification_code: String, new_password:
return post_request("/auth/reset-password", data, callback)
# 修改密码
#
# 参数:
# user_id: String - 用户ID
# old_password: String - 旧密码
# new_password: String - 新密码
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 功能:
# - 已登录用户修改密码
# - 需要验证旧密码
func change_password(user_id: String, old_password: String, new_password: String, callback: Callable = Callable()) -> String:
var data = {
"user_id": user_id,
@@ -165,6 +392,21 @@ func change_password(user_id: String, old_password: String, new_password: String
return put_request("/auth/change-password", data, callback)
# GitHub OAuth登录
#
# 参数:
# github_id: String - GitHub用户ID
# username: String - GitHub用户名
# nickname: String - 显示昵称
# email: String - GitHub邮箱
# avatar_url: String - 头像URL可选
# callback: Callable - 完成时的回调函数(可选)
#
# 返回值:
# String - 请求ID
#
# 功能:
# - 通过GitHub账号登录或注册
# - 支持第三方OAuth认证
func github_login(github_id: String, username: String, nickname: String, email: String, avatar_url: String = "", callback: Callable = Callable()) -> String:
var data = {
"github_id": github_id,
@@ -173,6 +415,7 @@ func github_login(github_id: String, username: String, nickname: String, email:
"email": email
}
# 可选头像URL
if avatar_url != "":
data["avatar_url"] = avatar_url
@@ -206,49 +449,32 @@ func send_request(endpoint: String, method: RequestType, headers: PackedStringAr
active_requests[request_id] = request_info
# 连接信号
http_request.request_completed.connect(func(result: int, response_code: int, headers: PackedStringArray, body: PackedByteArray):
_on_request_completed(request_id, result, response_code, headers, body)
http_request.request_completed.connect(func(result: int, response_code: int, response_headers: PackedStringArray, response_body: PackedByteArray):
_on_request_completed(request_id, result, response_code, response_headers, response_body)
)
# 发送请求
var godot_method = _convert_to_godot_method(method)
var error = http_request.request(full_url, headers, godot_method, body)
print("=== 发送网络请求 ===")
print("请求ID: ", request_id)
print("URL: ", full_url)
print("方法: ", RequestType.keys()[method])
print("Headers: ", headers)
print("Body: ", body if body.length() < 200 else body.substr(0, 200) + "...")
print("发送结果: ", error)
if error != OK:
print("请求发送失败,错误码: ", error)
push_error("NetworkManager: 请求发送失败,错误码: %d" % error)
_handle_request_error(request_id, ErrorType.NETWORK_ERROR, "网络请求发送失败: " + str(error))
return ""
return request_id
# 请求完成回调
func _on_request_completed(request_id: String, result: int, response_code: int,
headers: PackedStringArray, body: PackedByteArray):
print("=== 网络请求完成 ===")
print("请求ID: ", request_id)
print("结果: ", result)
print("状态码: ", response_code)
print("响应头: ", headers)
func _on_request_completed(request_id: String, _result: int, response_code: int,
_headers: PackedStringArray, body: PackedByteArray):
# 获取请求信息
if not active_requests.has(request_id):
print("警告: 未找到请求ID ", request_id)
push_warning("NetworkManager: 未找到请求ID %s" % request_id)
return
var request_info = active_requests[request_id]
var _request_info = active_requests[request_id]
var response_text = body.get_string_from_utf8()
print("响应体长度: ", body.size(), " 字节")
print("响应内容: ", response_text if response_text.length() < 500 else response_text.substr(0, 500) + "...")
# 处理网络连接失败
if response_code == 0:
_handle_request_error(request_id, ErrorType.NETWORK_ERROR, "网络连接失败,请检查网络连接")
@@ -284,13 +510,11 @@ func _handle_response(request_id: String, response_code: int, data: Dictionary):
# 特殊情况206测试模式 - 根据API文档这是成功的测试模式响应
elif response_code == 206 and error_code == "TEST_MODE_ONLY":
is_success = true
print("🧪 测试模式响应: ", message)
# 201创建成功
elif response_code == 201:
is_success = true
if is_success:
print("✅ 请求成功: ", request_id)
# 发送成功信号
request_completed.emit(request_id, true, data)
@@ -298,8 +522,6 @@ func _handle_response(request_id: String, response_code: int, data: Dictionary):
if request_info.callback.is_valid():
request_info.callback.call(true, data, {})
else:
print("❌ 请求失败: ", request_id, " - HTTP:", response_code, " 错误码:", error_code, " 消息:", message)
# 确定错误类型
var error_type = _determine_error_type(response_code, error_code)
@@ -321,7 +543,7 @@ func _handle_response(request_id: String, response_code: int, data: Dictionary):
# 处理请求错误
func _handle_request_error(request_id: String, error_type: ErrorType, message: String):
print("❌ 请求错误: ", request_id, " - ", message)
push_error("NetworkManager: 请求错误 %s - %s" % [request_id, message])
# 发送错误信号
request_failed.emit(request_id, ErrorType.keys()[error_type], message)
@@ -380,8 +602,6 @@ func _cleanup_request(request_id: String):
# 从活动请求中移除
active_requests.erase(request_id)
print("🧹 清理请求: ", request_id)
# 转换请求方法
func _convert_to_godot_method(method: RequestType) -> HTTPClient.Method:
@@ -404,14 +624,12 @@ func _convert_to_godot_method(method: RequestType) -> HTTPClient.Method:
# 取消请求
func cancel_request(request_id: String) -> bool:
if active_requests.has(request_id):
print("🚫 取消请求: ", request_id)
_cleanup_request(request_id)
return true
return false
# 取消所有请求
func cancel_all_requests():
print("🚫 取消所有请求")
var request_ids = active_requests.keys()
for request_id in request_ids:
cancel_request(request_id)
@@ -440,4 +658,4 @@ func get_request_info(request_id: String) -> Dictionary:
func _notification(what):
if what == NOTIFICATION_WM_CLOSE_REQUEST:
# 应用关闭时取消所有请求
cancel_all_requests()
cancel_all_requests()

1
_Core/managers/NetworkManager.gd.uid Normal file
View File

@@ -0,0 +1 @@
uid://dr7v30wheetca

77
core/managers/ResponseHandler.gd → _Core/managers/ResponseHandler.gd
View File

