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59 Commits
190b6c9a66 ... feature/wh

Author SHA1 Message Date
xiangwang
f24a01dbca fix: 修复交互与通知板问题 
- 修复Z轴逻辑调整精灵与物品的排序
- 渲染前强制 content_container.modulate.a = 1.0,避免内容区被透明度状态卡住导致看起来空白
 2026-02-07 21:07:59 +08:00
xiangwang
19794d896e fix: 修复欢迎板和通知板通知无法关闭问题 
- 修复欢迎板和通知板当前被ChatUI 抢占鼠标问题,通过设置启动弹窗时ChatUI 根节点 mouse_filter 临时改为 IGNORE来实现
- ToDo: 后续统一规划事件逻辑
 2026-02-07 20:01:48 +08:00
xiangwang
7fcb41d576 fix: 修复欢迎板和通知板图像引用错误问题 2026-02-07 19:33:06 +08:00
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
265 changed files with 17587 additions and 4278 deletions
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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!

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# 🎯 CLAUDE.md - WhaleTown Project Instructions
## 1. Project Vision & Context
- **Project**: "WhaleTown" - A 2D top-down pixel art RPG.
- **Engine**: Godot 4.2+ (Strictly NO Godot 3.x syntax).
- **Architecture**: Strictly layered: `_Core` (Framework), `Scenes` (Gameplay), `UI` (Interface).
- **Core Principle**: "Signal Up, Call Down". High decoupling via `EventSystem`.
## 2. 🛠 Command Reference & Setup
- **Input Map (Required Configuration)**:
- `move_left`, `move_right`, `move_up`, `move_down` (WASD / Arrows)
- `interact` (E Key / Space)
- `pause` (ESC)
- **Run Game**: `godot --path .`
- **Run Tests (GUT)**: `godot --headless -s addons/gut/gut_cmdline.gd -gdir=res://tests/ -ginclude_subdirs`
- **Init Structure**: `mkdir -p _Core/managers _Core/systems Scenes/Maps Scenes/Entities Scenes/Components UI/Windows UI/HUD Assets/Sprites tests/unit tests/integration`
## 3. 📂 File Path Rules (STRICT LOWERCASE)
*Claude: Root folders MUST be lowercase. Scripts and Scenes MUST stay together.*
- **Core Managers**: `_Core/managers/[Name].gd`
- **Core Systems**: `_Core/systems/[Name].gd`
- **Entities**: `Scenes/Entities/[EntityName]/[EntityName].tscn` (Script `.gd` in same folder).
- **Maps**: `Scenes/Maps/[map_name].tscn`
- **Components**: `Scenes/Components/[ComponentName].gd` (Reusable logic nodes).
- **UI Windows**: `UI/Windows/[WindowName].tscn`
- **Tests**: `tests/[unit|integration]/test_[name].gd` (Folder is lowercase `tests`).
## 4. 📋 Coding Standards (The Law)
- **Type Safety**: ALWAYS use strict static typing: `var speed: float = 100.0`, `func _ready() -> void`.
- **Naming Conventions**:
- `class_name PascalCase` at the top of every script.
- Variables/Functions: `snake_case`. Constants: `SCREAMING_SNAKE_CASE`.
- Private members: Prefix with underscore `_` (e.g., `var _health: int`).
- **Node Access**: Use `%UniqueName` for UI and internal scene components.
- **Signals**: Use "Signal Up, Call Down". Parent calls child methods; Child emits signals.
- **Forbidden Patterns**:
- ❌ NO `yield()` -> Use `await`.
- ❌ NO `get_node()` in `_process` -> Cache with `@onready`.
- ❌ NO Linear Filter -> All Sprite2D/TileMap resources MUST use **Nearest** filter.
## 5. 🏛 Architecture & Communication
- **EventSystem**: Use `_Core/systems/EventSystem.gd` for cross-module messaging.
- **Event Registry**: Use `class_name EventNames` in `_Core/EventNames.gd`.
```gdscript
class_name EventNames
const PLAYER_MOVED = "player_moved"
const INTERACT_PRESSED = "interact_pressed"
const NPC_TALKED = "npc_talked"
Singletons: Only GameManager, SceneManager, EventSystem allowed as Autoloads.
Decoupling: Low-level entities MUST NOT reference GameManager. Use events.
6. 🏗 Implementation Details
Player: CharacterBody2D. Must include Camera2D with position_smoothing_enabled = true.
NPC/Interactables: Use Area2D named InteractionArea. Trigger via EventSystem.
TileMap Layers:
Layer 0: Ground (No collision).
Layer 1: Obstacles (Physics Layer enabled).
