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TriM-Organization:main TriM-Organization:develop TriM-Organization:master TriM-Organization:v2 TriM-Organization:nbs TriM-Organization:pysideP TriM-Organization:TkinterWindow TriM-Organization:oldUI TriM-Organization:beewarewindow
TriM-Organization:v3.0.0-alpha TriM-Organization:NoneAF1 TriM-Organization:v1.7.4 TriM-Organization:v1.7.3 TriM-Organization:v1.6.2 TriM-Organization:v1.4.0 TriM-Organization:v0.2.0.0-Delta TriM-Organization:v0.1.5.1-Delta
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TriM-Organization:develop TriM-Organization:master TriM-Organization:v2 TriM-Organization:main TriM-Organization:nbs TriM-Organization:pysideP TriM-Organization:TkinterWindow TriM-Organization:oldUI TriM-Organization:beewarewindow
TriM-Organization:v3.0.0-alpha TriM-Organization:NoneAF1 TriM-Organization:v1.7.4 TriM-Organization:v1.7.3 TriM-Organization:v1.6.2 TriM-Organization:v1.4.0 TriM-Organization:v0.2.0.0-Delta TriM-Organization:v0.1.5.1-Delta

96 Commits
nbs ... v3.0.0-alp

Author SHA1 Message Date
EillesWan
d4901cf3dc 更新 TODO 文件 2026-02-07 05:55:27 +08:00
EillesWan
13512df9ce 完成插件系统的基本设计,接着需要优化一些内容,标记了 TODO 2026-02-07 05:44:57 +08:00
EillesWan
1d9931f79d 完美,同志,完美!!!!!!! 2026-02-04 00:06:14 +08:00
EillesWan
841f6e53c6 临时上传,仍在开发过程中 2026-02-02 01:33:47 +08:00
EillesWan
0de959c396 基本的设计已经完成,今天休息一下 2026-01-26 09:39:22 +08:00
EillesWan
734ee2dd66 加了一个描述 2026-01-24 05:40:17 +08:00
EillesWan
32b7930b26 基本数据结构做好了,接下来就是解析功能了 2026-01-24 05:37:38 +08:00
EillesWan
583ca04ac9 2026-01-22 09:23:33 +08:00
EillesWan
1e0698c85d Merge branch 'master' of https://gitee.com/EillesWan/Musicreater 2026-01-16 01:30:01 +08:00
EillesWan
dc3be4120d 什么?还有合并内容? 2026-01-16 01:29:15 +08:00
Eilles
bf173a9f81 没有变化 2026-01-08 03:18:20 +08:00
Eilles
6bea46977f 下次要建一个dev分支到仓库里啊…… 2025-11-30 02:51:59 +08:00
Eilles
3b8532af61 2025-11-28 05:21:58 +08:00
Eilles
9f35e9e16a 啊? 2025-11-27 04:18:16 +08:00
Eilles
65358b12d0 气笑了 2025-11-27 04:17:26 +08:00
Eilles
046c2af27c Merge branch 'master' of https://gitee.com/EillesWan/Musicreater 2025-11-27 04:03:41 +08:00
Eilles
fa6cfb4873 神笔编码 2025-11-27 04:03:39 +08:00
EillesWan
3d6d0e17a2 去人工智能那边看看,我直接抄吧 2025-11-20 16:05:30 +08:00
EillesWan
f1bea1d57e Merge branch 'master' of https://gitee.com/EillesWan/Musicreater 2025-10-22 11:50:12 +08:00
EillesWan
63b59442a4 重构么?不重构吧…… 2025-10-22 11:50:04 +08:00
Eilles
7f74b29569 Merge branch 'master' of https://gitee.com/EillesWan/Musicreater 2025-09-27 16:56:09 +08:00
Eilles
885dc085ea 我改了啥我都不记得了,但是同步一下代码吧 2025-09-27 16:56:06 +08:00
EillesWan
24742a140c 也是绝了,版本改了之后版本标识没更新,对,我说的是MSQ和FSQ 2025-09-26 09:45:19 +08:00
EillesWan
6f94f477f2 暑假回学校,同步所有更改内容 2025-08-30 19:48:41 +08:00
EillesWan
c056eb1fcb 小问题修复,回复 https://gitee.com/ElapsingDreams/MusicPreview/issues/ICUEFX 的问题 2025-08-24 00:11:01 +08:00
EillesWan
b796a363d8 更丰富的音符附加信息支持 2025-08-20 18:57:21 +08:00
EillesWan
774f78359c Midi歌词支持,文档格式更新 2025-08-19 04:37:11 +08:00
EillesWan
8df63df26c 更新一处细节,避免声相偏移无法听见 2025-07-08 06:00:32 +08:00
EillesWan
9764019f08 Merge branch 'master' of https://gitee.com/EillesWan/Musicreater 2025-07-06 02:59:14 +08:00
EillesWan
250857c78f 同步本机更改? 2025-07-06 02:59:10 +08:00
EillesWan
7ab6b77cff Merge branch 'master' of https://gitee.com/EillesWan/Musicreater 2025-06-19 02:30:45 +08:00
EillesWan
321f80540c 完整的全景声相支持,修复了之前音量大小确定错误的问题 2025-06-19 02:30:24 +08:00
EillesWan
50373b05d0 Merge branch 'master' of https://gitee.com/EillesWan/Musicreater 2025-05-26 17:36:24 +08:00
EillesWan
b65483b32d 合并双机器工作之变化性更改 2025-05-26 17:33:39 +08:00
EillesWan
45e9adbbd1 支持神羽资源包 2025-05-25 04:20:55 +08:00
EillesWan
7a1ca86132 新增部分可指定的默认值,增加默认乐器替换表 2025-04-15 21:14:38 +08:00
EillesWan
64048a5e31 修复插件兼容性问题,Sorry 2025-04-15 20:21:40 +08:00
EillesWan
3739138059 切换为UV进行包管理 2025-04-15 20:01:43 +08:00
EillesWan
048b631bd6 强化文档内容 2025-04-11 16:58:11 +08:00
EillesWan
23bf69619b 2.3.0,基于FSQ的完整流式音符信息传输支持。 2025-04-11 16:31:54 +08:00
EillesWan
b4e16353ec 更新上传文件 2025-04-08 18:14:50 +08:00
EillesWan
c14489f3a7 MSQ 流式适配与校验增强,新增 NBS 音色表 2025-04-08 17:49:49 +08:00
EillesWan
889f8f9641 Java版!MSQ流式解析初适配! 2025-04-02 02:52:41 +08:00
EillesWan
2df8d6a270 我服了你个老六 2024-12-29 21:00:43 +08:00
EillesWan
78eabf2df6 接口小兼容 2024-12-29 20:48:37 +08:00
EillesWan
b3ddfc7ade 文档改动 2024-12-26 02:02:13 +08:00
EillesWan
bd031ef547 Bug小修 2024-10-22 00:33:54 +08:00
EillesWan
e4304dc3d1 部分API小幅度新增内容 2024-10-22 00:19:39 +08:00
EillesWan
794ee6d080 2024-08-19 02:33:00 +08:00
EillesWan
b67554c7c9 增加一个英文致谢 2024-08-19 02:31:49 +08:00
EillesWan
6f391567ba 部分API小幅新增,修复新版本指令的计分板播放器附加包无法播放的问题 2024-08-19 02:28:28 +08:00
EillesWan
932b9a34e0 修改协议 2024-07-18 16:21:10 +08:00
EillesWan
f6b884e38f 高精度时间支持,修复TEMPO设置错误的问题 2024-06-11 00:54:53 +08:00
EillesWan
bf1b7b99d8 高精度时间支持,修复tempo设置错误的问题 2024-06-11 00:54:50 +08:00
EillesWan
fe7c11636b 解决一些小问题 2024-05-02 02:00:04 +08:00
EillesWan
382b0e1601 websocket播放支持 2024-05-01 01:16:05 +08:00
EillesWan
c17ff0e53a 直接让MusicSave的函数放在主类里吧,更好用一些 2024-03-10 18:52:18 +08:00
EillesWan
f1ab2373b5 完成2.0.0正式版构建,现已支持音乐保存…… 2024-03-10 18:47:10 +08:00
Eilles Wan
77351d767b !4 update Musicreater/constants.INSTRUMENT_OFFSET_POS_TABLE 
Merge pull request !4 from ElapsingDreams/N/A
非常好的偏移表
 2024-03-10 10:37:19 +00:00
ElapsingDreams
69624df711 update Musicreater/constants.INSTRUMENT_OFFSET_POS_TABLE 
依据wiki更改 不同乐器的音调偏离对照表 ,其数值为偏离标准音C3的数值

Signed-off-by: ElapsingDreams <9063072+ElapsingDreams@user.noreply.gitee.com>
 2024-03-10 10:26:28 +00:00
EillesWan
d4925e4d75 进一步优化结构,提高插件兼容 2024-03-10 02:22:12 +08:00
EillesWan
95c0ff1b47 2.0.0全新版本,更好的代码组织形式 2024-03-04 00:04:05 +08:00
EillesWan
3831c41b9a 我觉得能用了 2024-02-24 21:31:39 +08:00
EillesWan
a4565b8529 如改 2024-02-08 18:29:29 +08:00
EillesWan
041c64ff65 优化example结构,支持mcstructure的计分板播放 2024-02-03 16:54:43 +08:00
EillesWan
b0bdb7b445 修复了乐音乐器的execute前缀缺失的问题 2024-02-02 20:50:35 +08:00
EillesWan
99a7564648 修复了打击乐器转换时,注释部分format代码报错的问题 2024-02-02 18:12:29 +08:00
EillesWan
dbb3f4c83f 修复了一个小兼容性bug 2024-01-23 18:36:25 +08:00
EillesWan
edd40c078f 加个copy方法 2024-01-23 18:17:15 +08:00
EillesWan
d3b637a0c8 修复类型定义的重复问题-2 2024-01-23 18:14:41 +08:00
EillesWan
d7e3c62deb 修复类型定义的重复问题 2024-01-23 17:01:42 +08:00
EillesWan
7b319268fe 改个版本号 2024-01-14 22:08:27 +08:00
EillesWan
41883f7798 可以用了(?) 2024-01-14 22:05:55 +08:00
EillesWan
fc138f1dbf 新的转换算法测试,更好的声音适配 2024-01-08 00:08:52 +08:00
EillesWan
0b0328bc44 更新乐器对照表 2023-10-22 12:37:53 +08:00
EillesWan
72dfdfeb34 改进Channel的应用,减少内存占用,优化结构生成,提高MIDI兼容,修改API结构 2023-10-02 18:24:09 +08:00
EillesWan
9a580132e5 新增midi对应钢琴键盘的音符表 2023-09-30 02:27:51 +08:00
EillesWan
29380d4151 优化生成结构 2023-09-24 12:44:00 +08:00
EillesWan
76eff25a1d 文档全面升级,部分架构更新 2023-09-24 00:38:31 +08:00
EillesWan
7b60d3f9ea 新增红石包子 2023-09-10 19:26:42 +08:00
EillesWan
483e45dcc2 成了吗?如成! 2023-09-10 19:13:39 +08:00
EillesWan
627a26f64a 支持mcstructure结构导出旧版指令 2023-09-10 11:43:39 +08:00
EillesWan
357cb18c5b 提交文档,增加作者署名 2023-08-12 15:10:42 +08:00
EillesWan
83c9750db3 重大更新:优化算法+红石指令音乐生成 2023-08-12 12:39:30 +08:00
EillesWan
5c86a28b44 okay 2023-07-31 23:25:45 +09:00
EillesWan
70674ec6f7 增加对于不正规Midi兼容性的支持,避免转换错误的情况发生。 2023-07-31 22:28:14 +09:00
EillesWan
f73c1be944 更高效的算法管理与兼容性和代码格式更新,详见样例代码;同时新增实验算法,在其中尝试下次更新的内容 2023-07-01 19:11:10 +08:00
EillesWan
36f8db722b Merge branch 'master' of https://gitee.com/EillesWan/Musicreater 2023-06-11 13:10:42 +08:00
EillesWan
bedb3924c6 新增一个感谢人 2023-06-11 13:10:39 +08:00
EillesWan
81ae7ae146 修复一些小问题 2023-06-11 13:09:11 +08:00
bgArray
c39c6c4488 Remove feudal superstition 2023-06-04 21:33:20 +08:00
EillesWan
556ce74cfb 修复打击乐器播放时的错误,即将步入红石音乐生成阶段 2023-06-04 17:01:59 +08:00
EillesWan
3da472052e 代码架构升级,功能分割,减少强制性依赖,API全新换代,文档全面更新,新一代音·创,音·创1.0.0 2023-05-27 18:41:02 +08:00
EillesWan
ffe5837c9f 不要更新!不要更新!命运的齿轮尚未开始转动,前方的道路将会铺满沙尘。 2023-05-07 19:25:51 +08:00
EillesWan
42e2fcdd98 要更新,要更新 2023-05-01 19:34:22 +08:00
EillesWan
755de846c7 小改example 2023-05-01 13:58:11 +08:00
96 changed files with 17414 additions and 3796 deletions
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26
.gitignore vendored
View File

@@ -1,21 +1,32 @@
# sth. can't open
/msctPkgver/secrets/*.py
/msctPkgver/secrets/*.c
/fool/
# mystuff
/*.zip
/.vscode
*.mid
*.midi
*.mcpack
*.bdx
*.json
*.mcstructure
/*.mid
/*.midi
/*.mcpack
/*.bdx
/*.msq
/*.fsq
/*.json
/*.mcstructure
.mscbackup
/logs
/languages
/llc_cli.py
/utils
test.py
RES.txt
/MSCT_Packer.py
/Packer/*.MPK
/Packer/checksum.txt
/bgArrayLib
/fcwslib
test_lyric-mido.py
# Byte-compiled / optimized
__pycache__/
@@ -41,6 +52,7 @@ share/python-wheels/
.installed.cfg
*.egg
MANIFEST
.pdm-build/
# PyInstaller
# Usually these files are written by a python script from a template