@@ -84,7 +84,7 @@ const HTTP_STATUS_MESSAGES = {
# ============ 主要处理方法 ============
# 处理登录响应
static func handle_login_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_login_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
@@ -103,7 +103,7 @@ static func handle_login_response(success: bool, data: Dictionary, error_info: D
return result
# 处理验证码登录响应
static func handle_verification_code_login_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_verification_code_login_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
@@ -121,60 +121,51 @@ static func handle_verification_code_login_response(success: bool, data: Diction
return result
# 处理发送验证码响应 - 支持邮箱冲突检测
static func handle_send_verification_code_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_send_verification_code_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
var error_code = data.get("error_code", "")
if error_code == "TEST_MODE_ONLY":
result.success = true
result.message = "🧪 测试模式:验证码已生成,请查看控制台"
result.message = "🧪 测试模式:验证码已生成"
result.toast_type = "success"
# 在控制台显示验证码
if data.has("data") and data.data.has("verification_code"):
print("🔑 测试模式验证码: ", data.data.verification_code)
result.message += "\n验证码: " + str(data.data.verification_code)
else:
result.success = true
result.message = "📧 验证码已发送到您的邮箱,请查收"
result.toast_type = "success"
# 开发环境下显示验证码
if data.has("data") and data.data.has("verification_code"):
print("🔑 开发环境验证码: ", data.data.verification_code)
else:
result = _handle_send_code_error(data, error_info)
return result
# 处理发送登录验证码响应
static func handle_send_login_code_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_send_login_code_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
var error_code = data.get("error_code", "")
if error_code == "TEST_MODE_ONLY":
result.success = true
result.message = "测试模式:登录验证码已生成,请查看控制台"
result.message = "测试模式:登录验证码已生成"
result.toast_type = "success"
if data.has("data") and data.data.has("verification_code"):
print("测试模式登录验证码: ", data.data.verification_code)
result.message += "\n验证码: " + str(data.data.verification_code)
else:
result.success = true
result.message = "登录验证码已发送,请查收"
result.toast_type = "success"
if data.has("data") and data.data.has("verification_code"):
print("开发环境登录验证码: ", data.data.verification_code)
else:
result = _handle_send_login_code_error(data, error_info)
return result
# 处理注册响应
static func handle_register_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_register_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
@@ -193,7 +184,7 @@ static func handle_register_response(success: bool, data: Dictionary, error_info
return result
# 处理邮箱验证响应
static func handle_verify_email_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_verify_email_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
@@ -207,57 +198,51 @@ static func handle_verify_email_response(success: bool, data: Dictionary, error_
return result
# 处理重新发送邮箱验证码响应
static func handle_resend_email_verification_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_resend_email_verification_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
var error_code = data.get("error_code", "")
if error_code == "TEST_MODE_ONLY":
result.success = true
result.message = "🧪 测试模式:验证码已重新生成,请查看控制台"
result.message = "🧪 测试模式:验证码已重新生成"
result.toast_type = "success"
if data.has("data") and data.data.has("verification_code"):
print("🔑 测试模式重新发送验证码: ", data.data.verification_code)
result.message += "\n验证码: " + str(data.data.verification_code)
else:
result.success = true
result.message = "📧 验证码已重新发送到您的邮箱,请查收"
result.toast_type = "success"
if data.has("data") and data.data.has("verification_code"):
print("🔑 开发环境重新发送验证码: ", data.data.verification_code)
else:
result = _handle_resend_email_verification_error(data, error_info)
return result
# 处理忘记密码响应
static func handle_forgot_password_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_forgot_password_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
var error_code = data.get("error_code", "")
if error_code == "TEST_MODE_ONLY":
result.success = true
result.message = "🧪 测试模式:重置验证码已生成,请查看控制台"
result.message = "🧪 测试模式:重置验证码已生成"
result.toast_type = "success"
if data.has("data") and data.data.has("verification_code"):
print("🔑 测试模式重置验证码: ", data.data.verification_code)
result.message += "\n验证码: " + str(data.data.verification_code)
else:
result.success = true
result.message = "📧 重置验证码已发送,请查收"
result.toast_type = "success"
if data.has("data") and data.data.has("verification_code"):
print("🔑 开发环境重置验证码: ", data.data.verification_code)
else:
result = _handle_forgot_password_error(data, error_info)
return result
# 处理重置密码响应
static func handle_reset_password_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_reset_password_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
@@ -273,7 +258,7 @@ static func handle_reset_password_response(success: bool, data: Dictionary, erro
# ============ 错误处理方法 ============
# 处理登录错误
static func _handle_login_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_login_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "登录失败")
@@ -297,7 +282,7 @@ static func _handle_login_error(data: Dictionary, error_info: Dictionary) -> Res
return result
# 处理验证码登录错误
static func _handle_verification_code_login_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_verification_code_login_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "验证码登录失败")
@@ -317,7 +302,7 @@ static func _handle_verification_code_login_error(data: Dictionary, error_info:
return result
# 处理发送验证码错误 - 支持邮箱冲突检测和频率限制
static func _handle_send_code_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_send_code_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "发送验证码失败")
@@ -361,7 +346,7 @@ static func _handle_send_code_error(data: Dictionary, error_info: Dictionary) ->
return result
# 处理发送登录验证码错误
static func _handle_send_login_code_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_send_login_code_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "发送登录验证码失败")
@@ -382,7 +367,7 @@ static func _handle_send_login_code_error(data: Dictionary, error_info: Dictiona
return result
# 处理注册错误 - 支持409冲突状态码
static func _handle_register_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_register_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "注册失败")
@@ -416,7 +401,7 @@ static func _handle_register_error(data: Dictionary, error_info: Dictionary) ->
return result
# 处理邮箱验证错误
static func _handle_verify_email_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_verify_email_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "邮箱验证失败")
@@ -439,7 +424,7 @@ static func _handle_verify_email_error(data: Dictionary, error_info: Dictionary)
return result
# 处理网络测试响应
static func handle_network_test_response(success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_network_test_response(success: bool, _data: Dictionary, _error_info: Dictionary = {}) -> ResponseResult:
var result = ResponseResult.new()
if success:
@@ -454,7 +439,7 @@ static func handle_network_test_response(success: bool, data: Dictionary, error_
return result
# 处理重新发送邮箱验证码错误
static func _handle_resend_email_verification_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_resend_email_verification_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "重新发送验证码失败")
@@ -471,7 +456,7 @@ static func _handle_resend_email_verification_error(data: Dictionary, error_info
return result
# 处理忘记密码错误
static func _handle_forgot_password_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_forgot_password_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "发送重置验证码失败")
@@ -490,7 +475,7 @@ static func _handle_forgot_password_error(data: Dictionary, error_info: Dictiona
return result
# 处理重置密码错误
static func _handle_reset_password_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
func _handle_reset_password_error(data: Dictionary, error_info: Dictionary) -> ResponseResult:
var result = ResponseResult.new()
var error_code = data.get("error_code", "")
var message = data.get("message", "重置密码失败")
@@ -509,7 +494,7 @@ static func _handle_reset_password_error(data: Dictionary, error_info: Dictionar
# ============ 工具方法 ============
# 获取错误消息 - 支持更多状态码和错误处理
static func _get_error_message(error_code: String, original_message: String, error_info: Dictionary) -> String:
func _get_error_message(error_code: String, original_message: String, error_info: Dictionary) -> String:
# 优先使用错误码映射
if ERROR_CODE_MESSAGES.has(error_code):
return ERROR_CODE_MESSAGES[error_code]
@@ -544,17 +529,17 @@ static func _get_error_message(error_code: String, original_message: String, err
return original_message if original_message != "" else "操作失败"
# 处理频率限制消息
static func _handle_rate_limit_message(message: String, error_info: Dictionary) -> String:
func _handle_rate_limit_message(message: String, _error_info: Dictionary) -> String:
# 可以根据throttle_info提供更详细的信息
return message + ",请稍后再试"
# 处理维护模式消息
static func _handle_maintenance_message(message: String, error_info: Dictionary) -> String:
func _handle_maintenance_message(_message: String, _error_info: Dictionary) -> String:
# 可以根据maintenance_info提供更详细的信息
return "系统维护中,请稍后再试"
# 通用响应处理器 - 支持更多操作类型
static func handle_response(operation_type: String, success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
func handle_response(operation_type: String, success: bool, data: Dictionary, error_info: Dictionary = {}) -> ResponseResult:
match operation_type:
"login":
return handle_login_response(success, data, error_info)
@@ -587,4 +572,4 @@ static func handle_response(operation_type: String, success: bool, data: Diction
result.success = false
result.message = _get_error_message(data.get("error_code", ""), data.get("message", "操作失败"), error_info)
result.toast_type = "error"
return result
return result