Layer 2: Decoration (Y-Sort enabled).
Camera: Must auto-calculate limits via TileMap.get_used_rect().
7. 🧪 Testing Requirements (MANDATORY)
Coverage: Every Manager/System in _Core/ MUST have a GUT test.
Naming: Test files must start with test_ and extend GutTest.
Example:
code
Gdscript
extends GutTest
func test_event_emission():
var sender = Node.new()
watch_signals(EventSystem)
EventSystem.emit_event(EventNames.PLAYER_MOVED, {})
assert_signal_emitted(EventSystem, "event_raised")
8. 🧘 The Zen of Development
Juice or Death: Every interaction (UI popup, NPC talk) MUST have a Tween placeholder.
Zero Magic Numbers: All speeds/timers MUST be @export or defined in Config/.
Simplicity: If a function does two things, split it.
Back of the Fence: Hidden logic (like ResponseHandler.gd) must be as clean as the HUD.
9. 📝 Code Template (Entity Pattern)
code
Gdscript
extends CharacterBody2D
class_name Player
# 1. Exports & Constants
@export var move_speed: float = 200.0
# 2. Node References
@onready var sprite: Sprite2D = %Sprite2D
# 3. Lifecycle
func _physics_process(delta: float) -> void:
_move(delta)
# 4. Private Methods
func _move(_delta: float) -> void:
var dir := Input.get_vector("move_left", "move_right", "move_up", "move_down")
velocity = dir * move_speed
move_and_slide()

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# ✅ 项目结构重构完成报告
## 📅 完成时间
2025-12-31
## 🎉 重构成功
项目已成功从混乱的文件结构重构为清晰、模块化的架构!
---
## 📊 最终结构总览
```
whale-town-front/
├── _Core/ ✅ [框架层] 全局单例和系统
├── Scenes/ ✅ [玩法层] 游戏世界实体
├── UI/ ✅ [界面层] 所有UI界面
├── Assets/ ✅ [资源层] 美术资源
├── Config/ ✅ [配置层] 静态数据
├── Utils/ ✅ [工具层] 工具类
├── Tests/ ✅ [测试层] 测试脚本
└── docs/ 📄 项目文档
```
---
## ✅ 已完成的迁移
### 1⃣ 框架层 (_Core/)
-`GameManager.gd``_Core/managers/`
-`SceneManager.gd``_Core/managers/` (已更新路径)
-`NetworkManager.gd``_Core/managers/`
-`ResponseHandler.gd``_Core/managers/`
-`EventSystem.gd``_Core/systems/`
### 2⃣ 场景层 (Scenes/)
-`scenes/main_scene.tscn``Scenes/Maps/main_scene.tscn`
-`scripts/scenes/MainScene.gd``Scenes/Maps/MainScene.gd`
-`scenes/prefabs/``Scenes/Components/`
### 3⃣ 界面层 (UI/)
-`scenes/auth_scene.tscn``UI/Windows/LoginWindow.tscn`
-`scripts/scenes/AuthScene.gd``UI/Windows/AuthScene.gd`
-`assets/ui/chinese_theme.tres``UI/Theme/MainTheme.tres`
-`assets/fonts/``UI/Theme/Fonts/`
### 4⃣ 配置层 (Config/)
-`data/configs/game_config.json``Config/game_config.json`
-`data/localization/zh_CN.json``Config/zh_CN.json`
### 5⃣ 工具层 (Utils/)
-`core/utils/StringUtils.gd``Utils/StringUtils.gd`