1
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3.10

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LICENSE.md
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@@ -1,219 +1,123 @@
**注意以下条款或版权声明应当且必须是高于此项目中任何其他声明的**
# 汉钰律许可协议,第一版
1. ·创的全部开发者享有其完整版权其开发者可以在任一时刻终止以后音·创源代码开放若经由其开发者授予特殊权利则授权对象可以将源代码进行特定的被特殊授权的操作
2. ·创或其代码允许在 Apache2.0 协议的条款与说明下进行非商业使用
3. 除部分代码特殊声明外·创允许对其或其代码进行商业化使用但是需要经过音·创主要开发者诸葛亮与八卦阵金羿的一致授权同时授权对象在商业化授权的使用过程中必须依照 Apache2.0 协议的条款与说明
4. 若存在对于音·创包含的部分代码的特殊开源声明则此部分代码依照其特定的开源方式授权但若此部分代码经由此部分代码的主要开发者一致特殊授权后商用则授权对象在商用时依照此部分的开发者所准许的方式或条款进行商用或默认依照 Apache2.0 协议进行商业化使用
5. Apache2.0 协议的英文原文副本可见下文
**总第一版 第二次修订 · 二〇二四年七月七日编 二〇二五年四月二十六日修订**
> The English Translation of the TERMS AND CONDITIONS above is listed below
>
> This translated version is for reference only and has no legal effect.
>
> The version with legal effect is the Chinese version above.
## 一、重要须知
**Note, The TERMS AND CONDITIONS below should and must be above all others in this project**
1. 为保护采用本协议的作品在开源过程中其著作权人所应有的权益根据**中华人民共和国著作权法和相关法律法规**制定本协议
1. *Musicreater* is fully copyrighted by all its developers, the developers have the right to make *Musicreater* close sourced at any time. Operations are permitted under specific terms instructed by its developer(s).
2. Non-commercial use of *Musicreater* and(or) its source code is permitted under Apache License 2.0.
3. Commercial use of *Musicreater* is permitted under Apache License 2.0 with the unanimous permission of the steering developers of *Musicreater* (*bgArray*诸葛亮与八卦阵 and *Eilles*金羿).
4. *Musicreater* is open sourced under priority given:
1. License granted by the core developer(s) of a section after negotiation.
2. Explicitly stated license.
3. Apache 2.0 License.
5. A copy of the original Apache Lisence 2.0 can be found below.
2. 本协议履行过程中请注意本协议中**免除或限制**民事主体**责任或权利**的条款法律适用和争议解决条款尤其是加有特殊标记的条款这些条款应在中国法律所允许的范围内最大程度地适用
3. 若本协议所涉及的自然人**未满 18 周岁**该自然人应在监护人的陪同下阅读本协议及有关本协议的条款内容并在取得其监护人同意后开始或继续应用本协议所授权的行为
```text
Apache License
Version 2.0, January 2004
http://www.apache.org/licenses/
4. 由于互联网服务互联网内容的特殊性若本协议以电子协议形式分发并签订其依然有效您一旦开始对本协议所授权之作品进行本协议所授权的行为即视为您已经阅读理解并同意并已经接受本协议的全部条款
TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION
5. 本协议的订立履行解释及争议的解决均**适用中华人民共和国法律并排除其他一切冲突法的适用**_本协议订立于许可证最初的颁发者的地址若颁发者为自然人则订立于该自然人户籍所在地若为法人或非法人组织则订立于其注册地_本协议的订立各方应友好协商解决于协议所规定之行为的履行相关的争议如协商不成任何一方均可向合同签订地有管辖权的人民法院提起诉讼
1. Definitions.
6. 本协议的原本仅为现代汉语书写于简体中文若存在其他语言的翻译或其他同等语言但非简体中文文本的版本应当无法律效力
"License" shall mean the terms and conditions for use, reproduction,
and distribution as defined by Sections 1 through 9 of this document.
## 二、术语定义
"Licensor" shall mean the copyright owner or entity authorized by
the copyright owner that is granting the License.
1. **许可证****协议**后文称本协议是指根据本文档中所列举的全部术语定义条款限制等文本是本合同的简称称谓本合同全称是 **汉钰律许可协议第一版**
"Legal Entity" shall mean the union of the acting entity and all
other entities that control, are controlled by, or are under common
control with that entity. For the purposes of this definition,
"control" means (i) the power, direct or indirect, to cause the
direction or management of such entity, whether by contract or
otherwise, or (ii) ownership of fifty percent (50%) or more of the
outstanding shares, or (iii) beneficial ownership of such entity.
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"You" (or "Your") shall mean an individual or Legal Entity
exercising permissions granted by this License.
3. ****形式是指对包括但不限于 软件硬件文档配置项 等种类的作品进行修改编辑的首选形式若不存在首选形式则初次编辑该作品所需的形式即为源形式
"Source" form shall mean the preferred form for making modifications,
including but not limited to software source code, documentation
source, and configuration files.
4. **目标**形式是指对源形式进行机械转换翻译打印制造加工等同类型活动后形成的结果形式包括但不限于源代码编译后的目标软件生成的文件转换出的媒体制造出的机械打印出的实体文本加工后的零件
"Object" form shall mean any form resulting from mechanical
transformation or translation of a Source form, including but
not limited to compiled object code, generated documentation,
and conversions to other media types.
5. **采用本协议的作品**后文称此作品是指经颁发者授权而使用本协议进行授权的任何作品该作品应在自然人可见处明确附加一个自然人可读的版权通知可以参考文末附录中提供的示例若在一个可分割的作品中部分地采用本协议进行授权则该部分应当视为一个独立的采用本协议的作品该作品应当在自然人可见处明确附加一个自然人可读的范围限定和版权通知同样可以参考文末附录中提供的示例
"Work" shall mean the work of authorship, whether in Source or
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## 三、权利授予
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END OF TERMS AND CONDITIONS
## 四、使用条件
在对此作品进行本协议所授权的民事活动中应当同时满足以下条款
Copyright 2022 Team-Ryoun 金羿("Eilles Wan") & 诸葛亮与八卦阵("bgArray")
1. 用户必须为此作品的任何其他接收者提供本协议的副本在不得已无法提供副本的情况下也应明确指示其他接收者可查阅本协议的位置
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
2. 用户必须在修改后的作品中附带明显的通知声明用户已更改文件并注明更改位置
http://www.apache.org/licenses/LICENSE-2.0
3. 若用户二次分发此作品可以选择向此作品的接收者提供无偿或有偿的担保维修支持服务或其他责任义务但是该用户只可以其自己的名义提供上述内容不得以任何其他贡献者的名义且该用户必须明确表明任何此类责任或义务是由其个人独立提供且其同意并应当承担赔偿此作品的全体贡献者因其个人承担上述责任义务而产生的任何赔偿责任
4. 用户不得删除或更改此作品中包含的任何许可声明包括版权声明专利声明免责声明或赔偿责任限制除非该更改是对已知事实错误的修补或其已获得此作品颁发者的特殊许可或更改者即为此作品颁发者本人
5. 若此作品将权益的声明通知作为一部分那么由用户分发的任何版本的作品中须至少在下列三处之一包含该声明通知的自然人可读副本
- 该作品的权益声明通知中
- 在源形式的文件中当且仅当该作品开放源代码
- 在惯例中作为第三方通知出现之处当且仅当该作品会产生画面且该画面可被自然人详细观察
该通知的内容仅供信息提供不应对许可证进行任何文字上的修改用户可在其分发的作品中在不构成修改本协议的前提下在作品自身的声明通知或属性描述后或作为附录添加
6. 依据本款第3条若用户二次分发此作品时选择向作品的接收者提供收费的担保服务则必须明确告知该接收者本协议全部内容与此作品原出处并确保其知悉上述内容但若用户在二次分发此作品时不选择提供任何服务则该用户不允许向作品的接收者收取任何费用除非该用户获得了此作品颁发者的特殊许可或该用户即为此作品颁发者本人
## 五、提交贡献
除非贡献者明确声明在本作品中由该贡献者向颁发者的提供的提交必须符合本协议的条款并与本协议的条款不存在冲突除非此贡献中与本协议冲突的附加条款已获得颁发者的特殊许可或贡献者即为此作品颁发者本人
## 六、商标相关
本协议并未授予用户将颁发者的商标专属标记或特定产品名称用于合理的或惯例性的描述或此类声明之外其他任何位置的权利
## 七、免责声明
1. 若非因法律要求或经过了特殊准许此作品在根据本协议原样提供的基础上**不予提供任何形式的担保任何明示任何暗示或类似承诺**此类包括但不限于担保此作品毫无缺陷担保此作品适于贩卖担保此作品适于特定目的担保使用此作品绝不侵权用户将自行承担因此作品的质量或性能问题而产生的全部风险若此作品在任何方面欠妥将由用户而非任何贡献者而非任何颁发者承担所有必要的服务维修或除错的任何成本本免责声明是本许可的重要组成部分当且仅当遵守本免责声明时本协议的其他条款中对本作品的使用授权方可生效
2. 无论是因何种原因如果不是在法律规定的特殊情况确为贡献者的故意或重大过失下或者经过了特殊准许即使贡献者事先已知发生损害的可能在使用本作品时用户产生的任何直接间接特殊偶然或必然造成的损失包括但不限于商誉损失工作延误计算机系统故障等**均不由任一贡献者承担**
**以上是本许可协议的全部条款**
---
附录
**如何在自己的作品中应用 汉钰律许可协议**
若要在自己源形式的作品应用本协议请在其中附加下面的通知模板并将六角括号中的字段替换成自身的实际信息来替换不包括括号本身这些文本必须以对应文件格式适当的注释句法包含在其中可以是实体的纸质文档也可以是网络公告或者计算机文件或者脱离该源之外另起一个新的文件使之指向要应用本协议的那个作品同时也建议将作品名或类别名以及目的说明之类的声明囊括在同一个可被打印的页面上作为版权通知的整体这样更加容易的区分出第三方内容
若需要在自己以目标形式存在的作品中应用本协议同样需要附加下面的通知模板并更改六角括号中的字样但是这些文本可以是位于作品的标签上位于作品的用户可见且能被自然人详细观察的画面之中或者按照惯例中许可协议应该出现的位置同时这些文本的所处位置应当能够明确指示到本协议应用的那个作品另外建议将作品名或类别名以及目的说明之类的声明囊括在同一个可被打印的位置上作为版权通知的整体这样更加容易的区分出第三方内容
**通知模板**
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
```
版权所有 © 年份 著作权人
或者版权所有 (C) 年份 著作权人
该作品根据 汉钰律许可协议第一版本协议授权
任何人皆可从以下地址获得本协议副本本协议副本所在地址
若非因法律要求或经过了特殊准许此作品在根据本协议原样提供的基础上不予提供任何形式的担保任何明示任何暗示或类似承诺也就是说用户将自行承担因此作品的质量或性能问题而产生的全部风险
详细的准许和限制条款请见原协议文本
```

77
Musicreater/__init__.py
View File

@@ -1,24 +1,71 @@
# -*- coding: utf-8 -*-
"""一个简单的我的世界音频转换库
音·创 (Musicreater)
是一款免费开源的针对《我的世界》的midi音乐转换库
Musicreater(音·创)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2023 音·创 开发者
Copyright © 2023 all the developers of Musicreater
"""
音·创
是一款免费开源的《我的世界》数字音频支持库。
开源相关声明请见 ../License.md
Terms & Conditions: ../License.md
Musicreater (音·创)
A free and open-source library for handling with **Minecraft** digital music.
版权所有 © 2026 睿乐组织
Copyright © 2026 TriM-Organization
音·创(“本项目”)的协议颁发者为 金羿、玉衡Alioth
The Licensor of Musicreater("this project") is Eilles, YuhengAlioth
本项目根据 第一版 汉钰律许可协议(“本协议”)授权。
任何人皆可从以下地址获得本协议副本:
https://gitee.com/TriM-Organization/Musicreater/blob/master/LICENSE.md。
若非因法律要求或经过了特殊准许,此作品在根据本协议“原样”提供的基础上,
不予提供任何形式的担保、任何明示、任何暗示或类似承诺。
也就是说,用户将自行承担因此作品的质量或性能问题而产生的全部风险。
详细的准许和限制条款请见原协议文本。
"""
# 睿组织 开发交流群 861684859
# 睿组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 版权所有 金羿("Eilles Wan") & 诸葛亮与八卦阵("bgArray") & 鸣凤鸽子("MingFengPigeon")
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
from .main import *
__version__ = "0.5.1"
__all__ = []
__author__ = (("金羿", "Eilles Wan"), ("诸葛亮与八卦阵", "bgArray"), ("鸣凤鸽子", "MingFengPigeon"))
__version__ = "3.0.0-alpha"
__author__ = (
("金羿", "Eilles"),
("玉衡Alioth", "YuhengAlioth"),
("鱼旧梦", "ElapsingDreams"),
("偷吃不是Touch", "Touch"),
)
from .paramcurve import ParamCurve, InterpolationMethod, BoundaryBehaviour
from .data import (
SingleMusic,
SingleTrack,
SingleNote,
SoundAtmos,
MineNote,
CurvableParam,
)
from .plugins import load_plugin_module
from .main import MusiCreater
__all__ = [
"__version__",
"__author__",
# 参数曲线相关
"ParamCurve",
"InterpolationMethod",
"BoundaryBehaviour",
# 音乐数据结构
"SingleMusic",
"SingleTrack",
"SingleNote",
"SoundAtmos",
"MineNote",
"CurvableParam",
# 工程项目相关
"load_plugin_module",
"MusiCreater",
]

632
Musicreater/_plugin_abc.py Normal file
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# -*- coding: utf-8 -*-
"""
存储 音·创 v3 的插件基类,提供抽象接口以供实际插件使用
"""
"""
版权所有 © 2026 金羿
Copyright © 2026 Eilles
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
# =====================
# NOTE: [WARNING]
# 这个文件是一坨屎山代码
# 请勿模仿,请多包容
# =====================
import sys
from abc import ABC, abstractmethod
from dataclasses import dataclass, field
from enum import Enum
from pathlib import Path
from typing import (
Dict,
Any,
Optional,
List,
Tuple,
Union,
Sequence,
BinaryIO,
Generator,
Iterator,
Set,
)
if sys.version_info >= (3, 11):
import tomllib
import tomli_w
else:
import tomli as tomllib # 第三方包
import tomli_w
from .exceptions import (
PluginConfigDumpError,
PluginConfigLoadError,
PluginMetainfoNotFoundError,
PluginMetainfoTypeError,
PluginMetainfoValueError,
PluginAttributeNotFoundError,
ParameterTypeError,
PluginInstanceNotFoundError,
)
from .data import SingleMusic, SingleTrack
# 已经全部由 plugins.py 提供接口
# 请用户从 plugins.py 导入
# 不要在这里导,会坏掉的
# __all__ = [
# # 枚举类
# "PluginType",
# # 抽象基类/数据类(插件参数定义)
# "PluginConfig",
# "PluginMetaInformation",
# # 抽象基类(插件定义)
# "MusicInputPlugin",
# "TrackInputPlugin",
# "MusicOperatePlugin",
# "TrackOperatePlugin",
# "MusicOutputPlugin",
# "TrackOutputPlugin",
# "ServicePlugin",
# "LibraryPlugin",
# # 插件注册用装饰函数
# "music_input_plugin",
# "track_input_plugin",
# "music_operate_plugin",
# "track_operate_plugin",
# "music_output_plugin",
# "track_output_plugin",
# "service_plugin",
# "library_plugin",
# ]
# ========================
# 枚举类
# ========================
class PluginTypes(str, Enum):
"""插件类型枚举"""
FUNCTION_MUSIC_IMPORT = "import_music_data"
FUNCTION_TRACK_IMPORT = "import_track_data"
FUNCTION_MUSIC_OPERATE = "music_data_operating"
FUNCTION_TRACK_OPERATE = "track_data_operating"
FUNCTION_MUSIC_EXPORT = "export_music_data"
FUNCTION_TRACK_EXPORT = "export_track_data"
SERVICE = "service"
LIBRARY = "library"
# ========================
# 数据类
# ========================
@dataclass
class PluginConfig(ABC):
"""插件配置基类"""
def to_dict(self) -> Dict[str, Any]:
"""将配置内容转换为字典
返回
====
Dict[str, Any]
配置项的字典表示,不包含以下划线开头的私有属性
"""
return {k: v for k, v in self.__dict__.items() if not k.startswith("_")}
@classmethod
def from_dict(cls, data: Dict[str, Any]) -> "PluginConfig":
"""从字典创建配置实例
参数
====
data: Dict[str, Any]
包含配置字段的字典
返回
====
PluginConfig
配置类的实例
"""
# 只保留类中定义的字段
field_names = {f.name for f in cls.__dataclass_fields__.values()}
filtered_data = {k: v for k, v in data.items() if k in field_names}
return cls(**filtered_data)
def save_to_file(self, file_path: Path) -> None:
"""保存配置到 TOML 文件
参数
====
file_path: Path
目标文件路径;必须以 .toml 为后缀
异常
====
PluginConfigDumpError
当文件后缀不是 .toml 或写入失败时抛出
"""
if file_path.suffix.upper() == ".TOML":
file_path.parent.mkdir(parents=True, exist_ok=True)
else:
raise PluginConfigDumpError(
"插件配置文件类型不应为`{}`,须为`TOML`格式。".format(file_path.suffix)
)
try:
with file_path.open("wb") as f:
tomli_w.dump(self.to_dict(), f, multiline_strings=False, indent=4)
except Exception as e:
raise PluginConfigDumpError(e)
@classmethod
def load_from_file(cls, file_path: Path) -> "PluginConfig":
"""从 TOML 文件加载配置
参数
====
file_path: Path
源文件路径
返回
====
PluginConfig
加载后的配置实例
异常
====
PluginConfigLoadError
当读取或解析失败时抛出
"""
try:
with file_path.open("rb") as f:
return cls.from_dict(tomllib.load(f))
except Exception as e:
raise PluginConfigLoadError(e)
@dataclass
class PluginMetaInformation(ABC):
"""插件元信息"""
name: str
"""插件名称,应为惟一之名"""
author: str
"""插件作者"""
description: str
"""插件简介"""
version: Tuple[int, ...]
"""插件版本号"""
type: PluginTypes
"""插件类型"""
license: str = "MIT License"
"""插件发布时采用的许可协议"""
dependencies: Sequence[str] = tuple()
"""插件是否对其他插件存在依赖"""
# ========================
# 抽象基类
# ========================
class TopPluginBase(ABC):
"""所有插件的抽象基类"""
metainfo: PluginMetaInformation
"""插件元信息"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if hasattr(cls, "metainfo"):
if not isinstance(cls.metainfo, PluginMetaInformation):
raise PluginMetainfoTypeError(
"类`{cls_name}`之属性`metainfo`的类型,必须为`PluginMetaInformation`".format(
cls_name=cls.__name__
)
)
else:
if not cls.__name__.endswith("PluginBase"):
raise PluginMetainfoNotFoundError(
"类`{cls_name}`必须定义一个`metainfo`属性。".format(
cls_name=cls.__name__
)
)
class TopInOutPluginBase(TopPluginBase, ABC):
"""导入导出用抽象基类"""
supported_formats: Tuple[str, ...] = tuple()
"""支持的格式(定义后会自动转大写)"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if hasattr(cls, "supported_formats"):
if cls.supported_formats:
# 强制转换为大写,并使用元组
cls.supported_formats = tuple(map(str.upper, cls.supported_formats))
else:
cls.supported_formats = tuple()
else:
raise PluginAttributeNotFoundError(
"用于导入导出数据的类`{cls_name}`必须定义一个`supported_formats`属性。".format(
cls_name=cls.__name__
)
)
def can_handle_file(self, file_path: Path) -> bool:
"""判断是否可处理某个文件
参数
====
file_path: Path
待检测的文件路径
返回
====
bool
若文件后缀已在本类中定义,则返回 True
"""
return file_path.suffix.upper().endswith(self.supported_formats)
def can_handle_format(self, format_name: str) -> bool:
"""判断是否可处理某个格式
参数
====
format_name: str
格式名称(如 'MIDI', 'WAV'
返回
====
bool
若格式名本类中已经定义,则返回 True
"""
return format_name.upper().endswith(self.supported_formats)
class MusicInputPluginBase(TopInOutPluginBase, ABC):
"""导入用插件抽象基类-完整曲目"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if cls.metainfo.type != PluginTypes.FUNCTION_MUSIC_IMPORT:
raise PluginMetainfoValueError(
"插件类`{cls_name}`是从`MusicInputPlugin`继承的,该类的子类应当为一个`PluginType.FUNCTION_MUSIC_IMPORT`类型的插件,而不是`PluginType.{cls_type}`".format(
cls_name=cls.__name__,
cls_type=cls.metainfo.type.name,
)
)
@abstractmethod
def loadbytes(
self, bytes_buffer_in: BinaryIO, config: Optional[PluginConfig]
) -> "SingleMusic":
"""从字节流加载数据到完整曲目
参数
====
bytes_buffer_in: BinaryIO
输入的二进制字节流
config: Optional[PluginConfig]
插件配置;**可选**
返回
====
SingleMusic
解析得到的完整曲目对象
"""
pass
def load(self, file_path: Path, config: Optional[PluginConfig]) -> "SingleMusic":
"""从文件加载数据到完整曲目
参数
====
file_path: Path
输入文件路径
config: Optional[PluginConfig]
插件配置;**可选**
返回
====
SingleMusic
解析得到的完整曲目对象
"""
with file_path.open("rb") as f:
return self.loadbytes(f, config)
class TrackInputPluginBase(TopInOutPluginBase, ABC):
"""导入用插件抽象基类-单个音轨"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if cls.metainfo.type != PluginTypes.FUNCTION_TRACK_IMPORT:
raise PluginMetainfoValueError(
"插件类`{cls_name}`是从`TrackInputPlugin`继承的,该类的子类应当为一个`PluginType.FUNCTION_TRACK_IMPORT`类型的插件,而不是`PluginType.{cls_type}`".format(
cls_name=cls.__name__,
cls_type=cls.metainfo.type.name,
)
)
@abstractmethod
def loadbytes(
self, bytes_buffer_in: BinaryIO, config: Optional[PluginConfig]
) -> "SingleTrack":
"""从字节流加载音符数据到单个音轨
参数
====
bytes_buffer_in: BinaryIO
输入的二进制字节流
config: Optional[PluginConfig]
插件配置;**可选**
返回
====
SingleTrack
解析得到的单个音轨对象
"""
pass
def load(self, file_path: Path, config: Optional[PluginConfig]) -> "SingleTrack":
"""从文件加载音符数据到单个音轨
参数
====
file_path: Path
输入文件路径
config: Optional[PluginConfig]
插件配置;**可选**
返回
====
SingleTrack
解析得到的单个音轨对象
"""
with file_path.open("rb") as f:
return self.loadbytes(f, config)
class MusicOperatePluginBase(TopPluginBase, ABC):
"""音乐处理用插件抽象基类-完整曲目"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if cls.metainfo.type != PluginTypes.FUNCTION_MUSIC_OPERATE:
raise PluginMetainfoValueError(
"插件类`{cls_name}`是从`MusicOperatePlugin`继承的,该类的子类应当为一个`PluginType.FUNCTION_MUSIC_OPERATE`类型的插件,而不是`PluginType.{cls_type}`".format(
cls_name=cls.__name__,
cls_type=cls.metainfo.type.name,
)
)
@abstractmethod
def process(
self, data: "SingleMusic", config: Optional[PluginConfig]
) -> "SingleMusic":
"""处理完整曲目的数据
参数
====
data: SingleMusic
待处理的完整曲目
config: Optional[PluginConfig]
插件配置;**可选**
返回
====
SingleMusic
处理后的完整曲目
"""
pass
class TrackOperatePluginBase(TopPluginBase, ABC):
"""音乐处理用插件抽象基类-单个音轨"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if cls.metainfo.type != PluginTypes.FUNCTION_TRACK_OPERATE:
raise PluginMetainfoValueError(
"插件类`{cls_name}`是从`TrackOperatePlugin`继承的,该类的子类应当为一个`PluginType.FUNCTION_TRACK_OPERATE`类型的插件,而不是`PluginType.{cls_type}`".format(
cls_name=cls.__name__,
cls_type=cls.metainfo.type.name,
)
)
@abstractmethod
def process(
self, data: "SingleTrack", config: Optional[PluginConfig]
) -> "SingleTrack":
"""处理单个音轨的音符数据
参数
====
data: SingleTrack
待处理的单个音轨
config: Optional[PluginConfig]
插件配置;**可选**
返回
====
SingleTrack
处理后的单个音轨
"""
pass
class MusicOutputPluginBase(TopInOutPluginBase, ABC):
"""导出用插件的抽象基类-完整曲目"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if cls.metainfo.type != PluginTypes.FUNCTION_MUSIC_EXPORT:
raise PluginMetainfoValueError(
"插件类`{cls_name}`是从`MusicOutputPlugin`继承的,该类的子类应当为一个`PluginType.FUNCTION_MUSIC_EXPORT`类型的插件,而不是`PluginType.{cls_type}`".format(
cls_name=cls.__name__,
cls_type=cls.metainfo.type.name,
)
)
@abstractmethod
def dumpbytes(
self, data: "SingleMusic", config: Optional[PluginConfig]
) -> BinaryIO:
"""将完整曲目导出为对应格式的字节流
参数
====
data: SingleMusic
待导出的完整曲目
config: Optional[PluginConfig]
插件配置;**可选**
返回
====
BinaryIO
导出后的二进制字节流
"""
pass
@abstractmethod
def dump(
self, data: "SingleMusic", file_path: Path, config: Optional[PluginConfig]
):
"""将完整曲目导出为对应格式的文件
参数
====
data: SingleMusic
待导出的完整曲目
file_path: Path
输出文件路径
config: Optional[PluginConfig]
插件配置;**可选**
"""
pass
class TrackOutputPluginBase(TopInOutPluginBase, ABC):
"""导出用插件的抽象基类-单个音轨"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if cls.metainfo.type != PluginTypes.FUNCTION_TRACK_EXPORT:
raise PluginMetainfoValueError(
"插件类`{cls_name}`是从`TrackOutputPlugin`继承的,该类的子类应当为一个`PluginType.FUNCTION_TRACK_EXPORT`类型的插件,而不是`PluginType.{cls_type}`".format(
cls_name=cls.__name__,
cls_type=cls.metainfo.type.name,
)
)
@abstractmethod
def dumpbytes(
self, data: "SingleTrack", config: Optional[PluginConfig]
) -> BinaryIO:
"""将单个音轨导出为对应格式的字节流
参数
====
data: SingleTrack
待导出的单个音轨
config: Optional[PluginConfig]
插件配置;**可选**
返回
====
BinaryIO
导出后的二进制字节流
"""
pass
@abstractmethod
def dump(
self, data: "SingleTrack", file_path: Path, config: Optional[PluginConfig]
):
"""将单个音轨导出为对应格式的文件
参数
====
data: SingleTrack
待导出的单个音轨
file_path: Path
输出文件路径
config: Optional[PluginConfig]
插件配置;**可选**
"""
pass
class ServicePluginBase(TopPluginBase, ABC):
"""服务插件抽象基类"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if cls.metainfo.type != PluginTypes.SERVICE:
raise PluginMetainfoValueError(
"插件类`{cls_name}`是从`ServicePlugin`继承的,该类的子类应当为一个`PluginType.SERVICE`类型的插件,而不是`PluginType.{cls_type}`".format(
cls_name=cls.__name__,
cls_type=cls.metainfo.type.name,
)
)
@abstractmethod
def serve(self, config: Optional[PluginConfig], *args) -> None:
"""服务插件的运行逻辑
参数
====
config: Optional[PluginConfig]
插件配置;**可选**
*args: Any
其他运行时参数
"""
pass
class LibraryPluginBase(TopPluginBase, ABC):
"""插件依赖库的抽象基类"""
def __init_subclass__(cls) -> None:
super().__init_subclass__()
if cls.metainfo.type != PluginTypes.LIBRARY:
raise PluginMetainfoValueError(
"插件类`{cls_name}`是从`LibraryPlugin`继承的,该类的子类应当为一个`PluginType.LIBRARY`类型的插件,而不是`PluginType.{cls_type}`".format(
cls_name=cls.__name__,
cls_type=cls.metainfo.type.name,
)
)
# 怎么?
# 插件的彼此依赖就不需要什么调用了吧

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Musicreater/builtin_plugins/midi_read.py Normal file
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# -*- coding: utf-8 -*-
"""
音·创 v3 内置的 Midi 读取插件
"""
"""
版权所有 © 2026 金羿、玉衡Alioth
Copyright © 2026 Eilles, YuhengAlioth
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
import mido
from pathlib import Path
from typing import BinaryIO, Optional
from Musicreater import SingleMusic
from Musicreater.plugins import (
music_input_plugin,
PluginConfig,
PluginMetaInformation,
PluginTypes,
MusicInputPluginBase,
)
@music_input_plugin("midi_2_music_plugin")
class MidiImport2MusicPlugin(MusicInputPluginBase):
"""Midi 音乐数据导入插件"""
metainfo = PluginMetaInformation(
name="Midi 导入插件",
author="金羿、玉衡Alioth",
description="从 Midi 文件导入音乐数据",
version=(0, 0, 1),
type=PluginTypes.FUNCTION_MUSIC_IMPORT,
license="Same as Musicreater",
)
supported_formats = ("MID", "MIDI")
def loadbytes(
self, bytes_buffer_in: BinaryIO, config: PluginConfig | None
) -> SingleMusic:
midi_file = mido.MidiFile(file=bytes_buffer_in)
return SingleMusic() # =========================== TODO: 等待制作
def load(self, file_path: Path, config: Optional[PluginConfig]) -> "SingleMusic":
"""从 Midi 文件导入音乐数据"""
midi_file = mido.MidiFile(filename=file_path)
return SingleMusic() # =========================== TODO: 等待制作

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Musicreater/constants.py Normal file
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Musicreater/data.py Normal file
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# -*- coding: utf-8 -*-
"""
存储 音·创 v3 的内部数据类
"""
"""
版权所有 © 2026 金羿
Copyright © 2026 Eilles
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
# “
# 把代码 洒落在这里
# 和音符 留下的沙砾
# 一点一点爬进你类定义的缝隙
# ” —— 乐曲访问 by resnah
import heapq
from math import sin, cos, asin, radians, degrees, sqrt, atan, inf, ceil
from dataclasses import dataclass
from typing import (
Optional,
Any,
List,
Tuple,
Union,
Dict,
Set,
Sequence,
Callable,
Generator,
Iterable,
Iterator,
Literal,
Hashable,
TypeVar,
)
from enum import Enum
from .exceptions import SingleNoteDecodeError, ParameterTypeError, ParameterValueError
from .paramcurve import ParamCurve
T = TypeVar("T")
class SoundAtmos:
"""声源方位类"""
sound_distance: float
"""声源距离 方块"""
sound_azimuth: Tuple[float, float]
"""声源方位 角度(rV左右 rH上下)"""
def __init__(
self,
distance: Optional[float] = None,
azimuth: Optional[Tuple[float, float]] = None,
) -> None:
"""
定义一个发声方位
Parameters
------------
distance: float
发声源距离玩家的距离(半径 `r`
注:距离越近,音量越高,默认为 0。此参数可以与音量成某种函数关系。
azimuth: tuple[float, float]
声源方位
此参数为tuple包含两个元素分别表示
`rV` 发声源在竖直(上下)轴上,从玩家视角正前方开始,向顺时针旋转的角度
`rH` 发声源在水平(左右)轴上,从玩家视角正前方开始,向上(到达玩家正上方顶点后变为向下,以此类推的旋转)旋转的角度
"""
self.sound_azimuth = (azimuth[0] % 360, azimuth[1] % 360) if azimuth else (0, 0)
"""声源方位"""
# 如果指定为零,那么为零,但如果不指定或者指定为负数,则为 0.01 的距离
self.sound_distance = (
(16 if distance > 16 else (distance if distance >= 0 else 0.01))
if distance is not None
else 0.01
)
"""声源距离"""
@classmethod
def from_displacement(
cls,
displacement: Optional[Tuple[float, float, float]] = None,
) -> "SoundAtmos":
if displacement is None:
# displacement = (0, 0, 0)
return cls()
else:
r = sqrt(displacement[0] ** 2 + displacement[1] ** 2 + displacement[2] ** 2)
if r == 0:
return cls(distance=0, azimuth=(0, 0))
else:
beta_h = round(degrees(asin(displacement[1] / r)), 8)
if displacement[2] == 0:
alpha_v = -90 if displacement[0] > 0 else 90
else:
alpha_v = round(
degrees(atan(-displacement[0] / displacement[2])), 8
)
return cls(distance=r, azimuth=(alpha_v, beta_h))
@property
def position_displacement(self) -> Tuple[float, float, float]:
"""声像位移,直接可应用于我的世界的相对视角的坐标参考系中(^x ^y ^z"""
dk1 = self.sound_distance * round(cos(radians(self.sound_azimuth[1])), 8)
return (
-dk1 * round(sin(radians(self.sound_azimuth[0])), 8),
self.sound_distance * round(sin(radians(self.sound_azimuth[1])), 8),
dk1 * round(cos(radians(self.sound_azimuth[0])), 8),
)
@dataclass(init=False)
class SingleNote:
"""存储单个音符的类"""
note_pitch: int
"""midi音高"""
velocity: int
"""力度"""
start_time: int
"""开始之时 命令刻"""
duration: int
"""音符持续时间 命令刻"""
high_precision_start_time: int
"""高精度开始时间偏量 1/1250 秒"""
extra_info: Dict[str, Any]
"""你觉得放什么好?"""
def __init__(
self,
midi_pitch: Optional[int],
midi_velocity: int,
start_time: int,
last_time: int,
mass_precision_time: int = 0,
extra_information: Dict[str, Any] = {},
):
"""
用于存储单个音符的类
Parameters
------------
midi_pitch: int
midi音高
midi_velocity: int
midi响度(力度)
start_time: int
开始之时(命令刻)
注:此处的时间是用从乐曲开始到当前的刻数
last_time: int
音符延续时间(命令刻)
mass_precision_time: int
高精度的开始时间偏移量(1/1250秒)
is_percussion: bool
是否作为打击乐器
extra_information: Dict[str, Any]
附加信息,尽量存储为字典
Returns
---------
MineNote 类
"""
self.note_pitch: int = 66 if midi_pitch is None else midi_pitch
"""midi音高"""
self.velocity: int = midi_velocity
"""响度(力度)"""
self.start_time: int = start_time
"""开始之时 命令刻"""
self.duration: int = last_time
"""音符持续时间 命令刻"""
self.high_precision_start_time: int = mass_precision_time
"""高精度开始时间偏量 0.4 毫秒"""
self.extra_info = extra_information if extra_information else {}
@classmethod
def decode(cls, code_buffer: bytes, is_high_time_precision: bool = True):
"""自字节码析出 SingleNote 类"""
duration_ = (
group_1 := int.from_bytes(code_buffer[:6], "big")
) & 0b11111111111111111
start_tick_ = (group_1 := group_1 >> 17) & 0b11111111111111111
note_velocity_ = (group_1 := group_1 >> 17) & 0b1111111
note_pitch_ = (group_1 := group_1 >> 7) & 0b1111111
try:
return cls(
midi_pitch=note_pitch_,
midi_velocity=note_velocity_,
start_time=start_tick_,
last_time=duration_,
mass_precision_time=code_buffer[6] if is_high_time_precision else 0,
)
except Exception as e:
# 我也不知道为什么这里要放一个异常处理
# 之前用到过吗?
# —— 2026.01.25 金羿
print(
"[Exception] 单音符解析错误,字节码`{}`{}启用高精度时间偏移\n".format(
code_buffer, "" if is_high_time_precision else ""
)
)
raise SingleNoteDecodeError(
e,
"技术信息:\nGROUP1\t`{}`\nCODE_BUFFER\t`{}`".format(
group_1, code_buffer
),
)
def encode(self, is_high_time_precision: bool = True) -> bytes:
"""
将数据打包为字节码
Parameters
------------
is_high_time_precision: bool
是否启用高精度,默认为**是**
Returns
---------
bytes
打包好的字节码
"""
# SingleNote 的字节码
# note_pitch 7 位 支持到 127
# velocity 长度 7 位 支持到 127
# start_tick 17 位 支持到 131071 即 109.22583 分钟 合 1.8204305 小时
# duration 17 位 支持到 131071 即 109.22583 分钟 合 1.8204305 小时
# 共 48 位 合 6 字节
# high_time_precision可选长度 8 位 支持到 255 合 1 字节 支持 1/1250 秒]
return (
(
(
((((self.note_pitch << 7) + self.velocity) << 17) + self.start_time)
<< 17
)
+ self.duration
).to_bytes(6, "big")
# + self.track_no.to_bytes(1, "big")
+ (
self.high_precision_start_time.to_bytes(1, "big")
if is_high_time_precision
else b""
)
)
def set_info(self, key: Union[str, Sequence[str]], value: Any):
"""设置附加信息"""
if isinstance(key, str):
self.extra_info[key] = value
elif (
isinstance(key, Sequence)
and isinstance(value, Sequence)
and (k := len(key)) == len(value)
):
for i in range(k):
self.extra_info[key[i]] = value[i]
else:
# 提供简单报错就行了,如果放一堆 if 语句,降低处理速度
raise ParameterTypeError(
"参数类型错误;键:`{}` 值:`{}`".format(key, value)
)
def get_info(self, key: str, default: Any = None) -> Any:
"""获取附加信息"""
return self.extra_info.get(key, default)
def stringize(self, include_extra_data: bool = False) -> str:
return "TrackedNote(Pitch = {}, Velocity = {}, StartTick = {}, Duration = {}, TimeOffset = {}".format(
self.note_pitch,
self.velocity,
self.start_time,
self.duration,
self.high_precision_start_time,
) + (
", ExtraData = {})".format(self.extra_info) if include_extra_data else ")"
)
# def __list__(self) -> List[int]:
# 我不认为这个类应当被作为列表使用
def __tuple__(
self,
) -> Tuple[int, int, int, int, int]:
return (
self.note_pitch,
self.velocity,
self.start_time,
self.duration,
self.high_precision_start_time,
)
def __dict__(self):
return {
"Pitch": self.note_pitch,
"Velocity": self.velocity,
"StartTick": self.start_time,
"Duration": self.duration,
"TimeOffset": self.high_precision_start_time,
"ExtraData": self.extra_info,
}
def __eq__(self, other) -> bool:
"""比较两个音符是否具有相同的属性,不计附加信息"""
if not isinstance(other, self.__class__):
return False
return self.__tuple__() == other.__tuple__()
def __lt__(self, other) -> bool:
"""比较自己是否在开始时间上早于另一个音符"""
if self.start_time == other.start_tick:
return self.high_precision_start_time < other.high_precision_time
else:
return self.start_time < other.start_tick
def __gt__(self, other) -> bool:
"""比较自己是否在开始时间上晚于另一个音符"""
if self.start_time == other.start_tick:
return self.high_precision_start_time > other.high_precision_time
else:
return self.start_time > other.start_tick
class CurvableParam(str, Enum):
"""可曲线化的参数枚举类"""
PITCH = "adjust_note_pitch"
VELOCITY = "adjust_note_velocity"
VOLUME = "adjust_note_volume"
DISTANCE = "adjust_note_sound_distance"
LR_PANNING = "adjust_note_leftright_panning_degree"
UD_PANNING = "adjust_note_updown_panning_degree"
@dataclass
class MineNote:
"""我的世界音符对象(仅提供我的世界相关接口)"""
pitch: float
"""midi音高"""
instrument: str
"""乐器ID"""
velocity: float
"""力度"""
volume: float
"""音量"""
start_tick: int
"""开始之时 命令刻"""
duration_tick: int
"""音符持续时间 命令刻"""
persiced_time: int
"""高精度开始时间偏量 1/1250 秒"""
percussive: bool
"""是否作为打击乐器启用"""
position: SoundAtmos
"""声像方位"""
@classmethod
def from_single_note(
cls,
note: SingleNote,
note_instrument: str,
sound_volume: float,
is_persiced_time: bool,
is_percussive_note: bool,
sound_position: SoundAtmos,
adjust_note_pitch: float = 0.0,
adjust_note_velocity: float = 0.0,
adjust_note_volume: float = 0.0,
adjust_note_sound_distance: float = 0.0,
adjust_note_leftright_panning_degree: float = 0.0,
adjust_note_updown_panning_degree: float = 0.0,
) -> "MineNote":
"""从SingleNote对象创建MineNote对象"""
sound_position.sound_distance += adjust_note_sound_distance
sound_position.sound_azimuth = (
sound_position.sound_azimuth[0] + adjust_note_leftright_panning_degree,
sound_position.sound_azimuth[1] + adjust_note_updown_panning_degree,
)
return cls(
pitch=note.note_pitch + adjust_note_pitch,
instrument=note_instrument,
velocity=note.velocity + adjust_note_velocity,
volume=sound_volume + adjust_note_volume,
start_tick=note.start_time,
duration_tick=note.duration,
persiced_time=note.high_precision_start_time if is_persiced_time else 0,
percussive=is_percussive_note,
position=sound_position,
)
class SingleTrack(List[SingleNote]):
"""存储单个轨道的类"""
track_name: str
"""轨道之名称"""
is_enabled: bool = True
"""该音轨是否启用"""
track_instrument: str
"""乐器ID"""
track_volume: float
"""该音轨的音量"""
is_high_time_precision: bool
"""该音轨是否使用高精度时间"""
is_percussive: bool
"""该音轨是否标记为打击乐器轨道"""
sound_position: SoundAtmos
"""声像方位"""
argument_curves: Dict[CurvableParam, Union[ParamCurve, Literal[None]]]
"""参数曲线"""
extra_info: Dict[str, Any]
"""你觉得放什么好?"""
def __init__(
self,
name: str = "未命名音轨",
instrument: str = "",
volume: float = 0,
precise_time: bool = True,
percussion: bool = False,
sound_direction: SoundAtmos = SoundAtmos(),
extra_information: Dict[str, Any] = {},
*args: SingleNote,
):
self.track_name = name
"""音轨名称"""
self.track_instrument = instrument
"""乐器ID"""
self.track_volume = volume
"""音量"""
self.is_high_time_precision = precise_time
"""是否使用高精度时间"""
self.is_percussive = percussion
"""是否为打击乐器"""
self.sound_position = sound_direction
"""声像方位"""
self.extra_info = extra_information if extra_information else {}
self.argument_curves = {item: None for item in CurvableParam}
super().__init__(*args)
super().sort()
def disable(self) -> None:
"""禁用音轨"""
self.is_enabled = False
def enable(self) -> None:
"""启用音轨"""
self.is_enabled = True
def toggle_able(self) -> None:
"""切换音轨的启用状态"""
self.is_enabled = not self.is_enabled
def append(self, object: SingleNote) -> None:
"""
添加一个音符,推荐使用 add 方法
"""
return self.add(object)
def add(self, item: SingleNote) -> None:
"""
在音轨里添加一个音符
"""
if not isinstance(item, SingleNote):
raise ParameterTypeError(
"单音轨类的元素类型须为单音符(`SingleNote`),不可为:`{}`".format(
type(item).__name__
)
)
super().append(item)
super().sort() # =========================== TODO 需要优化
def update(self, items: Iterable[SingleNote]):
"""
拼接两个音轨
"""
super().extend(items)
super().sort() # =========================== TODO 需要优化
def get(self, time: int) -> Generator[SingleNote, None, None]:
"""通过开始时间来获取音符"""
return (x for x in self if x.start_time == time)
def get_notes(
self, start_time: float, end_time: float = inf
) -> Generator[SingleNote, None, None]:
"""通过开始时间和结束时间来获取音符"""
if end_time < start_time:
raise ParameterValueError(
"获取音符的时间范围有误,终止时间`{}`早于起始时间`{}`".format(
end_time, start_time
)
)
elif start_time < 0 or end_time < 0:
raise ParameterValueError(
"获取音符的时间范围有误,终止时间`{}`和起始时间`{}`皆不可为负数".format(
end_time, start_time
)
)
return (
x
for x in self
if (x.start_time >= start_time) and (x.start_time <= end_time)
)
def get_minenotes(
self, range_start_time: float = 0, range_end_time: float = inf
) -> Generator[MineNote, Any, None]:
"""获取能够用以在我的世界播放的音符数据类"""
for _note in self.get_notes(range_start_time, range_end_time):
yield MineNote.from_single_note(
note=_note,
note_instrument=self.track_instrument,
sound_volume=self.track_volume,
is_persiced_time=self.is_high_time_precision,
is_percussive_note=self.is_percussive,
sound_position=self.sound_position,
**{
item.value: argcrv.value_at(_note.start_time)
for item in CurvableParam
if (argcrv := self.argument_curves[item])
},
)
@property
def note_amount(self) -> int:
"""音符数"""
return len(self)
@property
def track_notes(self) -> List[SingleNote]:
"""音符列表"""
return self
def set_info(self, key: Union[str, Sequence[str]], value: Any):
"""设置附加信息"""
if isinstance(key, str):
self.extra_info[key] = value
elif (
isinstance(key, Sequence)
and isinstance(value, Sequence)
and (k := len(key)) == len(value)
):
for i in range(k):
self.extra_info[key[i]] = value[i]
else:
# 提供简单报错就行了,如果放一堆 if 语句,降低处理速度
raise ParameterTypeError(
"参数类型错误;键:`{}` 值:`{}`".format(key, value)
)
def get_info(self, key: str, default: Any = None) -> Any:
"""获取附加信息"""
return self.extra_info.get(key, default)
class SingleMusic(List[SingleTrack]):
"""存储单个曲子的类"""
music_name: str
"""乐曲名称"""
music_creator: str
"""本我的世界曲目的制作者"""
music_original_author: str
"""曲目的原作者"""
music_description: str
"""当前曲目的简介"""
music_credits: str
"""曲目的版权信息"""
# 感叹一下什么交冗余设计啊!(叉腰)
extra_info: Dict[str, Any]
"""这还得放东西?"""
def __init__(
self,
name: str = "未命名乐曲",
creator: str = "未命名制作者",
original_author: str = "未命名原作者",
description: str = "未命名简介",
credits: str = "未命名版权信息",
*args: SingleTrack,
extra_information: Dict[str, Any] = {},
):
self.music_name = name
"""乐曲名称"""
self.music_creator = creator
"""曲目制作者"""
self.music_original_author = original_author
"""乐曲原作者"""
self.music_description = description
"""简介"""
self.music_credits = credits
"""版权信息"""
self.extra_info = extra_information if extra_information else {}
super().__init__(*args)
@property
def track_amount(self) -> int:
"""音轨数"""
return len(self)
@property
def music_tracks(self) -> Iterator[SingleTrack]:
"""音轨列表,不包含被禁用的音轨"""
return (track for track in self if track.is_enabled)
@staticmethod
def yield_from_tracks(
tracks: Sequence[Iterator[T]],
sort_key: Callable[[T], Any],
is_subseq_sorted: bool = True,
) -> Iterator[T]:
"""从任意迭代器列表迭代符合顺序的元素
(惰性多路归并多个迭代器,按 sort_key 排序)
参数
----
tracks: Sequence[Iterator[T]]
迭代器列表
sort_key: Callable[[T], Any]
接受 T 元素,返回可比较的键
is_subseq_sorted: bool = True
子序列是否已排序
迭代
----
归并后的每个元素,按 sort_key 升序
"""
if is_subseq_sorted:
return heapq.merge(*tracks, key=sort_key)
else:
# 初始化堆
heap_pool: List[Tuple[Any, int, T]] = []
for _index, _track in enumerate(tracks):
try:
item = next(_track)
heapq.heappush(heap_pool, (sort_key(item), _index, item))
except StopIteration:
continue
# 归并主循环
while heap_pool:
_key, _index, item = heapq.heappop(heap_pool)
yield item
try:
next_item = next(tracks[_index])
heapq.heappush(heap_pool, (sort_key(next_item), _index, next_item))
except StopIteration:
pass
# NEVER REACH:
# pool: List[Tuple[str, T]] = []
# remove_track: List[str] = []
# for _name, _track in tracks.items():
# try:
# pool.append((_name, next(_track)))
# except StopIteration:
# remove_track.append(_name)
# for _x in remove_track:
# tracks.pop(_x)
# del remove_track
# while tracks and pool:
# yield (_x := min(pool, key=sort_key))[1]
# try:
# pool.append((_x[0], next(tracks[_x[0]])))
# except StopIteration:
# tracks.pop(_x[0])
# pool.sort(key=sort_key)
# for _remain in pool:
# yield _remain[1]
def get_tracked_notes(
self, start_time: float, end_time: float = inf
) -> Generator[Iterator[SingleNote], Any, None]:
"""获取指定时间段的各个音轨的音符数据"""
return (track.get_notes(start_time, end_time) for track in self.music_tracks)
def get_tracked_minenotes(
self, start_time: float, end_time: float = inf
) -> Generator[Iterator[MineNote], Any, None]:
"""获取指定时间段的各个音轨的,供我的世界播放的音符数据类"""
return (
track.get_minenotes(start_time, end_time) for track in self.music_tracks
)
def get_notes(
self, start_time: float, end_time: float = inf
) -> Iterator[SingleNote]:
"""获取指定时间段的所有音符数据,按照时间顺序"""
if self.track_amount == 0:
return iter(())
return self.yield_from_tracks(
[track.get_notes(start_time, end_time) for track in self.music_tracks],
sort_key=lambda x: x.start_time,
)
def get_minenotes(
self, start_time: float, end_time: float = inf
) -> Generator[MineNote, Any, None]:
"""获取指定时间段所有的,供我的世界播放的音符数据类,按照时间顺序"""
if self.track_amount == 0:
return
yield from self.yield_from_tracks(
[track.get_minenotes(start_time, end_time) for track in self.music_tracks],
sort_key=lambda x: x.start_tick,
)
def set_info(self, key: Union[str, Sequence[str]], value: Any):
"""设置附加信息"""
if isinstance(key, str):
self.extra_info[key] = value
elif (
isinstance(key, Sequence)
and isinstance(value, Sequence)
and (k := len(key)) == len(value)
):
for i in range(k):
self.extra_info[key[i]] = value[i]
else:
# 提供简单报错就行了,如果放一堆 if 语句,降低处理速度
raise ParameterTypeError(
"参数类型错误;键:`{}` 值:`{}`".format(key, value)
)
def get_info(self, key: str, default: Any = None) -> Any:
"""获取附加信息"""
return self.extra_info.get(key, default)

284
Musicreater/exceptions.py
View File

@@ -1,102 +1,266 @@
# -*- coding: utf-8 -*-
# 睿穆组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 版权所有 金羿("Eilles Wan") & 诸葛亮与八卦阵("bgArray") & 鸣凤鸽子("MingFengPigeon")
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
"""一个简单的我的世界音频转换库
音·创 (Musicreater)
是一款免费开源的针对《我的世界》的midi音乐转换库
Musicreater(音·创)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2023 音·创 开发者
Copyright © 2023 all the developers of Musicreater
开源相关声明请见 ../License.md
Terms & Conditions: ../License.md
"""
存储 音·创 v3 用到的一些报错类型
"""
"""
版权所有 © 2026 金羿 & 玉衡Alioth
Copyright © 2026 Eilles & YuhengAlioth
class MSCTBaseException(Exception):
"""音·创库版本的所有错误均继承于此"""
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
# “
# There are planty of "exception"s in this library
# for I know I will always go with my heart.
# ” —— Cyberdevil by resnah
class MusicreaterBaseException(Exception):
"""音·创 v3 的所有错误均继承于此"""
def __init__(self, *args):
"""音·创库版本的所有错误均继承于此"""
super().__init__(*args)
"""音·创 的所有错误均继承于此"""
super().__init__("[音·创] - ", *args)
def miao(
self,
):
def meow(self):
for i in self.args:
print(i + "")
print(i + "~", end="")
def crash_it(self):
raise self
def __str__(self) -> str:
return "".join(self.args)
class MidiFormatException(MSCTBaseException):
"""音·创库版本的所有MIDI格式错误均继承于此"""
# =====================================
# NOTE
# 面对用户时候爆出去的我们认为这就是“外部错误”
# 如果是在程序内部数据传输等情况下出现的就是“内部错误”
# 例如,无法读取文件,这就是一个外部错误
# 某个参数的数据类型错误,这就是内部错误
# =====================================
class MusicreaterInnerlyError(MusicreaterBaseException):
"""内部错误"""
def __init__(self, *args):
"""音·创库版本的所有MIDI格式错误均继承于此"""
super().__init__("MIDI格式错误", *args)
"""内部错误(面向开发者的报错信息)"""
super().__init__("内部错误 - ", *args)
class MidiDestroyedError(MSCTBaseException):
"""Midi文件损坏"""
class MusicreaterOuterlyError(MusicreaterBaseException):
"""外部错误"""
def __init__(self, *args):
"""Midi文件损坏"""
super().__init__("MIDI文件损坏无法读取MIDI文件", *args)
"""外部错误(面向用户的报错信息)"""
super().__init__("外部错误 - ", *args)
class CommandFormatError(RuntimeError):
"""指令格式与目标格式不匹配而引起的错误"""
class InnerlyParameterError(MusicreaterInnerlyError):
"""内部传参错误"""
def __init__(self, *args):
"""指令格式与目标格式不匹配而引起的错误"""
super().__init__("指令格式不匹配", *args)
"""参数错误"""
super().__init__("传参错误 - ", *args)
class CrossNoteError(MidiFormatException):
"""同通道下同音符交叉出现所产生的错误"""
class ParameterTypeError(InnerlyParameterError, TypeError):
"""参数类型错误"""
def __init__(self, *args):
"""同通道下同音符交叉出现所产生的错误"""
super().__init__("同通道下同音符交叉", *args)
"""参数类型错误"""
super().__init__("参数类型错误:", *args)
class NotDefineTempoError(MidiFormatException):
"""没有Tempo设定导致时间无法计算的错误"""
class ParameterValueError(InnerlyParameterError, ValueError):
"""参数值存在错误"""