1
_Core/managers/ResponseHandler.gd.uid Normal file
View File

@@ -0,0 +1 @@
uid://nseguk2ytiw6

246
_Core/managers/SceneManager.gd Normal file
View File

@@ -0,0 +1,246 @@
extends Node
# ============================================================================
# SceneManager.gd - 场景管理器
# ============================================================================
# 全局单例管理器,负责场景切换和管理
#
# 核心职责:
# - 场景切换的统一接口
# - 场景路径映射管理
# - 场景切换过渡效果
# - 场景状态跟踪
#
# 使用方式:
# SceneManager.change_scene("main")
# SceneManager.register_scene("custom", "res://scenes/custom.tscn")
#
# 注意事项:
# - 作为自动加载单例,全局可访问
# - 场景切换是异步操作,支持过渡效果
# - 场景名称必须在 scene_paths 中注册
# ============================================================================
# ============ 信号定义 ============
# 场景切换完成信号
# 参数: scene_name - 切换到的场景名称
signal scene_changed(scene_name: String)
# 场景切换开始信号
# 参数: scene_name - 即将切换到的场景名称
signal scene_change_started(scene_name: String)
# ============ 成员变量 ============
# 场景状态
var current_scene_name: String = "" # 当前场景名称
var is_changing_scene: bool = false # 是否正在切换场景
var _next_scene_position: Variant = null # 下一个场景的初始位置 (Vector2 or null)
var _next_spawn_name: String = "" # 下一个场景的出生点名称 (String)
# 场景路径映射表
# 将场景名称映射到实际的文件路径
# 便于统一管理和修改场景路径
var scene_paths: Dictionary = {
"main": "res://scenes/MainScene.tscn", # 主场景 - 游戏入口
"auth": "res://scenes/ui/LoginWindow.tscn", # 认证场景 - 登录窗口
"game": "res://scenes/maps/game_scene.tscn", # 游戏场景 - 主要游戏内容
"battle": "res://scenes/maps/battle_scene.tscn", # 战斗场景 - 战斗系统
"inventory": "res://scenes/ui/InventoryWindow.tscn", # 背包界面
"shop": "res://scenes/ui/ShopWindow.tscn", # 商店界面
"settings": "res://scenes/ui/SettingsWindow.tscn", # 设置界面
"square": "res://scenes/Maps/square.tscn", # 广场地图
"room": "res://scenes/Maps/room.tscn", # 房间地图
"fountain": "res://scenes/Maps/fountain.tscn", # 喷泉地图
"datawhale_home": "res://scenes/Maps/datawhale_home.tscn", # 数据鲸鱼之家
"community": "res://scenes/Maps/community.tscn" # 社区地图
}
# ============ 场景切换方法 ============
# 切换到指定场景
#
# 参数:
# scene_name: String - 要切换到的场景名称必须在scene_paths中注册
# use_transition: bool - 是否使用过渡效果默认为true
#
# 返回值:
# bool - 切换是否成功
#
# 功能:
# - 检查场景切换状态和场景是否存在
# - 显示过渡效果(可选)
# - 执行场景切换
# - 更新当前场景状态
# - 发送相关信号
#
# 使用示例:
# var success = SceneManager.change_scene("main", true)
#
# 注意事项:
# - 场景切换是异步操作
# - 切换过程中会阻止新的切换请求
# - 场景名称必须预先注册
func change_scene(scene_name: String, use_transition: bool = true):
# 防止重复切换
if is_changing_scene:
push_warning("SceneManager: 场景切换中,忽略新的切换请求")
return false
# 检查场景是否存在
if not scene_paths.has(scene_name):
push_error("SceneManager: 未找到场景 %s" % scene_name)
return false
var scene_path = scene_paths[scene_name]
# 设置切换状态
is_changing_scene = true
scene_change_started.emit(scene_name)
# 显示过渡效果
if use_transition:
await show_transition()
# 执行场景切换
var error = get_tree().change_scene_to_file(scene_path)
if error != OK:
push_error("SceneManager: 场景切换失败 %s -> %s, 错误码: %d" % [current_scene_name, scene_name, error])
is_changing_scene = false
return false
# 更新状态
current_scene_name = scene_name
is_changing_scene = false
scene_changed.emit(scene_name)
# 隐藏过渡效果
if use_transition:
await hide_transition()
return true
# ============ 查询方法 ============
# 获取当前场景名称
#
# 返回值:
# String - 当前场景的名称
func get_current_scene_name() -> String:
return current_scene_name
# ============ 场景位置和出生点管理 ============
# 设置下一个场景的初始位置
#
# 参数:
# pos: Vector2 - 玩家在下一个场景的初始位置
#
# 功能:
# - 用于场景切换时传递玩家位置信息
# - 配合 DoorTeleport 等传送机制使用
#
# 使用示例:
# SceneManager.set_next_scene_position(Vector2(100, 200))
# SceneManager.change_scene("room")
func set_next_scene_position(pos: Vector2) -> void:
_next_scene_position = pos
# 获取并清除下一个场景的初始位置
#
# 返回值:
# Variant - Vector2 位置或 null如果未设置
#
# 功能:
# - 获取预设的场景初始位置
# - 获取后自动清除,避免影响后续场景切换
#
# 注意事项:
# - 此方法会清除存储的位置,只能获取一次
# - 如果未设置位置,返回 null
func get_next_scene_position() -> Variant:
var pos = _next_scene_position
_next_scene_position = null
return pos
# 设置下一个场景的出生点名称
#
# 参数:
# spawn_name: String - 出生点节点的名称
#
# 功能:
# - 指定玩家在下一个场景应该出现在哪个出生点
# - 配合场景中的 Marker2D 出生点使用
#
# 使用示例:
# SceneManager.set_next_spawn_name("DoorExit")
# SceneManager.change_scene("square")
func set_next_spawn_name(spawn_name: String) -> void:
_next_spawn_name = spawn_name
# 获取并清除下一个场景的出生点名称
#
# 返回值:
# String - 出生点名称(如果未设置则返回空字符串)
#
# 功能:
# - 获取预设的出生点名称
# - 获取后自动清除,避免影响后续场景切换
#
# 注意事项:
# - 此方法会清除存储的名称,只能获取一次
# - 如果未设置名称,返回空字符串
func get_next_spawn_name() -> String:
var name = _next_spawn_name
_next_spawn_name = ""
return name
# ============ 场景注册方法 ============
# 注册新场景
#
# 参数:
# scene_name: String - 场景名称(用于切换时引用)
# scene_path: String - 场景文件路径
#
# 功能:
# - 将场景名称和路径添加到映射表
# - 支持运行时动态注册场景
#
# 使用示例:
# SceneManager.register_scene("boss_battle", "res://scenes/boss/boss_battle.tscn")
func register_scene(scene_name: String, scene_path: String):
scene_paths[scene_name] = scene_path
# ============ 过渡效果方法 ============
# 显示场景切换过渡效果
#
# 功能:
# - 显示场景切换时的过渡动画
# - 为用户提供视觉反馈
#
# 注意事项:
# - 这是异步方法需要await等待完成
# - 当前实现为简单的延时,可扩展为复杂动画
#
# TODO: 实现淡入淡出、滑动等过渡效果
func show_transition():
# TODO: 实现场景切换过渡效果(当前仅占位延时)
await get_tree().create_timer(0.2).timeout
# 隐藏场景切换过渡效果
#
# 功能:
# - 隐藏场景切换完成后的过渡动画
# - 恢复正常的游戏显示
#
# 注意事项:
# - 这是异步方法需要await等待完成
# - 与show_transition()配对使用
#
# TODO: 实现与show_transition()对应的隐藏效果
func hide_transition():
# TODO: 隐藏场景切换过渡效果(当前仅占位延时)
await get_tree().create_timer(0.2).timeout