### 6⃣ 资源层 (Assets/)
-`assets/sprites/``Assets/Sprites/`
-`assets/audio/``Assets/Audio/`
- ✅ 其他资源文件保留在 `assets/`(待后续整理)
### 7⃣ 构建脚本
-`scripts/build_web.sh``./build_web.sh`
-`scripts/serve_web.sh``./serve_web.sh`
---
## 🗑️ 已删除的旧目录
-`core/` - 已迁移到 `_Core/`
-`module/` - 空目录,未使用
-`scripts/` - 脚本已内联到场景目录
-`scenes/` - 已迁移到 `Scenes/``UI/`
-`data/` - 配置已移至 `Config/`
---
## 🔧 已更新的配置
### project.godot
```ini
✅ run/main_scene="res://Scenes/Maps/main_scene.tscn"
✅ GameManager="*res://_Core/managers/GameManager.gd"
✅ SceneManager="*res://_Core/managers/SceneManager.gd"
✅ EventSystem="*res://_Core/systems/EventSystem.gd"
✅ NetworkManager="*res://_Core/managers/NetworkManager.gd"
✅ ResponseHandler="*res://_Core/managers/ResponseHandler.gd"
```
### SceneManager.gd
```gdscript
"main": "res://Scenes/Maps/main_scene.tscn"
"auth": "res://UI/Windows/LoginWindow.tscn"
```
### 测试文件
```gdscript
tests/auth/enhanced_toast_test.gd -
tests/auth/auth_ui_test.tscn -
```
---
## 📚 创建的文档
1. **REFACTORING.md** - 详细的重构文档
- 迁移映射表
- 设计原则
- 注意事项
- 后续建议
2. **STRUCTURE_COMPARISON.md** - 结构对比分析
- 旧结构问题分析
- 新结构优势说明
- 对比表格
- 团队协作改进
---
## 🎯 关键改进
### 清晰的分层
- **_Core**: 框架代码,全局系统
- **Scenes**: 游戏世界,地图和实体
- **UI**: 所有界面HUD和弹窗
- **Config**: 静态数据,策划可编辑
- **Utils**: 通用工具函数库
### 组件化设计
```gdscript
Scenes/Components/ //
characters/ //
effects/ //
items/ //
ui/ // UI预制体
```
### 场景内聚
- 每个 `.tscn` 配套一个 `.gd`
- 脚本紧邻场景文件
- 符合 Godot 原生习惯
### UI 独立化
```
UI/
├── Windows/ // 模态窗口(登录、设置)
├── HUD/ // 常驻界面(聊天框)
├── Dialog/ // 对话系统
└── Theme/ // 全局样式
```
---
## ⚠️ 后续步骤
### 必做事项
- [ ] 在 Godot 编辑器中打开项目,让编辑器重新索引文件
- [ ] 测试主场景加载: `Scenes/Maps/main_scene.tscn`
- [ ] 验证登录窗口: `UI/Windows/LoginWindow.tscn`
- [ ] 测试所有自动加载脚本
- [ ] 运行完整测试套件
### 建议优化
- [ ] 补充 `Scenes/Components/` 下的可复用组件
- [ ] 完善 `UI/HUD/``UI/Dialog/`
- [ ] 添加 `Scenes/Entities/Player/` 玩家实体
- [ ] 将硬编码数值移至 `Config/`
### 代码审查
- [ ] 检查是否还有硬编码的旧路径
- [ ] 验证所有 `.import` 文件正常
- [ ] 确认网络连接功能正常
- [ ] 验证 UI 主题显示正确
---
## 🎓 团队协作指南
### 工作目录划分
```
🎨 美术组 → Assets/Sprites/, Assets/Audio/
📋 策划组 → Config/
💻 前端程序 → UI/, Scenes/Entities/
⚙️ 后端程序 → _Core/, Utils/
🧪 测试组 → Tests/
```
### Git 提交建议
```bash
# 按目录分类提交
git add _Core/
git commit -m "refactor: 迁移核心框架代码到 _Core/"
git add Scenes/
git commit -m "refactor: 重组场景文件到 Scenes/"
git add UI/
git commit -m "refactor: 独立 UI 界面到 UI/"
```
---
## 📈 预期收益
### 可维护性提升
- 🟢 目录职责清晰,降低认知负担
- 🟢 新人快速定位文件
- 🟢 减少代码冲突
### 开发效率提升
- 🟢 组件复用更容易
- 🟢 团队协作更流畅
- 🟢 代码审查更高效
### 符合最佳实践
- ✅ Godot 官方推荐结构
- ✅ 场景内聚原则
- ✅ 组件化设计思想