def __init__(self, *args):
"""没有Tempo设定导致时间无法计算的错误"""
super().__init__("在曲目开始时没有声明Tempo未指定拍长", *args)
"""参数其值存在错误"""
super().__init__("参数数值错误:", *args)
class ChannelOverFlowError(MidiFormatException):
"""一个midi中含有过多的通道"""
def __init__(self, max_channel=16, *args):
"""一个midi中含有过多的通道"""
super().__init__("含有过多的通道(数量应≤{}".format(max_channel), *args)
class NotDefineProgramError(MidiFormatException):
"""没有Program设定导致没有乐器可以选择的错误"""
class PluginNotSpecifiedError(InnerlyParameterError, LookupError):
"""未指定插件"""
def __init__(self, *args):
"""没有Program设定导致没有乐器可以选择的错误"""
super().__init__("未指定演奏乐器", *args)
"""未指定插件"""
super().__init__("未指定插件:", *args)
class ZeroSpeedError(MidiFormatException):
class OuterlyParameterError(MusicreaterOuterlyError):
"""外部参数错误"""
def __init__(self, *args):
"""参数错误"""
super().__init__("参数错误 - ", *args)
class ZeroSpeedError(OuterlyParameterError, ZeroDivisionError):
"""以0作为播放速度的错误"""
def __init__(self, *args):
"""以0作为播放速度的错误"""
super().__init__("播放速度为0", *args)
super().__init__("播放速度为零:", *args)
class IllegalMinimumVolumeError(OuterlyParameterError, ValueError):
"""最小播放音量有误的错误"""
def __init__(self, *args):
"""最小播放音量错误"""
super().__init__("最小播放音量超出范围:", *args)
class FileFormatNotSupportedError(MusicreaterOuterlyError):
"""不支持的文件格式"""
def __init__(self, *args):
"""文件格式不受支持"""
super().__init__("不支持的文件格式:", *args)
class NoteBinaryDecodeError(MusicreaterOuterlyError):
"""音乐存储二进制数据解码错误"""
def __init__(self, *args):
"""音乐存储二进制数据无法正确解码"""
super().__init__("解码音乐存储二进制数据时出现问题 - ", *args)
class SingleNoteDecodeError(NoteBinaryDecodeError):
"""单个音符的二进制数据解码错误"""
def __init__(self, *args):
"""单个音符的二进制数据无法正确解码"""
super().__init__("音符解码出错:", *args)
class NoteBinaryFileTypeError(NoteBinaryDecodeError):
"""音乐存储二进制数据的文件类型错误"""
def __init__(self, *args):
"""无法识别音乐存储文件的类型"""
super().__init__("无法识别音乐存储文件对应的类型:", *args)
class NoteBinaryFileVerificationFailed(NoteBinaryDecodeError):
"""音乐存储二进制数据校验失败"""
def __init__(self, *args):
"""音乐存储文件与其校验值不一致"""
super().__init__("音乐存储文件校验失败:", *args)
class PluginDefineError(MusicreaterInnerlyError):
"""插件定义错误(内部相关)"""
def __init__(self, *args):
"""插件本身存在错误"""
super().__init__("插件内部错误 - ", *args)
class PluginInstanceNotFoundError(PluginDefineError, LookupError):
"""插件实例未找到"""
def __init__(self, *args):
"""插件实例未找到"""
super().__init__("插件实例未找到:", *args)
class PluginAttributeNotFoundError(PluginDefineError, AttributeError):
"""插件属性定义错误"""
def __init__(self, *args):
"""插件属性定义错误"""
super().__init__("插件类的必要属性不存在:", *args)
class PluginMetainfoError(PluginDefineError):
"""插件元信息定义错误"""
def __init__(self, *args):
"""插件元信息定义错误"""
super().__init__("插件元信息定义错误 - ", *args)
class PluginMetainfoTypeError(PluginMetainfoError, TypeError):
"""插件元信息定义类型错误"""
def __init__(self, *args):
"""插件元信息定义类型错误"""
super().__init__("插件元信息类型错误:", *args)
class PluginMetainfoValueError(PluginMetainfoError, ValueError):
"""插件元信息定义值错误"""
def __init__(self, *args):
"""插件元信息定义值错误"""
super().__init__("插件元信息数值错误:", *args)
class PluginMetainfoNotFoundError(PluginMetainfoError, PluginAttributeNotFoundError):
"""插件元信息定义缺少错误"""
def __init__(self, *args):
"""插件元信息定义缺少错误"""
super().__init__("插件元信息未定义:", *args)
class PluginLoadError(MusicreaterOuterlyError):
"""插件加载错误(外部相关)"""
def __init__(self, *args):
"""插件加载错误"""
super().__init__("插件加载错误 - ", *args)
class PluginNotFoundError(PluginLoadError):
"""插件未找到"""
def __init__(self, *args):
"""插件未找到"""
super().__init__("插件未找到:", *args)
class PluginRegisteredError(PluginLoadError):
"""插件重复注册"""
def __init__(self, *args):
"""插件已被注册注册"""
super().__init__("插件重复注册:", *args)
class PluginConfigRelatedError(MusicreaterOuterlyError):
"""插件配置相关错误"""
def __init__(self, *args):
"""插件配置相关错误"""
super().__init__("插件配置相关错误 - ", *args)
class PluginConfigLoadError(PluginLoadError, PluginConfigRelatedError):
"""插件配置加载错误"""
def __init__(self, *args):
"""配置文件无法加载"""
super().__init__("插件配置文件加载错误:", *args)
class PluginConfigDumpError(PluginConfigRelatedError):
"""插件配置保存错误"""
def __init__(self, *args):
"""配置文件无法保存"""
super().__init__("插件配置文件保存错误:", *args)

200
Musicreater/instConstants.py
View File

@@ -1,200 +0,0 @@
pitched_instrument_list = {
0: ("note.harp", 6),
1: ("note.harp", 6),
2: ("note.pling", 6),
3: ("note.harp", 6),
4: ("note.pling", 6),
5: ("note.pling", 6),
6: ("note.harp", 6),
7: ("note.harp", 6),
8: ("note.share", 7), # 打击乐器无音域
9: ("note.harp", 6),
10: ("note.didgeridoo", 8),
11: ("note.harp", 6),
12: ("note.xylophone", 4),
13: ("note.chime", 4),
14: ("note.harp", 6),
15: ("note.harp", 6),
16: ("note.bass", 8),
17: ("note.harp", 6),
18: ("note.harp", 6),
19: ("note.harp", 6),
20: ("note.harp", 6),
21: ("note.harp", 6),
22: ("note.harp", 6),
23: ("note.guitar", 7),
24: ("note.guitar", 7),
25: ("note.guitar", 7),
26: ("note.guitar", 7),
27: ("note.guitar", 7),
28: ("note.guitar", 7),
29: ("note.guitar", 7),
30: ("note.guitar", 7),
31: ("note.bass", 8),
32: ("note.bass", 8),
33: ("note.bass", 8),
34: ("note.bass", 8),
35: ("note.bass", 8),
36: ("note.bass", 8),
37: ("note.bass", 8),
38: ("note.bass", 8),
39: ("note.bass", 8),
40: ("note.harp", 6),
41: ("note.harp", 6),
42: ("note.harp", 6),
43: ("note.harp", 6),
44: ("note.iron_xylophone", 6),
45: ("note.guitar", 7),
46: ("note.harp", 6),
47: ("note.harp", 6),
48: ("note.guitar", 7),
49: ("note.guitar", 7),
50: ("note.bit", 6),
51: ("note.bit", 6),
52: ("note.harp", 6),
53: ("note.harp", 6),
54: ("note.bit", 6),
55: ("note.flute", 5),
56: ("note.flute", 5),
57: ("note.flute", 5),
58: ("note.flute", 5),
59: ("note.flute", 5),
60: ("note.flute", 5),
61: ("note.flute", 5),
62: ("note.flute", 5),
63: ("note.flute", 5),
64: ("note.bit", 6),
65: ("note.bit", 6),
66: ("note.bit", 6),
67: ("note.bit", 6),
68: ("note.flute", 5),
69: ("note.harp", 6),
70: ("note.harp", 6),
71: ("note.flute", 5),
72: ("note.flute", 5),
73: ("note.flute", 5),
74: ("note.harp", 6),
75: ("note.flute", 5),
76: ("note.harp", 6),
77: ("note.harp", 6),
78: ("note.harp", 6),
79: ("note.harp", 6),
80: ("note.bit", 6),
81: ("note.bit", 6),
82: ("note.bit", 6),
83: ("note.bit", 6),
84: ("note.bit", 6),
85: ("note.bit", 6),
86: ("note.bit", 6),
87: ("note.bit", 6),
88: ("note.bit", 6),
89: ("note.bit", 6),
90: ("note.bit", 6),
91: ("note.bit", 6),
92: ("note.bit", 6),
93: ("note.bit", 6),
94: ("note.bit", 6),
95: ("note.bit", 6),
96: ("note.bit", 6),
97: ("note.bit", 6),
98: ("note.bit", 6),
99: ("note.bit", 6),
100: ("note.bit", 6),
101: ("note.bit", 6),
102: ("note.bit", 6),
103: ("note.bit", 6),
104: ("note.harp", 6),
105: ("note.banjo", 6),
106: ("note.harp", 6),
107: ("note.harp", 6),
108: ("note.harp", 6),
109: ("note.harp", 6),
110: ("note.harp", 6),
111: ("note.guitar", 7),
112: ("note.harp", 6),
113: ("note.bell", 4),
114: ("note.harp", 6),
115: ("note.cow_bell", 5),
116: ("note.bd", 7), # 打击乐器无音域
117: ("note.bass", 8),
118: ("note.bit", 6),
119: ("note.bd", 7), # 打击乐器无音域
120: ("note.guitar", 7),
121: ("note.harp", 6),
122: ("note.harp", 6),
123: ("note.harp", 6),
124: ("note.harp", 6),
125: ("note.hat", 7), # 打击乐器无音域
126: ("note.bd", 7), # 打击乐器无音域
127: ("note.snare", 7), # 打击乐器无音域
}
percussion_instrument_list = {
34: ("note.bd", 7),
35: ("note.bd", 7),
36: ("note.hat", 7),
37: ("note.snare", 7),
38: ("note.snare", 7),
39: ("note.snare", 7),
40: ("note.hat", 7),
41: ("note.snare", 7),
42: ("note.hat", 7),
43: ("note.snare", 7),
44: ("note.snare", 7),
45: ("note.bell", 4),
46: ("note.snare", 7),
47: ("note.snare", 7),
48: ("note.bell", 4),
49: ("note.hat", 7),
50: ("note.bell", 4),
51: ("note.bell", 4),
52: ("note.bell", 4),
53: ("note.bell", 4),
54: ("note.bell", 4),
55: ("note.bell", 4),
56: ("note.snare", 7),
57: ("note.hat", 7),
58: ("note.chime", 4),
59: ("note.iron_xylophone", 6),
60: ("note.bd", 7),
61: ("note.bd", 7),
62: ("note.xylophone", 4),
63: ("note.xylophone", 4),
64: ("note.xylophone", 4),
65: ("note.hat", 7),
66: ("note.bell", 4),
67: ("note.bell", 4),
68: ("note.hat", 7),
69: ("note.hat", 7),
70: ("note.flute", 5),
71: ("note.flute", 5),
72: ("note.hat", 7),
73: ("note.hat", 7),
74: ("note.xylophone", 4),
75: ("note.hat", 7),
76: ("note.hat", 7),
77: ("note.xylophone", 4),
78: ("note.xylophone", 4),
79: ("note.bell", 4),
80: ("note.bell", 4),
}
instrument_to_blocks_list = {
"note.bass": ("planks",),
"note.snare": ("sand",),
"note.hat": ("glass",),
"note.bd": ("stone",),
"note.bell": ("gold_block",),
"note.flute": ("clay",),
"note.chime": ("packed_ice",),
"note.guitar": ("wool",),
"note.xylobone": ("bone_block",),
"note.iron_xylophone": ("iron_block",),
"note.cow_bell": ("soul_sand",),
"note.didgeridoo": ("pumpkin",),
"note.bit": ("emerald_block",),
"note.banjo": ("hay_block",),
"note.pling": ("glowstone",),
"note.bassattack": ("command_block",), # 无法找到此音效
"note.harp": ("glass",),
}

305
Musicreater/magicmain.py
View File

@@ -1,305 +0,0 @@
# -*- coding: utf-8 -*-
"""
功能测试 若非已知 请勿更改
此文件仅供功能测试,并非实际调用的文件
请注意,此处的文件均为测试使用
不要更改 不要更改 不要更改
请注意这里的一切均需要其原作者更改
这里用于放置一些新奇的点子
用于测试
不要更改 不要更改 不要更改!
"""
# 音·创 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 版权所有 金羿("Eilles Wan") & 诸葛亮与八卦阵("bgArray") & 鸣凤鸽子("MingFengPigeon")
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
"""
音·创 (Musicreater)
是一款免费开源的针对《我的世界》的midi音乐转换库
Musicreater (音·创)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2023 音·创 开发者
Copyright © 2023 all the developers of Musicreater
开源相关声明请见 ../License.md
Terms & Conditions: ../License.md
"""
def _toCmdList_m1(
self,
scoreboardname: str = "mscplay",
volume: float = 1.0,
speed: float = 1.0) -> list:
"""
使用Dislink Sforza的转换思路将midi转换为我的世界命令列表
:param scoreboardname: 我的世界的计分板名称
:param volume: 音量,注意:这里的音量范围为(0,1],如果超出将被处理为正确值,其原理为在距离玩家 (1 / volume -1) 的地方播放音频
:param speed: 速度,注意:这里的速度指的是播放倍率,其原理为在播放音频的时候,每个音符的播放时间除以 speed
:return: tuple(命令列表, 命令个数, 计分板最大值)
"""
tracks = []
if volume > 1:
volume = 1
if volume <= 0:
volume = 0.001
commands = 0
maxscore = 0
for i, track in enumerate(self.midi.tracks):
ticks = 0
instrumentID = 0
singleTrack = []
for msg in track:
ticks += msg.time
# print(msg)
if msg.is_meta:
if msg.type == "set_tempo":
tempo = msg.tempo
else:
if msg.type == "program_change":
# print("TT")
instrumentID = msg.program
if msg.type == "note_on" and msg.velocity != 0:
nowscore = round(
(ticks * tempo)
/ ((self.midi.ticks_per_beat * float(speed)) * 50000)
)
maxscore = max(maxscore, nowscore)
soundID, _X = self.__Inst2soundID_withX(instrumentID)
singleTrack.append(
"execute @a[scores={" +
str(scoreboardname) +
"=" +
str(nowscore) +
"}" +
f"] ~ ~ ~ playsound {soundID} @s ~ ~{1 / volume - 1} ~ {msg.velocity * (0.7 if msg.channel == 0 else 0.9)} {2 ** ((msg.note - 60 - _X) / 12)}")
commands += 1
if len(singleTrack) != 0:
tracks.append(singleTrack)
return [tracks, commands, maxscore]
# ============================
import mido
class NoteMessage:
def __init__(self, channel, pitch, velocity, startT, lastT, midi, now_bpm, change_bpm=None):
self.channel = channel
self.note = pitch
self.velocity = velocity
self.startTime = startT
self.lastTime = lastT
self.tempo = now_bpm # 这里要程序实现获取bpm可以参考我的程序
def mt2gt(mt, tpb_a, bpm_a):
return mt / tpb_a / bpm_a * 60
self.startTrueTime = mt2gt(self.startTime, midi.ticks_per_beat, self.tempo) # / 20
# delete_extra_zero(round_up())
if change_bpm is not None:
self.lastTrueTime = mt2gt(self.lastTime, midi.ticks_per_beat, change_bpm) # / 20
else:
self.lastTrueTime = mt2gt(self.lastTime, midi.ticks_per_beat, self.tempo) # / 20
# delete_extra_zero(round_up())
print((self.startTime * self.tempo) / (midi.ticks_per_beat * 50000))
def __str__(self):
return "noteMessage channel=" + str(self.channel) + " note=" + str(self.note) + " velocity=" + \
str(self.velocity) + " startTime=" + str(self.startTime) + " lastTime=" + str(self.lastTime) + \
" startTrueTime=" + str(self.startTrueTime) + " lastTrueTime=" + str(self.lastTrueTime)
def load(mid: mido.MidiFile):
type_ = [False, False, False] # note_off / note_on+0 / mixed
is_tempo = False
# 预检
for i, track in enumerate(mid.tracks):
for msg in track:
# print(msg)
if msg.is_meta is not True:
if msg.type == 'note_on' and msg.velocity == 0:
type_[1] = True
elif msg.type == "note_off":
type_[0] = True
if msg.is_meta is True and msg.type == "set_tempo":
is_tempo = True
if is_tempo is not True:
raise Exception("这个mid没有可供计算时间的tempo事件")
if type_[0] is True and type_[1] is True:
type_[2] = True
type_[1] = False
type_[0] = False
print(type_)
bpm = 0
recent_change_bpm = 0
is_change_bpm = False
# 实检
for i, track in enumerate(mid.tracks):
noteOn = []
trackS = []
ticks = 0
for msg in track:
print(msg)
ticks += msg.time
print(ticks)
if msg.is_meta is True and msg.type == "set_tempo":
recent_change_bpm = bpm
bpm = 60000000 / msg.tempo
is_change_bpm = True
if msg.type == 'note_on' and msg.velocity != 0:
noteOn.append([msg, msg.note, ticks])
if type_[1] is True:
if msg.type == 'note_on' and msg.velocity == 0:
for u in noteOn:
index = 0
if u[1] == msg.note:
lastMessage = u[0]
lastTick = u[2]
break
index += 1
print(lastTick)
if is_change_bpm and recent_change_bpm != 0:
trackS.append(NoteMessage(msg.channel, msg.note, lastMessage.velocity, lastTick, ticks - lastTick,
mid, recent_change_bpm, bpm))
is_change_bpm = False
else:
trackS.append(
NoteMessage(msg.channel, msg.note, lastMessage.velocity, lastTick, ticks - lastTick,
mid, bpm))
# print(noteOn)
# print(index)
try:
noteOn.pop(index)
except IndexError:
noteOn.pop(index - 1)
print(trackS)
for j in trackS:
print(j)
if __name__ == '__main__':
load(mido.MidiFile("test.mid"))
# ============================
from typing import Union
from .utils import x,y,z,bottem_side_length_of_smallest_square_bottom_box,form_note_block_in_NBT_struct,form_repeater_in_NBT_struct
# 不要用 没写完
def delay_to_note_blocks(
baseblock: str = "stone",
position_forward: Union(x, y, z) = z,
max_height: int = 64,
):
"""传入音符,生成以音符盒存储的红石音乐
:param:
baseblock: 中继器的下垫方块
position_forward: 结构延长方向
:return 是否生成成功
"""
from TrimMCStruct import Structure, Block
_sideLength = bottem_side_length_of_smallest_square_bottom_box(
len(commands), max_height
)
struct = Structure(
(_sideLength, max_height, _sideLength), # 声明结构大小
)
log = print
startpos = [0,0,0]
# 1拍 x 2.5 rt
def placeNoteBlock():
for i in notes:
error = True
try:
struct.set_block(
[startpos[0], startpos[1] + 1, startpos[2]],
form_note_block_in_NBT_struct(height2note[i[0]], instrument),
)
struct.set_block(startpos, Block("universal_minecraft", instuments[i[0]][1]),)
error = False
except ValueError:
log("无法放置音符:" + str(i) + "" + str(startpos))
struct.set_block(Block("universal_minecraft", baseblock), startpos)
struct.set_block(
Block("universal_minecraft", baseblock),
[startpos[0], startpos[1] + 1, startpos[2]],
)
finally:
if error is True:
log("无法放置音符:" + str(i) + "" + str(startpos))
struct.set_block(Block("universal_minecraft", baseblock), startpos)
struct.set_block(
Block("universal_minecraft", baseblock),
[startpos[0], startpos[1] + 1, startpos[2]],
)
delay = int(i[1] * speed + 0.5)
if delay <= 4:
startpos[0] += 1
struct.set_block(
form_repeater_in_NBT_struct(delay, "west"),
[startpos[0], startpos[1] + 1, startpos[2]],
)
struct.set_block(Block("universal_minecraft", baseblock), startpos)
else:
for j in range(int(delay / 4)):
startpos[0] += 1
struct.set_block(
form_repeater_in_NBT_struct(4, "west"),
[startpos[0], startpos[1] + 1, startpos[2]],
)
struct.set_block(Block("universal_minecraft", baseblock), startpos)
if delay % 4 != 0:
startpos[0] += 1
struct.set_block(
form_repeater_in_NBT_struct(delay % 4, "west"),
[startpos[0], startpos[1] + 1, startpos[2]],
)
struct.set_block(Block("universal_minecraft", baseblock), startpos)
startpos[0] += posadder[0]
startpos[1] += posadder[1]
startpos[2] += posadder[2]
# e = True
try:
placeNoteBlock()
# e = False
except: # ValueError
log("无法放置方块了,可能是因为区块未加载叭")

2306
Musicreater/main.py
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583
Musicreater/paramcurve.py Normal file
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@@ -0,0 +1,583 @@
# -*- coding: utf-8 -*-
"""
存储 音·创 v3 内部数据使用的参数曲线
"""
"""
版权所有 © 2026 金羿
Copyright © 2026 Eilles
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
# WARNING 本文件所含之功能未经完整测试
# 鉴于白谭若佬给出的建议:本功能应是处于低优先级开发的
# 因此暂时用处不大,可以稍微放一会再进行开发
# 目前用人工智能生成了部分代码,只经过简单的测试
# 可以等伶伦工作站开发出来后再进行完整的测试
from math import ceil
from dataclasses import dataclass
from typing import Optional, Any, List, Tuple
from enum import Enum
import bisect
from .types import FittingFunctionType
def _evaluate_bezier_segment(
t0: float,
v0: float,
t1: float,
v1: float,
out_tangent: Optional[Tuple[float, float]],
in_tangent: Optional[Tuple[float, float]],
u: float,
) -> float:
"""
计算贝塞尔区间 [t0, t1] 在归一化参数 u ∈ [0,1] 处的 y 值。
控制点:
P0 = (t0, v0)
P1 = (t0 + out_dt, v0 + out_dv)
P2 = (t1 - in_dt, v1 - in_dv) ← 注意in_tangent 是相对于 t1 的偏移
P3 = (t1, v1)
"""
# 默认控制点:退化为线性
p0 = (t0, v0)
p3 = (t1, v1)
if out_tangent is not None:
p1 = (t0 + out_tangent[0], v0 + out_tangent[1])
else:
p1 = p0 # 无出手柄 → 与起点重合
if in_tangent is not None:
p2 = (t1 - in_tangent[0], v1 - in_tangent[1])
else:
p2 = p3 # 无入手柄 → 与终点重合
# 三次贝塞尔 y(t)
mt = 1.0 - u
return mt**3 * p0[1] + 3 * mt**2 * u * p1[1] + 3 * mt * u**2 * p2[1] + u**3 * p3[1]
class InterpolationMethod:
"""
预定义的标准化插值函数集合。所有函数接受归一化输入 u ∈ [0,1],返回 v ∈ [0,1]。
"""
@staticmethod
def linear(u: float) -> float:
"""
线性插值。
Parameters
----------
u : float
归一化时间,范围 [0, 1]。
Returns
-------
float
插值权重,范围 [0, 1]。
"""
return u
@staticmethod
def ease_in_quad(u: float) -> float:
"""
二次缓入(慢进快出)。
Parameters
----------
u : float
归一化时间,范围 [0, 1]。
Returns
-------
float
插值权重。
"""
return u * u
@staticmethod
def ease_out_quad(u: float) -> float:
"""
二次缓出(快进慢出)。
Parameters
----------
u : float
归一化时间,范围 [0, 1]。
Returns
-------
float
插值权重。
"""
return 1 - (1 - u) ** 2
@staticmethod
def ease_in_out_quad(u: float) -> float:
"""
二次缓入缓出。
Parameters
----------
u : float
归一化时间,范围 [0, 1]。
Returns
-------
float
插值权重。
"""
if u < 0.5:
return 2 * u * u
else:
return 1 - pow(-2 * u + 2, 2) / 2
@staticmethod
def hold(u: float) -> float:
"""
阶梯保持模式占位函数。实际插值逻辑在 ParamCurve.value_at 中特殊处理。
Parameters
----------
u : float
归一化时间(忽略)。
Returns
-------
float
无意义,仅作标识。
"""
return 0.0
@dataclass
class Keyframe:
"""
参数曲线上的一个关键帧,支持完整的入/出切线控制。
插值优先级:
1. 若 use_bezier=True → 使用贝塞尔模式(需 in_tangent / out_tangent
2. 否则 → 使用 out_interp 函数in_interp 被忽略)
"""
time: float
value: float
# 函数插值模式
out_interp: Optional[FittingFunctionType] = None
# 贝塞尔模式
in_tangent: Optional[Tuple[float, float]] = (
None # (dt, dv) ← 相对于自身(负 dt 表示左侧)
)
out_tangent: Optional[Tuple[float, float]] = (
None # (dt, dv) → 相对于自身(正 dt 表示右侧)
)
use_bezier: bool = False
class BoundaryBehaviour(str, Enum):
"""
边界行为枚举。
"""
CONSTANT = "constant"
"""返回默认基线值"""
HOLD = "hold"
"""保持首/尾关键帧的值"""
class ParamCurve:
"""
参数曲线类
"""
"""
支持动态节点编辑
用户通过添加/修改关键帧(时间-值对)来定义曲线,类自动在相邻关键帧之间生成插值段。
支持多种插值模式:线性('linear')、平滑缓动('smooth')、保持('hold')或自定义函数。
"""
base_line: float = 0.0
"""基线/默认值"""
base_interpolation_function: FittingFunctionType
"""默认(未指定区间时的)关键帧插值模式"""
boundary_behaviour: BoundaryBehaviour
"""边界行为,控制参数曲线在已定义的范围外的返回值"""
_keys: List[Keyframe]
"""关键帧列表"""
def __init__(
self,
base_value: float = 0.0,
default_interpolation_function: FittingFunctionType = InterpolationMethod.linear,
boundary_mode: BoundaryBehaviour = BoundaryBehaviour.CONSTANT,
):
"""
初始化参数曲线。
Parameters
----------
base_value : float
边界外默认值(当 boundary_mode 为 BoundaryBehaviour.CONSTANT 时使用)。
default_interpolation_function : FittingFunctionType
新关键帧的默认 out_interp。
boundary_mode : BoundaryBehaviour
范围外行为:
- BoundaryBehaviour.CONSTANT: 返回 base_value
- BoundaryBehaviour.HOLD: 保持首/尾关键帧值
"""
self.base_line = base_value
self.base_interpolation_function = default_interpolation_function
self.boundary_behaviour = boundary_mode
self._keys: List[Keyframe] = []
def __bool__(self) -> bool:
return bool(self._keys) or (self.base_line != 0)
def add_key(
self,
time: float,
value: float,
out_interp: Optional[FittingFunctionType] = None,
in_tangent: Optional[Tuple[float, float]] = None,
out_tangent: Optional[Tuple[float, float]] = None,
use_bezier: bool = False,
):
"""
添加或更新关键帧。
Parameters
----------
time : float
关键帧时间。
value : float
参数值。
out_interp : Optional[Callable]
出插值函数(若 use_bezier=False
in_tangent : Optional[Tuple[float, float]]
入切线偏移 (dt, dv)。dt 通常为负(表示左侧),但存储为绝对偏移。
out_tangent : Optional[Tuple[float, float]]
出切线偏移 (dt, dv)。dt 通常为正。
use_bezier : bool
是否使用贝塞尔插值。
Returns
-------
None
Notes
-----
若时间已存在,更新该关键帧的所有属性。
"""
interp = (
out_interp if out_interp is not None else self.base_interpolation_function
)
new_key = Keyframe(time, value, interp, in_tangent, out_tangent, use_bezier)
idx = bisect.bisect_left(self._keys, time, key=lambda k: k.time)
if idx < len(self._keys) and self._keys[idx].time == time:
self._keys[idx] = new_key
else:
self._keys.insert(idx, new_key)
def remove_key(self, time: float):
"""
移除指定时间的关键帧。
Parameters
----------
time : float
要移除的关键帧时间。
Returns
-------
None
"""
idx = bisect.bisect_left(self._keys, time, key=lambda k: k.time)
if idx < len(self._keys) and self._keys[idx].time == time:
del self._keys[idx]
def update_key_value(self, time: float, new_value: float):
"""更新关键帧值,保留其他属性。"""
idx = bisect.bisect_left(self._keys, time, key=lambda k: k.time)
if idx < len(self._keys) and self._keys[idx].time == time:
k = self._keys[idx]
self._keys[idx] = Keyframe(
time, new_value, k.out_interp, k.in_tangent, k.out_tangent, k.use_bezier
)
def update_key_interp(
self,
time: float,
out_interp: Optional[FittingFunctionType] = None,
in_tangent: Optional[Tuple[float, float]] = None,
out_tangent: Optional[Tuple[float, float]] = None,
use_bezier: bool = False,
):
"""更新关键帧的插值属性。"""
idx = bisect.bisect_left(self._keys, time, key=lambda k: k.time)
if idx < len(self._keys) and self._keys[idx].time == time:
k = self._keys[idx]
new_value = k.value
interp = out_interp if out_interp is not None else k.out_interp
self._keys[idx] = Keyframe(
time, new_value, interp, in_tangent, out_tangent, use_bezier
)
def set_key_tangents(
self,
time: float,
in_tangent: Optional[Tuple[float, float]] = None,
out_tangent: Optional[Tuple[float, float]] = None,
use_bezier: bool = True,
):
"""单独设置关键帧的切线,不改变值。"""
idx = bisect.bisect_left(self._keys, time, key=lambda k: k.time)
if idx < len(self._keys) and self._keys[idx].time == time:
k = self._keys[idx]
self._keys[idx] = Keyframe(
time,
k.value,
out_interp=k.out_interp,
in_tangent=in_tangent,
out_tangent=out_tangent,
use_bezier=use_bezier,
)
def make_key_smooth(self, time: float):
"""
将关键帧设为“平滑”模式(自动对称切线,并设为贝塞尔模式)。
切线长度基于相邻关键帧的时间和值差。
"""
idx = bisect.bisect_left(self._keys, time, key=lambda k: k.time)
if idx < len(self._keys) and self._keys[idx].time == time:
k = self._keys[idx]
prev_k = self._keys[idx - 1] if idx > 0 else None
next_k = self._keys[idx + 1] if idx + 1 < len(self._keys) else None
# 默认切线长度:时间差的 1/3值差按比例
dt_in = dt_out = 0.1
dv_in = dv_out = 0.0
if prev_k and next_k:
dt_total = next_k.time - prev_k.time
dv_total = next_k.value - prev_k.value
dt_in = dt_out = dt_total / 3.0
dv_in = dv_out = dv_total / 3.0
elif prev_k:
dt_out = (k.time - prev_k.time) / 2.0
dv_out = (k.value - prev_k.value) / 2.0
dt_in = dt_out
dv_in = dv_out
elif next_k:
dt_in = (next_k.time - k.time) / 2.0
dv_in = (next_k.value - k.value) / 2.0
dt_out = dt_in
dv_out = dv_in
self.set_key_tangents(
time,
in_tangent=(-dt_in, -dv_in), # in_tangent 存储为偏移,使用时做减法
out_tangent=(dt_out, dv_out),
use_bezier=True,
)
def _get_boundary_value(self, t: float) -> float:
"""根据 boundary_mode 获取范围外的值。"""
if not self._keys:
return self.base_line
if self.boundary_behaviour == BoundaryBehaviour.CONSTANT:
return self.base_line
elif self.boundary_behaviour == BoundaryBehaviour.HOLD:
if t < self._keys[0].time:
return self._keys[0].value
else:
return self._keys[-1].value
else: # 可能会有别的模式吗?
return self.base_line
def value_at(self, t: float) -> float:
"""
计算时间 t 处的曲线值。
Parameters
----------
t : float
查询时间。
Returns
-------
float
插值结果。
"""
keys = self._keys
if not keys:
return self._get_boundary_value(t)
if t < keys[0].time or t > keys[-1].time:
return self._get_boundary_value(t)
times = [k.time for k in keys]
idx = bisect.bisect_right(times, t) - 1
if idx < 0:
return self._get_boundary_value(t)
if idx >= len(keys) - 1:
return keys[-1].value
k0 = keys[idx]
k1 = keys[idx + 1]
if k0.time == k1.time:
return k0.value
if k0.time == t:
return k0.value
if k1.time == t:
return k1.value
t0, v0 = k0.time, k0.value
t1, v1 = k1.time, k1.value
u = (t - t0) / (t1 - t0)
u = max(0.0, min(1.0, u))
# 贝塞尔模式(高优先级)
if k0.use_bezier or k1.use_bezier:
return _evaluate_bezier_segment(
t0,
v0,
t1,
v1,
out_tangent=k0.out_tangent,
in_tangent=k1.in_tangent, # ← 关键:使用下一帧的 in_tangent
u=u,
)
# 函数插值模式,优先处理阶梯保持模式
elif k0.out_interp is InterpolationMethod.hold:
return v0
interp_func = k0.out_interp or self.base_interpolation_function
v_norm = interp_func(u)
return v0 + v_norm * (v1 - v0)
def __call__(self, t: float) -> float:
return self.value_at(t)
def get_all_keys(self) -> List[Tuple[float, float]]:
"""返回 (time, value) 列表。"""
return [(k.time, k.value) for k in self._keys]
def set_default_interpolation_function(self, interp_func: FittingFunctionType):
"""设置默认插值函数。"""
self.base_interpolation_function = interp_func
def set_boundary_mode(
self, mode: BoundaryBehaviour, base_value: Optional[float] = None
):
"""
设置边界行为。
Parameters
----------
mode : BoundaryBehaviour
边界行为设定
base_value : Optional[float]
当 mode=BoundaryBehaviour.CONSTANT 时,指定新的默认值。
"""
self.boundary_behaviour = mode
if base_value is not None:
self.base_line = base_value
def bake(
self,
start: float,
end: float,
sample_rate: Optional[float] = None,
num_samples: Optional[int] = None,
dtype: Any = None,
) -> "np.ndarray": # type: ignore 这里这样用会报错吗?不知道,但是人工智能这样写了都,大抵是能用的吧
"""
将参数曲线在指定时间范围内烘焙为 NumPy 数组,用于高性能实时查询或音频渲染。
Parameters
----------
start : float
烘焙起始时间(包含)。
end : float
烘焙结束时间(不包含)。
sample_rate : Optional[float]
采样率(单位:样本/时间单位。例如若时间单位为秒sample_rate=48000 表示每秒 48k 样本。
必须与 `num_samples` 二选一提供。
num_samples : Optional[int]
输出数组的总样本数。若提供,则忽略 `sample_rate`。
dtype : Any, optional
输出数组的数据类型(如 np.float32。默认为 np.float64。
Returns
-------
np.ndarray
一维 NumPy 数组,长度为 `num_samples``arr[i] ≈ curve(start + i / sample_rate)`。
Exceptions
----------
ValueError
- 若 `start >= end`
- 若未提供 `sample_rate` 且未提供 `num_samples`
- 若 `num_samples <= 0`
Notes
-----
- 内部使用 `np.linspace` 生成时间轴,然后逐点调用 `self.value_at(t)`。
- 虽然目前是 Python 循环,但对于典型自动化曲线(<1000 关键帧NumPy 向量化优势主要体现在内存布局和后续处理。
- 如需极致性能(如 >1M 样本),可未来优化为 C++/Numba 加速,但当前已满足 DAW 自动化需求。
"""
if start >= end:
raise ValueError("起始值须小于结束值。")
if num_samples is not None:
if num_samples <= 0:
raise ValueError("烘焙的采样数须为非零自然数。")
n = num_samples
elif sample_rate is not None:
if sample_rate <= 0:
raise ValueError("烘焙的采样率须为正值。")
duration = end - start
n = int(ceil(duration * sample_rate))
# 别因为小数数值会产生的问题而越界了来着
if n == 0:
n = 1
else:
raise ValueError("烘焙参数时,须提供采样率或采样数。")
import numpy as np
# 生成对应时间的节点:[start, ..., end - dt]
times = np.linspace(start, end, n, endpoint=False)
# 计算每个时间节点上的参数值
# 我们认为在数字音频工作站的环境里,此值可能最多到 ~1e6 的样子,因此这样 for 一下应当可以接受
# WARNING: 人工智能是这样理解的,如果有问题的话后续可能需要更改
values = np.empty(n, dtype=dtype or np.float64)
for i in range(n):
values[i] = self.value_at(float(times[i]))
return values

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Musicreater/plugins.py Normal file
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# -*- coding: utf-8 -*-
"""
存储 音·创 v3 的插件接口与管理相关内容
"""
"""
版权所有 © 2026 金羿
Copyright © 2026 Eilles
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
import importlib
from pathlib import Path
from typing import (
Dict,
Any,
Optional,
List,
Tuple,
Union,
Generator,
Set,
Iterable,
Iterator,
TypeVar,
Mapping,
Callable,
)
from itertools import chain
from ._plugin_abc import (
# 枚举类
PluginTypes,
# 抽象基类/数据类(插件参数定义)
PluginConfig,
PluginMetaInformation,
# 抽象基类(插件定义)
MusicInputPluginBase,
TrackInputPluginBase,
MusicOperatePluginBase,
TrackOperatePluginBase,
MusicOutputPluginBase,
TrackOutputPluginBase,
ServicePluginBase,
LibraryPluginBase,
# 顶层插件定义
TopPluginBase,
)
from .exceptions import (
PluginMetainfoNotFoundError,
ParameterTypeError,
PluginInstanceNotFoundError,
PluginRegisteredError,
)
__all__ = [
# 枚举类
"PluginTypes",
# 抽象基类/数据类(插件参数定义)
"PluginConfig",
"PluginMetaInformation",
# 抽象基类(插件定义)
"MusicInputPluginBase",
"TrackInputPluginBase",
"MusicOperatePluginBase",
"TrackOperatePluginBase",
"MusicOutputPluginBase",
"TrackOutputPluginBase",
"ServicePluginBase",
"LibraryPluginBase",
# 插件注册用装饰函数
"music_input_plugin",
"track_input_plugin",
"music_operate_plugin",
"track_operate_plugin",
"music_output_plugin",
"track_output_plugin",
"service_plugin",
"library_plugin",
]
T_IOPlugin = TypeVar(
"T_IOPlugin",
MusicInputPluginBase,
TrackInputPluginBase,
MusicOutputPluginBase,
TrackOutputPluginBase,
)
T_Plugin = TypeVar(
"T_Plugin",
MusicInputPluginBase,
TrackInputPluginBase,
MusicOperatePluginBase,
TrackOperatePluginBase,
MusicOutputPluginBase,
TrackOutputPluginBase,
ServicePluginBase,
LibraryPluginBase,
)
def load_plugin_module(package: Union[Path, str]):
"""自动发现并加载插件包中的插件
参数:
=====
package: Path | str, 可选
插件包路径或名称,当为 Path 类时为路径,为 str 时为包名,切勿混淆。
"""
if isinstance(package, Path):
relative_path = package.resolve().relative_to(Path.cwd().resolve())
if relative_path.stem == "__init__":
return importlib.import_module(".".join(relative_path.parts[:-1]))
else:
return importlib.import_module(
".".join(relative_path.parts[:-1] + (relative_path.stem,))
)
else:
return importlib.import_module(package)
class PluginRegistry:
"""插件注册管理器(注册表)"""
def __init__(self):
self._music_input_plugins: Dict[str, MusicInputPluginBase] = {}
self._track_input_plugins: Dict[str, TrackInputPluginBase] = {}
self._music_operate_plugins: Dict[str, MusicOperatePluginBase] = {}
self._track_operate_plugins: Dict[str, TrackOperatePluginBase] = {}
self._music_output_plugins: Dict[str, MusicOutputPluginBase] = {}
self._track_output_plugins: Dict[str, TrackOutputPluginBase] = {}
self._service_plugins: Dict[str, ServicePluginBase] = {}
self._library_plugins: Dict[str, LibraryPluginBase] = {}
def __iter__(self) -> Iterator[Tuple[PluginTypes, Mapping[str, TopPluginBase]]]:
"""迭代器,返回所有插件"""
return iter(
(
(PluginTypes.FUNCTION_MUSIC_IMPORT, self._music_input_plugins),
(PluginTypes.FUNCTION_TRACK_IMPORT, self._track_input_plugins),
(PluginTypes.FUNCTION_MUSIC_OPERATE, self._music_operate_plugins),
(PluginTypes.FUNCTION_TRACK_OPERATE, self._track_operate_plugins),
(PluginTypes.FUNCTION_MUSIC_EXPORT, self._music_output_plugins),
(PluginTypes.FUNCTION_TRACK_EXPORT, self._track_output_plugins),
(PluginTypes.SERVICE, self._service_plugins),
(PluginTypes.LIBRARY, self._library_plugins),
)
)
@staticmethod
def _register_plugin(cls_dict: dict, plg_class: type, plg_id: str) -> None:
"""注册插件"""
if plg_id in cls_dict:
if cls_dict[plg_id].metainfo.version >= plg_class.metainfo.version:
raise PluginRegisteredError(
"插件惟一识别码`{}`所对应的插件已存在更高版本`{}`,请勿重复注册同一插件!".format(
plg_id, plg_class.metainfo
)
)
cls_dict[plg_id] = plg_class()
def register_music_input_plugin(
self,
plugin_class: type,
plugin_id: str,
) -> None:
"""注册输入插件-整首曲目"""
self._register_plugin(self._music_input_plugins, plugin_class, plugin_id)
def register_track_input_plugin(self, plugin_class: type, plugin_id: str) -> None:
"""注册输入插件-单个音轨"""
self._register_plugin(self._track_input_plugins, plugin_class, plugin_id)
def register_music_operate_plugin(self, plugin_class: type, plugin_id: str) -> None:
"""注册曲目处理插件"""
self._register_plugin(self._music_operate_plugins, plugin_class, plugin_id)
def register_track_operate_plugin(self, plugin_class: type, plugin_id: str) -> None:
"""注册音轨处理插件"""
self._register_plugin(self._track_operate_plugins, plugin_class, plugin_id)
def register_music_output_plugin(self, plugin_class: type, plugin_id: str) -> None:
"""注册输出插件-整首曲目"""
self._register_plugin(self._music_output_plugins, plugin_class, plugin_id)
def register_track_output_plugin(self, plugin_class: type, plugin_id: str) -> None:
"""注册输出插件-单个音轨"""
self._register_plugin(self._track_output_plugins, plugin_class, plugin_id)
def register_service_plugin(self, plugin_class: type, plugin_id: str) -> None:
"""注册服务插件"""
self._register_plugin(self._service_plugins, plugin_class, plugin_id)
def register_library_plugin(self, plugin_class: type, plugin_id: str) -> None:
"""注册支持库插件"""
self._register_plugin(self._library_plugins, plugin_class, plugin_id)
@staticmethod
def _get_io_plugin_by_format(
plugin_regdict: Dict[str, T_IOPlugin], fpath_or_format: Union[Path, str]
) -> Generator[T_IOPlugin, None, None]:
if isinstance(fpath_or_format, str):
return (
plugin
for plugin in plugin_regdict.values()
if plugin.can_handle_format(fpath_or_format)
)
elif isinstance(fpath_or_format, Path):
return (
plugin
for plugin in plugin_regdict.values()
if plugin.can_handle_file(fpath_or_format)
)
else:
raise ParameterTypeError(
"用于指定“导入全曲的数据之类型”的参数,其类型须为`Path`路径或字符串,而非`{}`类型的`{}`值".format(
type(fpath_or_format), fpath_or_format
)
)
def get_music_input_plugin_by_format(
self, filepath_or_format: Union[Path, str]
) -> Generator[MusicInputPluginBase, None, None]:
"""通过指定输入的文件或格式,以获取对应的全曲导入用插件"""
return self._get_io_plugin_by_format(
self._music_input_plugins, filepath_or_format
)
def get_track_input_plugin_by_format(
self, filepath_or_format: Union[Path, str]
) -> Generator[TrackInputPluginBase, None, None]:
"""通过指定输入的文件或格式,以获取对应的单音轨导入用插件"""
return self._get_io_plugin_by_format(
self._track_input_plugins, filepath_or_format
)
def get_music_output_plugin_by_format(
self, filepath_or_format: Union[Path, str]
) -> Generator[MusicOutputPluginBase, None, None]:
"""通过指定输出的文件或格式,以获取对应的导出全曲用插件"""
return self._get_io_plugin_by_format(
self._music_output_plugins, filepath_or_format
)
def get_track_output_plugin_by_format(
self, filepath_or_format: Union[Path, str]
) -> Generator[TrackOutputPluginBase, None, None]:
"""通过指定输出的文件或格式,以获取对应的导出单个音轨用插件"""
return self._get_io_plugin_by_format(
self._track_output_plugins, filepath_or_format
)
def _get_plugin_by_name(
self,
plugin_regdict: Mapping[str, T_Plugin],
plugin_name: str,
plugin_usage: str = "",
) -> T_Plugin:
"""通过指定名称,以获取对应的插件,当名称重叠时,取版本号最大的"""
try:
return max(
[
plugin
for plugin in plugin_regdict.values()
if plugin.metainfo.name == plugin_name
],
key=lambda plugin: plugin.metainfo.version,
)
except ValueError:
raise PluginInstanceNotFoundError(
"未找到“用于{}、名为`{}`”的插件".format(plugin_usage, plugin_name)
)
def get_music_input_plugin(self, plugin_name: str) -> MusicInputPluginBase:
"""获取指定名称的全曲导入用插件,当名称重叠时,取版本号最大的"""
return self._get_plugin_by_name(
self._music_input_plugins, plugin_name, "导入全曲"
)
def get_track_input_plugin(self, plugin_name: str) -> TrackInputPluginBase:
"""获取指定名称的单音轨导入用插件,当名称重叠时,取版本号最大的"""
return self._get_plugin_by_name(
self._track_input_plugins, plugin_name, "导入单轨"
)
def get_music_operate_plugin(self, plugin_name: str) -> MusicOperatePluginBase:
"""获取指定名称的全曲处理用插件,当名称重叠时,取版本号最大的"""
return self._get_plugin_by_name(
self._music_operate_plugins, plugin_name, "处理整个曲目"
)
def get_track_operate_plugin(self, plugin_name: str) -> TrackOperatePluginBase:
"""获取指定名称的单音轨处理用插件,当名称重叠时,取版本号最大的"""
return self._get_plugin_by_name(
self._track_operate_plugins, plugin_name, "处理单个音轨"
)
def get_music_output_plugin(self, plugin_name: str) -> MusicOutputPluginBase:
"""获取指定名称的导出全曲用插件,当名称重叠时,取版本号最大的"""
return self._get_plugin_by_name(
self._music_output_plugins, plugin_name, "导出完整曲目"
)
def get_track_output_plugin(self, plugin_name: str) -> TrackOutputPluginBase:
"""获取指定名称的导出单音轨用插件,当名称重叠时,取版本号最大的"""
return self._get_plugin_by_name(
self._track_output_plugins, plugin_name, "导出单个音轨"
)
def get_service_plugin(self, plugin_name: str) -> ServicePluginBase:
"""获取服务用插件,当名称重叠时,取版本号最大的"""
return self._get_plugin_by_name(self._service_plugins, plugin_name, "提供服务")
def get_library_plugin(self, plugin_name: str) -> LibraryPluginBase:
"""获取依赖库类插件,当名称重叠时,取版本号最高的"""
return self._get_plugin_by_name(
self._library_plugins, plugin_name, "作为依赖库"
)
def supported_input_formats(self) -> Set[str]:
"""所有支持的导入格式"""
return set(
chain.from_iterable(
plugin.supported_formats
for plugin in chain(
self._music_input_plugins.values(),
self._track_input_plugins.values(),
)
)
)
def supported_output_formats(self) -> Set[str]:
"""所有支持的导出格式"""
return set(
chain.from_iterable(
plugin.supported_formats
for plugin in chain(
self._music_output_plugins.values(),
self._track_output_plugins.values(),
)
)
)
_global_plugin_registry = PluginRegistry()
"""全局插件注册表实例"""
def __plugin_regist_decorator(plg_id: str, rgst_func: Callable[[type, str], None]):
def decorator(cls):
global _global_plugin_registry
cls.id = plg_id
rgst_func(cls, plg_id)
return cls
return decorator
def music_input_plugin(plugin_id: str):
"""全曲输入用插件装饰器"""
return __plugin_regist_decorator(
plugin_id, _global_plugin_registry.register_music_input_plugin
)
def track_input_plugin(plugin_id: str):
"""单轨输入用插件装饰器"""
return __plugin_regist_decorator(
plugin_id, _global_plugin_registry.register_track_input_plugin
)
def music_operate_plugin(plugin_id: str):
"""全曲处理用插件装饰器"""
return __plugin_regist_decorator(
plugin_id, _global_plugin_registry.register_music_operate_plugin
)
def track_operate_plugin(plugin_id: str):
"""音轨处理插件装饰器"""
return __plugin_regist_decorator(
plugin_id, _global_plugin_registry.register_track_operate_plugin
)
def music_output_plugin(plugin_id: str):
"""乐曲输出用插件装饰器"""
return __plugin_regist_decorator(
plugin_id, _global_plugin_registry.register_music_output_plugin
)
def track_output_plugin(plugin_id: str):
"""音轨输出用插件装饰器"""
return __plugin_regist_decorator(
plugin_id, _global_plugin_registry.register_track_output_plugin
)
def service_plugin(plugin_id: str):
"""服务插件装饰器"""
return __plugin_regist_decorator(
plugin_id, _global_plugin_registry.register_service_plugin
)
def library_plugin(plugin_id: str):
"""支持库插件装饰器"""
return __plugin_regist_decorator(
plugin_id, _global_plugin_registry.register_library_plugin
)

25
Musicreater/types.py Normal file
View File

@@ -0,0 +1,25 @@
# -*- coding: utf-8 -*-
"""
存储 音·创 v3 定义的一些数据类型,可以用于类型检查器
"""
"""
版权所有 © 2026 金羿 & 玉衡Alioth
Copyright © 2026 Eilles & YuhengAlioth
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
from typing import Callable, Dict, List, Literal, Mapping, Tuple, Union
FittingFunctionType = Callable[[float], float]
"""
拟合函数类型
"""

459
Musicreater/utils.py
View File

@@ -1,459 +0,0 @@
import math
import os
bdx_key = {
"x": [b"\x0f", b"\x0e", b"\x1c", b"\x14", b"\x15"],
"y": [b"\x11", b"\x10", b"\x1d", b"\x16", b"\x17"],
"z": [b"\x13", b"\x12", b"\x1e", b"\x18", b"\x19"],
}
"""key存储了方块移动指令的数据其中可以用key[x|y|z][0|1]来表示xyz的减或增
而key[][2+]是用来增加指定数目的"""
x = "x"
y = "y"
z = "z"
def bdx_move(axis: str, value: int):
if value == 0:
return b""
if abs(value) == 1:
return bdx_key[axis][0 if value == -1 else 1]
pointer = sum(
[
1 if i else 0
for i in (
value != -1,
value < -1 or value > 1,
value < -128 or value > 127,
value < -32768 or value > 32767,
)
]
)
return bdx_key[axis][pointer] + value.to_bytes(
2 ** (pointer - 2), "big", signed=True
)
def compress_zipfile(sourceDir, outFilename, compression=8, exceptFile=None):
"""使用compression指定的算法打包目录为zip文件\n
默认算法为DEFLATED(8),可用算法如下:\n
STORED = 0\n
DEFLATED = 8\n
BZIP2 = 12\n
LZMA = 14\n
"""
import zipfile
zipf = zipfile.ZipFile(outFilename, "w", compression)
pre_len = len(os.path.dirname(sourceDir))
for parent, dirnames, filenames in os.walk(sourceDir):
for filename in filenames:
if filename == exceptFile:
continue
pathfile = os.path.join(parent, filename)
arc_name = pathfile[pre_len:].strip(os.path.sep) # 相对路径
zipf.write(pathfile, arc_name)
zipf.close()
def form_command_block_in_BDX_bytes(
command: str,
particularValue: int,
impluse: int = 0,
condition: bool = False,
needRedstone: bool = True,
tickDelay: int = 0,
customName: str = "",
executeOnFirstTick: bool = False,
trackOutput: bool = True,
):
"""
使用指定项目返回指定的指令方块放置指令项
:param command: `str`
指令
:param particularValue:
方块特殊值,即朝向
:0 下 无条件
:1 上 无条件
:2 z轴负方向 无条件
:3 z轴正方向 无条件
:4 x轴负方向 无条件
:5 x轴正方向 无条件
:6 下 无条件
:7 下 无条件
:8 下 有条件
:9 上 有条件
:10 z轴负方向 有条件
:11 z轴正方向 有条件
:12 x轴负方向 有条件
:13 x轴正方向 有条件
:14 下 有条件
:14 下 有条件
注意此处特殊值中的条件会被下面condition参数覆写