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class_name ToastManager
# ============================================================================
# ToastManager.gd - Toast消息管理器
# ============================================================================
# 负责创建和管理Toast消息的显示
#
# 核心功能:
# - 创建Toast消息实例
# - 管理Toast动画和生命周期
# - 支持多个Toast同时显示
# - 自动排列和清理Toast
# - 支持中文字体显示
#
# 使用方式:
# var toast_manager = ToastManager.new()
# toast_manager.setup(toast_container)
# toast_manager.show_toast("消息内容", true)
#
# 注意事项:
# - 需要提供一个容器节点来承载Toast
# - 自动处理Toast的位置计算和动画
# - 支持Web平台的字体处理
# ============================================================================
extends RefCounted
# ============ 成员变量 ============
# Toast容器和管理
var toast_container: Control # Toast消息容器
var active_toasts: Array = [] # 当前显示的Toast消息列表
var toast_counter: int = 0 # Toast计数器用于生成唯一ID
# ============ 初始化方法 ============
# 设置Toast管理器
#
# 参数:
# container: Control - Toast消息的容器节点
func setup(container: Control):
toast_container = container
# ============ 公共方法 ============
# 显示Toast消息
#
# 参数:
# message: String - 消息内容
# is_success: bool - 是否为成功消息(影响颜色)
func show_toast(message: String, is_success: bool = true):
if toast_container == null:
push_error("ToastManager: toast_container 节点不存在")
return
_create_toast_instance(message, is_success)
# 清理所有Toast
func clear_all_toasts():
for toast in active_toasts:
if is_instance_valid(toast):
toast.queue_free()
active_toasts.clear()
# ============ 私有方法 ============
# 创建Toast实例
func _create_toast_instance(message: String, is_success: bool):
toast_counter += 1
# Web平台字体处理
var is_web = OS.get_name() == "Web"
# 1. 创建Toast Panel方框UI
var toast_panel = Panel.new()
toast_panel.name = "Toast_" + str(toast_counter)
# 设置Toast样式
var style = StyleBoxFlat.new()
if is_success:
style.bg_color = Color(0.15, 0.7, 0.15, 0.95)
style.border_color = Color(0.2, 0.9, 0.2, 0.9)
else:
style.bg_color = Color(0.7, 0.15, 0.15, 0.95)
style.border_color = Color(0.9, 0.2, 0.2, 0.9)
style.border_width_left = 3
style.border_width_top = 3
style.border_width_right = 3
style.border_width_bottom = 3
style.corner_radius_top_left = 12
style.corner_radius_top_right = 12
style.corner_radius_bottom_left = 12
style.corner_radius_bottom_right = 12
style.shadow_color = Color(0, 0, 0, 0.3)
style.shadow_size = 4
style.shadow_offset = Vector2(2, 2)
toast_panel.add_theme_stylebox_override("panel", style)
# 设置Toast基本尺寸
var toast_width = 320
toast_panel.size = Vector2(toast_width, 60)
# 2. 创建VBoxContainer
var vbox = VBoxContainer.new()
vbox.add_theme_constant_override("separation", 0)
vbox.set_anchors_and_offsets_preset(Control.PRESET_FULL_RECT)
vbox.alignment = BoxContainer.ALIGNMENT_CENTER
# 3. 创建CenterContainer
var center_container = CenterContainer.new()
center_container.size_flags_horizontal = Control.SIZE_EXPAND_FILL
center_container.size_flags_vertical = Control.SIZE_SHRINK_CENTER
# 4. 创建Label文字控件
var text_label = Label.new()
text_label.text = message
text_label.add_theme_color_override("font_color", Color(1, 1, 1, 1))
text_label.add_theme_font_size_override("font_size", 14)
# 平台特定的字体处理
if is_web:
# Web平台使用主题文件
var chinese_theme = load("res://assets/ui/chinese_theme.tres")
if chinese_theme:
text_label.theme = chinese_theme
else:
push_warning("ToastManager: Web平台中文主题加载失败使用默认字体")
else:
# 桌面平台直接加载中文字体
var desktop_chinese_font = load("res://assets/fonts/msyh.ttc")
if desktop_chinese_font:
text_label.add_theme_font_override("font", desktop_chinese_font)
text_label.autowrap_mode = TextServer.AUTOWRAP_WORD_SMART
text_label.custom_minimum_size = Vector2(280, 0)
text_label.horizontal_alignment = HORIZONTAL_ALIGNMENT_CENTER
text_label.vertical_alignment = VERTICAL_ALIGNMENT_CENTER
# 组装控件层级
center_container.add_child(text_label)
vbox.add_child(center_container)
toast_panel.add_child(vbox)
# 计算位置
var margin = 20
var start_x = toast_container.get_viewport().get_visible_rect().size.x
var final_x = toast_container.get_viewport().get_visible_rect().size.x - toast_width - margin
# 计算Y位置
var y_position = margin
for existing_toast in active_toasts:
if is_instance_valid(existing_toast):
y_position += existing_toast.size.y + 15
# 设置初始位置
toast_panel.position = Vector2(start_x, y_position)
# 添加到容器
toast_container.add_child(toast_panel)
active_toasts.append(toast_panel)
# 等待一帧让布局系统计算尺寸
await toast_container.get_tree().process_frame
# 让Toast高度自适应内容
var content_size = vbox.get_combined_minimum_size()
var final_height = max(60, content_size.y + 20) # 最小60加20像素边距
toast_panel.size.y = final_height
# 重新排列所有Toast
_rearrange_toasts()
# 开始动画
_animate_toast_in(toast_panel, final_x)
# Toast入场动画
func _animate_toast_in(toast_panel: Panel, final_x: float):
var tween = toast_container.create_tween()
tween.set_ease(Tween.EASE_OUT)
tween.set_trans(Tween.TRANS_BACK)
tween.parallel().tween_property(toast_panel, "position:x", final_x, 0.6)
tween.parallel().tween_property(toast_panel, "modulate:a", 1.0, 0.4)
toast_panel.modulate.a = 0.0
# 等待3秒后开始退场动画
await toast_container.get_tree().create_timer(3.0).timeout
_animate_toast_out(toast_panel)
# Toast退场动画
func _animate_toast_out(toast_panel: Panel):
if not is_instance_valid(toast_panel):
return
var tween = toast_container.create_tween()
tween.set_ease(Tween.EASE_IN)
tween.set_trans(Tween.TRANS_QUART)
var end_x = toast_container.get_viewport().get_visible_rect().size.x + 50
tween.parallel().tween_property(toast_panel, "position:x", end_x, 0.4)
tween.parallel().tween_property(toast_panel, "modulate:a", 0.0, 0.3)
await tween.finished
_cleanup_toast(toast_panel)
# 清理Toast
func _cleanup_toast(toast_panel: Panel):
if not is_instance_valid(toast_panel):
return
active_toasts.erase(toast_panel)
_rearrange_toasts()
toast_panel.queue_free()
# 重新排列Toast位置
func _rearrange_toasts():
var margin = 20
var current_y = margin
for i in range(active_toasts.size()):
var toast = active_toasts[i]
if is_instance_valid(toast):
var tween = toast_container.create_tween()
tween.tween_property(toast, "position:y", current_y, 0.2)
current_y += toast.size.y + 15