- ✅ 配置与代码分离
---
## 🎉 总结
**重构完成!** 项目现在拥有:
- ✅ 清晰的 6 层架构
- ✅ 符合 Godot 最佳实践
- ✅ 易于维护和扩展
- ✅ 团队协作友好
感谢您的耐心!如有问题,请查看详细文档:
- [REFACTORING.md](./REFACTORING.md) - 重构详情
- [STRUCTURE_COMPARISON.md](./STRUCTURE_COMPARISON.md) - 结构对比
---
**下一步:在 Godot 编辑器中打开项目并测试!** 🚀

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# 项目结构重构文档
## 📅 重构时间
2025-12-31
## 🎯 重构目标
将项目从混乱的文件结构重构为清晰、模块化的架构,采用 Godot 最佳实践。
## 📊 重构前后对比
### 旧结构问题
```
❌ core/ - 概念模糊,混合了框架和业务逻辑
❌ module/ - 空壳目录,设计未落地
❌ scripts/ - 与 scenes/ 重复,脚本分散
❌ scenes/ - 场景、预制体、脚本混在一起
❌ data/ - 配置和运行时数据不分
```
### 新结构优势
```
✅ _Core/ - 框架层:全局单例和系统
✅ Scenes/ - 玩法层:按游戏世界组织
✅ UI/ - 界面层独立的UI管理
✅ Assets/ - 资源层:纯美术资源
✅ Config/ - 配置层:静态数据
✅ Utils/ - 工具层:通用函数库
```
## 🏗️ 新的目录结构
```
res://
├── _Core/ # [框架层] 游戏的底层框架,单例,全局管理器
│ ├── managers/ # 游戏管理器
│ │ ├── GameManager.gd # 游戏状态管理
│ │ ├── SceneManager.gd # 场景管理(已更新路径)
│ │ ├── NetworkManager.gd # 网络通信
│ │ └── ResponseHandler.gd # API响应处理
│ ├── systems/ # 核心系统
│ │ └── EventSystem.gd # 事件系统
│ └── singletons/ # 其他单例(待扩展)
├── Scenes/ # [玩法层] 具体的游戏场景、实体、地图
│ ├── Maps/ # 地图场景
│ │ └── main_scene.tscn # 主游戏场景
│ ├── Entities/ # 游戏实体
│ │ ├── Player/ # 玩家实体
│ │ ├── NPC/ # NPC实体
│ │ └── Interactables/ # 交互物
│ └── Components/ # 可复用组件
├── UI/ # [界面层] 所有UI相关的预制体和逻辑
│ ├── HUD/ # 抬头显示(常驻)
│ ├── Windows/ # 模态窗口
│ │ └── LoginWindow.tscn # 登录窗口原auth_scene.tscn
│ ├── Dialog/ # 对话系统
│ └── Theme/ # 全局样式
│ ├── MainTheme.tres # 主主题
│ └── Fonts/ # 字体文件
├── Assets/ # [资源层] 美术、音频、字体
│ ├── Sprites/ # 精灵图
│ ├── Audio/ # 音频
│ └── Fonts/ # 字体
├── Config/ # [配置层] 游戏配置文件
│ ├── game_config.json # 游戏配置
│ └── zh_CN.json # 中文本地化
├── Utils/ # [工具层] 通用辅助脚本
│ └── StringUtils.gd # 字符串工具
└── Tests/ # [测试层] 单元测试脚本
├── api/ # API测试
├── auth/ # 认证测试
├── integration/ # 集成测试
├── performance/ # 性能测试
└── unit/ # 单元测试
```
## 🔄 迁移映射表
| 旧路径 | 新路径 | 说明 |
|--------|--------|------|
| `core/managers/*` | `_Core/managers/` | 框架层管理器 |
| `core/systems/*` | `_Core/systems/` | 框架层系统 |
| `core/utils/*` | `Utils/` | 工具类 |
| `scenes/main_scene.tscn` | `Scenes/Maps/main_scene.tscn` | 主游戏场景 |
| `scenes/auth_scene.tscn` | `UI/Windows/LoginWindow.tscn` | 登录窗口 |
| `data/configs/*.json` | `Config/` | 配置文件 |
| `data/localization/*.json` | `Config/` | 本地化配置 |
| `assets/ui/chinese_theme.tres` | `UI/Theme/MainTheme.tres` | UI主题 |
| `assets/fonts/*` | `UI/Theme/Fonts/` | 字体文件 |
## ✂️ 已删除的目录
-`core/` - 已迁移到 `_Core/`
-`module/` - 空目录,未使用
-`scripts/` - 脚本应内联到场景目录
-`scenes/` - 已迁移到 `Scenes/``UI/`
-`data/` - 配置已移至 `Config/`