:param impluse: `int 0|1|2`
方块类型
0脉冲 1循环 2连锁
:param condition: `bool`
是否有条件
:param needRedstone: `bool`
是否需要红石
:param tickDelay: `int`
执行延时
:param customName: `str`
悬浮字
lastOutput: `str`
上次输出字符串,注意此处需要留空
:param executeOnFirstTick: `bool`
首刻执行(循环指令方块是否激活后立即执行若为False则从激活时起延迟后第一次执行)
:param trackOutput: `bool`
是否输出
:return:str
"""
block = b"\x24" + particularValue.to_bytes(2, byteorder="big", signed=False)
for i in [
impluse.to_bytes(4, byteorder="big", signed=False),
bytes(command, encoding="utf-8") + b"\x00",
bytes(customName, encoding="utf-8") + b"\x00",
bytes("", encoding="utf-8") + b"\x00",
tickDelay.to_bytes(4, byteorder="big", signed=True),
executeOnFirstTick.to_bytes(1, byteorder="big"),
trackOutput.to_bytes(1, byteorder="big"),
condition.to_bytes(1, byteorder="big"),
needRedstone.to_bytes(1, byteorder="big"),
]:
block += i
return block
def bottem_side_length_of_smallest_square_bottom_box(total: int, maxHeight: int):
"""给定总方块数量和最大高度,返回所构成的图形外切正方形的边长
:param total: 总方块数量
:param maxHeight: 最大高度
:return: 外切正方形的边长 int"""
return math.ceil(math.sqrt(math.ceil(total / maxHeight)))
def commands_to_BDX_bytes(
commands: list,
max_height: int = 64,
):
"""
:param commands: 指令列表(指令, 延迟)
:param max_height: 生成结构最大高度
:return 成功与否,成功返回(True,未经过压缩的源,结构占用大小),失败返回(False,str失败原因)
"""
_sideLength = bottem_side_length_of_smallest_square_bottom_box(
len(commands), max_height
)
_bytes = b""
y_forward = True
z_forward = True
now_y = 0
now_z = 0
now_x = 0
for cmd, delay in commands:
impluse = 2
condition = False
needRedstone = False
tickDelay = delay
customName = ""
executeOnFirstTick = False
trackOutput = True
_bytes += form_command_block_in_BDX_bytes(
cmd,
(1 if y_forward else 0)
if (
((now_y != 0) and (not y_forward))
or (y_forward and (now_y != (max_height - 1)))
)
else (3 if z_forward else 2)
if (
((now_z != 0) and (not z_forward))
or (z_forward and (now_z != _sideLength - 1))
)
else 5,
impluse=impluse,
condition=condition,
needRedstone=needRedstone,
tickDelay=tickDelay,
customName=customName,
executeOnFirstTick=executeOnFirstTick,
trackOutput=trackOutput,
)
now_y += 1 if y_forward else -1
if ((now_y >= max_height) and y_forward) or ((now_y < 0) and (not y_forward)):
now_y -= 1 if y_forward else -1
y_forward = not y_forward
now_z += 1 if z_forward else -1
if ((now_z >= _sideLength) and z_forward) or (
(now_z < 0) and (not z_forward)
):
now_z -= 1 if z_forward else -1
z_forward = not z_forward
_bytes += bdx_key[x][1]
now_x += 1
else:
_bytes += bdx_key[z][int(z_forward)]
else:
_bytes += bdx_key[y][int(y_forward)]
return (
_bytes,
[
now_x + 1,
max_height if now_x or now_z else now_y,
_sideLength if now_x else now_z,
],
[now_x, now_y, now_z],
)
def form_note_block_in_NBT_struct(
note: int, coordinate: tuple, instrument: str = "note.harp", powered: bool = False
):
"""生成音符盒方块
:param note: `int`(0~24)
音符的音高
:param coordinate: `tuple[int,int,int]`
此方块所在之相对坐标
:param instrument: `str`
音符盒的乐器
:param powered: `bool`
是否已被激活
:return Block
"""
from TrimMCStruct import Block, TAG_Byte
return Block(
"minecraft",
"noteblock",
{
"instrument": instrument.replace("note.", ""),
"note": note,
"powered": powered,
},
{
"block_entity_data": {
"note": TAG_Byte(note),
"id": "noteblock",
"x": coordinate[0],
"y": coordinate[1],
"z": coordinate[2],
}
},
)
def form_repeater_in_NBT_struct(
delay: int, facing: int
):
"""生成中继器方块
:param facing:
:param delay: 1~4
:return Block()"""
from TrimMCStruct import Block
return Block(
"minecraft",
"unpowered_repeater",
{
"repeater_delay": delay,
"direction": facing,
},
)
def form_command_block_in_NBT_struct(
command: str,
coordinate: tuple,
particularValue: int,
impluse: int = 0,
condition: bool = False,
alwaysRun: bool = True,
tickDelay: int = 0,
customName: str = "",
executeOnFirstTick: bool = False,
trackOutput: bool = True,
):
"""
使用指定项目返回指定的指令方块结构
:param command: `str`
指令
:param coordinate: `tuple[int,int,int]`
此方块所在之相对坐标
:param particularValue:
方块特殊值,即朝向
:0 下 无条件
:1 上 无条件
:2 z轴负方向 无条件
:3 z轴正方向 无条件
:4 x轴负方向 无条件
:5 x轴正方向 无条件
:6 下 无条件
:7 下 无条件
:8 下 有条件
:9 上 有条件
:10 z轴负方向 有条件
:11 z轴正方向 有条件
:12 x轴负方向 有条件
:13 x轴正方向 有条件
:14 下 有条件
:14 下 有条件
注意此处特殊值中的条件会被下面condition参数覆写
:param impluse: `int 0|1|2`
方块类型
0脉冲 1循环 2连锁
:param condition: `bool`
是否有条件
:param alwaysRun: `bool`
是否始终执行
:param tickDelay: `int`
执行延时
:param customName: `str`
悬浮字
:param executeOnFirstTick: `bool`
首刻执行(循环指令方块是否激活后立即执行若为False则从激活时起延迟后第一次执行)
:param trackOutput: `bool`
是否输出
:return:str
"""
from TrimMCStruct import Block, TAG_Long
return Block(
"minecraft",
"command_block"
if impluse == 0
else ("repeating_command_block" if impluse == 1 else "chain_command_block"),
states={"conditional_bit": condition, "facing_direction": particularValue},
extra_data={
"block_entity_data": {
"Command": command,
"CustomName": customName,
"ExecuteOnFirstTick": executeOnFirstTick,
"LPCommandMode": 0,
"LPCondionalMode": False,
"LPRedstoneMode": False,
"LastExecution": TAG_Long(0),
"LastOutput": "",
"LastOutputParams": [],
"SuccessCount": 0,
"TickDelay": tickDelay,
"TrackOutput": trackOutput,
"Version": 25,
"auto": alwaysRun,
"conditionMet": False, # 是否已经满足条件
"conditionalMode": condition,
"id": "CommandBlock",
"isMovable": True,
"powered": False, # 是否已激活
"x": coordinate[0],
"y": coordinate[1],
"z": coordinate[2],
}
},
compability_version=17959425,
)
def commands_to_structure(
commands: list,
max_height: int = 64,
):
"""
:param commands: 指令列表(指令, 延迟)
:param max_height: 生成结构最大高度
:return 成功与否,成功返回(结构类,结构占用大小),失败返回(False,str失败原因)
"""
from TrimMCStruct import Structure
_sideLength = bottem_side_length_of_smallest_square_bottom_box(
len(commands), max_height
)
struct = Structure(
(_sideLength, max_height, _sideLength), # 声明结构大小
)
y_forward = True
z_forward = True
now_y = 0
now_z = 0
now_x = 0
for cmd, delay in commands:
coordinate = (now_x, now_y, now_z)
struct.set_block(
coordinate,
form_command_block_in_NBT_struct(
command=cmd,
coordinate=coordinate,
particularValue=(1 if y_forward else 0)
if (
((now_y != 0) and (not y_forward))
or (y_forward and (now_y != (max_height - 1)))
)
else (
(3 if z_forward else 2)
if (
((now_z != 0) and (not z_forward))
or (z_forward and (now_z != _sideLength - 1))
)
else 5
),
impluse=2,
condition=False,
alwaysRun=True,
tickDelay=delay,
customName="",
executeOnFirstTick=False,
trackOutput=True,
),
)
now_y += 1 if y_forward else -1
if ((now_y >= max_height) and y_forward) or ((now_y < 0) and (not y_forward)):
now_y -= 1 if y_forward else -1
y_forward = not y_forward
now_z += 1 if z_forward else -1
if ((now_z >= _sideLength) and z_forward) or (
(now_z < 0) and (not z_forward)
):
now_z -= 1 if z_forward else -1
z_forward = not z_forward
now_x += 1
return (
struct,
(
now_x + 1,
max_height if now_x or now_z else now_y,
_sideLength if now_x else now_z,
),
(now_x, now_y, now_z),
)

129
README.md
View File

@@ -1,29 +1,29 @@
[Bilibili: 金羿ELS]: https://img.shields.io/badge/Bilibili-%E9%87%91%E7%BE%BFELS-00A1E7?style=for-the-badge
[Bilibili: 玉衡Alioth]: https://img.shields.io/badge/Bilibili-%E7%8E%89%E8%A1%A1Alioth-00A1E7?style=for-the-badge
[CodeStyle: black]: https://img.shields.io/badge/code%20style-black-121110.svg?style=for-the-badge
[python]: https://img.shields.io/badge/python-3.8-AB70FF?style=for-the-badge
[release]: https://img.shields.io/github/v/release/EillesWan/Musicreater?style=for-the-badge
[license]: https://img.shields.io/badge/Licence-%E6%B1%89%E9%92%B0%E5%BE%8B%E8%AE%B8%E5%8F%AF%E5%8D%8F%E8%AE%AE-228B22?style=for-the-badge
<h1 align="center">
· Musicreater
</h1>
<h1 align="center">· Musicreater </h1>
<p align="center">
<img width="128" height="128" src="https://gitee.com/TriM-Organization/Musicreater/raw/master/resources/msctIcon.ico">
<img width="128" height="128" src="https://gitee.com/TriM-Organization/Musicreater/raw/master/resources/msctIcon.png">
</img>
</p>
<h3 align="center">一款免费开源的 我的世界 MIDI音乐转换</h3>
<h3 align="center">一款免费开源的我的世界数字音频支持</h3>
<p align="center">
<img src="https://forthebadge.com/images/badges/built-with-love.svg">
<img src="https://img.shields.io/badge/BUILD%20WITH%20LOVE-FF3432?style=for-the-badge">
<a href='https://gitee.com/TriM-Organization/Musicreater'>
<img align="right" src='https://gitee.com/TriM-Organization/Musicreater/widgets/widget_1.svg' alt='Fork me on Gitee'>
</img>
</a>
<p>
[![][Bilibili: 金羿ELS]](https://space.bilibili.com/397369002/)
[![][Bilibili: 诸葛亮与八卦阵]](https://space.bilibili.com/604072474)
[![][Bilibili: 玉衡Alioth]](https://space.bilibili.com/604072474)
[![CodeStyle: black]](https://github.com/psf/black)
[![][python]](https://www.python.org/)
[![][license]](LICENSE)
@@ -34,100 +34,103 @@
[![GitHub Repo stars](https://img.shields.io/github/stars/TriM-Organization/Musicreater?color=white&logo=GitHub&style=plastic)](https://github.com/TriM-Organization/Musicreater/stargazers)
[![GitHub Repo Forks](https://img.shields.io/github/forks/TriM-Organization/Musicreater?color=white&logo=GitHub&style=plastic)](https://github.com/TriM-Organization/Musicreater/forks)
简体中文🇨🇳 | [English🇬🇧](README_EN.md)
## 介绍 🚀
## 介绍🚀
· 是一个免费开源的针对 **我的世界** 的MIDI音乐转换库
· 是一款免费开源的针对 **我的世界** 音乐的支持库
欢迎加群[861684859](https://jq.qq.com/?_wv=1027&k=hpeRxrYr)
## 下载安装
> **注意** 本仓库内的项目仅仅是支持库其用户为基岩版音乐相关软件的开发者
>
> 面向常规用户的 **基岩版音乐转换工具** 请参阅[伶伦转换器](../../../Linglun-Converter)
>
> 我们也正在开发面向高级用户的 **基岩版音乐编辑工具**数字音频工作站[伶伦](../../../LinglunStudio)
## 安装 🔳
- 使用 pypi
- 使用pypi
```bash
pip install Musicreater
pip install --upgrade Musicreater
```
- 如果出现错误可以尝试
- 如果无法更新最新可以尝试
```bash
pip install -i https://pypi.python.org/simple Musicreater
```
- 对于开发者来说升级
```bash
pip install -i https://pypi.python.org/simple Musicreater --upgrade
pip install --upgrade -i https://pypi.python.org/simple Musicreater
```
- 克隆仓库并安装
- 克隆仓库并安装最新内容但**不推荐**
```bash
git clone https://gitee.com/TriM-Organization/Musicreater.git
cd Musicreater
python setup.py install
```
以上命令 `python``pip` 请依照各个环境不同灵活更换可能为`python3``pip3`之类
以上命令 `python``pip` 请依照各个环境不同灵活更换可能为`python3``pip3`之类
## 文档📄
## 文档 📄
[生成文件的使用](./docs/%E7%94%9F%E6%88%90%E6%96%87%E4%BB%B6%E7%9A%84%E4%BD%BF%E7%94%A8%E8%AF%B4%E6%98%8E.md)
[仓库API文档](./docs/%E5%BA%93%E7%9A%84%E7%94%9F%E6%88%90%E4%B8%8E%E5%8A%9F%E8%83%BD%E6%96%87%E6%A1%A3.md)
[仓库 API 文档](./docs/%E5%BA%93%E7%9A%84%E7%94%9F%E6%88%90%E4%B8%8E%E5%8A%9F%E8%83%BD%E6%96%87%E6%A1%A3.md)
## 作者✒
## 作者
金羿 Eilles我的世界基岩版指令个人开发者B站不知名UP主江西在校高中生
**金羿 Eilles**我的世界基岩版指令作者个人开发者B 站不知名 UP
诸葛亮与八卦阵 bgArray我的世界基岩版玩家喜欢编程和音乐深圳初二学生
**玉衡Alioth Alioth**我的世界基岩版玩家喜欢编程和音乐学生
**偷吃不是Touch Touch**我的世界基岩版指令制作者提供测试支持
## 致谢 🙏
## 致谢🙏
本致谢列表排名无顺序
- 感谢 **昀梦**\<QQ1515399885\> 找出指令生成错误bug并指正
- 感谢由 **Charlie_Ping 查理平** 带来的BDX文件转换参考以及MIDI-我的世界对应乐器参考表格
- 感谢由 **[CMA_2401PT](https://github.com/CMA2401PT)** 为我们的软件开发的一些方面进行指导同时我们参考了他的BDXworkshop作为BDX结构编辑的参考
- 感谢由 **[Dislink Sforza](https://github.com/Dislink) 断联·斯福尔扎**\<QQ1600515314\> 带来的midi音色解析以及转换指令的算法我们将其改编并应用同时感谢他的[网页版转换器](https://dislink.github.io/midi2bdx/)给我们的开发与更新带来巨大的压力和动力让我们在原本一骑绝尘的摸鱼道路上转向开发希望他能考上一个理想的大学
- 感谢 **Touch 偷吃**\<QQ1793537164\> 提供的BDX导入测试支持并对程序的改进提供了丰富的意见同时也感谢他的不断尝试新的内容使我们的排错更进一步
- 感谢 **Mono**\<QQ738893087\> 反馈安装时的问题辅助我们找到了视窗操作系统下的兼容性问题感谢其反馈延迟播放器出现的重大问题我们得以修改全部延迟播放错误
- 感谢 **Ammelia 艾米利亚**\<QQ2838334637\> 敦促我们进行新的功能开发并为新功能提出了非常优秀的大量建议以及提供的BDX导入测试支持为我们的新结构生成算法提供了大量的实际理论支持
- 感谢 **[神羽](https://gitee.com/snowykami) [SnowyKami](https://github.com/snowyfirefly)** 我们项目的支持与宣传希望他能考的一所优秀的大学
- 感谢 **指令师_苦力怕 playjuice123**\<QQ240667197\>为我们的程序找出错误并提醒我们修复一个一直存在的大bug
- 感谢 **雷霆**\<QQ3555268519\>为我们的程序找出错误并提醒修复bug
- 感谢 **昀梦**\<QQ1515399885\> 找出指令生成错误 bug 并指正
- 感谢由 **Charlie_Ping 查理平** 带来的 BDX 文件转换参考以及 MIDI-我的世界对应乐器 参考表格
- 感谢由 **[CMA_2401PT](https://github.com/CMA2401PT)** 为我们的软件开发的一些方面进行指导同时我们参考了他的 BDXworkshop 作为 BDX 结构编辑的参考
- 感谢由 **[Dislink Sforza](https://github.com/Dislink) 断联·斯福尔扎**\<QQ1600515314\> 带来的 midi 音色解析以及转换指令的算法我们将其改编并应用同时感谢他的[网页版转换器](https://dislink.github.io/midi2bdx/)给我们的开发与更新带来巨大的压力和动力让我们在原本一骑绝尘的摸鱼道路上转向开发
- 感谢 **Mono**\<QQ738893087\> 反馈安装时的问题辅助我们找到了视窗操作系统下的兼容性问题感谢其反馈延迟播放器出现的重大问题让我们得以修改全部延迟播放错误尤其感谢他对于我们的软件的大力宣传
- 感谢 **Ammelia 艾米利亚**\<QQ2838334637\> 敦促我们进行新的功能开发并为新功能提出了非常优秀的大量建议以及提供的 BDX 导入测试支持我们的新结构生成算法提供了大量的实际理论支持
- 感谢 **[神羽 SnowyKami](https://www.sfkm.me/)** 对我们项目的支持与宣传非常感谢他为我们提供的服务器
- 感谢 **指令师\_苦力怕 playjuice123**\<QQ240667197\> 我们的程序找出错误并提醒我们修复一个一直存在的大 bug
- 感谢 **雷霆**\<QQ3555268519\> 用他那令所有开发者都大为光火的操作方法为我们的程序找出错误并提醒修复 bug
- 感谢 **小埋**\<QQ2039310975\> 反馈附加包生成时缺少描述和标题的问题
- <table><tr><td>感谢 **油炸**&lt;QQ2836146704&gt; 激励我们不断开发新的内容</td><td><img height="50" src="https://foruda.gitee.com/images/1695478907647543027/08ea9909_9911226.jpeg"></td></tr></table>
- 感谢 ****\<QQ237667809\> 反馈在新版本的指令格式下计分板播放器的附加包无法播放的问题
- 感谢 **梦幻duang**\<QQ13753593\> 为我们提供 Java 1.12.2 版本命令格式参考
- 感谢 [_Open Note Block Studio_](https://github.com/OpenNBS/NoteBlockStudio) 项目的开发为我们提供持续的追赶动力
> 感谢广大群友为此程序提供的测试等支持
>
> 若您对我们有所贡献但您的名字没有显示在此列表中请联系我们
> 感谢广大群友为此提供的测试和建议
> 若您对我们有所贡献但您的名字没有出现在此列表中请联系我们
## 联系📞
## 联系 📞
若遇到库中的问题欢迎在[](https://gitee.com/TriM-Organization/Musicreater/issues/new)提出你的issue
若遇到库中的问题欢迎在[](https://gitee.com/TriM-Organization/Musicreater/issues/new)提出你的 issue
如果需要与开发组进行交流欢迎加入我们的[开发闲聊Q](https://jq.qq.com/?_wv=1027&k=hpeRxrYr)
如果需要与开发组进行交流欢迎加入我们的[开发闲聊 Q ](https://jq.qq.com/?_wv=1027&k=hpeRxrYr)
--------------------------------------------
亦可以联系我们[睿乐组织官方邮箱](mailto:TriM-Organization@hotmail.com)取得进一步联系
此项目并非一个官方 我的世界*Minecraft*项目
---
此项目并非一个官方 我的世界_Minecraft_项目
此项目不隶属或关联于 Mojang Studios 微软
此项目亦不 网易 相关
此项目亦不隶属或关联于 网易
Minecraft Mojang Synergies AB 的商标此项目中所有对于我的世界Minecraft等相关称呼均为引用性使用
Minecraft Mojang Synergies AB 的商标此项目中所有对于我的世界Minecraft等相关称呼均为必要的介绍性使用
* 上文提及的 网易 公司指代的是在中国大陆运营我的世界中国版的上海网之易网络科技发展有限公司
- 上文提及的 网易 公司指代的是在中国大陆运营我的世界中国版的上海网之易璀璨网络科技有限公司
NOT AN OFFICIAL MINECRAFT PRODUCT.
NOT APPROVED BY OR ASSOCIATED WITH MOJANG OR MICROSOFT.
[Bilibili: 金羿ELS]: https://img.shields.io/badge/Bilibili-%E5%87%8C%E4%BA%91%E9%87%91%E7%BE%BF-00A1E7?style=for-the-badge
[Bilibili: 诸葛亮与八卦阵]: https://img.shields.io/badge/Bilibili-%E8%AF%B8%E8%91%9B%E4%BA%AE%E4%B8%8E%E5%85%AB%E5%8D%A6%E9%98%B5-00A1E7?style=for-the-badge
[CodeStyle: black]: https://img.shields.io/badge/code%20style-black-121110.svg?style=for-the-badge
[python]: https://img.shields.io/badge/python-3.8-AB70FF?style=for-the-badge
[release]: https://img.shields.io/github/v/release/EillesWan/Musicreater?style=for-the-badge
[license]: https://img.shields.io/badge/Licence-Apache-228B22?style=for-the-badge
NOT APPROVED BY OR ASSOCIATED WITH NETEASE.

126
README_EN.md
View File

@@ -1,86 +1,138 @@
<h1 align="center">· Musicreater</h1>
[Bilibili: Eilles]: https://img.shields.io/badge/Bilibili-%E9%87%91%E7%BE%BFEilles-00A1E7?style=for-the-badge
[Bilibili: Alioth]: https://img.shields.io/badge/Bilibili-%E7%8E%89%E8%A1%A1Alioth-00A1E7?style=for-the-badge
[CodeStyle: black]: https://img.shields.io/badge/code%20style-black-121110.svg?style=for-the-badge
[python]: https://img.shields.io/badge/python-3.8-AB70FF?style=for-the-badge
[release]: https://img.shields.io/github/v/release/EillesWan/Musicreater?style=for-the-badge
[license]: https://img.shields.io/badge/Licence-%E6%B1%89%E9%92%B0%E5%BE%8B%E8%AE%B8%E5%8F%AF%E5%8D%8F%E8%AE%AE-228B22?style=for-the-badge
<h1 align="center">
· Musicreater
</h1>
<p align="center">
<img width="128" height="128" src="https://s1.ax1x.com/2022/05/06/Ouhghj.md.png" >
<img width="128" height="128" src="https://s1.ax1x.com/2022/05/06/Ouhghj.md.png" >
</img>
</p>
<h3 align="center">a free open-source library of converting midi files into _Minecraft_ formats.</h3>
<h3 align="center">A free and open-source library for handling with <i>Minecraft</i> digital music.</h3>
<p align="center">
<img src="https://forthebadge.com/images/badges/built-with-love.svg">
<img src="https://img.shields.io/badge/BUILD%20WITH%20LOVE-FF3432?style=for-the-badge">
</img>
<p>
[![][Bilibili: Eilles]](https://space.bilibili.com/397369002/)
[![][Bilibili: bgArray]](https://space.bilibili.com/604072474)
[![][Bilibili: Alioth]](https://space.bilibili.com/604072474)
[![CodeStyle: black]](https://github.com/psf/black)
![][python]
[![][python]](https://www.python.org/)
[![][license]](LICENSE)
[![][release]](../../releases)
[简体中文🇨🇳](README.md) | English🇬🇧
[![GiteeStar](https://gitee.com/TriM-Organization/Musicreater/badge/star.svg?theme=gray)](https://gitee.com/TriM-Organization/Musicreater/stargazers)
[![GiteeFork](https://gitee.com/TriM-Organization/Musicreater/badge/fork.svg?theme=gray)](https://gitee.com/TriM-Organization/Musicreater/members)
[![GitHub Repo stars](https://img.shields.io/github/stars/TriM-Organization/Musicreater?color=white&logo=GitHub&style=plastic)](https://github.com/TriM-Organization/Musicreater/stargazers)
[![GitHub Repo Forks](https://img.shields.io/github/forks/TriM-Organization/Musicreater?color=white&logo=GitHub&style=plastic)](https://github.com/TriM-Organization/Musicreater/forks)
**Notice that the language translation of *Musicreater* may be a little SLOW.**
[简体中文 🇨🇳](README.md) | English🇬🇧
**Notice that the localizations of documents may probably NOT be up-to-date. The original document is in Chinese.**
## Introduction🚀
Musicreater is a free open-source library used for converting midi file into formats that could be read in *Minecraft*.
Musicreater is a free open-source library used for handling with digital musics that being able to be played in _Minecraft_.
Welcome to join our QQ group: [861684859](https://jq.qq.com/?_wv=1027&k=hpeRxrYr)
## Documentation📄
> **NOTICE** The project inside this repository is only the support library, which is mainly for the developers of music related software for _Minecraft: Bedrock Edition_.
>
> The _Bedrock Edition music convertor_ which is for common users is in [Linglun Converter](../../../Linglun-Converter).
>
> We are also developing a _BE music editor_ (digital audio workstation): [Linglun](../../../LinglunStudio)
## Installation 🔳
- Via pypi
```bash
pip install Musicreater --upgrade
```
- If above command cannot fetch latest version, try:
```bash
pip install -i https://pypi.python.org/simple Musicreater --upgrade
```
- Clone repo and Install (Latest but **NOT RECOMMANDED**):
```bash
git clone https://github.com/TriM-Organization/Musicreater.git
cd Musicreater
python setup.py install
```
Commands such as `python``pip` could be changed to some like `python3` or `pip3` according to the difference of platforms.
## Documentation 📄
(Not in English yet)
[生成文件的使用](./docs/%E7%94%9F%E6%88%90%E6%96%87%E4%BB%B6%E7%9A%84%E4%BD%BF%E7%94%A8%E8%AF%B4%E6%98%8E.md)
[仓库API文档](./docs/%E5%BA%93%E7%9A%84%E7%94%9F%E6%88%90%E4%B8%8E%E5%8A%9F%E8%83%BD%E6%96%87%E6%A1%A3.md)
[仓库 API 文档](./docs/%E5%BA%93%E7%9A%84%E7%94%9F%E6%88%90%E4%B8%8E%E5%8A%9F%E8%83%BD%E6%96%87%E6%A1%A3.md)
### Authors✒
### Authors
Eilles (金羿)A senior high school student, individual developer, unfamous Bilibili UPer, which knows a little about commands in *Minecraft: Bedrock Edition*
**Eilles (金羿)**A student, individual developer, unfamous Bilibili UPer, which knows a little about commands in _Minecraft: Bedrock Edition_
bgArray "诸葛亮与八卦阵": A junior high school student, player of *Minecraft: Bedrock Edition*, which is a fan of music and programming.
**Alioth (玉衡Alioth)**: A student, player of _Minecraft: Bedrock Edition_, which is a fan of music and programming.
**Touch (偷吃不是 Touch)**: A man who is good at using command(s) in _Minecraft: Bedrock Edition_, who supported us of debugging and testing program and algorithm
## Acknowledgements 🙏
## Thanks🙏
This list is not in any order.
- Thank *昀梦*\<QQ1515399885\> for finding and correcting the bugs in the commands that *Musicreater* generated.
- Thank *Charlie_Ping 查理平* for bdx convert function for reference, and the chart that's used to convert the mid's instruments into Minecraft's instruments.
- Thank *[CMA_2401PT](https://github.com/CMA2401PT)* for BDXWorkShop for reference of the .bdx structure's operation, and his guidance in some aspects of our development.
- Thank *[Dislink Sforza](https://github.com/Dislink) 断联·斯福尔扎* \<QQ1600515314\> for his midi analysis algorithm brought to us, we had adapted it and made it applied in one of our working method; Also, thank him for the [WebConvertor](https://dislink.github.io/midi2bdx/) which brought us so much pressure and power to develop as well as update our projects better, instead of loaf on our project. We hope he can get into a good university as he wantted to!
- Thank *Touch 偷吃*\<QQ1793537164\> for support of debugging and testing program and algorithm, as well his/her suggestions to the improvement of our project
- Thank *Mono*\<QQ738893087\> for reporting problems while installing
- Thank *Ammelia 艾米利亚*\<QQ2838334637\> for urging us to develop new functions, and put forward a lot of excellent suggestions for new functions, as well as the BDX file's importing test support provided, which has given a lot of practical theoretical support for our new Structure Generating Algorithm
- 感谢 *[神羽](https://gitee.com/snowykami) [SnowyKami](https://github.com/snowyfirefly)* for supporting and promoting our project
- Thank _昀梦_\<QQ1515399885\> for finding and correcting the bugs in the commands that _Musicreater_ generated.
- Thank _Charlie_Ping 查理平_ for the bdx convert function for reference, and the reference chart that's used to convert the mid's instruments into Minecraft's instruments.
- Thank _[CMA_2401PT](https://github.com/CMA2401PT)_ for BDXWorkShop for reference of the .bdx structure's operation, and his guidance in some aspects of our development.
- Thank _[Dislink Sforza](https://github.com/Dislink) 断联·斯福尔扎_ \<QQ1600515314\> for his midi analysis algorithm brought to us, we had adapted it and made it applied in one of our working method; Also, thank him for the [WebConvertor](https://dislink.github.io/midi2bdx/) which brought us so much pressure and power to develop as well as update our projects better, instead of loaf on our project.
- Thank _Mono_\<QQ738893087\> for reporting problems while installing
- Thank _Ammelia 艾米利亚_\<QQ2838334637\> for urging us to develop new functions, and put forward a lot of excellent suggestions for new functions, as well as the BDX file's importing test support provided, which has given a lot of practical theoretical support for our new Structure Generating Algorithm
- Thank _[神羽](https://gitee.com/snowykami) [SnowyKami](https://github.com/snowyfirefly)_ for supporting and promoting our project, and also thanks him for his server which given us to use for free.
- Thank _指令师\_苦力怕 playjuice123_\<QQ240667197\> for finding bugs within our code, and noticed us to repair a big problem.
- Thank _雷霆_\<QQ3555268519\> for his annoying and provoking operations which may awake some problems within the program by chance and reminding us to repair.
- Thank _小埋_\<QQ2039310975\> for reporting the empty add-on packs title and description problem.
- <table><tr><td>Thank <i>油炸</i> &lt;QQ2836146704&gt; for inspiring us to constantly develop something new.</td><td><img width="260" src="https://foruda.gitee.com/images/1695478907647543027/08ea9909_9911226.jpeg" alt="The groupmate on the picture was saying that our convert-QQ-bot had once brought him great convinience but now it closed down by some reason so he was feeling regretful." title="&quot;It was once, a convert-QQ-bot is just in front my eyes&quot;&#10;&quot;Until lose, I finally know cannot chase back what I needs&quot;"></td><td><small>&quot;It was once, a convert-QQ-bot is just in front my eyes&quot;<br>&quot;Until lose, I finally know cannot chase back what I needs&quot;</small></td></tr></table>
- Thank _雨_\<QQ237667809\> for give us report that under the new `execute` command format that the scoreboard player's add-on packs cannot play correctly.
- Thank _梦幻duang_\<QQ13753593\> for providing us with his knowlodeg of the command format in Minecraft: Java Edition Version 1.12.2.
- Thank [_Open Note Block Studio_](https://github.com/OpenNBS/NoteBlockStudio)'s Project for giving us the power and energy of continual developing.
> Thanks for a lot of groupmates's support and help
>
> If you have given contribution but haven't been in the list, please contact us!
> Thanks for the support and help of a lot of groupmates
> If you have given contributions but have not been in the list, please contact us!
## Contact Us📞
## Contact Us 📞
Meet problems? Welcome to give out your issue [here](https://gitee.com/EillesWan/Musicreater/issues/new)!
Meet problems? Welcome to give out your issue [here](../../issues/new)!
Want to get in contact of developers? Welcome to join our [Chat QQ group](https://jq.qq.com/?_wv=1027&k=hpeRxrYr).
Or contact us via [TriM-Org Official Email](mailto:TriM-Organization@hotmail.com)!
--------------------------------------------
---
NOT AN OFFICIAL MINECRAFT PRODUCT.
NOT APPROVED BY OR ASSOCIATED WITH MOJANG OR MICROSOFT.
此项目并非一个官方 我的世界*Minecraft*项目
NOT APPROVED BY OR ASSOCIATED WITH NETEASE.
此项目并非一个官方 我的世界_Minecraft_项目
此项目不隶属或关联于 Mojang Studios 微软
此项目亦不隶属或关联于 网易 相关
Minecraft Mojang Synergies AB 的商标此项目中所有对于我的世界Minecraft等相关称呼均为必要的介绍性使用
[Bilibili: Eilles]: https://img.shields.io/badge/Bilibili-%E5%87%8C%E4%BA%91%E9%87%91%E7%BE%BF-00A1E7?style=for-the-badge
[Bilibili: bgArray]: https://img.shields.io/badge/Bilibili-%E8%AF%B8%E8%91%9B%E4%BA%AE%E4%B8%8E%E5%85%AB%E5%8D%A6%E9%98%B5-00A1E7?style=for-the-badge
[CodeStyle: black]: https://img.shields.io/badge/code%20style-black-121110.svg?style=for-the-badge
[python]: https://img.shields.io/badge/python-3.6-AB70FF?style=for-the-badge
[release]: https://img.shields.io/github/v/release/EillesWan/Musicreater?style=for-the-badge
[license]: https://img.shields.io/badge/Licence-Apache-228B22?style=for-the-badge
- 上文提及的 网易 公司指代的是在中国大陆运营我的世界中国版的上海网之易璀璨网络科技有限公司

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@@ -0,0 +1,48 @@
# 任务清单
## 待办事项
- 乐曲文件格式设计
目前想到的是
1. 使用 `.MCT` 作为项目文件的后缀然后考虑一下格式是否和之前的 MusicSequence 兼容如果兼容的话可以照旧用 `.MSQ`如不的话可以试试想一个新的后缀名作为数据文件后缀
2. 要求数据文件支持完全流式读入
- 音轨静音处理
当前没有处理
- 优化音轨的存储方式
当前是用列表且每一次变动元素都要重新排序这样消耗太大了需要优化改用最小堆形式heapq
- 移植 v2 功能到内置插件
目前 v2 的功能有很多都要移植到 v3
1. 导入 Midi 文件到全曲
2. 导入 Midi 文件到指定轨道
3. 导出到延迟播放器的结构文件MCSTRUCTUREBDX
4. 导出到延迟播放器的附加包
5. 导出到积分板播放器的以上两种形式
6. 导出到中继器播放器的以上两种形式
7. WebSocket 播放器中播放
8. 导出到支持神羽资源包的以上 7 种形式
9. 对于 Midi 歌词的实验性功能
10. 对于 Java 版本适配的实验性功能
11. 对于听感优化的实验性功能插值偏移
- 测试参数曲线的功能
- 支持导出音符盒构成的音乐
- 支持导出成 schematic 结构
## 讨论
1. [x] 是否应该在插件注册表 PluginRegistry 中采用 `Dict[插件名, 插件对象]` 的形式存储插件
当前不采用这种方式是认为可以兼容一些极端场景下用户将一堆同名插件放在一起的情况但是就算是插件放在一起我们也可以有选择地读入注册表比如依照版本号只读取最高版本的插件并不需要全部存储在插件注册表中所以其实用字典来存储是有利的
**当前已解决**
引入了插件惟一识别码之后当然是采用 `Dict[插件唯一识别码, 插件对象]` 来存储插件了~之前插件名称的内容是我想得太浅了我写完所有代码之后才想到插件名称是中文还带空格的任意字符串
2. 服务插件到底该怎么写总不能留着一个 PluginType.SERVICE 的插件一直空在那里吧
3. 插件依赖性的优化目前没有处理各个插件依赖关系的问题如果插件之间彼此依赖要怎么做
我的想法是这个依赖的处理由调用端来完成比如我们的 伶伦工作站 是以 · 为核心的一个可视化数字音频工作站
那么应该由伶伦来处理依赖关系并加载之

4
clean_update.py
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@@ -7,13 +7,13 @@ console = Console()
def main():
with console.status("Find the full path of .egg-info folder"):
with console.status("寻众迹于 .egg-info "):
egg_info: list = []
for file in os.listdir():
if file.endswith(".egg-info"):
egg_info.append(file)
console.print(file)
for file in track(["build", "dist", "logs", *egg_info], description="Deleting files"):
for file in track(["build", "dist", "logs", *egg_info], description="正删档"):
if os.path.isdir(file) and os.access(file, os.W_OK):
shutil.rmtree(file)

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@@ -0,0 +1,13 @@
<h1 align="center">· Musicreater</h1>
<p align="center">
<img width="128" height="128" src="https://gitee.com/TriM-Organization/Musicreater/raw/master/resources/msctIcon.png" >
</p>
**此为开发相关文档内容包括库的简单调用所生成文件结构的详细说明特殊参数的详细解释**
# [main.py](../Musicreater/main.py)
## [类] MidiConvert
### [类函数] from_midi_file

321
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@@ -1,63 +1,147 @@
<h1 align="center">· Musicreater</h1>
<h2 align="center">库版 Package Version</h2>
<p align="center">
<img width="128" height="128" src="https://s1.ax1x.com/2022/05/06/Ouhghj.md.png" >
<img width="128" height="128" src="https://gitee.com/TriM-Organization/Musicreater/raw/master/resources/msctIcon.png" >
</p>
**此为开发相关文档内容包括所生成文件结构的详细说明特殊参数的详细解释**
**此为开发相关文档内容包括库的简单调用所生成文件结构的详细说明特殊参数的详细解释**
# 库的简单调用
参见[example.py的相关部分](../example.py#L120)使用此库进行MIDI转换非常简单。
参见[example.py的相关部分](../example.py)使用此库进行MIDI转换非常简单
```python
import Musicreater # 导入转换库
- 在导入转换库后使用 MidiConvert 类建立转换对象读取Midi文件
old_execute_format = False # 指定是否使用旧的execute指令语法即1.18及以前的《我的世界:基岩版》语法)
·创库支持新旧两种execute语法需要在对象实例化时指定
```python
# 导入音·创库
import Musicreater
# 首先新建转换对象。
conversion = Musicreater.midiConvert(enable_old_exe_format = old_execute_format)
# 值得注意的是,一个转换对象可以转换多个文件。
# 也就是在实例化的时候不进行对文件的绑定。
# 如果有调试需要,可以在实例化时传入参数 debug = True
# 如conversion = Musicreater.midiConvert(debug=True)
# 指定是否使用旧的execute指令语法即1.18及以前的《我的世界:基岩版》语法)
old_execute_format = False
# 设置输入输出地址并指定execute指令语法
# 地址都为字符串类型,不能传入文件流
midi_path = "./where/you/place/.midi/files.mid"
output_folder = "./where/you/want2/convert/into/"
# 可以通过文件地址自动读取
cvt_mid = Musicreater.MidiConvert.from_midi_file(
"Midi文件地址",
old_exe_format=old_execute_format
)
# 设定基本转换参数
conversion.convert(midi_path,output_folder)
# 也可以导入Mido对象
cvt_mid = Musicreater.MidiConvert(
mido.MidiFile("Midi文件地址"),
"音乐名称",
old_exe_format=old_execute_format
)
```
# 进行转换并接受输出,具体的参数均在代码之文档中有相关说明
method_id = 3 # 指定使用的转换算法
- 获取 Midi 音乐经转换后的播放指令
# 使用计分板播放器,转换为附加包文件
convertion_result = conversion.to_mcpack(method_id,*prompts)
```python
# 通过函数 to_command_list_in_score, to_command_list_in_delay
# 分别可以得到
# 以计分板作为播放器的指令对象列表、以延迟作为播放器的指令对象列表
# 数据不仅存储在对象本身内,也会以返回值的形式返回,详见代码内文档
# 使用延迟播放器,转换为附加包文件
# 注意,在执行这个功能之前,你需要使用指令
# pip install TrimMCStruct
# 安装最新版的TrimMCStruct库
convertion_result = conversion.to_mcpack_with_delay(method_id,*prompts)
# 使用 to_command_list_in_score 函数进行转换之后,返回值有三个
# 值得注意的是第一个返回值返回的是依照midi频道存储的指令对象列表
# 也就是列表套列表
# 但是,在对象内部所存储的数据却不会如此嵌套
command_channel_list, command_count, max_score = cvt_mid.to_command_list_in_score(
"计分板名称",
1.0, # 音量比率
1.0, # 速度倍率
)
# 使用计分板播放器转换为BDX结构文件
convertion_result = conversion.to_BDX_file(method_id,*prompts)
# 使用 to_command_list_in_delay 转换后的返回值只有两个
# 但是第一个返回值没有列表套列表
command_list, max_delay = cvt_mid.to_command_list_in_delay(
1.0, # 音量比率
1.0, # 速度倍率
"@a", # 玩家选择器
)
# 使用延迟播放器转换为BDX结构文件
convertion_result = conversion.to_BDX_file_with_delay(method_id,*prompts)
# 运行之后,指令和总延迟会存储至对象内
print(
"音乐长度:{}/游戏刻".format(
cvt_mid.music_tick_num
)
)
print(
"指令如下:\n{}".format(
cvt_mid.music_command_list
)
)
```
# 转换结果是一个元组。
# 若其转换成功,则前三位必为
# True, 指令数量, 最大延迟
# 其中,最大延迟可以理解为计分板的最大值
# 如果转换失败,暂时还没有定返回值的规则
# 但是有一点是肯定的,数据结构必定是元组
print(convertion_result)
```
- 除了获取播放指令外还可以获取进度条指令
```python
# 通过函数 form_progress_bar 可以获得
# 以计分板为载体所生成的进度条的指令对象列表
# 数据不仅存储在对象本身内,也会以返回值的形式返回,详见代码内文档
# 使用 form_progress_bar 函数进行转换之后,返回值有三个
# 值得注意的是第一个返回值返回的是依照midi频道存储的指令对象列表
# 也就是列表套列表
cvt_mid.form_progress_bar(
max_score, # 音乐时长游戏刻
scoreboard_name, # 进度条使用的计分板名称
progressbar_style, # 进度条样式组(详见下方)
)
# 同上面生成播放指令的理,进度条指令也会存储至对象内
print(
"进度条指令如下:\n{}".format(
cvt_mid.progress_bar_command
)
)
```
在上面的代码中进度条样式是可以自定义的详见[下方说明](%E5%BA%93%E7%9A%84%E7%94%9F%E6%88%90%E4%B8%8E%E5%8A%9F%E8%83%BD%E6%96%87%E6%A1%A3.md#进度条自定义)。
- 转换成指令是一个方面接下来是再转换为可以导入MC的格式我们提供了 **·** 内置的附加组件可以借助 `MidiConvert` 对象转换为相应格式
```python
# 导入 Musicreater
import Musicreater
# 导入附加组件功能
import Musicreater.plugin
# 导入相应的文件格式转换功能
# 转换为函数附加包
import Musicreater.plugin.funpack
# 转换为 BDX 结构文件
import Musicreater.plugin.bdxfile
# 转换为 mcstructure 结构文件
import Musicreater.plugin.mcstructfile
# 转换为结构附加包
import Musicreater.plugin.mcstructpack
# 直接通过 websocket 功能播放(正在开发)
import Musicreater.plugin.websocket
# 定义转换参数
cvt_cfg = Musicreater.plugin.ConvertConfig(
output_path,
volumn, # 音量大小参数
speed, # 速度倍率
progressbar, # 进度条样式组(详见下方)
)
# 使用附加组件转换,其调用的函数应为:
# Musicreater.plugin.输出格式.播放器格式
# 值得注意的是,并非所有输出格式都支持所有播放器格式
# 调用的时候还请注意甄别
# 例如,以下函数是将 MidiConvert 对象 cvt_mid
# 以 cvt_cfg 指定的参数
# 以延迟播放器转换为 mcstructure 文件
Musicreater.plugin.mcstructfile.to_mcstructure_file_in_delay(
cvt_mid,
cvt_cfg,
)
```
# 生成文件结构
@@ -70,49 +154,29 @@ print(convertion_result)
|指令链|与链式指令方块不同一个指令链通常指代的是一串由某种非链式指令方块作为开头后面连着一串链式指令方块的结构|通常的链都应用于需要单次激活而多指令的简单功能|
|起始块|链最初的那个非链式指令方块|此方块为脉冲方块或重复方块皆可|
|指令系统系统|指令系统通常指的是由一个或多个指令链以及相关红石机构相互配合一同组成的为达到某种特定的功能而构建的整体结构|通常的系统都应用于需要综合调配指令的复杂功能可由多个实现不同功能的模块构成不同系统之间可以相互调用各自的模块|
|游戏刻|游戏的一刻是指我的世界的游戏循环运行一次所占用的时间[详见我的世界中文维基](https://minecraft.fandom.com/zh/wiki/%E5%88%BB#%E6%B8%B8%E6%88%8F%E5%88%BB))。指令方块的延迟功能(即指令方块的“延迟刻数”设置项,此项的名称被误译为“已选中项的延迟”)的单位即为`1`游戏刻。|正常情况下,游戏固定以每秒钟20刻的速率运行。但是,由于游戏内的绝大多数操作都是基于刻数而非现实中的时间来计时并进行的,一次游戏循环内也许会发生大量的操作,多情况下,一秒对应的游戏刻会更少。 |
## 文件格式
1. 附加包格式`.mcpack`
使用附加包格式导出音乐则音乐会以指令函数文件`.mcfunction`存储于附加包内在附加包中函数文件的存储结构应为
- `functions\`
- `index.mcfunction`
- `mscply\`
- `progressShow.mcfunction`
- `track1.mcfunction`
- `track2.mcfunction`
- ...
- `trackN.mcfunction`
如图其中`index.mcfunction`文件和`mscply`文件夹存在于函数目录的根下`mscply`目录中包含音乐导出的众多音轨播放文件`trackX.mcfunction`同时若生成此包时选择了带有进度条的选项则会包含`progressShow.mcfunction`文件
`index.mcfunction`用于开始播放其中包含打开各个音轨对应函数的指令以及加分指令这里的加分是将**播放计分板的值大于等于`1`**的所有**玩家**的播放计分板分数增加`1`同时若生成此包时选择了自动重置计分板的选项则会包含一条重置计分板的指令
> 你知道吗·创的最早期版本我的世界函数音乐生成器正是用函数来播放不过这个版本采取的读入数据的形式大有不同
2. 结构格式
无论是音·创生成的是何种结构`MCSTRUCTURE`还是`BDX`都会依照此处的格式来生成此处我们想说明的结构的格式不是结构文件存储的格式而是结构导出之后方块将如何摆放的问题结构文件存储的格式这一点在各个我的世界开发的相关网站上都可能会有说明
考虑到进行我的世界游戏开发时为了节约常加载区域很多游戏会将指令区设立为一种层叠式的结构这种结构会限制每一层的指令系统的高度但是虽然长宽也是有限的却仍然比其纵轴延伸得更加自由
所以结构的生成形状依照给定的高度和内含指令的数量决定 $Z$ 轴延伸长度为指令方块数量对于给定高度之商的向下取整结果的平方根的向下取整用数学公式的方式表达则是
$$MaxZ = \left\lfloor\sqrt{\left\lfloor{\frac{NoC}{MaxH}}\right\rfloor}\right\rfloor$$
其中$MaxZ$即生成结构的$Z$轴最大延伸长度$NoC$表示链结构中所含指令方块的个数$MaxH$表示给定的生成结构的最大高度
我们的结构生成器在生成指令链时将首先以相对坐标系 $(0, 0, 0)$ 即相对原点开始自下向上堆叠高度轴 $Y$ 的长当高度轴达到了限制的高度时便将 $Z$ 轴向正方向堆叠`1`个方块并开始自上向下重新堆叠直至高度轴坐标达到相对为`0`若当所生成结构的 $Z$ 轴长达到了其最大延伸长度则此结构生成器将反转 $Z$ 轴的堆叠方向直至 $Z$ 轴坐标相对为`0`如此往复直至指令链堆叠完成
|游戏刻|游戏的一刻是指我的世界的游戏进程循环运行一次所占用的时间[详见我的世界中文维基](https://minecraft.fandom.com/zh/wiki/%E5%88%BB#%E6%B8%B8%E6%88%8F%E5%88%BB))。指令方块的延迟功能(即指令方块的“延迟刻数”设置项,此项的名称被误译为“已选中项的延迟”)的单位即为`1`游戏刻。|正常情况下,游戏固定以每秒钟 $20$ 刻的速率运行。但是,由于游戏内的绝大多数操作都是基于游戏进程循环而非现实中的时间来计时并进行的,一次游戏循环内也许会发生大量的操作,多情况下,一秒对应的游戏刻会更少。|
|红石刻|一个红石刻代表了两个游戏刻[详见我的世界中文维基](https://minecraft.fandom.com/zh/wiki/%E5%88%BB#%E7%BA%A2%E7%9F%B3%E5%88%BB))。红石中继器会带来 $1$~$4$ 个红石刻的延迟,其默认的延迟时间为 $1$ 红石刻。|正常情况下,红石信号在一个红石电路中传输回存在 $\frac{1}{10}$ 秒左右的延迟。但是,同理于游戏刻,一秒对应的红石刻是不定的。|
## 播放器
以结构生成的文件可以采用多种方式播放一类播放方式我们称其为**播放器**例如**延迟播放器****计分板播放器**等等以后推出的新的播放器届时也会在此处更新
**·**生成的文件可以采用多种方式播放一类播放方式我们称其为**播放器**例如**延迟播放器****计分板播放器**等等以后推出的新的播放器届时也会在此处更新
为什么要设计这么多播放器是为了适应不同的播放环境需要通常情况下一个音乐中含有多个音符音符与音符之间存在间隔这里就产生了不一样的实现音符间时间间隔的方式而不同的应用环境下又会产生不一样的要求接下来将对不同的播放器进行详细介绍
### 参数释义
|参数|说明|备注|
|--------|-----------|----------|
|`ScBd`|指定的计分板名称||
|`Tg`|播放对象|选择器或玩家名|
|`x`|音发出时对应的分数值||
|`InstID`|声音效果ID|不同的声音ID可以对应不同的乐器详见转换[乐器对照表](./%E8%BD%AC%E6%8D%A2%E4%B9%90%E5%99%A8%E5%AF%B9%E7%85%A7%E8%A1%A8.md)|
|`Ht`|播放点对玩家的距离|通过距离来表达声音的响度 $S$ 表示此参数`Ht`以Vol表示音量百分比则计算公式为 $S = \frac{1}{Vol}-1$ |
|`Vlct`|原生我的世界中规定的播放力度|这个参数是一个谜一样的存在似乎它的值毫不重要因为无论这个值是多少我们听起来都差不多当此音符所在MIDI通道为第一通道则这个值为 $0.7$ 倍MIDI指定力度其他则为 $0.9$ |
|`Ptc`|音符的音高|这是决定音调的参数 $P$ 表示此参数 $n$ 表示其在MIDI中的编号 $x$ 表示一定的音调偏移则计算公式为 $P = 2^\frac{n-60-x}{12}$之所以存在音调偏移是因为在我的世界不同的[乐器存在不同的音域](https://zh.minecraft.wiki/wiki/%E9%9F%B3%E7%AC%A6%E7%9B%92#%E4%B9%90%E5%99%A8),我们通过音调偏移来进行调整。|
### 播放器内容
1. 计分板播放器
计分板播放器是一种传统的我的世界音乐播放方式通过对于计分板加分来实现播放不同的音符一个很简单的原理就是**用不同的计分板分值对应不同的音符**再通过加分来达到那个分值即播放出来
@@ -120,17 +184,10 @@ print(convertion_result)
**·**用来达到这种效果的指令是这样的
```mcfunction
execute @a[scores={ScBd=x}] ~ ~ ~ playsound InstID @s ~ ~Ht ~ Vlct Ptc
execute @a[scores={ScBd=x}] ~ ~ ~ playsound InstID @s ^ ^ ^Ht Vlct Ptc
```
|参数|说明|备注|
|--------|-----------|----------|
|`ScBd`|指定的计分板名称||
|`x`|音发出时对应的分数值||
|`InstID`|声音效果ID|不同的声音ID可以对应不同的乐器详见转换[乐器对照表](./%E8%BD%AC%E6%8D%A2%E4%B9%90%E5%99%A8%E5%AF%B9%E7%85%A7%E8%A1%A8.md)|
|`Ht`|播放点对玩家的距离|通过距离来表达声音的响度 $S$ 表示此参数`Ht`以Vol表示音量百分比则计算公式为 $S = \frac{1}{Vol}-1$ |
|`Vlct`|原生我的世界中规定的播放力度|这个参数是一个谜一样的存在似乎它的值毫不重要因为无论这个值是多少我们听起来都差不多当此音符所在MIDI通道为第一通道则这个值为0.7倍MIDI指定力度其他则为0.9|
|`Ptc`|音符的音高|这是决定音调的参数 $P$ 表示此参数 $n$ 表示其在MIDI中的编号 $x$ 表示一定的音域偏移则计算公式为 $P = 2^\frac{n-60-x}{12}$ |
后四个参数决定了这个音的性质而前两个参数仅仅是为了决定音播放的时间
@@ -138,32 +195,78 @@ print(convertion_result)
延迟播放器是通过我的世界游戏中指令方块的设置项延迟刻数来达到定位音符的效果**将所有的音符依照其播放时距离乐曲开始时的时间毫秒放在一个序列内再计算音符两两之间对应的时间差值转换为我的世界内对应的游戏刻数之后填入指令方块的设置中**
·由于此方式播放的音乐不需要用计分板所以播放指令是这样的
**·**由于此方式播放的音乐不需要用计分板所以播放指令是这样的
```mcfunction
execute Tg ~ ~ ~ playsound InstID @s ~ ~Ht ~ Vlct Ptc
execute Tg ~ ~ ~ playsound InstID @s ^ ^ ^Ht Vlct Ptc
```
|参数|说明|备注|
|--------|-----------|----------|
|`Tg`|播放对象|选择器或玩家名|
|`InstID`|声音效果ID|不同的声音ID可以对应不同的乐器详见转换[乐器对照表](./%E8%BD%AC%E6%8D%A2%E4%B9%90%E5%99%A8%E5%AF%B9%E7%85%A7%E8%A1%A8.md)|
|`Ht`|播放点对玩家的距离|通过距离来表达声音的响度 $S$ 表示此参数`Ht`以Vol表示音量百分比则计算公式为 $S = \frac{1}{Vol}-1$ |
|`Vlct`|原生我的世界中规定的播放力度|这个参数是一个谜一样的存在似乎它的值毫不重要因为无论这个值是多少我们听起来都差不多当此音符所在MIDI通道为第一通道则这个值为0.7倍MIDI指定力度其他则为0.9|
|`Ptc`|音符的音高|这是决定音调的参数 $P$ 表示此参数 $n$ 表示其在MIDI中的编号$x$表示一定的音域偏移则计算公式为 $P = 2^\frac{n-60-x}{12}$ |
其中后四个参数决定了这个音的性质
由于这样的延迟数据是依赖于指令方块的设置项所以使用这种播放器所转换出的结果仅可以存储在包含方块NBT信息及方块实体NBT信息的结构文件中或者直接输出至世界
3. 中继器播放器
中继器播放器是一种传统的我的世界红石音乐播放方式利用游戏内红石组件红石中继器以达到定位音符之用**但是中继器的延迟为1红石刻**
## 文件格式
1. 附加包格式`.mcpack`
使用附加包格式导出音乐若采用计分板 播放器则音乐会以指令函数文件`.mcfunction`存储于附加包内而若为延迟或中继器播放器则音乐回以结构文件`.mcstructure`存储在所生成的附加包中函数文件的存储结构应为
- `functions\`
- `index.mcfunction`
- `stop.mcfunction`
- `mscply\`
- `progressShow.mcfunction`
- `track1.mcfunction`
- `track2.mcfunction`
- ...
- `trackN.mcfunction`
- `structures\`
- `XXX_main.mcstructure`
- `XXX_start.mcstructure`
- `XXX_reset.mcstructure`
- `XXX_pgb.mcstructure`
如图其中`index.mcfunction`文件`stop.mcfunction`文件和`mscply`文件夹存在于函数目录的根下`mscply`目录中包含音乐导出的众多音轨播放文件`trackX.mcfunction`同时若使用计分板播放器生成此包时启用生成进度条则会包含`progressShow.mcfunction`文件若选择延迟或中继器播放器则会生成`structures`目录以及相关`.mcstructure`文件其中`mian`表示音乐播放用的主要结构`start`是用于初始化播放的部分仅包含一个指令方块即起始块`reset``pgb`仅在启用生成进度条时出现前者用于重置临时计分板后者用于显示进度条
`index.mcfunction`用于开始播放
1. 若为计分板播放器则其中包含打开各个音轨对应函数的指令以及加分指令这里的加分是将**播放计分板的值大于等于 $1$ 的所有玩家**的播放计分板分数增加 $1$同时若生成此包时选择了自动重置计分板的选项则会包含一条重置计分板的指令
2. 若为延迟或中继器播放器则其中的指令仅包含用以正确加载结构的`structure`指令
`stop.mcfunction`用于终止播放
1. 若为计分板播放器则其中包含将**全体玩家的播放计分板**重置的指令
2. 若为延迟或中继器播放器则其中包含**停用命令方块****启用命令方块**的指令~~然鹅实际上对于播放而言是一点用也没有~~
> 你知道吗·创的最早期版本我的世界函数音乐生成器正是用函数来播放不过这个版本采取的读入数据的形式大有不同
2. 生成结构的方式
无论是音·创生成的是何种结构`MCSTRUCTURE`还是`BDX`都会依照此处的格式来生成此处我们想说明的结构的格式不是结构文件存储的格式而是结构导出之后方块摆放的方式结构文件存储的格式这一点在各个我的世界开发的相关网站上都可能会有说明
考虑到进行我的世界游戏开发时为了节约常加载区域很多游戏会将指令区设立为一种层叠式的结构这种结构会限制每一层的指令系统的高度但是虽然长宽也是有限的却仍然比其纵轴延伸得更加自由
所以结构的生成形状依照给定的高度和内含指令的数量决定 $Z$ 轴延伸长度为指令方块数量对于给定高度之商的向下取整结果的平方根的向下取整用数学公式的方式表达则是
$$ MaxZ = \left\lfloor\sqrt{\left\lfloor{\frac{NoC}{MaxH}}\right\rfloor}\right\rfloor $$
其中$MaxZ$ 即生成结构的$Z$轴最大延伸长度$NoC$ 表示链结构中所含指令方块的个数$MaxH$ 表示给定的生成结构的最大高度
我们的结构生成器在生成指令链时将首先以相对坐标系 $(0, 0, 0)$ 即相对原点开始自下向上堆叠高度轴 $Y$ 的长当高度轴达到了限制的高度时便将 $Z$ 轴向正方向堆叠 $1$ 个方块并开始自上向下重新堆叠直至高度轴坐标达到相对为 $0$若当所生成结构的 $Z$ 轴长达到了其最大延伸长度则此结构生成器将反转 $Z$ 轴的堆叠方向直至 $Z$ 轴坐标相对为 $0$如此往复直至指令链堆叠完成
# 进度条自定义
因为我们提供了可以自动转换进度条的功能因此在这里给出进度条自定义参数的详细解释
请注意并非所有的演示样例程序都支持自定义进度条
一个进度条明显地**固定部分****可变部分**来构成而可变部分又包括了文字和图形两种当然我的世界里头的进度条可变的图形也就是那个这一点你需要了解因为后文中包含了很多这方面的概念需要你了解
进度条的自定义功能使用一个字符串来定义自己的样式其中包含众多**标识符**来表示可变部分
@@ -182,23 +285,31 @@ print(convertion_result)
表示进度条占位的 `_` 是用来标识你的进度条的也就是可变部分的唯一的图形部分
**样式定义字符串**的样例如下这也是默认进度条的样式
**样式定义字符串基础样式**的样例如下这也是默认进度条的基础样式
` %%N [ %%s/%^s %%% __________ %%t|%^t]`
``` %%N [ %%s/%^s %%% __________ %%t|%^t]```
这是单独一行的进度条当然你也可以制作多行的如果是一行的输出时所使用的指令便是 `title`而如果是多行的话输出就会用 `titleraw` 作为进度条字幕
哦对了上面的只不过是样式定义同时还需要定义的是可变图形的部分也就是进度条上那个真正的
对于这个我们就采用了固定参数的方法对于一个进度条无非就是已经播放过的没播放过的两种形态所以使用一个元组来传入这两个参数就是最简单的了元组的格式也很简单`(str: 播放过的部分长啥样, str: 没播放过的部分长啥样)` 例如我们默认的进度的定义是这样的
对于这个我们就采用了固定参数的方法对于一个进度条无非就是已经播放过的没播放过的两种形态例如我们默认的进度**可变样式**的定义是这样的
`('§e=§r', '§7=§r')`
**可变样式甲已播放样式**`'§e=§r'`
综合起来把这些参数传给函数需要一个参数整合你猜用的啥啊对对对我用的还是元组
**可变样式乙未播放样式**`'§7=§r'`
综合起来把这些参数传给函数需要一个参数整合使用位于 `Musicreater/subclass.py` 下的 `ProgressBarStyle` 类进行定义
我们的默认定义参数如下
`(r'%%N [ %%s/%^s %%% __________ %%t|%^t]',('§e=§r', '§7=§r'))`
```python
DEFAULT_PROGRESSBAR_STYLE = ProgressBarStyle(
r"%%N [ %%s/%^s %%% __________ %%t|%^t ]",
r"§e=§r",
r"§7=§r",
)
```
*对了为了避免生成错误请尽量避免使用标识符作为定义样式字符串的其他部分*
*为了避免生成错误请尽量避免使用标识符作为定义样式字符串的其他部分*