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extends Node
# ============================================================================
# WebSocketManager.gd - WebSocket 连接生命周期管理(原生 WebSocket 版本)
# ============================================================================
# 管理 WebSocket 连接状态、自动重连和错误恢复
#
# 核心职责:
# - 连接状态管理(断开、连接中、已连接、重连中)
# - 自动重连机制(指数退避)
# - 连接错误恢复
# - WebSocket 消息发送/接收
# ============================================================================
# 使用方式:
# WebSocketManager.connect_to_game_server()
# WebSocketManager.connection_state_changed.connect(_on_state_changed)
#
# 注意事项:
# - 作为自动加载单例,全局可访问
# - 自动处理连接断开和重连
# - 通过信号通知连接状态变化
# ============================================================================
class_name ChatWebSocketManager
# ============================================================================
# 信号定义
# ============================================================================
# 连接状态变化信号
# 参数:
# new_state: ConnectionState - 新的连接状态
signal connection_state_changed(new_state: ConnectionState)
# 连接丢失信号
signal connection_lost()
# 重连成功信号
signal reconnection_succeeded()
# 重连失败信号
# 参数:
# attempt: int - 当前重连尝试次数
# max_attempts: int - 最大重连次数
signal reconnection_failed(attempt: int, max_attempts: int)
# WebSocket 消息接收信号
# 参数:
# message: String - 接收到的消息内容JSON 字符串)
signal data_received(message: String)
# ============================================================================
# 枚举定义
# ============================================================================
# 连接状态枚举
enum ConnectionState {
DISCONNECTED, # 未连接
CONNECTING, # 连接中
CONNECTED, # 已连接
RECONNECTING, # 重连中
ERROR # 错误状态
}
# ============================================================================
# 常量定义
# ============================================================================
# WebSocket 服务器 URL原生 WebSocket
const WEBSOCKET_URL: String = "wss://whaletownend.xinghangee.icu/game"
# 默认最大重连次数
const DEFAULT_MAX_RECONNECT_ATTEMPTS: int = 5
# 默认重连基础延迟(秒)
const DEFAULT_RECONNECT_BASE_DELAY: float = 3.0
# 最大重连延迟(秒)
const MAX_RECONNECT_DELAY: float = 30.0
# ============================================================================
# 成员变量
# ============================================================================
# WebSocket peer
var _websocket_peer: WebSocketPeer = WebSocketPeer.new()
# 当前连接状态
var _connection_state: ConnectionState = ConnectionState.DISCONNECTED
# 自动重连启用标志
var _auto_reconnect_enabled: bool = true
# 最大重连次数
var _max_reconnect_attempts: int = DEFAULT_MAX_RECONNECT_ATTEMPTS
# 重连基础延迟
var _reconnect_base_delay: float = DEFAULT_RECONNECT_BASE_DELAY
# 当前重连尝试次数
var _reconnect_attempt: int = 0
# 重连定时器
var _reconnect_timer: Timer = Timer.new()
# 是否为正常关闭(非异常断开)
var _clean_close: bool = true
# 心跳定时器
var _heartbeat_timer: Timer = Timer.new()
# 心跳间隔(秒)
const HEARTBEAT_INTERVAL: float = 30.0
# ============================================================================
# 生命周期方法
# ============================================================================
# 初始化
func _ready() -> void:
# 设置重连定时器
_setup_reconnect_timer()
# 设置心跳定时器
_setup_heartbeat_timer()
# 启动处理循环
set_process(true)
# 处理每帧
func _process(_delta: float) -> void:
# 检查 WebSocket 状态变化
_check_websocket_state()
var state: WebSocketPeer.State = _websocket_peer.get_ready_state()
if state == WebSocketPeer.STATE_OPEN:
# 接收数据
_websocket_peer.poll()
# 处理收到的数据
while _websocket_peer.get_available_packet_count() > 0:
var packet: PackedByteArray = _websocket_peer.get_packet()
var message: String = packet.get_string_from_utf8()
# 发射消息接收信号
data_received.emit(message)
# 清理
func _exit_tree() -> void:
_disconnect()
if is_instance_valid(_reconnect_timer):
_reconnect_timer.stop()
_reconnect_timer.queue_free()
if is_instance_valid(_heartbeat_timer):
_heartbeat_timer.stop()
_heartbeat_timer.queue_free()
# ============================================================================
# 公共 API - 连接管理
# ============================================================================
# 连接到游戏服务器
func connect_to_game_server() -> void:
if _connection_state == ConnectionState.CONNECTED or _connection_state == ConnectionState.CONNECTING:
push_warning("已经在连接或已连接状态")
return
_set_connection_state(ConnectionState.CONNECTING)
_clean_close = true
_reconnect_attempt = 0
var err: Error = _websocket_peer.connect_to_url(WEBSOCKET_URL)
if err != OK:
push_error("WebSocketManager: 连接失败 - %s" % error_string(err))
_set_connection_state(ConnectionState.ERROR)
return
# 启动心跳
_start_heartbeat()
# 断开 WebSocket 连接
func disconnect_websocket() -> void:
_disconnect()
# 断开连接(内部方法)
func _disconnect() -> void:
_clean_close = true
# 停止重连定时器
_reconnect_timer.stop()
# 停止心跳
_heartbeat_timer.stop()
# 关闭 WebSocket
if _websocket_peer.get_ready_state() == WebSocketPeer.STATE_OPEN:
_websocket_peer.close()
_set_connection_state(ConnectionState.DISCONNECTED)
# 检查 WebSocket 是否已连接
#
# 返回值:
# bool - WebSocket 是否已连接
func is_websocket_connected() -> bool:
return _connection_state == ConnectionState.CONNECTED
# 获取当前连接状态
#
# 返回值:
# ConnectionState - 当前连接状态
func get_connection_state() -> ConnectionState:
return _connection_state
# ============================================================================
# 公共 API - 消息发送
# ============================================================================
# 发送 WebSocket 消息
#
# 参数:
# message: String - 要发送的消息内容JSON 字符串)
#
# 返回值:
# Error - 错误码OK 表示成功
func send_message(message: String) -> Error:
if _websocket_peer.get_ready_state() != WebSocketPeer.STATE_OPEN:
push_warning("WebSocketManager: 未连接,无法发送消息")
return ERR_UNCONFIGURED
var err: Error = _websocket_peer.send_text(message)
if err != OK:
push_error("WebSocketManager: 发送消息失败 - %s" % error_string(err))
return err
return OK
# ============================================================================
# 公共 API - 自动重连
# ============================================================================
# 启用/禁用自动重连
#
# 参数:
# enabled: bool - 是否启用自动重连
# max_attempts: int - 最大重连次数(默认 5
# base_delay: float - 基础重连延迟,秒(默认 3.0
#
# 使用示例:
# WebSocketManager.enable_auto_reconnect(true, 5, 3.0)
func enable_auto_reconnect(enabled: bool, max_attempts: int = DEFAULT_MAX_RECONNECT_ATTEMPTS, base_delay: float = DEFAULT_RECONNECT_BASE_DELAY) -> void:
_auto_reconnect_enabled = enabled
_max_reconnect_attempts = max_attempts
_reconnect_base_delay = base_delay
# 获取重连信息
#
# 返回值:
# Dictionary - 重连信息 {enabled, attempt, max_attempts, delay}
func get_reconnect_info() -> Dictionary:
return {
"enabled": _auto_reconnect_enabled,
"attempt": _reconnect_attempt,
"max_attempts": _max_reconnect_attempts,
"next_delay": _calculate_reconnect_delay() if _connection_state == ConnectionState.RECONNECTING else 0.0
}
# ============================================================================
# 内部方法 - 连接状态管理
# ============================================================================
# 设置连接状态
func _set_connection_state(new_state: ConnectionState) -> void:
if _connection_state == new_state:
return
_connection_state = new_state
# 发射信号
connection_state_changed.emit(new_state)
# ============================================================================
# 内部方法 - WebSocket 状态监控
# ============================================================================
# 检查 WebSocket 状态变化
func _check_websocket_state() -> void:
# 必须先 poll 才能获取最新状态
_websocket_peer.poll()
var state: WebSocketPeer.State = _websocket_peer.get_ready_state()
match state:
WebSocketPeer.STATE_CONNECTING:
# 正在连接
if _connection_state != ConnectionState.CONNECTING and _connection_state != ConnectionState.RECONNECTING:
_set_connection_state(ConnectionState.CONNECTING)
WebSocketPeer.STATE_OPEN:
# 连接成功
if _connection_state != ConnectionState.CONNECTED:
_on_websocket_connected()
WebSocketPeer.STATE_CLOSING:
# 正在关闭
pass
WebSocketPeer.STATE_CLOSED:
# 连接关闭
var code: int = _websocket_peer.get_close_code()
_on_websocket_closed(code != 0) # code=0 表示正常关闭
# WebSocket 连接成功处理
func _on_websocket_connected() -> void:
# 如果是重连,发射重连成功信号
if _connection_state == ConnectionState.RECONNECTING:
_reconnect_attempt = 0
reconnection_succeeded.emit()
_set_connection_state(ConnectionState.CONNECTED)
# WebSocket 连接关闭处理
func _on_websocket_closed(clean_close: bool) -> void:
_clean_close = clean_close
# 如果是异常断开且启用了自动重连
if not clean_close and _auto_reconnect_enabled:
connection_lost.emit()
_attempt_reconnect()
else:
_set_connection_state(ConnectionState.DISCONNECTED)
# ============================================================================
# 内部方法 - 重连机制
# ============================================================================
# 设置重连定时器
func _setup_reconnect_timer() -> void:
_reconnect_timer = Timer.new()
_reconnect_timer.one_shot = true
_reconnect_timer.autostart = false
add_child(_reconnect_timer)
_reconnect_timer.timeout.connect(_on_reconnect_timeout)
# 尝试重连
func _attempt_reconnect() -> void:
# 检查是否超过最大重连次数
if _reconnect_attempt >= _max_reconnect_attempts:
push_error("WebSocketManager: 达到最大重连次数 (%d),停止重连" % _max_reconnect_attempts)
reconnection_failed.emit(_reconnect_attempt, _max_reconnect_attempts)
_set_connection_state(ConnectionState.ERROR)
return
_reconnect_attempt += 1
_set_connection_state(ConnectionState.RECONNECTING)
# 计算重连延迟(指数退避)
var delay: float = _calculate_reconnect_delay()
# 启动重连定时器
_reconnect_timer.start(delay)
# 计算重连延迟(指数退避)
func _calculate_reconnect_delay() -> float:
# 指数退避: base_delay * 2^(attempt-1)
var delay: float = _reconnect_base_delay * pow(2.0, _reconnect_attempt - 1)
# 限制最大延迟
return min(delay, MAX_RECONNECT_DELAY)
# 重连定时器超时处理
func _on_reconnect_timeout() -> void:
_clean_close = false
connect_to_game_server()
# ============================================================================
# 内部方法 - 心跳机制
# ============================================================================
# 设置心跳定时器
func _setup_heartbeat_timer() -> void:
_heartbeat_timer = Timer.new()
_heartbeat_timer.wait_time = HEARTBEAT_INTERVAL
_heartbeat_timer.one_shot = false
_heartbeat_timer.autostart = false
add_child(_heartbeat_timer)
_heartbeat_timer.timeout.connect(_on_heartbeat)
# 启动心跳
func _start_heartbeat() -> void:
_heartbeat_timer.start()
# 停止心跳
func _stop_heartbeat() -> void:
_heartbeat_timer.stop()
# 心跳超时处理
func _on_heartbeat() -> void:
# 不发送心跳,避免服务器返回 "消息格式错误"
# 如果需要心跳,服务器应该支持特定格式
pass
# ============================================================================
# 工具方法
# ============================================================================
# 获取连接状态描述
#
# 返回值:
# String - 连接状态描述
func get_state_description() -> String:
match _connection_state:
ConnectionState.DISCONNECTED:
return "未连接"
ConnectionState.CONNECTING:
return "连接中"
ConnectionState.CONNECTED:
return "已连接"
ConnectionState.RECONNECTING:
return "重连中 (%d/%d)" % [_reconnect_attempt, _max_reconnect_attempts]
ConnectionState.ERROR:
return "错误"
_:
return "未知状态"