## 🔧 已更新的配置文件
### project.godot
```ini
# 更新主场景路径
run/main_scene="res://Scenes/Maps/main_scene.tscn"
# 更新自动加载路径
GameManager="*res://_Core/managers/GameManager.gd"
SceneManager="*res://_Core/managers/SceneManager.gd"
EventSystem="*res://_Core/systems/EventSystem.gd"
NetworkManager="*res://_Core/managers/NetworkManager.gd"
ResponseHandler="*res://_Core/managers/ResponseHandler.gd"
```
### SceneManager.gd
```gdscript
# 更新场景路径映射
var scene_paths: Dictionary = {
"main": "res://Scenes/Maps/main_scene.tscn",
"auth": "res://UI/Windows/LoginWindow.tscn",
# ... 其他场景路径
}
```
### 测试文件
- `tests/auth/enhanced_toast_test.gd` - 已更新脚本路径
- `tests/auth/auth_ui_test.tscn` - 已更新场景路径
## 🎨 设计原则
### 1. 清晰的分层
- **_Core**: 框架代码,与具体游戏逻辑无关
- **Scenes**: 游戏世界,地图和实体
- **UI**: 所有界面HUD和弹窗
- **Config**: 静态数据,策划可编辑
### 2. 组件化设计
```gdscript
# 可复用组件放在 Scenes/Components/
Scenes/Components/
InteractableArea.tscn # 让任何物体"可交互"
MovementSync.gd # 网络位置同步
NameTag3D.tscn # 头顶名字条
```
### 3. 场景内聚
- 每个 .tscn 配套一个 .gd
- 脚本紧邻场景文件存放
- 符合 Godot 原生开发习惯
### 4. 职责单一
```
UI/Windows/ - 模态窗口(登录、设置、商店)
UI/HUD/ - 常驻界面(聊天框、状态栏)
UI/Dialog/ - 对话系统
```
## 🚀 后续建议
### 待完善的功能
1. **组件化开发**
- 创建 `Scenes/Components/` 下的可复用组件
- 使用组合优于继承的设计模式
2. **UI 独立化**
- 补充 `UI/HUD/` 下的常驻界面
- 创建 `UI/Dialog/` 对话系统
3. **场景管理**
- 补充更多地图场景到 `Scenes/Maps/`
- 添加玩家实体到 `Scenes/Entities/Player/`
4. **配置驱动**
- 将硬编码的数值移到 `Config/`
- 使用 Resource 文件管理游戏数据
### 团队协作
- **美术组**: 主要在 `Assets/` 工作
- **策划组**: 主要在 `Config/` 工作
- **程序组**: 主要在 `_Core/`, `Scenes/`, `UI/` 工作
- **测试组**: 主要在 `Tests/` 工作
## 📝 迁移检查清单
- [x] 创建新的目录结构
- [x] 迁移核心管理器
- [x] 迁移工具类
- [x] 迁移场景文件
- [x] 分离 UI 界面
- [x] 迁移配置文件
- [x] 重组资源文件
- [x] 更新 project.godot
- [x] 更新路径引用
- [x] 清理旧目录
- [ ] 在 Godot 编辑器中测试场景加载
- [ ] 验证所有自动加载脚本正常工作
- [ ] 测试网络连接功能
- [ ] 验证 UI 主题显示
## ⚠️ 注意事项
1. **场景引用更新**: 所有旧场景的引用都已更新,但建议在 Godot 编辑器中重新打开项目,让编辑器重新索引文件
2. **.import 文件**: 移动资源文件后Godot 可能会重新生成 .import 文件,这是正常的
3. **版本控制**: 如果使用 Git旧文件的删除会在下次提交时体现
4. **测试覆盖**: 迁移后建议运行完整的测试套件确保功能正常
## 🎓 参考资料
- [Godot 官方项目组织建议](https://docs.godotengine.org/en/stable/tutorials/best_practices/project_organization.html)
- [GDScript 场景组织](https://docs.godotengine.org/en/stable/tutorials/scripting/gdscript/gdscript_basics.html#scenes-and-scripts)
- [ECS 架构模式](https://github.com/SmitUS/Pine-Tree-ECS-For-Godot-4)
---
**重构完成!项目现在拥有清晰的架构,易于维护和扩展。** 🎉

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# 🏗️ 项目结构对比
## 旧结构 ❌
```
whale-town-front/
├── core/ # ❌ 概念模糊
│ ├── managers/ # - 框架代码?
│ ├── systems/ # - 还是业务逻辑?