36
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View File

@@ -1,29 +1,37 @@
<h1 align="center">· Musicreater</h1>
<h2 align="center">库版 Package Version</h2>
<p align="center">
<img width="128" height="128" src="https://s1.ax1x.com/2022/05/06/Ouhghj.md.png" >
<img width="128" height="128" src="https://gitee.com/TriM-Organization/Musicreater/raw/master/resources/msctIcon.png" >
</p>
# 生成文件的使用
*由于先前的 **读我文件**(README.md) 过于冗杂现另辟蹊径来给大家全方位的教程*
*这是本库所生成文件的使用声明不是使用本库的教程若要查看**本库的演示程序**使用教程可点击[此处](%E5%8A%9F%E8%83%BD%E4%BD%BF%E7%94%A8%E8%AF%B4%E6%98%8E.md)若要查看有关文件结构的内容可以点击[此处](./%E7%94%9F%E6%88%90%E6%96%87%E4%BB%B6%E7%BB%93%E6%9E%84%E8%AF%B4%E6%98%8E.md)*
*这是本库所生成文件的使用声明不是使用本库的教程若要查看**本库的文档**可点击[此处](./%E5%BA%93%E7%9A%84%E7%94%9F%E6%88%90%E4%B8%8E%E5%8A%9F%E8%83%BD%E6%96%87%E6%A1%A3.md)若要查看有关文件结构的内容可以点击[此处](./%E7%94%9F%E6%88%90%E6%96%87%E4%BB%B6%E7%BB%93%E6%9E%84%E8%AF%B4%E6%98%8E.md)*
## 附加包格式
支持的文件后缀`.MCPACK`
1. 导入附加包
2. 在一个循环方块中输入指令 `function index`
3. 将需要聆听音乐的实体的播放所用计分板设置为 `1`
4. 激活循环方块
5. 若想要暂停播放可以停止循环指令方块的激活状态
6. 若想要重置某实体的播放可以将其播放用的计分板重置
- 计分板播放器
> 其中 步骤三 步骤四 的顺序可以调换
1. 导入附加包
2. 在一个循环方块中输入指令 `function index`
3. 将需要聆听音乐的实体的播放所用计分板设置为 `1`
4. 激活循环方块
5. 若想要暂停播放可以停止循环指令方块的激活状态
6. 若想要重置某实体的播放可以将其播放用的计分板重置
7. 若要终止全部玩家的播放在聊天框输入指令 `function stop`
> 其中 步骤三 步骤四 的顺序可以调换
- 延迟播放器
1. 导入附加包
2. 在聊天框输入指令 `function index`
3. 同时激活所生成的循环和脉冲指令方块
4. 若要终止播放在聊天框输入指令 `function stop` 试试看不确保有用
> 需要注意的是循环指令方块需要一直激活直到音乐结束
## 结构格式
@@ -41,7 +49,7 @@
- 计分板播放器
2. 在所生成的第一个指令方块前放置一个循环指令方块其朝向应当对着所生成的第一个方块
3. 在循环指令方块中输入使播放对象的播放用计分板加分的指令延迟为`0`每次循环增加`1`
3. 在循环指令方块中输入使播放对象的播放用计分板加分的指令延迟为 `0`每次循环增加 `1`
4. 激活循环方块
5. 若想要暂停播放可以停止循环指令方块的激活状态
6. 若想要重置某实体的播放可以将其播放用的计分板重置

222
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@@ -1,2 +1,222 @@
<h1 align="center">· Musicreater</h1>
# 暂无
<p align="center">
<img width="128" height="128" src="https://gitee.com/TriM-Organization/Musicreater/raw/master/resources/msctIcon.png" >
</p>
# 转换乐器对照表
**_注意本文档中的对照表版权归属于音·创作者并按照本仓库根目录下 LICENSE.md 中规定开源_**
原表格请见[constant.py](../Musicreater/constants.py#176)
**_使用时请遵循协议规定_**
- 版权所有 © 2025 金羿 & 诸葛亮与八卦阵
- Copyright © 2025 Eilles & bgArray
* ·本项目的协议颁发者为 金羿诸葛亮与八卦阵
* The Licensor of Musicreater("this project") is Eilles, bgArray.
本项目根据 第一版 汉钰律许可协议本协议授权
任何人皆可从以下地址获得本协议副本https://gitee.com/EillesWan/YulvLicenses
若非因法律要求或经过了特殊准许此作品在根据本协议原样提供的基础上不予提供任何形式的担保任何明示任何暗示或类似承诺也就是说用户将自行承担因此作品的质量或性能问题而产生的全部风险
详细的准许和限制条款请见原协议文本
· 开发交流群 861684859\
Email TriM-Organization@hotmail.com\
若需转载或借鉴 许可声明请查看仓库根目录下的 License.md
### 名词解释
| 名词 | 说明 |
| ------------ | ------------------------------------------------------------------------------------------------------------------------------- |
| 音符名称 | 我的世界游戏内用于播放音乐的 `playsound` 指令所规定的 `Sound ID` |
| 音调偏移参数 | 我的世界不同乐器的音域不同对应的 `pitch` 值也不尽相同该参数的解释请参考[文档说明](库的生成与功能文档.md#参数释义) |
# 乐音乐器
对照表版本2023 0527
| Midi 乐器值 | 音符名称 | 音调偏移参数 |
| ----------- | ------------------- | ------------ |
| 0 | note.harp | 6 |
| 1 | note.harp | 6 |
| 2 | note.pling | 6 |
| 3 | note.harp | 6 |
| 4 | note.pling | 6 |
| 5 | note.pling | 6 |
| 6 | note.harp | 6 |
| 7 | note.harp | 6 |
| 8 | note.share | 7 |
| 9 | note.harp | 6 |
| 10 | note.didgeridoo | 8 |
| 11 | note.harp | 6 |
| 12 | note.xylophone | 4 |
| 13 | note.chime | 4 |
| 14 | note.harp | 6 |
| 15 | note.harp | 6 |
| 16 | note.bass | 8 |
| 17 | note.harp | 6 |
| 18 | note.harp | 6 |
| 19 | note.harp | 6 |
| 20 | note.harp | 6 |
| 21 | note.harp | 6 |
| 22 | note.harp | 6 |
| 23 | note.guitar | 7 |
| 24 | note.guitar | 7 |
| 25 | note.guitar | 7 |
| 26 | note.guitar | 7 |
| 27 | note.guitar | 7 |
| 28 | note.guitar | 7 |
| 29 | note.guitar | 7 |
| 30 | note.guitar | 7 |
| 31 | note.bass | 8 |
| 32 | note.bass | 8 |
| 33 | note.bass | 8 |
| 34 | note.bass | 8 |
| 35 | note.bass | 8 |
| 36 | note.bass | 8 |
| 37 | note.bass | 8 |
| 38 | note.bass | 8 |
| 39 | note.bass | 8 |
| 40 | note.harp | 6 |
| 41 | note.harp | 6 |
| 42 | note.harp | 6 |
| 43 | note.harp | 6 |
| 44 | note.iron_xylophone | 6 |
| 45 | note.guitar | 7 |
| 46 | note.harp | 6 |
| 47 | note.harp | 6 |
| 48 | note.guitar | 7 |
| 49 | note.guitar | 7 |
| 50 | note.bit | 6 |
| 51 | note.bit | 6 |
| 52 | note.harp | 6 |
| 53 | note.harp | 6 |
| 54 | note.bit | 6 |
| 55 | note.flute | 5 |
| 56 | note.flute | 5 |
| 57 | note.flute | 5 |
| 58 | note.flute | 5 |
| 59 | note.flute | 5 |
| 60 | note.flute | 5 |
| 61 | note.flute | 5 |
| 62 | note.flute | 5 |
| 63 | note.flute | 5 |
| 64 | note.bit | 6 |
| 65 | note.bit | 6 |
| 66 | note.bit | 6 |
| 67 | note.bit | 6 |
| 68 | note.flute | 5 |
| 69 | note.harp | 6 |
| 70 | note.harp | 6 |
| 71 | note.flute | 5 |
| 72 | note.flute | 5 |
| 73 | note.flute | 5 |
| 74 | note.harp | 6 |
| 75 | note.flute | 5 |
| 76 | note.harp | 6 |
| 77 | note.harp | 6 |
| 78 | note.harp | 6 |
| 79 | note.harp | 6 |
| 80 | note.bit | 6 |
| 81 | note.bit | 6 |
| 82 | note.bit | 6 |
| 83 | note.bit | 6 |
| 84 | note.bit | 6 |
| 85 | note.bit | 6 |
| 86 | note.bit | 6 |
| 87 | note.bit | 6 |
| 88 | note.bit | 6 |
| 89 | note.bit | 6 |
| 90 | note.bit | 6 |
| 91 | note.bit | 6 |
| 92 | note.bit | 6 |
| 93 | note.bit | 6 |
| 94 | note.bit | 6 |
| 95 | note.bit | 6 |
| 96 | note.bit | 6 |
| 97 | note.bit | 6 |
| 98 | note.bit | 6 |
| 99 | note.bit | 6 |
| 100 | note.bit | 6 |
| 101 | note.bit | 6 |
| 102 | note.bit | 6 |
| 103 | note.bit | 6 |
| 104 | note.harp | 6 |
| 105 | note.banjo | 6 |
| 106 | note.harp | 6 |
| 107 | note.harp | 6 |
| 108 | note.harp | 6 |
| 109 | note.harp | 6 |
| 110 | note.harp | 6 |
| 111 | note.guitar | 7 |
| 112 | note.harp | 6 |
| 113 | note.bell | 4 |
| 114 | note.harp | 6 |
| 115 | note.cow_bell | 5 |
| 116 | note.bd | 7 |
| 117 | note.bass | 8 |
| 118 | note.bit | 6 |
| 119 | note.bd | 7 |
| 120 | note.guitar | 7 |
| 121 | note.harp | 6 |
| 122 | note.harp | 6 |
| 123 | note.harp | 6 |
| 124 | note.harp | 6 |
| 125 | note.hat | 7 |
| 126 | note.bd | 7 |
| 127 | note.snare | 7 |
# 打击乐器
| Midi 打击乐器值 | 音符名称 | 音调偏移参数 |
| --------------- | ------------------- | ------------ |
| 34 | note.bd | 7 |
| 35 | note.bd | 7 |
| 36 | note.hat | 7 |
| 37 | note.snare | 7 |
| 38 | note.snare | 7 |
| 39 | note.snare | 7 |
| 40 | note.hat | 7 |
| 41 | note.snare | 7 |
| 42 | note.hat | 7 |
| 43 | note.snare | 7 |
| 44 | note.snare | 7 |
| 45 | note.bell | 4 |
| 46 | note.snare | 7 |
| 47 | note.snare | 7 |
| 48 | note.bell | 4 |
| 49 | note.hat | 7 |
| 50 | note.bell | 4 |
| 51 | note.bell | 4 |
| 52 | note.bell | 4 |
| 53 | note.bell | 4 |
| 54 | note.bell | 4 |
| 55 | note.bell | 4 |
| 56 | note.snare | 7 |
| 57 | note.hat | 7 |
| 58 | note.chime | 4 |
| 59 | note.iron_xylophone | 6 |
| 60 | note.bd | 7 |
| 61 | note.bd | 7 |
| 62 | note.xylophone | 4 |
| 63 | note.xylophone | 4 |
| 64 | note.xylophone | 4 |
| 65 | note.hat | 7 |
| 66 | note.bell | 4 |
| 67 | note.bell | 4 |
| 68 | note.hat | 7 |
| 69 | note.hat | 7 |
| 70 | note.flute | 5 |
| 71 | note.flute | 5 |
| 72 | note.hat | 7 |
| 73 | note.hat | 7 |
| 74 | note.xylophone | 4 |
| 75 | note.hat | 7 |
| 76 | note.hat | 7 |
| 77 | note.xylophone | 4 |
| 78 | note.xylophone | 4 |
| 79 | note.bell | 4 |
| 80 | note.bell | 4 |