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extends Node
# ============================================================================
# EventSystem.gd - 全局事件系统
# ============================================================================
# 全局单例管理器,提供解耦的事件通信机制
#
# 核心职责:
# - 事件监听器注册和管理
# - 事件发送和分发
# - 自动清理无效监听器
# - 支持带参数的事件通信
#
# 使用方式:
# EventSystem.connect_event("player_moved", _on_player_moved)
# EventSystem.emit_event("player_moved", {"position": Vector2(100, 200)})
#
# 注意事项:
# - 作为自动加载单例,全局可访问
# - 监听器会自动检查目标节点的有效性
# - 建议使用EventNames类中定义的事件名称常量
# ============================================================================
# ============ 成员变量 ============
# 事件监听器存储
# 结构: {event_name: [{"callback": Callable, "target": Node}, ...]}
var event_listeners: Dictionary = {}
# ============ 事件监听器管理 ============
# 注册事件监听器
#
# 参数:
# event_name: String - 事件名称建议使用EventNames中的常量
# callback: Callable - 回调函数
# target: Node - 目标节点(可选,用于自动清理)
#
# 功能:
# - 将回调函数注册到指定事件
# - 支持同一事件多个监听器
# - 自动管理监听器生命周期
#
# 使用示例:
# EventSystem.connect_event(EventNames.PLAYER_MOVED, _on_player_moved, self)
#
# 注意事项:
# - 如果提供target参数当target节点被销毁时会自动清理监听器
# - 同一个callback可以监听多个事件
func connect_event(event_name: String, callback: Callable, target: Node = null):
# 初始化事件监听器数组
if not event_listeners.has(event_name):
event_listeners[event_name] = []
# 避免重复注册同一个监听器
for listener in event_listeners[event_name]:
if listener.callback == callback and listener.target == target:
return
# 创建监听器信息
var listener_info = {
"callback": callback,
"target": target
}
# 添加到监听器列表
event_listeners[event_name].append(listener_info)
# 移除事件监听器
#
# 参数:
# event_name: String - 事件名称
# callback: Callable - 要移除的回调函数
# target: Node - 目标节点(可选,用于精确匹配)
#
# 功能:
# - 从指定事件中移除特定的监听器
# - 支持精确匹配callback + target
#
# 使用示例:
# EventSystem.disconnect_event(EventNames.PLAYER_MOVED, _on_player_moved, self)
func disconnect_event(event_name: String, callback: Callable, target: Node = null):
if not event_listeners.has(event_name):
return
var listeners = event_listeners[event_name]
# 从后往前遍历,避免删除元素时索引问题
for i in range(listeners.size() - 1, -1, -1):
var listener = listeners[i]
# 匹配callback和target
if listener.callback == callback and listener.target == target:
listeners.remove_at(i)
break
# ============ 事件发送 ============
# 发送事件
#
# 参数:
# event_name: String - 事件名称
# data: Variant - 事件数据(可选)
#
# 功能:
# - 向所有注册的监听器发送事件
# - 自动跳过无效的监听器
# - 支持任意类型的事件数据
#
# 使用示例:
# EventSystem.emit_event(EventNames.PLAYER_MOVED, {"position": Vector2(100, 200)})
# EventSystem.emit_event(EventNames.GAME_PAUSED) # 无数据事件
#
# 注意事项:
# - 事件发送是同步的,所有监听器会立即执行
# - 如果监听器执行出错,不会影响其他监听器
func emit_event(event_name: String, data: Variant = null):
# 检查是否有监听器
if not event_listeners.has(event_name):
return
var listeners = event_listeners[event_name].duplicate()
for listener_info in listeners:
var target = listener_info.target
var callback = listener_info.callback
# 检查目标节点是否仍然有效
if target != null and not is_instance_valid(target):
continue
# 调用回调函数
if data != null:
callback.call(data)
else:
callback.call()
# ============ 维护方法 ============
# 清理无效的监听器
#
# 功能:
# - 遍历所有监听器,移除已销毁节点的监听器
# - 防止内存泄漏
# - 建议定期调用或在场景切换时调用
#
# 使用场景:
# - 场景切换时清理
# - 定期维护(如每分钟一次)
# - 内存优化时调用
func cleanup_invalid_listeners():
for event_name in event_listeners.keys():
var listeners = event_listeners[event_name]
# 从后往前遍历,避免删除元素时索引问题
for i in range(listeners.size() - 1, -1, -1):
var listener = listeners[i]
var target = listener.target
# 如果目标节点无效,移除监听器
if target != null and not is_instance_valid(target):
listeners.remove_at(i)
# ============ 查询方法 ============
# 获取事件监听器数量
#
# 参数:
# event_name: String - 事件名称
#
# 返回值:
# int - 监听器数量
#
# 使用场景:
# - 调试时检查监听器数量
# - 性能分析
func get_listener_count(event_name: String) -> int:
if not event_listeners.has(event_name):
return 0
return event_listeners[event_name].size()
# 清空所有事件监听器
#
# 功能:
# - 移除所有已注册的事件监听器
# - 通常在游戏重置或退出时使用
#
# 警告:
# - 这是一个危险操作,会影响所有模块
# - 使用前请确保所有模块都能正确处理监听器丢失
func clear_all_listeners():
event_listeners.clear()