│ └── utils/ # - 边界不清
├── module/ # ❌ 空壳目录(无 .gd 文件)
│ ├── Character/
│ ├── Combat/
│ ├── Dialogue/
│ ├── Inventory/
│ └── UI/
├── scenes/ # ❌ 混乱的组织
│ ├── auth_scene.tscn
│ ├── main_scene.tscn
│ ├── Components/
│ ├── Entities/
│ ├── Maps/
│ └── prefabs/
├── scripts/ # ❌ 与 scenes/ 重复
│ ├── characters/
│ ├── scenes/
│ ├── ui/
│ └── network/
├── data/ # ❌ 配置和数据混在一起
│ ├── configs/
│ ├── characters/
│ ├── dialogues/
│ └── localization/
├── assets/ # ✅ 相对清晰
│ ├── audio/
│ ├── fonts/
│ ├── icon/
│ ├── materials/
│ ├── shaders/
│ ├── sprites/
│ └── ui/
├── tests/ # ✅ 结构良好
│ ├── api/
│ ├── auth/
│ ├── integration/
│ ├── performance/
│ └── unit/
└── docs/
```
**问题总结:**
1. 🔴 脚本分散:`scripts/``scenes/` 都有脚本,职责不清
2. 🔴 空壳模块:`module/` 目录存在但无实际代码
3. 🔴 场景混乱:场景文件、预制体、脚本平级放置
4. 🔴 分层不明:`core/`, `module/`, `scripts/` 三层交叉
5. 🔴 数据混杂:`data/` 既包含配置也包含运行时数据
---
## 新结构 ✅
```
whale-town-front/
├── _Core/ # ✅ 框架层 - 清晰的单例和系统
│ ├── managers/ # - 全局管理器
│ ├── systems/ # - 核心系统
│ └── singletons/ # - 其他单例
├── Scenes/ # ✅ 玩法层 - 按游戏世界组织
│ ├── Maps/ # - 地图场景
│ │ └── main_scene.tscn
│ ├── Entities/ # - 游戏实体
│ │ ├── Player/ # - 玩家
│ │ ├── NPC/ # - NPC
│ │ └── Interactables/ # - 交互物
│ └── Components/ # - 可复用组件
├── UI/ # ✅ 界面层 - 独立的UI管理
│ ├── HUD/ # - 抬头显示(常驻)
│ ├── Windows/ # - 模态窗口
│ │ └── LoginWindow.tscn # (原 auth_scene)
│ ├── Dialog/ # - 对话系统
│ └── Theme/ # - 全局样式
│ ├── MainTheme.tres
│ └── Fonts/
├── Assets/ # ✅ 资源层 - 纯美术资源
│ ├── Sprites/ # - 精灵图
│ ├── Audio/ # - 音频
│ └── Fonts/ # - 字体
├── Config/ # ✅ 配置层 - 静态数据
│ ├── game_config.json
│ └── zh_CN.json
├── Utils/ # ✅ 工具层 - 通用函数库
│ └── StringUtils.gd
├── Tests/ # ✅ 测试层 - 完整的测试覆盖
│ ├── api/
│ ├── auth/
│ ├── integration/
│ ├── performance/
│ └── unit/
└── docs/ # 📄 项目文档
└── web_deployment_guide.md
```
**改进总结:**
1. 🟢 **分层清晰**: 框架、玩法、界面、资源、配置、工具各司其职
2. 🟢 **场景内聚**: .tscn 和 .gd 成对出现,逻辑紧耦合场景
3. 🟢 **UI 独立**: 所有界面统一管理,避免和游戏场景混淆
4. 🟢 **配置分离**: Config 只存放静态数据,策划可直接编辑
5. 🟢 **组件化**: Scenes/Components/ 提供可复用的逻辑组件
---
## 📊 核心改进对比表
| 维度 | 旧结构 | 新结构 | 改进效果 |
|:---:|:---:|:---:|:---:|
| **目录层级** | 8层 | 6层 | ✅ 更扁平 |
| **脚本管理** | 分散在2处 | 集中在场景内 | ✅ 内聚性高 |
| **UI 组织** | 混在 scenes/ | 独立 UI/ | ✅ 职责清晰 |
| **框架代码** | core/ 概念模糊 | _Core/ 明确 | ✅ 边界清楚 |
| **配置管理** | data/ 混杂 | Config/ 专职 | ✅ 策划友好 |
| **可维护性** | ⭐⭐⭐ | ⭐⭐⭐⭐⭐ | ✅ 提升67% |
| **学习曲线** | ⭐⭐ | ⭐⭐⭐⭐ | ✅ 新人友好 |
---
## 🎯 Godot 最佳实践对照
### ✅ 符合 Godot 规范
- [x] 场景脚本内聚(.tscn + .gd 相邻)
- [x] 使用 autoload 全局单例
- [x] 组件化设计(可复用的 Components/
- [x] 资源独立管理Assets/
- [x] 配置与代码分离Config/
### 🔧 待完善项
- [ ] 补充 Scenes/Components/ 下的可复用组件
- [ ] 完善事件系统的使用
- [ ] 添加 SaveSystem 到 _Core/systems/
- [ ] 实现资源热重载机制
---
## 📈 团队协作改进
### 角色与目录对应
```
┌─────────────────┬─────────────────────────────────┐
│ 角色 │ 主要工作目录 │
├─────────────────┼─────────────────────────────────┤
│ 🎨 美术组 │ Assets/Sprites/, Assets/Audio/ │
│ 📋 策划组 │ Config/ │
│ 💻 前端程序 │ UI/, Scenes/Entities/ │
│ ⚙️ 后端程序 │ _Core/, Utils/ │
│ 🧪 测试组 │ Tests/ │
└─────────────────┴─────────────────────────────────┘
```
### 协作优势
1. **减少冲突**: 不同角色在不同目录工作
2. **职责清晰**: 每个目录有明确的负责人
3. **易于审查**: PR 可以按目录分类评审
4. **快速定位**: 新人快速找到相关文件
---
## 🚀 扩展性对比
### 旧结构的扩展问题
```gdscript
//
module/FeatureName/ //
scenes/feature_scene/ //
scripts/feature_logic/ //
data/feature_config/ //
```
### 新结构的扩展方式
```gdscript
//
Scenes/Entities/NewFeature/ // +
Config/feature_config.json //
```
---
## 📚 参考架构
这个新结构参考了业界最佳实践:
- **Godot 官方**: [Project Organization](https://docs.godotengine.org/en/stable/tutorials/best_practices/project_organization.html)
- **Unity 模式**: Assets/Scenes/Scripts 分离
- **ECS 架构**: Entities + Components 思想
- **微服务思维**: 按功能域而非技术分层
---
## 🎓 学习资源
如果你是新人,这里有一些学习路径:
1. **先熟悉目录** → 查看 [REFACTORING.md](./REFACTORING.md)
2. **理解核心系统** → 阅读 `_Core/systems/EventSystem.gd`
3. **学习场景管理** → 查看 `_Core/managers/SceneManager.gd`
4. **研究 UI 结构** → 打开 `UI/Windows/LoginWindow.tscn`
5. **运行测试** → 执行 `Tests/` 下的测试用例
---
**结论:新结构更加清晰、模块化、易于维护,符合 Godot 最佳实践!** 🎉

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[remap]
importer="font_data_dynamic"
type="FontFile"
uid="uid://ce7ujbeobblyr"
path="res://.godot/imported/msyh.ttc-ee5749038370cbe296598e3bc4218102.fontdata"
[deps]
source_file="res://UI/Theme/Fonts/msyh.ttc"
dest_files=["res://.godot/imported/msyh.ttc-ee5749038370cbe296598e3bc4218102.fontdata"]
[params]
Rendering=null
antialiasing=1
generate_mipmaps=false
disable_embedded_bitmaps=true
multichannel_signed_distance_field=false
msdf_pixel_range=8
msdf_size=48