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# 音乐序列文件格式
· 库的音符序列文件格式包含两种一种是常规的音乐序列存储采用的 MSQ 格式另一种是为了流式读取音符而采用的 FSQ 格式
## MSQ 数据格式
MSQ 格式是 · 库存储音符序列的一种字节码格式取自 **M**usic**S**e**Q**uence 类之名
现在 · 库及其上游软件使用的是在 第二版 的基础上增设校验功能的 MSQ 第三版
### MSQ 第三版
第三版 MSQ 格式的码头是 `MSQ!` 这一版中所有的**字符串**皆以 _**GB18030**_ 编码进行编解码**数值**皆是以 _**大端字节序**_ 存储的无符号整数
码头是字节码前四个字节的内容这一部分内容是可读的 ASCII 字串因此第三版的字节码中前四个字节的内容必为 `MSQ!`
第二版 MSQ `MSQ@` 作为码头是因为美式键盘上 @ Shift+2 按下取得的故代表 MSQ 第二版
你猜为什么第三版是 `MSQ!`
#### 元信息
| 信息名称 | 西文代号 | 位长多少个 0 1 | 支持说明 |
| ------------------------------ | -------------------------- | --------------------- | ---------------------------------------------------------------------------------------------------------------------------------------------------------- |
| **码头** | _无_ | 32 | 值为 `MSQ!` |
| **音乐名称长度** | music_name_length | 6 | 支持数值 0~63 |
| **最小音量** | minimum_volume | 10 | 支持数值 0~1023注意这里每个 1 代表最小音量的 0.001 个单位即取值是此处表示数字的千分倍 |
| **是否启用高精度音符时间控制** | enable_high_precision_time | 1 | 1 是启用反之同理 |
| **总音调偏移** | music_deviation | 15 | 支持数值 -16383~16383这里也是表示三位小数的和最小音量一样这里 15 位中的第一位从左往右是正负标记若为 1 则为负数反之为正数后面的 14 位是数值 |
| **音乐名称** | music_name | 依据先前定义 | 最多可支持 31 个中文字符 63 个西文字符其长度取决于先前获知的 音乐名称长度 的定义 |
在这一元信息中**音乐名称长度****最小音量**合计共 2 字节**高精度音符时间控制启用****总音调偏移**合计共 2 字节因此**音乐名称**为任意长度前四字节内容均为固定
#### 音符序列
每个序列前 4 字节为一个用以表示当前通道中音符数量的值也就是**通道音符数**notes_count也即是说一个通道内的音符可以是 0~4294967295
在这之后就是这些数量的音符了其中每个音符的信息存储方式如下
| 信息名称 | 西文代号 | 位长 | 支持说明 |
| ---------------------------- | ------------------------ | ------------------------------- | ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
| **乐器名称长度** | name_length | 6 | 支持数值 0~63 |
| **Midi 音高** | note_pitch | 7 | 支持数值 0~127 |
| **开始时刻** | start_tick | 17 | 单位 二十分之一秒即约为 1 命令刻支持数值 0~131071 109.22583 分钟 1.8204305 小时 |
| **音符持续刻数** | duration | 17 | 同上 |
| **是否作为打击乐器** | percussive | 1 | 1 是启用反之同理 |
| **响度力度** | velocity | 7 | 支持数值 0~127 |
| **是否启用声像位移** | is_displacement_included | 1 | 1 是启用反之同理 |
| **时间精度提升值**非必含 | high_time_precision | 8 | 支持数值 0~255若在 元信息 中启用**高精度音符时间控制**则此值启用代表音符时间控制精度偏移此值每增加 1则音符开始时刻向后增加 1/1250 |
| **乐器名称** | sound_name | 依据先前定义 | 最多可支持 31 个中文字符 63 个西文字符其长度取决于先前获知的 乐器名称长度 的定义 |
| **声像位移**非必含 | position_displacement | 共三个值每个值 16 48 | 若前述**是否启用声像位移**已启用则此值启用三个值分别代表 xyz 轴上的偏移每个值支持数值 0~65535注意这里每个 1 代表最小音量的 0.001 个单位即取值是此处表示数字的千分倍 |
#### 序列校验
_第三版新增_
在每个音符序列结尾包含一个 128 位的校验值用以标识该序列结束的同时验证该序列的完整性
在这 128 位里 64 位是该通道音符数的 XXHASH64 校验值 3 作为种子值
64 位是整个通道全部字节串的 XXHASH64 校验值包括通道开头的音符数 该通道音符数 作为种子值
#### 总体校验
_第三版新增_
在所有有效数据之后包含一个 128 位的校验值用以标识整个字节串结束的同时验证整个字节码数据的完整性
128 位的校验值是 包括码头在内的元信息的 XXHASH64 校验值种子值是全曲音符数 对于前述所有校验值彼此异或的异或 所得值之 XXHASH128 校验值 全曲音符总数 作为种子值
请注意是前述每个 XXHASH64 校验值的异或每次取 XXHASH64 都计一遍也就并非是每个序列结尾那个已经合并了的 128 位校验值再彼此异或对于这个异或值再取其种子是 全曲音符数 XXHASH128 校验字节码
听起来很复杂我来举个例子以下是该算法的伪代码我们设
- `meta_info` : `bytes` 元信息字节串
- `note_seq_1` : `bytes` 第一个音符序列的编码字节串
- `note_seq_2` : `bytes` 第二个音符序列的编码字节串
- `XXH64(bytes, seed)` : `bytes` XXHASH64 校验函数
- `XXH128(bytes, seed)` : `bytes` XXHASH128 校验函数
- `XOR(bytesLike, bytesLike)` : `bytes` 异或 函数
- `note_count` : `int` 全曲音符数
- `seq_1_note_count` : `int` 第一个音符序列的音符数
- `seq_2_note_count` : `int` 第二个音符序列的音符数
为了简化我们假设只有两个序列实际上每个通道都是一个序列最多 16 个序列
那么一个完整的 MSQ 文件应当如下排列其字节串
```assembly
ADD meta_info
ADD note_seq_1
ADD XXH64(seq_1_note_count, 3)
ADD XXH64(note_seq_1, seq_1_note_count)
ADD note_seq_2
ADD XXH64(seq_2_note_count, 3)
ADD XXH64(note_seq_2, seq_2_note_count)
ADD XXH128(
XOR(
XOR(
XXH64(meta_info, note_count),
XOR(
XXH64(seq_1_note_count, 3),
XXH64(note_seq_1, seq_1_note_count)
),
),
XOR(
XXH64(seq_2_note_count, 3),
XXH64(note_seq_2, seq_2_note_count),
)
),
note_count
)
```
## FSQ 数据格式
FSQ 格式是 · 库存储音符序列的一种字节码格式取自 **F**lowing Music **S**e**q**uence 之名
现在 · 库及其上游软件使用的是在 MSQ 第三版 的基础上进行流式的兼容性变动
### FSQ 第一版
第一版的码头是 `FSQ!` 这一版中所有的**字符串**皆以 _**GB18030**_ 编码进行编解码**数值**皆是以 _**大端字节序**_ 存储的无符号整数
码头是字节串前四个字节的内容这一部分内容是可读的 ASCII 字串因此这一版的文件前四个字节的内容必为 `FSQ!`
因为这一版本是在 MSQ 第三版的基础上演变而来的因此取自 MSQ 码头的 `MSQ!` 而改作 `FSQ!`
#### 元信息
FSQ 第一版的元信息是在 MSQ 第三版的元信息的基础上增加了一个占 5 字节的全曲音符总数
也就是说 MSQ 第三版一致的在这一组信息中**音乐名称长度****最小音量**合计共 2 字节**高精度音符时间控制启用****总音调偏移**合计共 2 字节因此**音乐名称**为任意长度前四字节内容均为固定而最后增加 5 字节作为全曲音符总数
#### 音符序列
FSQ 格式不包含音符的通道信息在读取处理时默认将同一乐器的音符视为同一通道也就是说仅存在一个序列其中每个音符的信息存储方式与 MSQ 第三版一致
音符序列的存储顺序是按照音符的**开始时间**进行排序的
但是注意有可能一个较长的音符的开始到结束时间内还包含有音符此时如有要适配的读取器还请继续读取直到下一个音符的开始时间大于此较长音符的结束时间
在每 100 个音符后插入一段 32 位的 XXHASH32 校验码其所校验的内容为这一百个音符中每个音符的第 6 个字节彼此异或之结果种子值为这一百个音符中每个音符的第 2 个字节的彼此异或结果
若最后不满足 100 个音符则不插入上述校验码
#### 总体校验
在所有有效数据之后包含一个 128 位的校验值用以标识整个字节串结束的同时验证整个字节码数据的完整性
128 位的校验值是 包括码头在内的元信息的 XXHASH64 校验值种子值是全曲音符数 对于前述所有 XXHASH32 校验值彼此异或的异或 所得值之 XXHASH128 校验值 全曲音符总数 作为种子值

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# -*- coding: utf-8 -*-
# 伶伦 开发交流群 861684859
"""
音·创 (Musicreater) 演示程序
是一款免费开源的针对《我的世界》的midi音乐转换库
Musicreater (音·创)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2023 音·创 开发者
Copyright © 2023 all the developers of Musicreater
开源相关声明请见 ./License.md
Terms & Conditions: ./License.md
"""
import os
import Musicreater
# 获取midi列表
midi_path = input(f"请输入MIDI路径")
# 获取输出地址
out_path = input(f"请输入输出路径:")
conversion = Musicreater.midiConvert()
def isMethodOK(sth: str):
if int(sth) in range(1, len(conversion.methods) + 1):
return int(sth)
else:
raise ValueError
convert_method = int(input(f"请输入转换算法[1~{len(conversion.methods)}]"))
# 选择输出格式
fileFormat = int(input(f"请输入输出格式[BDX(1) 或 MCPACK(0)]").lower())
playerFormat = int(input(f"请选择播放方式[计分板(1) 或 延迟(0)]").lower())
# 真假字符串判断
def bool_str(sth: str) -> bool:
try:
return bool(float(sth))
except ValueError:
if str(sth).lower() == "true":
return True
elif str(sth).lower() == "false":
return False
else:
raise ValueError("布尔字符串啊?")
debug = False
if os.path.exists("./demo_config.json"):
import json
prompts = json.load(open("./demo_config.json", "r", encoding="utf-8"))
if prompts[-1] == "debug":
debug = True
prompts = prompts[:-1]
else:
prompts = []
# 提示语 检测函数 错误提示语
for args in [
(
f"输入音量:",
float,
),
(
f"输入播放速度:",
float,
),
(
f"是否启用进度条:",
bool_str,
),
(
f"计分板名称:",
str,
)
if playerFormat == 1
else (
f"玩家选择器:",
str,
),
(
f"是否自动重置计分板:",
bool_str,
)
if playerFormat == 1
else (),
(
f"作者名称:",
str,
)
if fileFormat == 1
else (),
(
f"最大结构高度:",
int,
)
if fileFormat == 1
else (),
]:
if args:
prompts.append(args[1](input(args[0])))
conversion = Musicreater.midiConvert(debug=debug)
print(f"正在处理 {midi_path} ")
conversion.convert(midi_path, out_path)
if debug:
with open("./records.json", "a", encoding="utf-8") as f:
json.dump(conversion.toDICT(), f)
f.write(5 * "\n")
conversion_result = (
conversion.to_mcpack(convert_method, *prompts)
if fileFormat == 0
else (
conversion.to_BDX_file(convert_method, *prompts)
if playerFormat == 1
else conversion.to_BDX_file_with_delay(convert_method, *prompts)
)
)
if conversion_result[0]:
print(
f" 指令总长:{conversion_result[1]},最高延迟:{conversion_result[2]}{f''',结构大小{conversion_result[3]},最末坐标{conversion_result[4]}''' if fileFormat == 1 else ''}"
)
else:
print(f"失败:{conversion_result}")
exitSth = input("回车退出").lower()
if exitSth == "record":
import json
with open("./demo_config.json", "w", encoding="utf-8") as f:
json.dump(prompts, f)
elif exitSth == "delrec":
os.remove("./demo_config.json")

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example_mcstructure.py
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from Musicreater import midiConvert
conversion = midiConvert(enable_old_exe_format=False)
conversion.convert(input("midi路径:"), input("输出路径:"))
conversion.to_mcstructure_file_with_delay(
3,
)

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old-things/Musicreater/magicmain.py Normal file
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# -*- coding: utf-8 -*-
"""
功能测试 若非已知 请勿更改
此文件仅供功能测试,并非实际调用的文件
请注意,此处的文件均为测试使用
不要更改 不要更改 不要更改
请注意这里的一切均需要其原作者更改
这里用于放置一些新奇的点子
用于测试
不要更改 不要更改 不要更改!
"""
# 音·创 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 版权所有 金羿("Eilles") & 诸葛亮与八卦阵("bgArray") & 鸣凤鸽子("MingFengPigeon")
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
"""
音·创 (Musicreater)
是一款免费开源的针对《我的世界》的midi音乐转换库
Musicreater (音·创)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 ../License.md
Terms & Conditions: ../License.md
"""
# ============================
import mido
class NoteMessage:
def __init__(
self, channel, pitch, velocity, startT, lastT, midi, now_bpm, change_bpm=None
):
self.channel = channel
self.note = pitch
self.velocity = velocity
self.startTime = startT
self.lastTime = lastT
self.tempo = now_bpm # 这里要程序实现获取bpm可以参考我的程序
def mt2gt(mt, tpb_a, bpm_a):
return mt / tpb_a / bpm_a * 60
self.startTrueTime = mt2gt(
self.startTime, midi.ticks_per_beat, self.tempo
) # / 20
# delete_extra_zero(round_up())
if change_bpm is not None:
self.lastTrueTime = mt2gt(
self.lastTime, midi.ticks_per_beat, change_bpm
) # / 20
else:
self.lastTrueTime = mt2gt(
self.lastTime, midi.ticks_per_beat, self.tempo
) # / 20
# delete_extra_zero(round_up())
print((self.startTime * self.tempo) / (midi.ticks_per_beat * 50000))
def __str__(self):
return (
"noteMessage channel="
+ str(self.channel)
+ " note="
+ str(self.note)
+ " velocity="
+ str(self.velocity)
+ " startTime="
+ str(self.startTime)
+ " lastTime="
+ str(self.lastTime)
+ " startTrueTime="
+ str(self.startTrueTime)
+ " lastTrueTime="
+ str(self.lastTrueTime)
)
def load(mid: mido.MidiFile):
type_ = [False, False, False] # note_off / note_on+0 / mixed
is_tempo = False
# 预检
for i, track in enumerate(mid.tracks):
for msg in track:
# print(msg)
if msg.is_meta is not True:
if msg.type == "note_on" and msg.velocity == 0:
type_[1] = True
elif msg.type == "note_off":
type_[0] = True
if msg.is_meta is True and msg.type == "set_tempo":
is_tempo = True
if is_tempo is not True:
raise Exception("这个mid没有可供计算时间的tempo事件")
if type_[0] is True and type_[1] is True:
type_[2] = True
type_[1] = False
type_[0] = False
print(type_)
bpm = 0
recent_change_bpm = 0
is_change_bpm = False
# 实检
for i, track in enumerate(mid.tracks):
noteOn = []
trackS = []
ticks = 0
for msg in track:
print(msg)
ticks += msg.time
print(ticks)
if msg.is_meta is True and msg.type == "set_tempo":
recent_change_bpm = bpm
bpm = 60000000 / msg.tempo
is_change_bpm = True
if msg.type == "note_on" and msg.velocity != 0:
noteOn.append([msg, msg.note, ticks])
if type_[1] is True:
if msg.type == "note_on" and msg.velocity == 0:
for u in noteOn:
index = 0
if u[1] == msg.note:
lastMessage = u[0]
lastTick = u[2]
break
index += 1
print(lastTick)
if is_change_bpm and recent_change_bpm != 0:
trackS.append(
NoteMessage(
msg.channel,
msg.note,
lastMessage.velocity,
lastTick,
ticks - lastTick,
mid,
recent_change_bpm,
bpm,
)
)
is_change_bpm = False
else:
trackS.append(
NoteMessage(
msg.channel,
msg.note,
lastMessage.velocity,
lastTick,
ticks - lastTick,
mid,
bpm,
)
)
# print(noteOn)
# print(index)
try:
noteOn.pop(index)
except IndexError:
noteOn.pop(index - 1)
print(trackS)
for j in trackS:
print(j)
if __name__ == "__main__":
load(mido.MidiFile("test.mid"))
# ============================
from typing import Literal
from ..constants import x, y, z
# 不要用 没写完
def delay_to_note_blocks(
baseblock: str = "stone",
position_forward: Literal["x", "y", "z"] = z,
):
"""传入音符,生成以音符盒存储的红石音乐
:param:
baseblock: 中继器的下垫方块
position_forward: 结构延长方向
:return 是否生成成功
"""
from TrimMCStruct import Block, Structure
struct = Structure(
(_sideLength, max_height, _sideLength), # 声明结构大小
)
log = print
startpos = [0, 0, 0]
# 1拍 x 2.5 rt
for i in notes:
error = True
try:
struct.set_block(
[startpos[0], startpos[1] + 1, startpos[2]],
form_note_block_in_NBT_struct(height2note[i[0]], instrument),
)
struct.set_block(
startpos,
Block("universal_minecraft", instuments[i[0]][1]),
)
error = False
except ValueError:
log("无法放置音符:" + str(i) + "" + str(startpos))
struct.set_block(Block("universal_minecraft", baseblock), startpos)
struct.set_block(
Block("universal_minecraft", baseblock),
[startpos[0], startpos[1] + 1, startpos[2]],
)
finally:
if error is True:
log("无法放置音符:" + str(i) + "" + str(startpos))
struct.set_block(Block("universal_minecraft", baseblock), startpos)
struct.set_block(
Block("universal_minecraft", baseblock),
[startpos[0], startpos[1] + 1, startpos[2]],
)
delay = int(i[1] * speed + 0.5)
if delay <= 4:
startpos[0] += 1
struct.set_block(
form_repeater_in_NBT_struct(delay, "west"),
[startpos[0], startpos[1] + 1, startpos[2]],
)
struct.set_block(Block("universal_minecraft", baseblock), startpos)
else:
for j in range(int(delay / 4)):
startpos[0] += 1
struct.set_block(
form_repeater_in_NBT_struct(4, "west"),
[startpos[0], startpos[1] + 1, startpos[2]],
)
struct.set_block(Block("universal_minecraft", baseblock), startpos)
if delay % 4 != 0:
startpos[0] += 1
struct.set_block(
form_repeater_in_NBT_struct(delay % 4, "west"),
[startpos[0], startpos[1] + 1, startpos[2]],
)
struct.set_block(Block("universal_minecraft", baseblock), startpos)
startpos[0] += posadder[0]
startpos[1] += posadder[1]
startpos[2] += posadder[2]

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# -*- coding: utf-8 -*-
"""
存放一些报错类型
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
class MSCTBaseException(Exception):
"""音·创 的所有错误均继承于此"""
def __init__(self, *args):
"""音·创 的所有错误均继承于此"""
super().__init__("音·创", *args)
def meow(
self,
):
for i in self.args:
print(i + "喵!")
def crash_it(self):
raise self
class MidiFormatException(MSCTBaseException):
"""音·创 的所有MIDI格式错误均继承于此"""
def __init__(self, *args):
"""音·创 的所有MIDI格式错误均继承于此"""
super().__init__("MIDI 格式错误", *args)
class MidiDestroyedError(MSCTBaseException):
"""Midi文件损坏"""
def __init__(self, *args):
"""Midi文件损坏"""
super().__init__("MIDI文件损坏无法读取 MIDI 文件", *args)
# class MidiUnboundError(MSCTBaseException):
# """未定义Midi对象无用"""
# def __init__(self, *args):
# """未绑定Midi对象"""
# super().__init__("未定义MidiFile对象你甚至没有对象就想要生孩子", *args)
# 此错误在本版本内已经不再使用
class CommandFormatError(MSCTBaseException, RuntimeError):
"""指令格式与目标格式不匹配而引起的错误"""
def __init__(self, *args):
"""指令格式与目标格式不匹配而引起的错误"""
super().__init__("指令格式不匹配", *args)
# class CrossNoteError(MidiFormatException):
# """同通道下同音符交叉出现所产生的错误"""
# def __init__(self, *args):
# """同通道下同音符交叉出现所产生的错误"""
# super().__init__("同通道下同音符交叉", *args)
# 这TM是什么错误
# 我什么时候写的这玩意?
# 我哪知道这说的是啥?
#
# 我知道这是什么了 —— 金羿 2025 0401
# 两个其他属性相同的音符在同一个通道,出现连续两个开音信息和连续两个停止信息
# 那么这两个音符的音长无法判断。这是个好问题,但是不是我现在能解决的,也不是我们现在想解决的问题
class NotDefineTempoError(MidiFormatException):
"""没有Tempo设定导致时间无法计算的错误"""
def __init__(self, *args):
"""没有Tempo设定导致时间无法计算的错误"""
super().__init__("在曲目开始时没有声明 Tempo未指定拍长", *args)
class ChannelOverFlowError(MidiFormatException):
"""一个midi中含有过多的通道"""
def __init__(self, max_channel=16, *args):
"""一个midi中含有过多的通道"""
super().__init__("含有过多的通道(数量应≤{}".format(max_channel), *args)
class NotDefineProgramError(MidiFormatException):
"""没有Program设定导致没有乐器可以选择的错误"""
def __init__(self, *args):
"""没有Program设定导致没有乐器可以选择的错误"""
super().__init__("未指定演奏乐器", *args)
class NoteOnOffMismatchError(MidiFormatException):
"""音符开音和停止不匹配的错误"""
def __init__(self, *args):
"""音符开音和停止不匹配的错误"""
super().__init__("音符不匹配", *args)
class LyricMismatchError(MSCTBaseException):
"""歌词匹配解析错误"""
def __init__(self, *args):
"""有可能产生了错误的歌词解析"""
super().__init__("歌词解析错误", *args)
# 已重构
class ZeroSpeedError(MSCTBaseException, ZeroDivisionError):
"""以0作为播放速度的错误"""
def __init__(self, *args):
"""以0作为播放速度的错误"""
super().__init__("播放速度为零", *args)
# 已重构
class IllegalMinimumVolumeError(MSCTBaseException, ValueError):
"""最小播放音量有误的错误"""
def __init__(self, *args):
"""最小播放音量错误"""
super().__init__("最小播放音量超出范围", *args)
# 已重构
class MusicSequenceDecodeError(MSCTBaseException):
"""音乐序列解码错误"""
def __init__(self, *args):
"""音乐序列无法正确解码的错误"""
super().__init__("解码音符序列文件时出现问题", *args)
# 已重构
class MusicSequenceTypeError(MSCTBaseException):
"""音乐序列类型错误"""
def __init__(self, *args):
"""无法识别音符序列字节码的类型"""
super().__init__("错误的音符序列字节类型", *args)
# 已重构
class MusicSequenceVerificationFailed(MusicSequenceDecodeError):
"""音乐序列校验失败"""
def __init__(self, *args):
"""音符序列文件与其校验值不一致"""
super().__init__("音符序列文件校验失败", *args)

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# -*- coding: utf-8 -*-
"""一个简单的我的世界音频转换库
音·创 (Musicreater)
是一款免费开源的《我的世界》数字音频支持库。
Musicreater(音·创)
A free open source library used for dealing with **Minecraft** digital musics.
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
音·创(“本项目”)的协议颁发者为 金羿、诸葛亮与八卦阵
The Licensor of Musicreater("this project") is Eilles, bgArray.
本项目根据 第一版 汉钰律许可协议(“本协议”)授权。
任何人皆可从以下地址获得本协议副本https://gitee.com/EillesWan/YulvLicenses。
若非因法律要求或经过了特殊准许,此作品在根据本协议“原样”提供的基础上,不予提供任何形式的担保、任何明示、任何暗示或类似承诺。也就是说,用户将自行承担因此作品的质量或性能问题而产生的全部风险。
详细的准许和限制条款请见原协议文本。
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
__version__ = "2.4.2.3"
__vername__ = "音符附加信息升级"
__author__ = (
("金羿", "Eilles"),
("诸葛亮与八卦阵", "bgArray"),
("鱼旧梦", "ElapsingDreams"),
("偷吃不是Touch", "Touch"),
)
__all__ = [
# 主要类
"MusicSequence",
"MidiConvert",
# 附加类
# "SingleNote",
"MineNote",
"MineCommand",
"SingleNoteBox",
"ProgressBarStyle",
# "TimeStamp", 未来功能
# 字典键
"MIDI_PROGRAM",
"MIDI_VOLUME",
"MIDI_PAN",
# 默认值
"MIDI_DEFAULT_PROGRAM_VALUE",
"MIDI_DEFAULT_VOLUME_VALUE",
"DEFAULT_PROGRESSBAR_STYLE",
# Midi 自己的对照表
"MIDI_PITCH_NAME_TABLE",
"MIDI_PITCHED_NOTE_NAME_GROUP",
"MIDI_PITCHED_NOTE_NAME_TABLE",
"MIDI_PERCUSSION_NOTE_NAME_TABLE",
# Minecraft 自己的对照表
"MC_PERCUSSION_INSTRUMENT_LIST",
"MC_PITCHED_INSTRUMENT_LIST",
"MC_INSTRUMENT_BLOCKS_TABLE",
"MC_EILLES_RTJE12_INSTRUMENT_REPLACE_TABLE",
"MC_EILLES_RTBETA_INSTRUMENT_REPLACE_TABLE",
# Midi 与 游戏 的对照表
"MM_INSTRUMENT_RANGE_TABLE",
"MM_INSTRUMENT_DEVIATION_TABLE",
"MM_CLASSIC_PITCHED_INSTRUMENT_TABLE",
"MM_CLASSIC_PERCUSSION_INSTRUMENT_TABLE",
"MM_TOUCH_PITCHED_INSTRUMENT_TABLE",
"MM_TOUCH_PERCUSSION_INSTRUMENT_TABLE",
"MM_DISLINK_PITCHED_INSTRUMENT_TABLE",
"MM_DISLINK_PERCUSSION_INSTRUMENT_TABLE",
"MM_NBS_PITCHED_INSTRUMENT_TABLE",
"MM_NBS_PERCUSSION_INSTRUMENT_TABLE",
# 操作性函数
"velocity_2_distance_natural",
"velocity_2_distance_straight",
"panning_2_rotation_linear",
"panning_2_rotation_trigonometric",
# 工具函数
"load_decode_musicsequence_metainfo",
"load_decode_msq_flush_release",
"load_decode_fsq_flush_release",
"guess_deviation",
"mctick2timestr",
"midi_inst_to_mc_sound",
]
from .old_main import MusicSequence, MidiConvert
from .subclass import (
MineNote,
MineCommand,
SingleNoteBox,
ProgressBarStyle,
mctick2timestr,
DEFAULT_PROGRESSBAR_STYLE,
)
from .utils import (
# 兼容性函数
load_decode_musicsequence_metainfo,
load_decode_msq_flush_release,
load_decode_fsq_flush_release,
# 工具函数
guess_deviation,
midi_inst_to_mc_sound,
# 处理用函数
velocity_2_distance_natural,
velocity_2_distance_straight,
panning_2_rotation_linear,
panning_2_rotation_trigonometric,
)
from .constants import (
# 字典键
MIDI_PROGRAM,
MIDI_PAN,
MIDI_VOLUME,
# 默认值
MIDI_DEFAULT_PROGRAM_VALUE,
MIDI_DEFAULT_VOLUME_VALUE,
# MIDI 表
MIDI_PITCH_NAME_TABLE,
MIDI_PITCHED_NOTE_NAME_GROUP,
MIDI_PITCHED_NOTE_NAME_TABLE,
MIDI_PERCUSSION_NOTE_NAME_TABLE,
# 我的世界 表
MC_EILLES_RTBETA_INSTRUMENT_REPLACE_TABLE,
MC_EILLES_RTJE12_INSTRUMENT_REPLACE_TABLE,
MC_INSTRUMENT_BLOCKS_TABLE,
MC_PERCUSSION_INSTRUMENT_LIST,
MC_PITCHED_INSTRUMENT_LIST,
# MIDI 到 我的世界 表
MM_INSTRUMENT_RANGE_TABLE,
MM_INSTRUMENT_DEVIATION_TABLE,
MM_CLASSIC_PITCHED_INSTRUMENT_TABLE,
MM_CLASSIC_PERCUSSION_INSTRUMENT_TABLE,
MM_TOUCH_PITCHED_INSTRUMENT_TABLE,
MM_TOUCH_PERCUSSION_INSTRUMENT_TABLE,
MM_DISLINK_PITCHED_INSTRUMENT_TABLE,
MM_DISLINK_PERCUSSION_INSTRUMENT_TABLE,
MM_NBS_PITCHED_INSTRUMENT_TABLE,
MM_NBS_PERCUSSION_INSTRUMENT_TABLE,
)

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# -*- coding: utf-8 -*-
"""
存放非音·创本体的附加功能件
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
__all__ = [
# 通用
# "ConvertConfig",
"bottem_side_length_of_smallest_square_bottom_box",
# 打包
"compress_zipfile",
"behavior_mcpack_manifest",
# MCSTRUCTURE 函数
"antiaxis",
"forward_IER",
"command_statevalue",
"form_note_block_in_NBT_struct",
"form_repeater_in_NBT_struct",
"form_command_block_in_NBT_struct",
"commands_to_structure",
"commands_to_redstone_delay_structure",
# MCSTRUCTURE 常量
"AXIS_PARTICULAR_VALUE",
"COMPABILITY_VERSION_117",
"COMPABILITY_VERSION_119",
"COMPABILITY_VERSION_121",
# BDX 函数
"bdx_move",
"form_command_block_in_BDX_bytes",
"commands_to_BDX_bytes",
# BDX 常量
"BDX_MOVE_KEY",
]
__author__ = (("金羿", "Eilles"), ("诸葛亮与八卦阵", "bgArray"))
# from .main import ConvertConfig
from .archive import compress_zipfile, behavior_mcpack_manifest
from .bdx import (
BDX_MOVE_KEY,
bdx_move,
form_command_block_in_BDX_bytes,
commands_to_BDX_bytes,
)
from .common import bottem_side_length_of_smallest_square_bottom_box
from .mcstructure import (
antiaxis,
forward_IER,
AXIS_PARTICULAR_VALUE,
COMPABILITY_VERSION_119,
COMPABILITY_VERSION_117,
COMPABILITY_VERSION_121,
command_statevalue,
form_note_block_in_NBT_struct,
form_repeater_in_NBT_struct,
form_command_block_in_NBT_struct,
commands_to_structure,
commands_to_redstone_delay_structure,
)

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# -*- coding: utf-8 -*-
"""
用以生成附加包的附加功能
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
__all__ = [
"to_addon_pack_in_delay",
"to_addon_pack_in_score",
"to_addon_pack_in_repeater",
"to_addon_pack_in_repeater_divided_by_instrument",
]
__author__ = (("金羿", "Eilles"),)
from .main import (
to_addon_pack_in_delay,
to_addon_pack_in_repeater,
to_addon_pack_in_score,
to_addon_pack_in_repeater_divided_by_instrument,
)

684
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# -*- coding: utf-8 -*-
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
import json
import os
import shutil
from typing import Literal, Optional, Tuple
from ...old_main import MidiConvert
from ...subclass import ProgressBarStyle
from ..archive import behavior_mcpack_manifest, compress_zipfile
from ..mcstructure import (
COMPABILITY_VERSION_117,
COMPABILITY_VERSION_119,
Structure,
commands_to_redstone_delay_structure,
commands_to_structure,
form_command_block_in_NBT_struct,
)
def to_addon_pack_in_score(
midi_cvt: MidiConvert,
dist_path: str,
progressbar_style: Optional[ProgressBarStyle],
scoreboard_name: str = "mscplay",
auto_reset: bool = False,
) -> Tuple[int, int]:
"""
将midi以计分播放器形式转换为我的世界函数附加包
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
progressbar_style: ProgressBarStyle 对象
进度条对象
scoreboard_name: str
我的世界的计分板名称
auto_reset: bool
是否自动重置计分板
Returns
-------
tuple[int指令数量, int音乐总延迟]
"""
cmdlist, maxlen, maxscore = midi_cvt.to_command_list_in_score(
scoreboard_name=scoreboard_name,
)
# 当文件f夹{self.outputPath}/temp/functions存在时清空其下所有项目然后创建
if os.path.exists(f"{dist_path}/temp/functions/"):
shutil.rmtree(f"{dist_path}/temp/functions/")
os.makedirs(f"{dist_path}/temp/functions/mscplay")
# 写入manifest.json
with open(f"{dist_path}/temp/manifest.json", "w", encoding="utf-8") as f:
json.dump(
behavior_mcpack_manifest(
pack_description=f"{midi_cvt.music_name} 音乐播放包MCFUNCTION(MCPACK) 计分播放器 - 由 音·创 生成",
pack_name=midi_cvt.music_name + "播放",
modules_description=f"无 - 由 音·创 生成",
format_version=1 if midi_cvt.enable_old_exe_format else 2,
pack_engine_version=(
None if midi_cvt.enable_old_exe_format else [1, 19, 50]
),
),
fp=f,
indent=4,
)
# 写入stop.mcfunction
with open(
f"{dist_path}/temp/functions/stop.mcfunction", "w", encoding="utf-8"
) as f:
f.write("scoreboard players reset @a {}".format(scoreboard_name))
# 将命令列表写入文件
index_file = open(
f"{dist_path}/temp/functions/index.mcfunction", "w", encoding="utf-8"
)
for i in range(len(cmdlist)):
index_file.write(f"function mscplay/track{i + 1}\n")
with open(
f"{dist_path}/temp/functions/mscplay/track{i + 1}.mcfunction",
"w",
encoding="utf-8",
) as f:
f.write("\n".join([single_cmd.cmd for single_cmd in cmdlist[i]]))
index_file.writelines(
(
"scoreboard players add @a[scores={"
+ scoreboard_name
+ "=1..}] "
+ scoreboard_name
+ " 1\n",
(
(
"scoreboard players reset @a[scores={"
+ scoreboard_name
+ "="
+ str(maxscore + 20)
+ "..}]"
+ f" {scoreboard_name}\n"
)
if auto_reset
else ""
),
f"function mscplay/progressShow\n" if progressbar_style else "",
)
)
if progressbar_style:
with open(
f"{dist_path}/temp/functions/mscplay/progressShow.mcfunction",
"w",
encoding="utf-8",
) as f:
f.writelines(
"\n".join(
[
single_cmd.cmd
for single_cmd in midi_cvt.form_progress_bar(
maxscore, scoreboard_name, progressbar_style
)
]
)
)
index_file.close()
if os.path.exists(f"{dist_path}/{midi_cvt.music_name}.mcpack"):
os.remove(f"{dist_path}/{midi_cvt.music_name}.mcpack")
compress_zipfile(
f"{dist_path}/temp/",
f"{dist_path}/{midi_cvt.music_name}[score].mcpack",
)
shutil.rmtree(f"{dist_path}/temp/")
return maxlen, maxscore
def to_addon_pack_in_delay(
midi_cvt: MidiConvert,
dist_path: str,
progressbar_style: Optional[ProgressBarStyle],
player: str = "@a",
max_height: int = 64,
) -> Tuple[int, int]:
"""
将midi以延迟播放器形式转换为mcstructure结构文件后打包成附加包并在附加包中生成相应地导入函数
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
progressbar_style: ProgressBarStyle 对象
进度条对象
player: str
玩家选择器,默认为`@a`
max_height: int
生成结构最大高度
Returns
-------
tuple[int指令数量, int音乐总延迟]
"""
compability_ver = (
COMPABILITY_VERSION_117
if midi_cvt.enable_old_exe_format
else COMPABILITY_VERSION_119
)
command_list, max_delay = midi_cvt.to_command_list_in_delay(
player_selector=player,
)[:2]
if not os.path.exists(dist_path):
os.makedirs(dist_path)
# 当文件f夹{self.outputPath}/temp/存在时清空其下所有项目,然后创建
if os.path.exists(f"{dist_path}/temp/"):
shutil.rmtree(f"{dist_path}/temp/")
os.makedirs(f"{dist_path}/temp/functions/")
os.makedirs(f"{dist_path}/temp/structures/")
# 写入manifest.json
with open(f"{dist_path}/temp/manifest.json", "w", encoding="utf-8") as f:
json.dump(
behavior_mcpack_manifest(
pack_description=f"{midi_cvt.music_name} 音乐播放包MCSTRUCTURE(MCPACK) 延迟播放器 - 由 音·创 生成",
pack_name=midi_cvt.music_name + "播放",
modules_description=f"无 - 由 音·创 生成",
format_version=1 if midi_cvt.enable_old_exe_format else 2,
pack_engine_version=(
None if midi_cvt.enable_old_exe_format else [1, 19, 50]
),
),
fp=f,
indent=4,
ensure_ascii=False,
)
# 写入stop.mcfunction
with open(
f"{dist_path}/temp/functions/stop.mcfunction", "w", encoding="utf-8"
) as f:
f.write(
"gamerule commandblocksenabled false\ngamerule commandblocksenabled true"
)
# 将命令列表写入文件
index_file = open(
f"{dist_path}/temp/functions/index.mcfunction", "w", encoding="utf-8"
)
struct, size, end_pos = commands_to_structure(
command_list,
max_height - 1,
compability_version_=compability_ver,
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
f"{midi_cvt.music_name}_main.mcstructure",
)
),
"wb+",
) as f:
struct.dump(f)
del struct
if progressbar_style:
scb_name = midi_cvt.music_name[:3] + "Pgb"
index_file.write("scoreboard objectives add {0} dummy {0}\n".format(scb_name))
struct_a = Structure((1, 1, 1), compability_version=compability_ver)
struct_a.set_block(
(0, 0, 0),
form_command_block_in_NBT_struct(
r"scoreboard players add {} {} 1".format(player, scb_name),
(0, 0, 0),
1,
1,
alwaysRun=False,
customName="显示进度条并加分",
compability_version_number=compability_ver,
),
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
f"{midi_cvt.music_name}_start.mcstructure",
)
),
"wb+",
) as f:
struct_a.dump(f)
index_file.write(f"structure load {midi_cvt.music_name}_start ~ ~ ~1\n")
pgb_struct, pgbSize, pgbNowPos = commands_to_structure(
midi_cvt.form_progress_bar(max_delay, scb_name, progressbar_style),
max_height - 1,
compability_version_=compability_ver,
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
f"{midi_cvt.music_name}_pgb.mcstructure",
)
),
"wb+",
) as f:
pgb_struct.dump(f)
index_file.write(f"structure load {midi_cvt.music_name}_pgb ~ ~1 ~1\n")
struct_a = Structure(
(1, 1, 1),
)
struct_a.set_block(
(0, 0, 0),
form_command_block_in_NBT_struct(
r"scoreboard players reset {} {}".format(player, scb_name),
(0, 0, 0),
1,
0,
alwaysRun=False,
customName="重置进度条计分板",
compability_version_number=compability_ver,
),
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
f"{midi_cvt.music_name}_reset.mcstructure",
)
),
"wb+",
) as f:
struct_a.dump(f)
del struct_a, pgb_struct
index_file.write(
f"structure load {midi_cvt.music_name}_reset ~{pgbSize[0] + 2} ~ ~1\n"
)
index_file.write(
f"structure load {midi_cvt.music_name}_main ~{pgbSize[0] + 2} ~1 ~1\n"
)
else:
index_file.write(f"structure load {midi_cvt.music_name}_main ~ ~ ~1\n")
index_file.close()
if os.path.exists(f"{dist_path}/{midi_cvt.music_name}.mcpack"):
os.remove(f"{dist_path}/{midi_cvt.music_name}.mcpack")
compress_zipfile(
f"{dist_path}/temp/",
f"{dist_path}/{midi_cvt.music_name}[delay].mcpack",
)
shutil.rmtree(f"{dist_path}/temp/")
return len(command_list), max_delay
def to_addon_pack_in_repeater(
midi_cvt: MidiConvert,
dist_path: str,
progressbar_style: Optional[ProgressBarStyle],
player: str = "@a",
axis_side: Literal["z+", "z-", "Z+", "Z-", "x+", "x-", "X+", "X-"] = "z+",
basement_block: str = "concrete",
max_height: int = 65,
) -> Tuple[int, int]:
"""
将midi以中继器播放器形式转换为mcstructure结构文件后打包成附加包并在附加包中生成相应地导入函数
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
progressbar_style: ProgressBarStyle 对象
进度条对象
player: str
玩家选择器,默认为`@a`
max_height: int
生成结构最大高度
Returns
-------
tuple[int指令数量, int音乐总延迟]
"""
compability_ver = (
COMPABILITY_VERSION_117
if midi_cvt.enable_old_exe_format
else COMPABILITY_VERSION_119
)
command_list, max_delay, max_together = midi_cvt.to_command_list_in_delay(
player_selector=player,
)
if not os.path.exists(dist_path):
os.makedirs(dist_path)
# 当文件f夹{self.outputPath}/temp/存在时清空其下所有项目,然后创建
if os.path.exists(f"{dist_path}/temp/"):
shutil.rmtree(f"{dist_path}/temp/")
os.makedirs(f"{dist_path}/temp/functions/")
os.makedirs(f"{dist_path}/temp/structures/")
# 写入manifest.json
with open(f"{dist_path}/temp/manifest.json", "w", encoding="utf-8") as f:
json.dump(
behavior_mcpack_manifest(
pack_description=f"{midi_cvt.music_name} 音乐播放包MCSTRUCTURE(MCPACK) 中继器播放器 - 由 音·创 生成",
pack_name=midi_cvt.music_name + "播放",
modules_description=f"无 - 由 音·创 生成",
format_version=1 if midi_cvt.enable_old_exe_format else 2,
pack_engine_version=(
None if midi_cvt.enable_old_exe_format else [1, 19, 50]
),
),
fp=f,
indent=4,
)
# 写入stop.mcfunction
with open(
f"{dist_path}/temp/functions/stop.mcfunction", "w", encoding="utf-8"
) as f:
f.write(
"gamerule commandblocksenabled false\ngamerule commandblocksenabled true"
)
# 将命令列表写入文件
index_file = open(
f"{dist_path}/temp/functions/index.mcfunction", "w", encoding="utf-8"
)
struct, size, end_pos = commands_to_redstone_delay_structure(
commands=command_list,
delay_length=max_delay,
max_multicmd_length=max_together,
base_block=basement_block,
axis_=axis_side,
compability_version_=compability_ver,
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
f"{midi_cvt.music_name}_main.mcstructure",
)
),
"wb+",
) as f:
struct.dump(f)
del struct
if progressbar_style:
scb_name = midi_cvt.music_name[:3] + "Pgb"
index_file.write("scoreboard objectives add {0} dummy {0}\n".format(scb_name))
struct_a = Structure((1, 1, 1), compability_version=compability_ver)
struct_a.set_block(
(0, 0, 0),
form_command_block_in_NBT_struct(
r"scoreboard players add {} {} 1".format(player, scb_name),
(0, 0, 0),
1,
1,
alwaysRun=False,
customName="显示进度条并加分",
compability_version_number=compability_ver,
),
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
f"{midi_cvt.music_name}_start.mcstructure",
)
),
"wb+",
) as f:
struct_a.dump(f)
index_file.write(f"structure load {midi_cvt.music_name}_start ~ ~ ~1\n")
pgb_struct, pgbSize, pgbNowPos = commands_to_structure(
midi_cvt.form_progress_bar(max_delay, scb_name, progressbar_style),
max_height - 1,
compability_version_=compability_ver,
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
f"{midi_cvt.music_name}_pgb.mcstructure",
)
),
"wb+",
) as f:
pgb_struct.dump(f)
index_file.write(f"structure load {midi_cvt.music_name}_pgb ~ ~1 ~1\n")
struct_a = Structure(
(1, 1, 1),
)
struct_a.set_block(
(0, 0, 0),
form_command_block_in_NBT_struct(
r"scoreboard players reset {} {}".format(player, scb_name),
(0, 0, 0),
1,
0,
alwaysRun=False,
customName="重置进度条计分板",
compability_version_number=compability_ver,
),
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
f"{midi_cvt.music_name}_reset.mcstructure",
)
),
"wb+",
) as f:
struct_a.dump(f)
del struct_a, pgb_struct
index_file.write(
f"structure load {midi_cvt.music_name}_reset ~{pgbSize[0] + 2} ~ ~1\n"
)
index_file.write(
f"structure load {midi_cvt.music_name}_main ~{pgbSize[0] + 2} ~1 ~1\n"
)
else:
index_file.write(f"structure load {midi_cvt.music_name}_main ~ ~ ~1\n")
index_file.close()
if os.path.exists(f"{dist_path}/{midi_cvt.music_name}.mcpack"):
os.remove(f"{dist_path}/{midi_cvt.music_name}.mcpack")
compress_zipfile(
f"{dist_path}/temp/",
f"{dist_path}/{midi_cvt.music_name}[repeater].mcpack",
)
shutil.rmtree(f"{dist_path}/temp/")
return len(command_list), max_delay
def to_addon_pack_in_repeater_divided_by_instrument(
midi_cvt: MidiConvert,
dist_path: str,
player: str = "@a",
max_height: int = 65,
base_block: str = "concrete",
axis_side: Literal["z+", "z-", "Z+", "Z-", "x+", "x-", "X+", "X-"] = "z+",
) -> Tuple[int, int]:
"""
将midi以中继器播放器形式转换为mcstructure结构文件后打包成附加包并在附加包中生成相应地导入函数
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
player: str
玩家选择器,默认为`@a`
max_height: int
生成结构最大高度
Returns
-------
tuple[int指令数量, int音乐总延迟]
"""
compability_ver = (
COMPABILITY_VERSION_117
if midi_cvt.enable_old_exe_format
else COMPABILITY_VERSION_119
)
if not os.path.exists(dist_path):
os.makedirs(dist_path)
# 当文件f夹{self.outputPath}/temp/存在时清空其下所有项目,然后创建
if os.path.exists(f"{dist_path}/temp/"):
shutil.rmtree(f"{dist_path}/temp/")
os.makedirs(f"{dist_path}/temp/functions/")
os.makedirs(f"{dist_path}/temp/structures/")
# 写入manifest.json
with open(f"{dist_path}/temp/manifest.json", "w", encoding="utf-8") as f:
json.dump(
behavior_mcpack_manifest(
pack_description=f"{midi_cvt.music_name} 音乐播放包MCSTRUCTURE(MCPACK) 中继器播放器(拆分) - 由 音·创 生成",
pack_name=midi_cvt.music_name + "播放",
modules_description=f"无 - 由 音·创 生成",
format_version=1 if midi_cvt.enable_old_exe_format else 2,
pack_engine_version=(
None if midi_cvt.enable_old_exe_format else [1, 19, 50]
),
),
fp=f,
indent=4,
)
# 写入stop.mcfunction
with open(
f"{dist_path}/temp/functions/stop.mcfunction", "w", encoding="utf-8"
) as f:
f.write(
"gamerule commandblocksenabled false\ngamerule commandblocksenabled true"
)
# 将命令列表写入文件
index_file = open(
f"{dist_path}/temp/functions/index.mcfunction", "w", encoding="utf-8"
)
cmd_dict, max_delay, max_multiple_cmd_count = (
midi_cvt.to_command_list_in_delay_devided_by_instrument(
player_selector=player,
)
)
base_height = 0
for inst, cmd_list in cmd_dict.items():
struct, size, end_pos = commands_to_redstone_delay_structure(
cmd_list,
max_delay,
max_multiple_cmd_count[inst],
base_block,
axis_=axis_side,
compability_version_=compability_ver,
)
bkn = "{}_{}".format(midi_cvt.music_name, inst.replace(".", "-"))
with open(
os.path.abspath(
os.path.join(
dist_path,
"temp/structures/",
"{}_main.mcstructure".format(bkn),
)
),
"wb+",
) as f:
struct.dump(f)
index_file.write("structure load {}_main ~ ~{} ~3\n".format(bkn, base_height))
base_height += 2 + size[1]
index_file.close()
if os.path.exists(f"{dist_path}/{midi_cvt.music_name}.mcpack"):
os.remove(f"{dist_path}/{midi_cvt.music_name}.mcpack")
compress_zipfile(
f"{dist_path}/temp/",
f"{dist_path}/{midi_cvt.music_name}[repeater-div].mcpack",
)
shutil.rmtree(f"{dist_path}/temp/")
return midi_cvt.total_note_count, max_delay