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# ============================================================================
# 网格系统 - GridSystem.gd
#
# 提供32x32像素的最小网格单元控制用于规范地图大小和位置计算
#
# 使用方式:
# var grid_pos = GridSystem.world_to_grid(world_position)
# var world_pos = GridSystem.grid_to_world(grid_position)
# var snapped_pos = GridSystem.snap_to_grid(position)
# ============================================================================
class_name GridSystem
extends RefCounted
# ============================================================================
# 常量定义
# ============================================================================
const GRID_SIZE: int = 32 # 网格单元大小 32x32 像素
const HALF_GRID_SIZE: float = GRID_SIZE * 0.5 # 网格中心偏移
# ============================================================================
# 坐标转换方法
# ============================================================================
# 世界坐标转换为网格坐标
static func world_to_grid(world_pos: Vector2) -> Vector2i:
return Vector2i(
int(world_pos.x / GRID_SIZE),
int(world_pos.y / GRID_SIZE)
)
# 网格坐标转换为世界坐标(返回网格左上角)
static func grid_to_world(grid_pos: Vector2i) -> Vector2:
return Vector2(
grid_pos.x * GRID_SIZE,
grid_pos.y * GRID_SIZE
)
# 网格坐标转换为世界坐标(返回网格中心)
static func grid_to_world_center(grid_pos: Vector2i) -> Vector2:
return Vector2(
grid_pos.x * GRID_SIZE + HALF_GRID_SIZE,
grid_pos.y * GRID_SIZE + HALF_GRID_SIZE
)
# 将位置吸附到最近的网格点(左上角)
static func snap_to_grid(position: Vector2) -> Vector2:
return Vector2(
floor(position.x / GRID_SIZE) * GRID_SIZE,
floor(position.y / GRID_SIZE) * GRID_SIZE
)
# 将位置吸附到最近的网格中心
static func snap_to_grid_center(position: Vector2) -> Vector2:
var grid_pos = world_to_grid(position)
return grid_to_world_center(grid_pos)
# ============================================================================
# 距离和区域计算
# ============================================================================
# 计算两个网格坐标之间的曼哈顿距离
static func grid_distance_manhattan(grid_pos1: Vector2i, grid_pos2: Vector2i) -> int:
return abs(grid_pos1.x - grid_pos2.x) + abs(grid_pos1.y - grid_pos2.y)
# 计算两个网格坐标之间的欧几里得距离
static func grid_distance_euclidean(grid_pos1: Vector2i, grid_pos2: Vector2i) -> float:
var diff = grid_pos1 - grid_pos2
return sqrt(diff.x * diff.x + diff.y * diff.y)
# 获取指定网格坐标周围的邻居网格4方向
static func get_grid_neighbors_4(grid_pos: Vector2i) -> Array[Vector2i]:
return [
Vector2i(grid_pos.x, grid_pos.y - 1), # 上
Vector2i(grid_pos.x + 1, grid_pos.y), # 右
Vector2i(grid_pos.x, grid_pos.y + 1), # 下
Vector2i(grid_pos.x - 1, grid_pos.y) # 左
]
# 获取指定网格坐标周围的邻居网格8方向
static func get_grid_neighbors_8(grid_pos: Vector2i) -> Array[Vector2i]:
var neighbors: Array[Vector2i] = []
for x in range(-1, 2):
for y in range(-1, 2):
if x == 0 and y == 0:
continue
neighbors.append(Vector2i(grid_pos.x + x, grid_pos.y + y))
return neighbors
# ============================================================================
# 区域和边界检查
# ============================================================================
# 检查网格坐标是否在指定矩形区域内
static func is_grid_in_bounds(grid_pos: Vector2i, min_grid: Vector2i, max_grid: Vector2i) -> bool:
return (grid_pos.x >= min_grid.x and grid_pos.x <= max_grid.x and
grid_pos.y >= min_grid.y and grid_pos.y <= max_grid.y)
# 获取矩形区域内的所有网格坐标
static func get_grids_in_rect(min_grid: Vector2i, max_grid: Vector2i) -> Array[Vector2i]:
var grids: Array[Vector2i] = []
for x in range(min_grid.x, max_grid.x + 1):
for y in range(min_grid.y, max_grid.y + 1):
grids.append(Vector2i(x, y))
return grids
# ============================================================================
# 地图尺寸规范化
# ============================================================================
# 将像素尺寸规范化为网格尺寸的倍数
static func normalize_size_to_grid(pixel_size: Vector2i) -> Vector2i:
return Vector2i(
int(ceil(float(pixel_size.x) / GRID_SIZE)) * GRID_SIZE,
int(ceil(float(pixel_size.y) / GRID_SIZE)) * GRID_SIZE
)
# 计算指定像素尺寸需要多少个网格单元
static func get_grid_count(pixel_size: Vector2i) -> Vector2i:
return Vector2i(
int(ceil(float(pixel_size.x) / GRID_SIZE)),
int(ceil(float(pixel_size.y) / GRID_SIZE))
)
# ============================================================================
# 调试和可视化辅助
# ============================================================================
# 获取网格的边界矩形(用于调试绘制)
static func get_grid_rect(grid_pos: Vector2i) -> Rect2:
var world_pos = grid_to_world(grid_pos)
return Rect2(world_pos, Vector2(GRID_SIZE, GRID_SIZE))
# 获取网格信息(调试辅助)
static func print_grid_info(world_pos: Vector2) -> Dictionary:
var grid_pos = world_to_grid(world_pos)
var snapped_pos = snap_to_grid(world_pos)
var center_pos = grid_to_world_center(grid_pos)
return {
"world_position": world_pos,
"grid_position": grid_pos,
"snapped_position": snapped_pos,
"center_position": center_pos
}

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# 核心工具类目录
# 存放字符串处理、数学计算等工具类