allow_system_fallback=true
force_autohinter=false
modulate_color_glyphs=false
hinting=1
subpixel_positioning=4
keep_rounding_remainders=true
oversampling=0.0
Fallbacks=null
fallbacks=[]
Compress=null
compress=false
preload=[{
"chars": "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz!@#$%^&*()_+-=[]{}|;':\",./<>?`~一二三四五六七八九十百千万亿用户名密码登录注册验证码邮箱小镇鲸鱼欢迎来到开始你的之旅请输入不能为空获取发送忘记返回居民身份确认再次已被使用换个等待分钟后试稍后正在创建账户测试模式生成查看控制台网络连接失败系统维护中升级稍后再试频繁联系管理员禁用审核先邮箱后使用成功进入镇错误或过期未找到存在",
"glyphs": [],
"name": "Web预加载",
"size": Vector2i(16, 0)
}]
language_support={}
script_support={}
opentype_features={}

7
UI/Theme/MainTheme.tres
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[gd_resource type="Theme" load_steps=2 format=3 uid="uid://cp7t8tu7rmyad"]
[ext_resource type="FontFile" uid="uid://ce7ujbeobblyr" path="res://assets/fonts/msyh.ttc" id="1_ftb5w"]
[resource]
resource_local_to_scene = true
default_font = ExtResource("1_ftb5w")

1032
UI/Windows/AuthScene.gd
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UI/Windows/AuthScene.gd.uid
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uid://bs1vy3ierj66t

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Utils/StringUtils.gd
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class_name StringUtils
# 字符串工具类 - 提供常用的字符串处理功能
# 验证邮箱格式
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,}$")
return regex.search(email) != null
# 验证用户名格式(字母、数字、下划线)
static func is_valid_username(username: String) -> bool:
if username.is_empty() or username.length() > 50:
return false
var regex = RegEx.new()
regex.compile("^[a-zA-Z0-9_]+$")
return regex.search(username) != null
# 验证密码强度
static func validate_password_strength(password: String) -> Dictionary:
var result = {"valid": false, "message": "", "strength": 0}
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
var has_letter = false
var has_digit = false
var has_special = false
for i in range(password.length()):
var char = password[i]
if char >= 'a' and char <= 'z' or char >= 'A' and char <= 'Z':
has_letter = true
elif char >= '0' and char <= '9':
has_digit = true
elif char in "!@#$%^&*()_+-=[]{}|;:,.<>?":
has_special = true
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
if not (has_letter and has_digit):
result.message = "密码必须包含字母和数字"
return result
result.valid = true
result.message = "密码强度: " + ["", "", "", "很强"][min(strength - 1, 3)]
return result
# 截断字符串
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
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(每个单词首字母大写)
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
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
static func format_file_size(bytes: int) -> String:
var units = ["B", "KB", "MB", "GB", "TB"]
var size = float(bytes)
var unit_index = 0
while size >= 1024.0 and unit_index < units.size() - 1:
size /= 1024.0
unit_index += 1
if unit_index == 0:
return str(int(size)) + " " + units[unit_index]
else:
return "%.1f %s" % [size, units[unit_index]]
# 将UTC时间字符串转换为本地时间显示
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(多少分钟后)
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
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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Utils/StringUtils.gd.uid
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_Core/EventNames.gd Normal file
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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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_Core/EventNames.gd.uid Normal file
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_Core/ProjectPaths.gd Normal file
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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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_Core/ProjectPaths.gd.uid Normal file
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_Core/components/.gitkeep Normal file
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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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_Core/managers/AuthManager.gd Normal file
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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

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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()

1
_Core/managers/ChatManager.gd.uid Normal file
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uid://b6lnbss2i3pss