104
old-things/Musicreater/old_plugin/archive.py Normal file
View File

@@ -0,0 +1,104 @@
# -*- coding: utf-8 -*-
"""
存放关于文件打包的内容
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
import datetime
import os
import uuid
import zipfile
from typing import List, Literal, Union
def compress_zipfile(sourceDir, outFilename, compression=8, exceptFile=None):
"""
使用指定的压缩算法将目录打包为zip文件
Parameters
------------
sourceDir: str
要压缩的源目录路径
outFilename: str
输出的zip文件路径
compression: int, 可选
压缩算法默认为8 (DEFLATED)
可用算法:
STORED = 0
DEFLATED = 8 (默认)
BZIP2 = 12
LZMA = 14
exceptFile: list[str], 可选
需要排除在压缩包外的文件名称列表(可选)
Returns
---------
None
"""
zipf = zipfile.ZipFile(outFilename, "w", compression)
pre_len = len(os.path.dirname(sourceDir))
for parent, dirnames, filenames in os.walk(sourceDir):
for filename in filenames:
if filename == exceptFile:
continue
pathfile = os.path.join(parent, filename)
arc_name = pathfile[pre_len:].strip(os.path.sep) # 相对路径
zipf.write(pathfile, arc_name)
zipf.close()
def behavior_mcpack_manifest(
format_version: Union[Literal[1], Literal[2]] = 1,
pack_description: str = "",
pack_version: Union[List[int], Literal[None]] = None,
pack_name: str = "",
pack_uuid: Union[str, Literal[None]] = None,
pack_engine_version: Union[List[int], None] = None,
modules_description: str = "",
modules_version: List[int] = [0, 0, 1],
modules_uuid: Union[str, Literal[None]] = None,
):
"""
生成一个我的世界行为包组件的定义清单文件
"""
if not pack_version:
now_date = datetime.datetime.now()
pack_version = [
now_date.year,
now_date.month * 100 + now_date.day,
now_date.hour * 100 + now_date.minute,
]
result = {
"format_version": format_version,
"header": {
"description": pack_description,
"version": pack_version,
"name": pack_name,
"uuid": str(uuid.uuid4()) if not pack_uuid else pack_uuid,
},
"modules": [
{
"description": modules_description,
"type": "data",
"version": modules_version,
"uuid": str(uuid.uuid4()) if not modules_uuid else modules_uuid,
}
],
}
if pack_engine_version:
result["header"]["min_engine_version"] = pack_engine_version
return result

229
old-things/Musicreater/old_plugin/bdx.py Normal file
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@@ -0,0 +1,229 @@
# -*- coding: utf-8 -*-
"""
存放有关BDX结构操作的内容
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
from typing import List
from ..constants import x, y, z
from ..subclass import MineCommand
from .common import bottem_side_length_of_smallest_square_bottom_box
BDX_MOVE_KEY = {
"x": [b"\x0f", b"\x0e", b"\x1c", b"\x14", b"\x15"],
"y": [b"\x11", b"\x10", b"\x1d", b"\x16", b"\x17"],
"z": [b"\x13", b"\x12", b"\x1e", b"\x18", b"\x19"],
}
"""key存储了方块移动指令的数据其中可以用key[x|y|z][0|1]来表示xyz的减或增
而key[][2+]是用来增加指定数目的"""
def bdx_move(axis: str, value: int):
if value == 0:
return b""
if abs(value) == 1:
return BDX_MOVE_KEY[axis][0 if value == -1 else 1]
pointer = sum(
[
value != -1,
value < -1 or value > 1,
value < -128 or value > 127,
value < -32768 or value > 32767,
]
)
return BDX_MOVE_KEY[axis][pointer] + value.to_bytes(
2 ** (pointer - 2), "big", signed=True
)
def form_command_block_in_BDX_bytes(
command: str,
particularValue: int,
impluse: int = 0,
condition: bool = False,
needRedstone: bool = True,
tickDelay: int = 0,
customName: str = "",
executeOnFirstTick: bool = False,
trackOutput: bool = True,
) -> bytes:
"""
使用指定参数生成指定的指令方块放置指令项
Parameters
------------
command: str
指令
particularValue: int
方块特殊值,即朝向
:0 下 无条件
:1 上 无条件
:2 z轴负方向 无条件
:3 z轴正方向 无条件
:4 x轴负方向 无条件
:5 x轴正方向 无条件
:6 下 无条件
:7 下 无条件
:8 下 有条件
:9 上 有条件
:10 z轴负方向 有条件
:11 z轴正方向 有条件
:12 x轴负方向 有条件
:13 x轴正方向 有条件
:14 下 有条件
:14 下 有条件
注意此处特殊值中的条件会被下面condition参数覆写
impluse: int (0|1|2)
方块类型
0脉冲 1循环 2连锁
condition: bool
是否有条件
needRedstone: bool
是否需要红石
tickDelay: int
执行延时
customName: str
悬浮字
lastOutput: str
命令方块的上次输出字符串,注意此处需要留空
executeOnFirstTick: bool
是否启用首刻执行循环指令方块是否激活后立即执行若为False则从激活时起延迟后第一次执行
trackOutput: bool
是否启用命令方块输出
Returns
---------
bytes
用以生成 bdx 结构的字节码
"""
block = b"\x24" + particularValue.to_bytes(2, byteorder="big", signed=False)
for i in [
impluse.to_bytes(4, byteorder="big", signed=False),
bytes(command, encoding="utf-8") + b"\x00",
bytes(customName, encoding="utf-8") + b"\x00",
bytes("", encoding="utf-8") + b"\x00",
tickDelay.to_bytes(4, byteorder="big", signed=True),
executeOnFirstTick.to_bytes(1, byteorder="big"),
trackOutput.to_bytes(1, byteorder="big"),
condition.to_bytes(1, byteorder="big"),
needRedstone.to_bytes(1, byteorder="big"),
]:
block += i
return block
def commands_to_BDX_bytes(
commands_list: List[MineCommand],
max_height: int = 64,
):
"""
指令列表转换为用以生成 bdx 结构的字节码
Parameters
------------
commands: list[tuple[str, int]]
指令列表,每个元素为 (指令, 延迟)
max_height: int
生成结构最大高度
Returns
---------
tuple[bool, bytes, int] or tuple[bool, str]
成功与否,成功返回 (True, 未经过压缩的源, 结构占用大小),失败返回 (False, str失败原因)
"""
_sideLength = bottem_side_length_of_smallest_square_bottom_box(
len(commands_list), max_height
)
_bytes = b""
y_forward = True
z_forward = True
now_y = 0
now_z = 0
now_x = 0
for command in commands_list:
_bytes += form_command_block_in_BDX_bytes(
command.command_text,
(
(1 if y_forward else 0)
if (
((now_y != 0) and (not y_forward))
or (y_forward and (now_y != (max_height - 1)))
)
else (
(3 if z_forward else 2)
if (
((now_z != 0) and (not z_forward))
or (z_forward and (now_z != _sideLength - 1))
)
else 5
)
),
impluse=2,
condition=command.conditional,
needRedstone=False,
tickDelay=command.delay,
customName=command.annotation_text,
executeOnFirstTick=False,
trackOutput=True,
)
# (1 if y_forward else 0) if ( # 如果y+则向上,反之向下
# ((now_y != 0) and (not y_forward)) # 如果不是y轴上首个方块
# or (y_forward and (now_y != (max_height - 1))) # 如果不是y轴上末端方块
# ) else ( # 否则即是y轴末端或首个方块
# (3 if z_forward else 2) if ( # 如果z+则向z轴正方向反之负方向
# ((now_z != 0) and (not z_forward)) # 如果不是z轴上的首个方块
# or (z_forward and (now_z != _sideLength - 1)) # 如果不是z轴上的末端方块
# ) else 5 # 否则则要面向x轴正方向
# )
now_y += 1 if y_forward else -1
if ((now_y >= max_height) and y_forward) or ((now_y < 0) and (not y_forward)):
now_y -= 1 if y_forward else -1
y_forward = not y_forward
now_z += 1 if z_forward else -1
if ((now_z >= _sideLength) and z_forward) or (
(now_z < 0) and (not z_forward)
):
now_z -= 1 if z_forward else -1
z_forward = not z_forward
_bytes += BDX_MOVE_KEY[x][1]
now_x += 1
else:
_bytes += BDX_MOVE_KEY[z][int(z_forward)]
else:
_bytes += BDX_MOVE_KEY[y][int(y_forward)]
return (
_bytes,
[
now_x + 1,
max_height if now_x or now_z else now_y,
_sideLength if now_x else now_z,
],
[now_x, now_y, now_z],
)

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old-things/Musicreater/old_plugin/bdxfile/__init__.py Normal file
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# -*- coding: utf-8 -*-
"""
用以生成BDX结构文件的附加功能
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
__all__ = ["to_BDX_file_in_score", "to_BDX_file_in_delay"]
__author__ = (("金羿", "Eilles"),)
from .main import to_BDX_file_in_delay, to_BDX_file_in_score

220
old-things/Musicreater/old_plugin/bdxfile/main.py Normal file
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# -*- coding: utf-8 -*-
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
import os
from typing import Optional
import brotli
from ...old_main import MidiConvert
from ...subclass import MineCommand, ProgressBarStyle
from ..bdx import (
bdx_move,
commands_to_BDX_bytes,
form_command_block_in_BDX_bytes,
x,
y,
z,
)
def to_BDX_file_in_score(
midi_cvt: MidiConvert,
dist_path: str,
progressbar_style: Optional[ProgressBarStyle],
scoreboard_name: str = "mscplay",
auto_reset: bool = False,
author: str = "Eilles",
max_height: int = 64,
):
"""
将midi以计分播放器形式转换为BDX结构文件
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
progressbar_style: ProgressBarStyle 对象
进度条对象
scoreboard_name: str
我的世界的计分板名称
auto_reset: bool
是否自动重置计分板
author: str
作者名称
max_height: int
生成结构最大高度
Returns
-------
tuple[int指令数量, int音乐总延迟, tuple[int,]结构大小, tuple[int,]终点坐标]
"""
cmdlist, command_count, max_score = midi_cvt.to_command_list_in_score(
scoreboard_name=scoreboard_name,
)
if not os.path.exists(dist_path):
os.makedirs(dist_path)
with open(
os.path.abspath(os.path.join(dist_path, f"{midi_cvt.music_name}[score].bdx")),
"w+",
) as f:
f.write("BD@")
_bytes = (
b"BDX\x00" + author.encode("utf-8") + b" & Musicreater\x00\x01command_block\x00"
)
cmdBytes, size, finalPos = commands_to_BDX_bytes(
midi_cvt.music_command_list
+ (
[
MineCommand(
command="scoreboard players reset @a[scores={"
+ scoreboard_name
+ "="
+ str(max_score + 20)
+ "}] "
+ scoreboard_name,
annotation="自动重置计分板",
)
]
if auto_reset
else []
),
max_height - 1,
)
if progressbar_style:
pgbBytes, pgbSize, pgbNowPos = commands_to_BDX_bytes(
midi_cvt.form_progress_bar(max_score, scoreboard_name, progressbar_style),
max_height - 1,
)
_bytes += pgbBytes
_bytes += bdx_move(y, -pgbNowPos[1])
_bytes += bdx_move(z, -pgbNowPos[2])
_bytes += bdx_move(x, 2)
size[0] += 2 + pgbSize[0]
size[1] = max(size[1], pgbSize[1])
size[2] = max(size[2], pgbSize[2])
_bytes += cmdBytes
with open(
os.path.abspath(os.path.join(dist_path, f"{midi_cvt.music_name}[score].bdx")),
"ab+",
) as f:
f.write(brotli.compress(_bytes + b"XE"))
return command_count, max_score, size, finalPos
def to_BDX_file_in_delay(
midi_cvt: MidiConvert,
dist_path: str,
progressbar_style: Optional[ProgressBarStyle],
player: str = "@a",
author: str = "Eilles",
max_height: int = 64,
):
"""
使用method指定的转换算法将midi转换为BDX结构文件
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
progressbar_style: ProgressBarStyle 对象
进度条对象
player: str
玩家选择器,默认为`@a`
author: str
作者名称
max_height: int
生成结构最大高度
Returns
-------
tuple[int指令数量, int音乐总延迟, tuple[int,]结构大小, tuple[int,]终点坐标]
"""
cmdlist, max_delay = midi_cvt.to_command_list_in_delay(
player_selector=player,
)[:2]
if not os.path.exists(dist_path):
os.makedirs(dist_path)
with open(
os.path.abspath(os.path.join(dist_path, f"{midi_cvt.music_name}[delay].bdx")),
"w+",
) as f:
f.write("BD@")
_bytes = (
b"BDX\x00" + author.encode("utf-8") + b" & Musicreater\x00\x01command_block\x00"
)
cmdBytes, size, finalPos = commands_to_BDX_bytes(cmdlist, max_height - 1)
if progressbar_style:
scb_name = midi_cvt.music_name[:3] + "Pgb"
_bytes += form_command_block_in_BDX_bytes(
r"scoreboard objectives add {} dummy {}".replace(r"{}", scb_name),
1,
customName="初始化进度条",
)
_bytes += bdx_move(z, 2)
_bytes += form_command_block_in_BDX_bytes(
r"scoreboard players add {} {} 1".format(player, scb_name),
1,
1,
customName="显示进度条并加分",
)
_bytes += bdx_move(y, 1)
pgbBytes, pgbSize, pgbNowPos = commands_to_BDX_bytes(
midi_cvt.form_progress_bar(max_delay, scb_name, progressbar_style),
max_height - 1,
)
_bytes += pgbBytes
_bytes += bdx_move(y, -1 - pgbNowPos[1])
_bytes += bdx_move(z, -2 - pgbNowPos[2])
_bytes += bdx_move(x, 2)
_bytes += form_command_block_in_BDX_bytes(
r"scoreboard players reset {} {}".format(player, scb_name),
1,
customName="置零进度条",
)
_bytes += bdx_move(y, 1)
size[0] += 2 + pgbSize[0]
size[1] = max(size[1], pgbSize[1])
size[2] = max(size[2], pgbSize[2])
size[1] += 1
_bytes += cmdBytes
with open(
os.path.abspath(os.path.join(dist_path, f"{midi_cvt.music_name}[delay].bdx")),
"ab+",
) as f:
f.write(brotli.compress(_bytes + b"XE"))
return len(cmdlist), max_delay, size, finalPos

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old-things/Musicreater/old_plugin/common.py Normal file
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# -*- coding: utf-8 -*-
"""
存放通用的普遍性的插件内容
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
import math
def bottem_side_length_of_smallest_square_bottom_box(
_total_block_count: int, _max_height: int
):
"""
给定结构的总方块数量和规定的最大高度,返回该结构应当构成的图形,在底面的外切正方形之边长
Parameters
------------
_total_block_count: int
总方块数量
_max_height: int
规定的结构最大高度
Returns
---------
int
外切正方形的边长
"""
return math.ceil(math.sqrt(math.ceil(_total_block_count / _max_height)))

92
old-things/Musicreater/old_plugin/main.py Normal file
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# -*- coding: utf-8 -*-
"""
存放附加内容功能
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
# from dataclasses import dataclass
# from typing import Literal, Tuple, Union
# from ..subclass import DEFAULT_PROGRESSBAR_STYLE, ProgressBarStyle
# @dataclass(init=False)
# class ConvertConfig: # 必定要改
# """
# 转换通用设置存储类
# """
# progressbar_style: Union[ProgressBarStyle, None]
# """进度条样式"""
# dist_path: str
# """输出目录"""
# def __init__(
# self,
# output_path: str,
# progressbar: Union[bool, Tuple[str, Tuple[str, str]], ProgressBarStyle] = True,
# ignore_progressbar_param_error: bool = False,
# ):
# """
# 将已经转换好的数据内容指令载入MC可读格式
# Parameters
# ----------
# output_path: str
# 生成内容的输出目录
# volume: float
# 音量比率,范围为(0,1],其原理为在距离玩家 (1 / volume -1) 的地方播放音频
# speed: float
# 速度倍率,注意:这里的速度指的是播放速度倍率,其原理为在播放音频的时候,每个音符的播放时间除以 speed
# progressbar: bool|tuple[str, Tuple[str,]]
# 进度条,当此参数为 `True` 时使用默认进度条,为其他的**值为真**的参数时识别为进度条自定义参数,为其他**值为假**的时候不生成进度条
# """
# self.dist_path = output_path
# """输出目录"""
# if progressbar:
# # 此处是对于仅有 True 的参数和自定义参数的判断
# # 改这一段没🐎
# if progressbar is True:
# self.progressbar_style = DEFAULT_PROGRESSBAR_STYLE
# """进度条样式"""
# return
# elif isinstance(progressbar, ProgressBarStyle):
# self.progressbar_style = progressbar
# """进度条样式"""
# return
# elif isinstance(progressbar, tuple):
# if isinstance(progressbar[0], str) and isinstance(
# progressbar[1], tuple
# ):
# if isinstance(progressbar[1][0], str) and isinstance(
# progressbar[1][1], str
# ):
# self.progressbar_style = ProgressBarStyle(
# progressbar[0], progressbar[1][0], progressbar[1][1]
# )
# return
# if not ignore_progressbar_param_error:
# raise TypeError(
# "参数 {} 的类型 {} 与所需类型 Union[bool, Tuple[str, Tuple[str, str]], ProgressBarStyle] 不符。".format(
# progressbar, type(progressbar)
# )
# )
# self.progressbar_style = None
# """进度条样式组"""

30
old-things/Musicreater/old_plugin/mcstructfile/__init__.py Normal file
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# -*- coding: utf-8 -*-
"""
用以生成单个mcstructure文件的附加功能
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
__all__ = [
"to_mcstructure_file_in_delay",
"to_mcstructure_file_in_repeater",
"to_mcstructure_file_in_score",
"to_mcstructure_files_in_repeater_divided_by_instruments",
]
__author__ = (("金羿", "Eilles"),)
from .main import (
to_mcstructure_file_in_delay,
to_mcstructure_file_in_repeater,
to_mcstructure_file_in_score,
to_mcstructure_files_in_repeater_divided_by_instruments,
)

298
old-things/Musicreater/old_plugin/mcstructfile/main.py Normal file
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# -*- coding: utf-8 -*-
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
import os
from typing import Literal
from ...old_main import MidiConvert
from ...subclass import MineCommand
from ..mcstructure import (
COMPABILITY_VERSION_117,
COMPABILITY_VERSION_119,
commands_to_redstone_delay_structure,
commands_to_structure,
)
def to_mcstructure_file_in_delay(
midi_cvt: MidiConvert,
dist_path: str,
player: str = "@a",
max_height: int = 64,
):
"""
将midi以延迟播放器形式转换为mcstructure结构文件
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
player: str
玩家选择器,默认为`@a`
max_height: int
生成结构最大高度
Returns
-------
tuple[tuple[int,int,int]结构大小, int音乐总延迟]
"""
compability_ver = (
COMPABILITY_VERSION_117
if midi_cvt.enable_old_exe_format
else COMPABILITY_VERSION_119
)
cmd_list, max_delay = midi_cvt.to_command_list_in_delay(
player_selector=player,
)[:2]
if not os.path.exists(dist_path):
os.makedirs(dist_path)
struct, size, end_pos = commands_to_structure(
cmd_list, max_height - 1, compability_version_=compability_ver
)
with open(
os.path.abspath(os.path.join(dist_path, f"{midi_cvt.music_name}[delay].mcstructure")),
"wb+",
) as f:
struct.dump(f)
return size, max_delay
def to_mcstructure_file_in_score(
midi_cvt: MidiConvert,
dist_path: str,
scoreboard_name: str = "mscplay",
auto_reset: bool = False,
max_height: int = 64,
):
"""
将midi以延迟播放器形式转换为mcstructure结构文件
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
scoreboard_name: str
我的世界的计分板名称
auto_reset: bool
是否自动重置计分板
max_height: int
生成结构最大高度
Returns
-------
tuple[tuple[int,int,int]结构大小, int音乐总延迟, int指令数量
"""
compability_ver = (
COMPABILITY_VERSION_117
if midi_cvt.enable_old_exe_format
else COMPABILITY_VERSION_119
)
cmd_list, cmd_count, max_delay = midi_cvt.to_command_list_in_score(
scoreboard_name=scoreboard_name,
)
if not os.path.exists(dist_path):
os.makedirs(dist_path)
struct, size, end_pos = commands_to_structure(
midi_cvt.music_command_list
+ (
[
MineCommand(
command="scoreboard players reset @a[scores={"
+ scoreboard_name
+ "="
+ str(max_delay + 20)
+ "}] "
+ scoreboard_name,
annotation="自动重置计分板",
)
]
if auto_reset
else []
),
max_height - 1,
compability_version_=compability_ver,
)
with open(
os.path.abspath(os.path.join(dist_path, f"{midi_cvt.music_name}[score].mcstructure")),
"wb+",
) as f:
struct.dump(f)
return size, max_delay, cmd_count
def to_mcstructure_file_in_repeater(
midi_cvt: MidiConvert,
dist_path: str,
player: str = "@a",
axis_side: Literal["z+", "z-", "Z+", "Z-", "x+", "x-", "X+", "X-"] = "z+",
basement_block: str = "concrete",
):
"""
将midi以延迟播放器形式转换为mcstructure结构文件
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
player: str
玩家选择器,默认为`@a`
axis_side: Literal["z+","z-","Z+","Z-","x+","x-","X+","X-"]
生成结构的延展方向
basement_block: str
结构的基底方块
Returns
-------
tuple[tuple[int,int,int]结构大小, int音乐总延迟]
"""
compability_ver = (
COMPABILITY_VERSION_117
if midi_cvt.enable_old_exe_format
else COMPABILITY_VERSION_119
)
cmd_list, max_delay, max_multiple_cmd = midi_cvt.to_command_list_in_delay(
player_selector=player,
)
if not os.path.exists(dist_path):
os.makedirs(dist_path)
struct, size, end_pos = commands_to_redstone_delay_structure(
cmd_list,
max_delay,
max_multiple_cmd,
basement_block,
axis_side,
compability_version_=compability_ver,
)
with open(
os.path.abspath(os.path.join(dist_path, f"{midi_cvt.music_name}[repeater].mcstructure")),
"wb+",
) as f:
struct.dump(f)
return size, max_delay
def to_mcstructure_files_in_repeater_divided_by_instruments(
midi_cvt: MidiConvert,
dist_path: str,
player: str = "@a",
axis_side: Literal["z+", "z-", "Z+", "Z-", "x+", "x-", "X+", "X-"] = "z+",
basement_block: str = "concrete",
):
"""
将midi以延迟播放器形式转换为mcstructure结构文件
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
player: str
玩家选择器,默认为`@a`
axis_side: Literal["z+","z-","Z+","Z-","x+","x-","X+","X-"]
生成结构的延展方向
basement_block: str
结构的基底方块
Returns
-------
int音乐总延迟
"""
compability_ver = (
COMPABILITY_VERSION_117
if midi_cvt.enable_old_exe_format
else COMPABILITY_VERSION_119
)
cmd_dict, max_delay, max_multiple_cmd_count = (
midi_cvt.to_command_list_in_delay_devided_by_instrument(
player_selector=player,
)
)
if not os.path.exists(dist_path):
os.makedirs(dist_path)
for inst, cmd_list in cmd_dict.items():
struct, size, end_pos = commands_to_redstone_delay_structure(
cmd_list,
max_delay,
max_multiple_cmd_count[inst],
basement_block,
axis_side,
compability_version_=compability_ver,
)
with open(
os.path.abspath(
os.path.join(
dist_path,
"{}[repeater-div]_{}.mcstructure".format(
midi_cvt.music_name, inst.replace(".", "-")
),
)
),
"wb+",
) as f:
struct.dump(f)
return max_delay
def to_mcstructure_file_in_blocks(
midi_cvt: MidiConvert,
dist_path: str,
player: str = "@a",
):
"""
将midi以方块形式转换为mcstructure结构文件
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
player: str
玩家选择器,默认为`@a`
Returns
-------
int音乐总延迟
"""
pass

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old-things/Musicreater/old_plugin/mcstructure.py Normal file
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# -*- coding: utf-8 -*-
"""
存放有关MCSTRUCTURE结构操作的内容
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
from typing import List, Literal, Tuple
from TrimMCStruct import Block, Structure, TAG_Byte, TAG_Long
from ..constants import x, y, z
from ..subclass import MineCommand
from .common import bottem_side_length_of_smallest_square_bottom_box
def antiaxis(axis: Literal["x", "z", "X", "Z"]):
return z if axis == x else x
def forward_IER(forward: bool):
return 1 if forward else -1
AXIS_PARTICULAR_VALUE = {
x: {
True: 5,
False: 4,
},
y: {
True: 1,
False: 0,
},
z: {
True: 3,
False: 2,
},
}
# 1.19的结构兼容版本号
COMPABILITY_VERSION_119: int = 17959425
"""
Minecraft 1.19 兼容版本号
"""
# 1.17的结构兼容版本号
COMPABILITY_VERSION_117: int = 17879555
"""
Minecraft 1.17 兼容版本号
"""
COMPABILITY_VERSION_121: int = 18168865
"""
Minecraft 1.21 兼容版本号
"""
def command_statevalue(axis_: Literal["x", "y", "z", "X", "Y", "Z"], forward_: bool):
return AXIS_PARTICULAR_VALUE[axis_.lower()][forward_]
def form_note_block_in_NBT_struct(
note: int,
coordinate: Tuple[int, int, int],
instrument: str = "note.harp",
powered: bool = False,
compability_version_number: int = COMPABILITY_VERSION_119,
) -> Block:
"""
生成音符盒方块
Parameters
------------
note: int (0~24)
音符的音高
coordinate: tuple[int, int, int]
此方块所在之相对坐标
instrument: str
音符盒的乐器
powered: bool
是否已被激活
Returns
-------
Block
生成的方块对象
"""
return Block(
"minecraft",
"noteblock",
{
"instrument": instrument.replace("note.", ""),
"note": note,
"powered": powered,
},
{
"block_entity_data": {
"note": TAG_Byte(note),
"id": "noteblock",
"x": coordinate[0],
"y": coordinate[1],
"z": coordinate[2],
} # type: ignore
},
compability_version=compability_version_number,
)
def form_repeater_in_NBT_struct(
delay: int,
facing: int,
compability_version_number: int = COMPABILITY_VERSION_119,
) -> Block:
"""
生成中继器方块
Parameters
----------
facing: int (0~3)
朝向:
Z- 北 0
X- 东 1
Z+ 南 2
X+ 西 3
delay: int (0~3)
信号延迟
Returns
-------
Block
生成的方块对象
"""
return Block(
"minecraft",
"unpowered_repeater",
{
"repeater_delay": delay,
"direction": facing,
},
compability_version=compability_version_number,
)
def form_command_block_in_NBT_struct(
command: str,
coordinate: tuple,
particularValue: int,
impluse: int = 0,
condition: bool = False,
alwaysRun: bool = True,
tickDelay: int = 0,
customName: str = "",
executeOnFirstTick: bool = False,
trackOutput: bool = True,
compability_version_number: int = COMPABILITY_VERSION_119,
) -> Block:
"""
使用指定参数生成指令方块
Parameters
----------
command: str
指令
coordinate: tuple[int,int,int]
此方块所在之相对坐标
particularValue: int
方块特殊值,即朝向
:0 下 无条件
:1 上 无条件
:2 z轴负方向 无条件
:3 z轴正方向 无条件
:4 x轴负方向 无条件
:5 x轴正方向 无条件
:6 下 无条件
:7 下 无条件
:8 下 有条件
:9 上 有条件
:10 z轴负方向 有条件
:11 z轴正方向 有条件
:12 x轴负方向 有条件
:13 x轴正方向 有条件
:14 下 有条件
:14 下 有条件
注意此处特殊值中的条件会被下面condition参数覆写
impluse: int (0|1|2)
方块类型
0脉冲 1循环 2连锁
condition: bool
是否有条件
alwaysRun: bool
是否始终执行
tickDelay: int
执行延时
customName: str
悬浮字
executeOnFirstTick: bool
是否启用首刻执行循环指令方块是否激活后立即执行若为False则从激活时起延迟后第一次执行
trackOutput: bool
是否启用命令方块输出
compability_version_number: int
版本兼容代号
Returns
-------
Block
生成的方块对象
"""
return Block(
"minecraft",
(
"command_block"
if impluse == 0
else ("repeating_command_block" if impluse == 1 else "chain_command_block")
),
states={"conditional_bit": condition, "facing_direction": particularValue},
extra_data={
"block_entity_data": {
"Command": command,
"CustomName": customName,
"ExecuteOnFirstTick": executeOnFirstTick,
"LPCommandMode": 0,
"LPCondionalMode": False,
"LPRedstoneMode": False,
"LastExecution": TAG_Long(0),
"LastOutput": "",
"LastOutputParams": [],
"SuccessCount": 0,
"TickDelay": tickDelay,
"TrackOutput": trackOutput,
"Version": (
25 if compability_version_number <= COMPABILITY_VERSION_119 else 43
),
"auto": alwaysRun,
"conditionMet": False, # 是否已经满足条件
"conditionalMode": condition,
"id": "CommandBlock",
"isMovable": True,
"powered": False, # 是否已激活
"x": coordinate[0],
"y": coordinate[1],
"z": coordinate[2],
} # type: ignore
},
compability_version=compability_version_number,
)
def commands_to_structure(
commands: List[MineCommand],
max_height: int = 64,
compability_version_: int = COMPABILITY_VERSION_119,
):
"""
由指令列表生成(纯指令方块)结构
Parameters
------------
commands: list
指令列表
max_height: int
生成结构最大高度
Returns
---------
Structure, tuple[int, int, int], tuple[int, int, int]
结构类, 结构占用大小, 终点坐标
"""
_sideLength = bottem_side_length_of_smallest_square_bottom_box(
len(commands), max_height
)
struct = Structure(
size=(_sideLength, max_height, _sideLength), # 声明结构大小
compability_version=compability_version_,
)
y_forward = True
z_forward = True
now_y = 0
now_z = 0
now_x = 0
for command in commands:
coordinate = (now_x, now_y, now_z)
struct.set_block(
coordinate,
form_command_block_in_NBT_struct(
command=command.command_text,
coordinate=coordinate,
particularValue=(
(1 if y_forward else 0)
if (
((now_y != 0) and (not y_forward))
or (y_forward and (now_y != (max_height - 1)))
)
else (
(3 if z_forward else 2)
if (
((now_z != 0) and (not z_forward))
or (z_forward and (now_z != _sideLength - 1))
)
else 5
)
),
impluse=2,
condition=False,
alwaysRun=True,
tickDelay=command.delay,
customName=command.annotation_text,
executeOnFirstTick=False,
trackOutput=True,
compability_version_number=compability_version_,
),
)
now_y += 1 if y_forward else -1
if ((now_y >= max_height) and y_forward) or ((now_y < 0) and (not y_forward)):
now_y -= 1 if y_forward else -1
y_forward = not y_forward
now_z += 1 if z_forward else -1
if ((now_z >= _sideLength) and z_forward) or (
(now_z < 0) and (not z_forward)
):
now_z -= 1 if z_forward else -1
z_forward = not z_forward
now_x += 1
return (
struct,
(
now_x + 1,
max_height if now_x or now_z else now_y,
_sideLength if now_x else now_z,
),
(now_x, now_y, now_z),
)
def commands_to_redstone_delay_structure(
commands: List[MineCommand],
delay_length: int,
max_multicmd_length: int,
base_block: str = "concrete",
axis_: Literal["z+", "z-", "Z+", "Z-", "x+", "x-", "X+", "X-"] = "z+",
compability_version_: int = COMPABILITY_VERSION_119,
) -> Tuple[Structure, Tuple[int, int, int], Tuple[int, int, int]]:
"""
由指令列表生成由红石中继器延迟的结构
Parameters
------------
commands: list
指令列表
delay_length: int
延时总长
max_multicmd_length: int
最大同时播放的音符数量
base_block: Block
生成结构的基底方块
axis_: str
生成结构的延展方向
Returns
---------
Structure, tuple[int, int, int], tuple[int, int, int]
结构类, 结构占用大小, 终点坐标
"""
if axis_ in ["z+", "Z+"]:
extensioon_direction = z
aside_direction = x
repeater_facing = 2
forward = True
elif axis_ in ["z-", "Z-"]:
extensioon_direction = z
aside_direction = x
repeater_facing = 0
forward = False
elif axis_ in ["x+", "X+"]:
extensioon_direction = x
aside_direction = z
repeater_facing = 3
forward = True
elif axis_ in ["x-", "X-"]:
extensioon_direction = x
aside_direction = z
repeater_facing = 1
forward = False
else:
raise ValueError(f"axis_({axis_}) 参数错误。")
goahead = forward_IER(forward)
command_actually_length = sum([int(bool(cmd.delay)) for cmd in commands])
a = 1
a_max = 0
total_cmd = 0
for cmd in commands:
# print("\r 正在进行处理:",end="")
if cmd.delay > 2:
a_max = max(a, a_max)
total_cmd += (a := 1)
else:
a += 1
struct = Structure(
size=(
round(delay_length / 2 + total_cmd) if extensioon_direction == x else a_max,
3,
round(delay_length / 2 + total_cmd) if extensioon_direction == z else a_max,
),
fill=Block("minecraft", "air", compability_version=compability_version_),
compability_version=compability_version_,
)
pos_now = {
x: ((1 if extensioon_direction == x else 0) if forward else struct.size[0]),
y: 0,
z: ((1 if extensioon_direction == z else 0) if forward else struct.size[2]),
}
chain_list = 0
# print("结构元信息设定完毕")
for cmd in commands:
# print("\r 正在进行处理:",end="")
if cmd.delay > 1:
# print("\rdelay > 0",end='')
single_repeater_value = int(cmd.delay / 2) % 4 - 1
additional_repeater = int(cmd.delay / 2 // 4)
for i in range(additional_repeater):
struct.set_block(
tuple(pos_now.values()), # type: ignore
Block(
"minecraft",
base_block,
compability_version=compability_version_,
),
)
struct.set_block(
(pos_now[x], 1, pos_now[z]),
form_repeater_in_NBT_struct(
delay=3,
facing=repeater_facing,
compability_version_number=compability_version_,
),
)
pos_now[extensioon_direction] += goahead
if single_repeater_value >= 0:
struct.set_block(
tuple(pos_now.values()), # type: ignore
Block(
"minecraft",
base_block,
compability_version=compability_version_,
),
)
struct.set_block(
(pos_now[x], 1, pos_now[z]),
form_repeater_in_NBT_struct(
delay=single_repeater_value,
facing=repeater_facing,
compability_version_number=compability_version_,
),
)
pos_now[extensioon_direction] += goahead
struct.set_block(
(pos_now[x], 1, pos_now[z]),
form_command_block_in_NBT_struct(
command=cmd.command_text,
coordinate=(pos_now[x], 1, pos_now[z]),
particularValue=command_statevalue(extensioon_direction, forward),
# impluse= (0 if first_impluse else 2),
impluse=0,
condition=False,
alwaysRun=False,
tickDelay=cmd.delay % 2,
customName=cmd.annotation_text,
compability_version_number=compability_version_,
),
)
struct.set_block(
(pos_now[x], 2, pos_now[z]),
Block(
"minecraft",
"redstone_wire",
compability_version=compability_version_,
),
)
pos_now[extensioon_direction] += goahead
chain_list = 1
else:
# print(pos_now)
now_pos_copy = pos_now.copy()
now_pos_copy[extensioon_direction] -= goahead
now_pos_copy[aside_direction] += chain_list
# print(pos_now,"\n=========")
struct.set_block(
(now_pos_copy[x], 1, now_pos_copy[z]),
form_command_block_in_NBT_struct(
command=cmd.command_text,
coordinate=(now_pos_copy[x], 1, now_pos_copy[z]),
particularValue=command_statevalue(extensioon_direction, forward),
# impluse= (0 if first_impluse else 2),
impluse=0,
condition=False,
alwaysRun=False,
tickDelay=cmd.delay % 2,
customName=cmd.annotation_text,
compability_version_number=compability_version_,
),
)
struct.set_block(
(now_pos_copy[x], 2, now_pos_copy[z]),
Block(
"minecraft",
"redstone_wire",
compability_version=compability_version_,
),
)
chain_list += 1
return struct, struct.size, tuple(pos_now.values()) # type: ignore