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class_name StringUtils
# ============================================================================
# StringUtils.gd - 字符串工具类
# ============================================================================
# 静态工具类,提供常用的字符串处理功能
#
# 核心功能:
# - 输入验证(邮箱、用户名、密码)
# - 字符串格式化和转换
# - 时间格式化和相对时间计算
# - 文件大小格式化
#
# 使用方式:
# var is_valid = StringUtils.is_valid_email("user@example.com")
# var formatted_time = StringUtils.format_utc_to_local_time(utc_string)
#
# 注意事项:
# - 所有方法都是静态的,无需实例化
# - 验证方法返回布尔值或包含详细信息的字典
# - 时间处理方法支持UTC到本地时间的转换
# ============================================================================
# ============ 输入验证方法 ============
# 验证邮箱格式
#
# 参数:
# email: String - 待验证的邮箱地址
#
# 返回值:
# bool - true表示格式正确false表示格式错误
#
# 验证规则:
# - 必须包含@符号
# - @前后都必须有内容
# - 域名部分必须包含至少一个点
# - 顶级域名至少2个字符
#
# 使用示例:
# if StringUtils.is_valid_email("user@example.com"):
# # 邮箱格式正确
static func is_valid_email(email: String) -> bool:
var regex = RegEx.new()
regex.compile("^[a-zA-Z0-9._%+-]+@[a-zA-Z0-9.-]+\\.[a-zA-Z]{2,}$")
return regex.search(email) != null
# 验证用户名格式
#
# 参数:
# username: String - 待验证的用户名
#
# 返回值:
# bool - true表示格式正确false表示格式错误
#
# 验证规则:
# - 只能包含字母、数字、下划线
# - 长度不能为空且不超过50个字符
# - 不能包含空格或特殊字符
#
# 使用示例:
# if StringUtils.is_valid_username("user_123"):
# # 用户名格式正确
static func is_valid_username(username: String) -> bool:
# 检查长度
if username.is_empty() or username.length() > 50:
return false
# 检查字符组成
var regex = RegEx.new()
regex.compile("^[a-zA-Z0-9_]+$")
return regex.search(username) != null
# 验证密码强度
#
# 参数:
# password: String - 待验证的密码
#
# 返回值:
# Dictionary - 包含验证结果的详细信息
# {
# "valid": bool, # 是否符合最低要求
# "message": String, # 验证结果消息
# "strength": int # 强度等级 (1-4)
# }
#
# 验证规则:
# - 最少8位最多128位
# - 必须包含字母和数字
# - 强度评级:包含字母(+1)、数字(+1)、特殊字符(+1)、长度>=12(+1)
#
# 使用示例:
# var result = StringUtils.validate_password_strength("MyPass123!")
# if result.valid:
# # 可按需展示 result.message
static func validate_password_strength(password: String) -> Dictionary:
var result = {"valid": false, "message": "", "strength": 0}
# 检查长度限制
if password.length() < 8:
result.message = "密码长度至少8位"
return result
if password.length() > 128:
result.message = "密码长度不能超过128位"
return result
# 检查字符类型
var has_letter = false # 是否包含字母
var has_digit = false # 是否包含数字
var has_special = false # 是否包含特殊字符
for i in range(password.length()):
var character = password[i]
if character >= 'a' and character <= 'z' or character >= 'A' and character <= 'Z':
has_letter = true
elif character >= '0' and character <= '9':
has_digit = true
elif character in "!@#$%^&*()_+-=[]{}|;:,.<>?":
has_special = true
# 计算强度等级
var strength = 0
if has_letter:
strength += 1
if has_digit:
strength += 1
if has_special:
strength += 1
if password.length() >= 12:
strength += 1
result.strength = strength
# 检查最低要求
if not (has_letter and has_digit):
result.message = "密码必须包含字母和数字"
return result
# 密码符合要求
result.valid = true
result.message = "密码强度: " + ["", "", "", "很强"][min(strength - 1, 3)]
return result
# ============ 字符串格式化方法 ============
# 截断字符串
#
# 参数:
# text: String - 原始字符串
# max_length: int - 最大长度
# suffix: String - 截断后缀(默认为"..."
#
# 返回值:
# String - 截断后的字符串
#
# 功能:
# - 如果字符串长度超过限制,截断并添加后缀
# - 如果字符串长度未超过限制,返回原字符串
#
# 使用示例:
# var short_text = StringUtils.truncate("这是一个很长的文本", 10, "...")
# # 结果: "这是一个很长..."
static func truncate(text: String, max_length: int, suffix: String = "...") -> String:
if text.length() <= max_length:
return text
return text.substr(0, max_length - suffix.length()) + suffix
# 首字母大写
#
# 参数:
# text: String - 原始字符串
#
# 返回值:
# String - 首字母大写的字符串
#
# 使用示例:
# var capitalized = StringUtils.capitalize_first("hello world")
# # 结果: "Hello world"
static func capitalize_first(text: String) -> String:
if text.is_empty():
return text
return text[0].to_upper() + text.substr(1)
# 转换为标题格式
#
# 参数:
# text: String - 原始字符串
#
# 返回值:
# String - 每个单词首字母大写的字符串
#
# 功能:
# - 将每个单词的首字母转换为大写
# - 其余字母转换为小写
# - 以空格分隔单词
#
# 使用示例:
# var title = StringUtils.to_title_case("hello world game")
# # 结果: "Hello World Game"
static func to_title_case(text: String) -> String:
var words = text.split(" ")
var result = []
for word in words:
if not word.is_empty():
result.append(capitalize_first(word.to_lower()))
return " ".join(result)
# 移除HTML标签
#
# 参数:
# html: String - 包含HTML标签的字符串
#
# 返回值:
# String - 移除HTML标签后的纯文本
#
# 功能:
# - 使用正则表达式移除所有HTML标签
# - 保留标签之间的文本内容
#
# 使用示例:
# var plain_text = StringUtils.strip_html_tags("<p>Hello <b>World</b></p>")
# # 结果: "Hello World"
static func strip_html_tags(html: String) -> String:
var regex = RegEx.new()
regex.compile("<[^>]*>")
return regex.sub(html, "", true)
# 格式化文件大小
#
# 参数:
# bytes: int - 文件大小(字节)
#
# 返回值:
# String - 格式化后的文件大小字符串
#
# 功能:
# - 自动选择合适的单位B, KB, MB, GB, TB
# - 保留一位小数(除了字节)
# - 使用1024作为换算基数
#
# 使用示例:
# var size_text = StringUtils.format_file_size(1536)
# # 结果: "1.5 KB"
static func format_file_size(bytes: int) -> String:
var units = ["B", "KB", "MB", "GB", "TB"]
var size = float(bytes)
var unit_index = 0
# 自动选择合适的单位
while size >= 1024.0 and unit_index < units.size() - 1:
size /= 1024.0
unit_index += 1
# 格式化输出
if unit_index == 0:
return str(int(size)) + " " + units[unit_index]
else:
return "%.1f %s" % [size, units[unit_index]]
# ============ 时间处理方法 ============
# 将UTC时间字符串转换为本地时间显示
#
# 参数:
# utc_time_str: String - UTC时间字符串格式: 2025-12-25T11:23:52.175Z
#
# 返回值:
# String - 格式化的本地时间字符串
#
# 功能:
# - 解析ISO 8601格式的UTC时间
# - 转换为本地时区时间
# - 格式化为易读的中文时间格式
#
# 使用示例:
# var local_time = StringUtils.format_utc_to_local_time("2025-12-25T11:23:52.175Z")
# # 结果: "2025年12月25日 19:23:52" (假设本地时区为UTC+8)
static func format_utc_to_local_time(utc_time_str: String) -> String:
# 解析UTC时间字符串 (格式: 2025-12-25T11:23:52.175Z)
var regex = RegEx.new()
regex.compile("(\\d{4})-(\\d{2})-(\\d{2})T(\\d{2}):(\\d{2}):(\\d{2})")
var result = regex.search(utc_time_str)
if result == null:
return utc_time_str # 如果解析失败,返回原字符串
# 提取时间组件
var year = int(result.get_string(1))
var month = int(result.get_string(2))
var day = int(result.get_string(3))
var hour = int(result.get_string(4))
var minute = int(result.get_string(5))
var second = int(result.get_string(6))
# 创建UTC时间字典
var utc_dict = {
"year": year,
"month": month,
"day": day,
"hour": hour,
"minute": minute,
"second": second
}
# 转换为Unix时间戳UTC
var utc_timestamp = Time.get_unix_time_from_datetime_dict(utc_dict)
# 获取本地时间Godot会自动处理时区转换
var local_dict = Time.get_datetime_dict_from_unix_time(utc_timestamp)
# 格式化为易读的本地时间
return "%04d%02d%02d%02d:%02d:%02d" % [
local_dict.year,
local_dict.month,
local_dict.day,
local_dict.hour,
local_dict.minute,
local_dict.second
]
# 获取相对时间描述
#
# 参数:
# utc_time_str: String - UTC时间字符串
#
# 返回值:
# String - 相对时间描述(如"5分钟后"、"2小时30分钟后"
#
# 功能:
# - 计算指定时间与当前时间的差值
# - 返回人性化的相对时间描述
# - 支持秒、分钟、小时的组合显示
#
# 使用示例:
# var relative_time = StringUtils.get_relative_time_until("2025-12-25T12:00:00Z")
# # 结果: "30分钟后" 或 "现在可以重试"
static func get_relative_time_until(utc_time_str: String) -> String:
# 解析UTC时间字符串
var regex = RegEx.new()
regex.compile("(\\d{4})-(\\d{2})-(\\d{2})T(\\d{2}):(\\d{2}):(\\d{2})")
var result = regex.search(utc_time_str)
if result == null:
return "时间格式错误"
# 提取时间组件
var year = int(result.get_string(1))
var month = int(result.get_string(2))
var day = int(result.get_string(3))
var hour = int(result.get_string(4))
var minute = int(result.get_string(5))
var second = int(result.get_string(6))
# 创建UTC时间字典
var utc_dict = {
"year": year,
"month": month,
"day": day,
"hour": hour,
"minute": minute,
"second": second
}
# 转换为Unix时间戳
var target_timestamp = Time.get_unix_time_from_datetime_dict(utc_dict)
var current_timestamp = Time.get_unix_time_from_system()
# 计算时间差(秒)
var diff_seconds = target_timestamp - current_timestamp
# 格式化相对时间
if diff_seconds <= 0:
return "现在可以重试"
elif diff_seconds < 60:
return "%d秒后" % diff_seconds
elif diff_seconds < 3600:
var minutes = int(diff_seconds / 60)
return "%d分钟后" % minutes
else:
var hours = int(diff_seconds / 3600)
var minutes = int((diff_seconds % 3600) / 60)
if minutes > 0:
return "%d小时%d分钟后" % [hours, minutes]
else:
return "%d小时后" % hours

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