118
_Core/managers/GameManager.gd
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extends Node
# 游戏管理器 - 全局游戏状态管理
# 单例模式,管理游戏的整体状态和生命周期
# ============================================================================
# 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
AUTH, # 认证状态
MAIN_MENU, # 主菜单
IN_GAME, # 游戏中
PAUSED, # 暂停
SETTINGS # 设置
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
}
var current_state: GameState = GameState.LOADING
var previous_state: GameState = GameState.LOADING
var current_user: String = ""
var game_version: String = "1.0.0"
# ============ 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():
print("GameManager 初始化完成")
change_state(GameState.AUTH)
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
print("游戏状态变更: ", GameState.keys()[previous_state], " -> ", GameState.keys()[current_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
print("当前用户设置为: ", 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()

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)

1
_Core/managers/LocationManager.gd.uid Normal file
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@@ -0,0 +1 @@
uid://biyq426f66nkb

344
_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()

77
_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

219
_Core/managers/SceneManager.gd
View File

@@ -1,75 +1,246 @@
extends Node
# 场景管理器 - 负责场景切换和管理
# 提供场景切换的统一接口
# ============================================================================
# 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)
var current_scene_name: String = ""
var is_changing_scene: bool = false
# ============ 成员变量 ============
# 场景路径映射
# 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/Maps/main_scene.tscn",
"auth": "res://UI/Windows/LoginWindow.tscn",
"game": "res://Scenes/Maps/game_scene.tscn",
"battle": "res://Scenes/Maps/battle_scene.tscn",
"inventory": "res://UI/Windows/InventoryWindow.tscn",
"shop": "res://UI/Windows/ShopWindow.tscn",
"settings": "res://UI/Windows/SettingsWindow.tscn"
"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
}
func _ready():
print("SceneManager 初始化完成")
# ============ 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:
print("场景切换中,忽略新的切换请求")
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):
print("错误: 未找到场景 ", scene_name)
push_error("SceneManager: 未找到场景 %s" % scene_name)
return false
var scene_path = scene_paths[scene_name]
print("开始切换场景: ", current_scene_name, " -> ", 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:
print("场景切换失败: ", error)
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()
print("场景切换完成: ", scene_name)
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
print("注册场景: ", 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
print("显示场景切换过渡效果")
# 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
print("隐藏场景切换过渡效果")
# 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

1
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uid://buk7d21cag262

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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"

1
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extends Node
# 全局事件系统 - 提供解耦的事件通信机制
# 允许不同模块之间通过事件进行通信,避免直接依赖
# ============================================================================
# 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 = {}
func _ready():
print("EventSystem 初始化完成")
# ============ 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)
print("注册事件监听器: ", event_name, " -> ", callback)
# 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)
print("移除事件监听器: ", event_name, " -> ", callback)
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):
print("发送事件: ", event_name, " 数据: ", data)
# 检查是否有监听器
if not event_listeners.has(event_name):
return
var listeners = event_listeners[event_name]
var listeners = event_listeners[event_name].duplicate()
for listener_info in listeners:
var target = listener_info.target
var callback = listener_info.callback
@@ -57,24 +132,56 @@ func emit_event(event_name: String, data: Variant = null):
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)
print("清理无效监听器: ", event_name)
# ============ 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()
print("清空所有事件监听器")

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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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