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old-things/Musicreater/old_plugin/noteblock.py Normal file
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# -*- coding: utf-8 -*-
"""
存放有关红石音乐生成操作的内容
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
from ..old_exceptions import NotDefineProgramError, ZeroSpeedError
from ..old_main import MidiConvert
from ..subclass import MineCommand
from ..utils import inst_to_sould_with_deviation, perc_inst_to_soundID_withX
# 你以为写完了吗?其实并没有
def to_note_list(
midi_cvt: MidiConvert,
speed: float = 1.0,
) -> list:
"""
使用金羿的转换思路将midi转换为我的世界音符盒所用的音高列表并输出每个音符之后的延迟
Parameters
----------
speed: float
速度,注意:这里的速度指的是播放倍率,其原理为在播放音频的时候,每个音符的播放时间除以 speed
Returns
-------
tuple( list[tuple(str指令, int距离上一个指令的延迟 ),...], int音乐时长游戏刻 )
"""
if speed == 0:
raise ZeroSpeedError("播放速度仅可为正实数")
midi_channels = (
midi_cvt.to_music_channels() if not midi_cvt.channels else midi_cvt.channels
)
tracks = {}
# 此处 我们把通道视为音轨
for i in midi_channels.keys():
# 如果当前通道为空 则跳过
if not midi_channels[i]:
continue
# 第十通道是打击乐通道
SpecialBits = True if i == 9 else False
# nowChannel = []
for track_no, track in midi_channels[i].items():
for msg in track:
if msg[0] == "PgmC":
InstID = msg[1]
elif msg[0] == "NoteS":
try:
soundID, _X = (
perc_inst_to_soundID_withX(InstID)
if SpecialBits
else inst_to_sould_with_deviation(InstID)
)
except UnboundLocalError as E:
soundID, _X = (
perc_inst_to_soundID_withX(-1)
if SpecialBits
else inst_to_sould_with_deviation(-1)
)
score_now = round(msg[-1] / float(speed) / 50)
# print(score_now)
try:
tracks[score_now].append(
self.execute_cmd_head.format(player)
+ f"playsound {soundID} @s ^ ^ ^{1 / MaxVolume - 1} {msg[2] / 128} "
f"{2 ** ((msg[1] - 60 - _X) / 12)}"
)
except KeyError:
tracks[score_now] = [
self.execute_cmd_head.format(player)
+ f"playsound {soundID} @s ^ ^ ^{1 / MaxVolume - 1} {msg[2] / 128} "
f"{2 ** ((msg[1] - 60 - _X) / 12)}"
]
all_ticks = list(tracks.keys())
all_ticks.sort()
results = []
for i in range(len(all_ticks)):
for j in range(len(tracks[all_ticks[i]])):
results.append(
(
tracks[all_ticks[i]][j],
(
0
if j != 0
else (
all_ticks[i] - all_ticks[i - 1] if i != 0 else all_ticks[i]
)
),
)
)
return [results, max(all_ticks)]

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old-things/Musicreater/old_plugin/schematic.py Normal file
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# -*- coding: utf-8 -*-
"""
存放有关Schematic结构生成的内容
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
# import nbtschematic

22
old-things/Musicreater/old_plugin/schematic/__init__.py Normal file
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# -*- coding: utf-8 -*-
"""
用以生成Schematic结构的附加功能
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
__all__ = [
]
__author__ = (("金羿", "Eilles"),)
from .main import *

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old-things/Musicreater/old_plugin/schematic/main.py Normal file
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# -*- coding: utf-8 -*-
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
from ..schematic import *

21
old-things/Musicreater/old_plugin/websocket/__init__.py Normal file
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# -*- coding: utf-8 -*-
"""
用以启动WebSocket服务器播放的附加功能
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
__all__ = []
__author__ = (("金羿", "Eilles"),)
from .main import *

142
old-things/Musicreater/old_plugin/websocket/main.py Normal file
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# -*- coding: utf-8 -*-
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
import asyncio
import time
import uuid
from typing import List, Literal, Optional, Tuple
import fcwslib
from ...old_main import MidiConvert
from ...subclass import MineCommand, ProgressBarStyle
def to_websocket_server(
midi_cvt_lst: List[MidiConvert],
server_dist: str,
server_port: int,
progressbar_style: Optional[ProgressBarStyle],
) -> None:
"""
将midi以延迟播放器形式转换为mcstructure结构文件后打包成附加包并在附加包中生成相应地导入函数
Parameters
----------
midi_cvt: List[MidiConvert]
一组用于转换的MidiConvert对象
server_dist: str
WebSocket播放服务器开启地址
server_port: str
WebSocket播放服务器开启端口
progressbar_style: ProgressBarStyle 对象
进度条对象
Returns
-------
None
"""
replacement = str(uuid.uuid4())
musics = dict(
[
(k.music_name, k.to_command_list_in_delay(replacement)[:2])
for k in midi_cvt_lst
]
)
class Plugin(fcwslib.Plugin):
async def on_connect(self) -> None:
print("已成功获连接")
await self.send_command("list", callback=self.cmd_feedback)
await self.subscribe("PlayerMessage", callback=self.player_message)
async def on_disconnect(self) -> None:
print("连接已然终止")
await self.disconnect()
async def on_receive(self, response) -> None:
print("已收取非已知列回复 {}".format(response))
async def cmd_feedback(self, response) -> None:
print("已收取指令执行回复 {}".format(response))
async def player_message(self, response) -> None:
print("已收取玩家事件回复 {}".format(response))
if response["body"]["message"].startswith(("。播放", ".play")):
whom_to_play: str = response["body"]["sender"]
music_to_play: str = (
response["body"]["message"]
.replace("。播放", "")
.replace(".play", "")
.strip()
)
if music_to_play in musics.keys():
self.check_play = True
delay_of_now = 0
now_played_cmd = 0
_time = time.time()
for i in range(musics[music_to_play][1]):
if not self.check_play:
break
await asyncio.sleep((0.05 - (time.time() - _time)) % 0.05)
_time = time.time()
if progressbar_style:
await self.send_command(
"title {} actionbar {}".format(
whom_to_play,
progressbar_style.play_output(
played_delays=i,
total_delays=musics[music_to_play][1],
music_name=music_to_play,
),
),
callback=self.cmd_feedback,
)
delay_of_now += 1
if (
delay_of_now
>= (cmd := musics[music_to_play][0][now_played_cmd]).delay
):
await self.send_command(
cmd.command_text.replace(replacement, whom_to_play),
callback=self.cmd_feedback,
)
now_played_cmd += 1
delay_of_now = 0
else:
await self.send_command(
"tellraw {} {}{}{}".format(
whom_to_play,
r'{"rawtext":[{"text":"§c§l所选歌曲',
music_to_play,
'无法播放:播放列表不存在之"}]}',
),
callback=self.cmd_feedback,
)
elif response["body"]["message"].startswith(
("。停止播放", ".stopplay", ".stoplay")
):
self.check_play = False
elif response["body"]["message"].startswith(
("。终止连接", ".terminate", ".endconnection")
):
await self.disconnect()
server = fcwslib.Server(server=server_dist, port=server_port, debug_mode=True)
server.add_plugin(Plugin)
asyncio.run(server.run_forever())

73
old-things/Musicreater/old_types.py Normal file
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# -*- coding: utf-8 -*-
"""
存放数据类型的定义
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
from typing import Callable, Dict, List, Literal, Mapping, Tuple, Union
from .subclass import MineNote
MidiNoteNameTableType = Mapping[int, Tuple[str, ...]]
"""
Midi音符名称对照表类型
"""
MidiInstrumentTableType = Mapping[int, str]
"""
Midi乐器对照表类型
"""
FittingFunctionType = Callable[[float], float]
"""
拟合函数类型
"""
ChannelType = Dict[
int,
Dict[
int,
List[
Union[
Tuple[Literal["PgmC"], int, int],
Tuple[Literal["NoteS"], int, int, int],
Tuple[Literal["NoteE"], int, int],
]
],
],
]
"""
以字典所标记的通道信息类型(已弃用)
Dict[int,Dict[int,List[Union[Tuple[Literal["PgmC"], int, int],Tuple[Literal["NoteS"], int, int, int],Tuple[Literal["NoteE"], int, int],]],],]
"""
MineNoteChannelType = Mapping[
int,
List[MineNote,],
]
"""
我的世界通道信息类型
Dict[int,Dict[int,List[MineNote,],],]
"""
MineNoteTrackType = Mapping[
int,
List[MineNote,],
]

861
old-things/Musicreater/subclass.py Normal file
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# -*- coding: utf-8 -*-
"""
存储音·创附属子类
"""
"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
# 睿乐组织 开发交流群 861684859
# Email TriM-Organization@hotmail.com
# 若需转载或借鉴 许可声明请查看仓库目录下的 License.md
from math import sin, cos, asin, radians, degrees, sqrt, atan
from dataclasses import dataclass
from typing import Optional, Any, List, Tuple, Union, Dict, Sequence
from .constants import MC_PITCHED_INSTRUMENT_LIST
@dataclass(init=False)
class MineNote:
"""存储单个音符的类"""
sound_name: str
"""乐器ID"""
note_pitch: int
"""midi音高"""
velocity: int
"""力度"""
start_tick: int
"""开始之时 命令刻"""
duration: int
"""音符持续时间 命令刻"""
high_precision_time: int
"""高精度开始时间偏量 1/1250 秒"""
percussive: bool
"""是否作为打击乐器启用"""
sound_distance: float
"""声源距离 方块"""
sound_azimuth: Tuple[float, float]
"""声源方位 角度"""
extra_info: Dict[str, Any]
"""你觉得放什么好?"""
def __init__(
self,
mc_sound_name: str,
midi_pitch: Optional[int],
midi_velocity: int,
start_time: int,
last_time: int,
mass_precision_time: int = 0,
is_percussion: Optional[bool] = None,
distance: Optional[float] = None,
azimuth: Optional[Tuple[float, float]] = None,
extra_information: Dict[str, Any] = {},
):
"""
用于存储单个音符的类
Parameters
------------
mc_sound_name: str
《我的世界》声音ID
midi_pitch: int
midi音高
midi_velocity: int
midi响度(力度)
start_time: int
开始之时(命令刻)
注:此处的时间是用从乐曲开始到当前的刻数
last_time: int
音符延续时间(命令刻)
mass_precision_time: int
高精度的开始时间偏移量(1/1250秒)
is_percussion: bool
是否作为打击乐器
distance: float
发声源距离玩家的距离(半径 `r`
注:距离越近,音量越高,默认为 0。此参数可以与音量成某种函数关系。
azimuth: tuple[float, float]
声源方位
此参数为tuple包含两个元素分别表示
`rV` 发声源在竖直(上下)轴上,从玩家视角正前方开始,向顺时针旋转的角度
`rH` 发声源在水平(左右)轴上,从玩家视角正前方开始,向上(到达玩家正上方顶点后变为向下,以此类推的旋转)旋转的角度
extra_information: Dict[str, Any]
附加信息,尽量存储为字典
Returns
---------
MineNote 类
"""
self.sound_name: str = mc_sound_name
"""乐器ID"""
self.note_pitch: int = 66 if midi_pitch is None else midi_pitch
"""midi音高"""
self.velocity: int = midi_velocity
"""响度(力度)"""
self.start_tick: int = start_time
"""开始之时 命令刻"""
self.duration: int = last_time
"""音符持续时间 命令刻"""
self.high_precision_time: int = mass_precision_time
"""高精度开始时间偏量 0.4 毫秒"""
self.percussive = (
(mc_sound_name not in MC_PITCHED_INSTRUMENT_LIST)
if (is_percussion is None)
else is_percussion
)
"""是否为打击乐器"""
self.sound_azimuth = (azimuth[0] % 360, azimuth[1] % 360) if azimuth else (0, 0)
"""声源方位"""
# 如果指定为零,那么为零,但如果不指定或者指定为负数,则为 0.01 的距离
self.sound_distance = (
(16 if distance > 16 else (distance if distance >= 0 else 0.01))
if distance is not None
else 0.01
)
"""声源距离"""
self.extra_info = extra_information if extra_information else {}
@classmethod
def from_traditional(
cls,
mc_sound_name: str,
midi_pitch: Optional[int],
midi_velocity: int,
start_time: int,
last_time: int,
mass_precision_time: int = 0,
is_percussion: Optional[bool] = None,
displacement: Optional[Tuple[float, float, float]] = None,
extra_information: Optional[Any] = None,
):
"""
从传统音像位移格式传参,写入用于存储单个音符的类
Parameters
------------
mc_sound_name: str
《我的世界》声音ID
midi_pitch: int
midi音高
midi_velocity: int
midi响度(力度)
start_time: int
开始之时(命令刻)
注:此处的时间是用从乐曲开始到当前的刻数
last_time: int
音符延续时间(命令刻)
mass_precision_time: int
高精度的开始时间偏移量(1/1250秒)
is_percussion: bool
是否作为打击乐器
displacement: tuple[float, float, float]
声像位移
extra_information: Any
附加信息,尽量为字典。
Returns
---------
MineNote 类
"""
if displacement is None:
displacement = (0, 0, 0)
r = 0
alpha_v = 0
beta_h = 0
else:
r = sqrt(displacement[0] ** 2 + displacement[1] ** 2 + displacement[2] ** 2)
if r == 0:
alpha_v = 0
beta_h = 0
else:
beta_h = round(degrees(asin(displacement[1] / r)), 8)
if displacement[2] == 0:
alpha_v = -90 if displacement[0] > 0 else 90
else:
alpha_v = round(
degrees(atan(-displacement[0] / displacement[2])), 8
)
return cls(
mc_sound_name=mc_sound_name,
midi_pitch=midi_pitch,
midi_velocity=midi_velocity,
start_time=start_time,
last_time=last_time,
mass_precision_time=mass_precision_time,
is_percussion=is_percussion,
distance=r,
azimuth=(alpha_v, beta_h),
extra_information=(
(
extra_information
if isinstance(extra_information, dict)
else {"EXTRA_INFO": extra_information}
)
if extra_information
else {}
),
)
@property
def position_displacement(self) -> Tuple[float, float, float]:
"""声像位移"""
dk1 = self.sound_distance * round(cos(radians(self.sound_azimuth[1])), 8)
return (
-dk1 * round(sin(radians(self.sound_azimuth[0])), 8),
self.sound_distance * round(sin(radians(self.sound_azimuth[1])), 8),
dk1 * round(cos(radians(self.sound_azimuth[0])), 8),
)
@classmethod
def decode(cls, code_buffer: bytes, is_high_time_precision: bool = True):
"""自字节码析出 MineNote 类"""
group_1 = int.from_bytes(code_buffer[:6], "big")
percussive_ = bool(group_1 & 0b1)
duration_ = (group_1 := group_1 >> 1) & 0b11111111111111111
start_tick_ = (group_1 := group_1 >> 17) & 0b11111111111111111
note_pitch_ = (group_1 := group_1 >> 17) & 0b1111111
sound_name_length = group_1 >> 7
if code_buffer[6] & 0b1:
distance_ = (
code_buffer[8 + sound_name_length]
if is_high_time_precision
else code_buffer[7 + sound_name_length]
) / 15
group_2 = int.from_bytes(
(
code_buffer[9 + sound_name_length : 14 + sound_name_length]
if is_high_time_precision
else code_buffer[8 + sound_name_length : 13 + sound_name_length]
),
"big",
)
azimuth_ = ((group_2 >> 20) / 2912, (group_2 & 0xFFFFF) / 2912)
else:
distance_ = 0
azimuth_ = (0, 0)
try:
return cls(
mc_sound_name=(
o := (
code_buffer[8 : 8 + sound_name_length]
if is_high_time_precision
else code_buffer[7 : 7 + sound_name_length]
)
).decode(encoding="GB18030"),
midi_pitch=note_pitch_,
midi_velocity=code_buffer[6] >> 1,
start_time=start_tick_,
last_time=duration_,
mass_precision_time=code_buffer[7] if is_high_time_precision else 0,
is_percussion=percussive_,
distance=distance_,
azimuth=azimuth_,
)
except:
print(code_buffer, "\n", o)
raise
def encode(
self, is_displacement_included: bool = True, is_high_time_precision: bool = True
) -> bytes:
"""
将数据打包为字节码
Parameters
------------
is_displacement_included: bool
是否包含声像偏移数据,默认为**是**
is_high_time_precision: bool
是否启用高精度,默认为**是**
Returns
---------
bytes
打包好的字节码
"""
# MineNote 的字节码共有三个顺次版本分别如下
# 字符串长度 6 位 支持到 63
# note_pitch 7 位 支持到 127
# start_tick 17 位 支持到 131071 即 109.22583 分钟 合 1.8204305 小时
# duration 17 位 支持到 131071 即 109.22583 分钟 合 1.8204305 小时
# percussive 长度 1 位 支持到 1
# 共 48 位 合 6 字节
# +++
# velocity 长度 7 位 支持到 127
# is_displacement_included 长度 1 位 支持到 1
# 共 8 位 合 1 字节
# +++
# (在第二版中已舍弃)
# track_no 长度 8 位 支持到 255 合 1 字节
# (在第二版中新增)
# high_time_precision可选长度 8 位 支持到 255 合 1 字节 支持 1/1250 秒
# +++
# sound_name 长度最多 63 支持到 31 个中文字符 或 63 个西文字符
# 第一版编码: UTF-8
# 第二版编码: GB18030
# +++
# (在第三版中已废弃)
# position_displacement 每个元素长 16 位 合 2 字节
# 共 48 位 合 6 字节 支持存储三位小数和两位整数,其值必须在 [0, 65.535] 之间
# (在第三版中新增)
# sound_distance 8 位 支持到 255 即 16 格 合 1 字节(按值放大 15 倍存储,精度可达 1 / 15
# sound_azimuth 每个元素长 20 位 共 40 位 合 5 字节。每个值放大 2912 倍存储,即支持到 360.08756868131866 度,精度同理
return (
(
(
(
(
(
(
(
(
len(
r := self.sound_name.encode(
encoding="GB18030"
)
)
<< 7
)
+ self.note_pitch
)
<< 17
)
+ self.start_tick
)
<< 17
)
+ self.duration
)
<< 1
)
+ self.percussive
).to_bytes(6, "big")
+ ((self.velocity << 1) + is_displacement_included).to_bytes(1, "big")
# + self.track_no.to_bytes(1, "big")
+ (
self.high_precision_time.to_bytes(1, "big")
if is_high_time_precision
else b""
)
+ r
+ (
(
round(self.sound_distance * 15).to_bytes(1, "big")
+ (
(round(self.sound_azimuth[0] * 2912) << 20)
+ round(self.sound_azimuth[1] * 2912)
).to_bytes(5, "big")
)
if is_displacement_included
else b""
)
)
def set_info(self, key: Union[str, Sequence[str]], value: Any):
"""设置附加信息"""
if isinstance(key, str):
self.extra_info[key] = value
elif (
isinstance(key, Sequence)
and isinstance(value, Sequence)
and (k := len(key)) == len(value)
):
for i in range(k):
self.extra_info[key[i]] = value[i]
else:
# 提供简单报错就行了,如果放一堆 if 语句,降低处理速度
raise TypeError("参数类型错误;键:`{}` 值:`{}`".format(key, value))
def get_info(self, key: str) -> Any:
"""获取附加信息"""
if key in self.extra_info:
return self.extra_info[key]
elif "EXTRA_INFO" in self.extra_info:
if (
isinstance(self.extra_info["EXTRA_INFO"], dict)
and key in self.extra_info["EXTRA_INFO"]
):
return self.extra_info["EXTRA_INFO"].get(key)
else:
return self.extra_info["EXTRA_INFO"]
else:
return None
def stringize(
self, include_displacement: bool = False, include_extra_data: bool = False
) -> str:
return (
"{}Note(Instrument = {}, {}Velocity = {}, StartTick = {}, Duration = {}{}".format(
"Percussive" if self.percussive else "",
self.sound_name,
"" if self.percussive else "NotePitch = {}, ".format(self.note_pitch),
self.velocity,
self.start_tick,
self.duration,
)
+ (
", SoundDistance = `r`{}, SoundAzimuth = (`αV`{}, `βH`{})".format(
self.sound_distance, *self.sound_azimuth
)
if include_displacement
else ""
)
+ (", ExtraData = {}".format(self.extra_info) if include_extra_data else "")
+ ")"
)
def tuplize(self, is_displacement: bool = False):
tuplized = self.__tuple__()
return tuplized[:-2] + (tuplized[-2:] if is_displacement else ())
def __list__(self) -> List:
return (
[
self.percussive,
self.sound_name,
self.velocity,
self.start_tick,
self.duration,
self.sound_distance,
self.sound_azimuth,
]
if self.percussive
else [
self.percussive,
self.sound_name,
self.note_pitch,
self.velocity,
self.start_tick,
self.duration,
self.sound_distance,
self.sound_azimuth,
]
)
def __tuple__(
self,
) -> Union[
Tuple[bool, str, int, int, int, int, float, Tuple[float, float]],
Tuple[bool, str, int, int, int, float, Tuple[float, float]],
]:
return (
(
self.percussive,
self.sound_name,
self.velocity,
self.start_tick,
self.duration,
self.sound_distance,
self.sound_azimuth,
)
if self.percussive
else (
self.percussive,
self.sound_name,
self.note_pitch,
self.velocity,
self.start_tick,
self.duration,
self.sound_distance,
self.sound_azimuth,
)
)
def __dict__(self):
return (
{
"Percussive": self.percussive,
"Instrument": self.sound_name,
"Velocity": self.velocity,
"StartTick": self.start_tick,
"Duration": self.duration,
"SoundDistance": self.sound_distance,
"SoundAzimuth": self.sound_azimuth,
"ExtraData": self.extra_info,
}
if self.percussive
else {
"Percussive": self.percussive,
"Instrument": self.sound_name,
"Pitch": self.note_pitch,
"Velocity": self.velocity,
"StartTick": self.start_tick,
"Duration": self.duration,
"SoundDistance": self.sound_distance,
"SoundAzimuth": self.sound_azimuth,
"ExtraData": self.extra_info,
}
)
def __eq__(self, other) -> bool:
if not isinstance(other, self.__class__):
return False
return self.tuplize() == other.tuplize()
@dataclass(init=False)
class MineCommand:
"""存储单个指令的类"""
command_text: str
"""指令文本"""
conditional: bool
"""执行是否有条件"""
delay: int
"""执行的延迟"""
annotation_text: str
"""指令注释"""
def __init__(
self,
command: str,
condition: bool = False,
tick_delay: int = 0,
annotation: str = "",
):
"""
存储单个指令的类
Parameters
----------
command: str
指令
condition: bool
是否有条件
tick_delay: int
执行延时
annotation: str
注释
"""
self.command_text = command
self.conditional = condition
self.delay = tick_delay
self.annotation_text = annotation
def copy(self):
return MineCommand(
command=self.command_text,
condition=self.conditional,
tick_delay=self.delay,
annotation=self.annotation_text,
)
@property
def cmd(self) -> str:
"""
我的世界函数字符串(包含注释)
"""
return self.__str__()
def __str__(self) -> str:
"""
转为我的世界函数文件格式(包含注释)
"""
return "# {cdt}<{delay}> {ant}\n{cmd}".format(
cdt="[CDT]" if self.conditional else "",
delay=self.delay,
ant=self.annotation_text,
cmd=self.command_text,
)
def __eq__(self, other) -> bool:
if not isinstance(other, self.__class__):
return False
return self.__str__() == other.__str__()
@dataclass(init=False)
class SingleNoteBox:
"""存储单个音符盒"""
instrument_block: str
"""乐器方块"""
note_value: int
"""音符盒音高"""
annotation_text: str
"""音符注释"""
is_percussion: bool
"""是否为打击乐器"""
def __init__(
self,
instrument_block_: str,
note_value_: int,
percussion: Optional[bool] = None,
annotation: str = "",
):
"""
用于存储单个音符盒的类
Parameters
------------
instrument_block_: str
音符盒演奏所使用的乐器方块
note_value_: int
音符盒的演奏音高
percussion: bool
此音符盒乐器是否作为打击乐处理
注:若为空,则自动识别是否为打击乐器
annotation: Any
音符注释
Returns
---------
SingleNoteBox 类
"""
self.instrument_block = instrument_block_
"""乐器方块"""
self.note_value = note_value_
"""音符盒音高"""
self.annotation_text = annotation
"""音符注释"""
if percussion is None:
self.is_percussion = percussion not in MC_PITCHED_INSTRUMENT_LIST
else:
self.is_percussion = percussion
@property
def inst(self) -> str:
"""获取音符盒下的乐器方块"""
return self.instrument_block
@inst.setter
def inst(self, inst_):
self.instrument_block = inst_
@property
def note(self) -> int:
"""获取音符盒音调特殊值"""
return self.note_value
@note.setter
def note(self, note_):
self.note_value = note_
@property
def annotation(self) -> str:
"""获取音符盒的备注"""
return self.annotation_text
@annotation.setter
def annotation(self, annotation_):
self.annotation_text = annotation_
def copy(self):
return SingleNoteBox(
instrument_block_=self.instrument_block,
note_value_=self.note_value,
annotation=self.annotation_text,
)
def __str__(self) -> str:
return f"Note(inst = {self.inst}, note = {self.note}, )"
def __tuple__(self) -> tuple:
return self.inst, self.note, self.annotation
def __dict__(self) -> dict:
return {
"inst": self.inst,
"note": self.note,
"annotation": self.annotation,
}
def __eq__(self, other) -> bool:
if not isinstance(other, self.__class__):
return False
return self.__str__() == other.__str__()
@dataclass(init=False)
class ProgressBarStyle:
"""进度条样式类"""
base_style: str
"""基础样式"""
to_play_style: str
"""未播放之样式"""
played_style: str
"""已播放之样式"""
def __init__(
self,
base_s: Optional[str] = None,
to_play_s: Optional[str] = None,
played_s: Optional[str] = None,
):
"""
用于存储进度条样式的类
| 标识符 | 指定的可变量 |
|---------|----------------|
| `%%N` | 乐曲名(即传入的文件名)|
| `%%s` | 当前计分板值 |
| `%^s` | 计分板最大值 |
| `%%t` | 当前播放时间 |
| `%^t` | 曲目总时长 |
| `%%%` | 当前进度比率 |
| `_` | 用以表示进度条占位|
Parameters
------------
base_s: str
基础样式,用以定义进度条整体
to_play_s: str
进度条样式:尚未播放的样子
played_s: str
已经播放的样子
Returns
---------
ProgressBarStyle 类
"""
self.base_style = (
base_s if base_s else r"%%N [ %%s/%^s %%% §e__________§r %%t|%^t ]"
)
self.to_play_style = to_play_s if to_play_s else r"§7="
self.played_style = played_s if played_s else r"="
@classmethod
def from_tuple(cls, tuplized_style: Optional[Tuple[str, Tuple[str, str]]]):
"""自旧版进度条元组表示法读入数据(已不建议使用)"""
if tuplized_style is None:
return cls(
r"%%N [ %%s/%^s %%% §e__________§r %%t|%^t ]",
r"§7=",
r"=",
)
if isinstance(tuplized_style, tuple):
if isinstance(tuplized_style[0], str) and isinstance(
tuplized_style[1], tuple
):
if isinstance(tuplized_style[1][0], str) and isinstance(
tuplized_style[1][1], str
):
return cls(
tuplized_style[0], tuplized_style[1][0], tuplized_style[1][1]
)
raise ValueError(
"元组表示的进度条样式组 {} 格式错误,已不建议使用此功能,请尽快更换。".format(
tuplized_style
)
)
def set_base_style(self, value: str):
"""设置基础样式"""
self.base_style = value
def set_to_play_style(self, value: str):
"""设置未播放之样式"""
self.to_play_style = value
def set_played_style(self, value: str):
"""设置已播放之样式"""
self.played_style = value
def copy(self):
dst = ProgressBarStyle(self.base_style, self.to_play_style, self.played_style)
return dst
def play_output(
self,
played_delays: int,
total_delays: int,
music_name: str = "无题",
) -> str:
"""
直接依照此格式输出一个进度条
Parameters
------------
played_delays: int
当前播放进度积分值
total_delays: int
乐器总延迟数(计分板值)
music_name: str
曲名
Returns
---------
str
进度条字符串
"""
return (
self.base_style.replace(r"%%N", music_name)
.replace(r"%%s", str(played_delays))
.replace(r"%^s", str(total_delays))
.replace(r"%%t", mctick2timestr(played_delays))
.replace(r"%^t", mctick2timestr(total_delays))
.replace(
r"%%%",
"{:0>5.2f}%".format(int(10000 * played_delays / total_delays) / 100),
)
.replace(
"_",
self.played_style,
(played_delays * self.base_style.count("_") // total_delays) + 1,
)
.replace("_", self.to_play_style)
)
def mctick2timestr(mc_tick: int) -> str:
"""
将《我的世界》的游戏刻计转为表示时间的字符串
"""
return "{:0>2d}:{:0>2d}".format(mc_tick // 1200, (mc_tick // 20) % 60)
DEFAULT_PROGRESSBAR_STYLE = ProgressBarStyle(
r"%%N [ %%s/%^s %%% §e__________§r %%t|%^t ]",
r"§7=",
r"=",
)
"""
默认的进度条样式
"""

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old-things/Musicreater/utils.py Normal file
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old-things/Packer/MSCT_MAIN.MPK Normal file
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old-things/Packer/MSCT_PLUGIN.MPK Normal file
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old-things/Packer/MSCT_PLUGIN_FUNCTION.MPK Normal file
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q@v,fxіБ<D196>Еџ<D095>лцmЩ5]Ќs"ЏџЦбBMXi<58>ЈnНхч<D185>Z8О=Г<7F>4<EFBFBD>PTUБQЈфджG<D0B6>жu_цп<D186>DS№|

68
old-things/Packer/MSCT_Packer.py Normal file
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import Musicreater.old_init as old_init
import Musicreater.experiment
import Musicreater.old_plugin
# import Musicreater.previous
from Musicreater.old_plugin.addonpack import (
to_addon_pack_in_delay,
to_addon_pack_in_repeater,
to_addon_pack_in_score,
)
from Musicreater.old_plugin.bdxfile import to_BDX_file_in_delay, to_BDX_file_in_score
from Musicreater.old_plugin.mcstructfile import (
to_mcstructure_file_in_delay,
to_mcstructure_file_in_repeater,
to_mcstructure_file_in_score,
)
MSCT_MAIN = (
old_init,
old_init.experiment,
# Musicreater.previous,
)
MSCT_PLUGIN = (old_init.old_plugin,)
MSCT_PLUGIN_FUNCTION = (
to_addon_pack_in_delay,
to_addon_pack_in_repeater,
to_addon_pack_in_score,
to_mcstructure_file_in_delay,
to_mcstructure_file_in_repeater,
to_mcstructure_file_in_score,
to_BDX_file_in_delay,
to_BDX_file_in_score,
)
import hashlib
import brotli
import dill
def enpack_msct_pack(sth, to_dist: str):
packing_bytes = brotli.compress(
dill.dumps(
sth,
)
)
with open(
to_dist,
"wb",
) as f:
f.write(packing_bytes)
return hashlib.sha256(packing_bytes)
with open("./Packer/checksum.txt", "w", encoding="utf-8") as f:
f.write("MSCT_MAIN:\n")
f.write(enpack_msct_pack(MSCT_MAIN, "./Packer/MSCT_MAIN.MPK").hexdigest())
f.write("\nMSCT_PLUGIN:\n")
f.write(enpack_msct_pack(MSCT_PLUGIN, "./Packer/MSCT_PLUGIN.MPK").hexdigest())
f.write("\nMSCT_PLUGIN_FUNCTION:\n")
f.write(
enpack_msct_pack(
MSCT_PLUGIN_FUNCTION, "./Packer/MSCT_PLUGIN_FUNCTION.MPK"
).hexdigest()
)

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old-things/Packer/checksum.txt Normal file
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MSCT_MAIN:
6b9f5a97d50beb07c834e375104c67ae44c57ae40f73fb71075b3668899029c7
MSCT_PLUGIN:
c280413a394a539438a5d10078c9b55f04bcd4cf6869c59a3f7a026039748cfc
MSCT_PLUGIN_FUNCTION:
40697f1d9b293268fe142fa3e9bffee2923a8f4811ec7bbdf7b14afb98723ef2

0
old-things/bgArrayLib/__init__.py Normal file
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old-things/bgArrayLib/bpm.py Normal file
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import mido
import numpy
'''
bpm
bites per minutes
每分钟的拍数
'''
def mt2gt(mt, tpb_a, bpm_a):
return round(mt / tpb_a / bpm_a * 60)
def get(mid:mido.MidiFile) -> int:
'''传入一个 MidiFile, 返回其音乐的bpm
:param mid : mido.MidFile
mido库识别的midi文件数据
:return bpm : int
'''
# mid = mido.MidiFile(mf)
length = mid.length
tpb = mid.ticks_per_beat
bpm = 20
gotV = 0
for track in mid.tracks:
global_time = 0
for msg in track:
global_time += msg.time
if msg.type == "note_on" and msg.velocity > 0:
gotV = mt2gt(global_time, tpb, bpm)
errorV = numpy.fabs(gotV - length)
last_dic = {bpm: errorV}
if last_dic.get(bpm) > errorV:
last_dic = {bpm: errorV}
bpm += 2
while True:
for track in mid.tracks:
global_time = 0
for msg in track:
global_time += msg.time
if msg.type == "note_on" and msg.velocity > 0:
gotV = mt2gt(global_time, tpb, bpm)
errorV = numpy.fabs(gotV - length)
try:
if last_dic.get(bpm - 2) > errorV:
last_dic = {bpm: errorV}
except TypeError:
pass
bpm += 2
if bpm >= 252:
break
print(list(last_dic.keys())[0])
return list(last_dic.keys())[0]
def compute(mid:mido.MidiFile):
answer = 60000000/mid.ticks_per_beat
print(answer)
return answer
if __name__ == '__main__':
mid = mido.MidiFile(r"C:\Users\lc\Documents\MuseScore3\乐谱\乐谱\Bad style - Time back.mid")
get(mid)
compute(mid)

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old-things/bgArrayLib/compute.py Normal file
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def round_up(num, power=0):
"""
实现精确四舍五入,包含正、负小数多种场景
:param num: 需要四舍五入的小数
:param power: 四舍五入位数支持0-∞
:return: 返回四舍五入后的结果
"""
try:
print(1 / 0)
except ZeroDivisionError:
digit = 10 ** power
num2 = float(int(num * digit))
# 处理正数power不为0的情况
if num >= 0 and power != 0:
tag = num * digit - num2 + 1 / (digit * 10)
if tag >= 0.5:
return (num2 + 1) / digit
else:
return num2 / digit
# 处理正数power为0取整的情况
elif num >= 0 and power == 0:
tag = num * digit - int(num)
if tag >= 0.5:
return (num2 + 1) / digit
else:
return num2 / digit
# 处理负数power为0取整的情况
elif power == 0 and num < 0:
tag = num * digit - int(num)
if tag <= -0.5:
return (num2 - 1) / digit
else:
return num2 / digit
# 处理负数power不为0的情况
else:
tag = num * digit - num2 - 1 / (digit * 10)
if tag <= -0.5:
return (num2 - 1) / digit
else:
return num2 / digit

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old-things/bgArrayLib/instrumentConstant.py Normal file
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instrument_list = {
"0": "harp",
"1": "harp",
"2": "pling",
"3": "harp",
"4": "pling",
"5": "pling",
"6": "harp",
"7": "harp",
"8": "share",
"9": "harp",
"10": "didgeridoo",
"11": "harp",
"12": "xylophone",
"13": "chime",
"14": "harp",
"15": "harp",
"16": "bass",
"17": "harp",
"18": "harp",
"19": "harp",
"20": "harp",
"21": "harp",
"22": "harp",
"23": "guitar",
"24": "guitar",
"25": "guitar",
"26": "guitar",
"27": "guitar",
"28": "guitar",
"29": "guitar",
"30": "guitar",
"31": "bass",
"32": "bass",
"33": "bass",
"34": "bass",
"35": "bass",
"36": "bass",
"37": "bass",
"38": "bass",
"39": "bass",
"40": "harp",
"41": "harp",
"42": "harp",
"43": "harp",
"44": "iron_xylophone",
"45": "guitar",
"46": "harp",
"47": "harp",
"48": "guitar",
"49": "guitar",
"50": "bit",
"51": "bit",
"52": "harp",
"53": "harp",
"54": "bit",
"55": "flute",
"56": "flute",
"57": "flute",
"58": "flute",
"59": "flute",
"60": "flute",
"61": "flute",
"62": "flute",
"63": "flute",
"64": "bit",
"65": "bit",
"66": "bit",
"67": "bit",
"68": "flute",
"69": "harp",
"70": "harp",
"71": "flute",
"72": "flute",
"73": "flute",
"74": "harp",
"75": "flute",
"76": "harp",
"77": "harp",
"78": "harp",
"79": "harp",
"80": "bit",
"81": "bit",
"82": "bit",
"83": "bit",
"84": "bit",
"85": "bit",
"86": "bit",
"87": "bit",
"88": "bit",
"89": "bit",
"90": "bit",
"91": "bit",
"92": "bit",
"93": "bit",
"94": "bit",
"95": "bit",
"96": "bit",
"97": "bit",
"98": "bit",
"99": "bit",
"100": "bit",
"101": "bit",
"102": "bit",
"103": "bit",
"104": "harp",
"105": "banjo",
"106": "harp",
"107": "harp",
"108": "harp",
"109": "harp",
"110": "harp",
"111": "guitar",
"112": "harp",
"113": "bell",
"114": "harp",
"115": "cow_bell",
"116": "basedrum",
"117": "bass",
"118": "bit",
"119": "basedrum",
"120": "guitar",
"121": "harp",
"122": "harp",
"123": "harp",
"124": "harp",
"125": "hat",
"126": "basedrum",
"127": "snare",
}

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old-things/bgArrayLib/namesConstant.py Normal file
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zip_name = {
-1: "-1.Acoustic_Kit_打击乐.zip",
0: "0.Acoustic_Grand_Piano_大钢琴.zip",
1: "1.Bright_Acoustic_Piano_亮音大钢琴.zip",
10: "10.Music_Box_八音盒.zip",
100: "100.FX_brightness_合成特效-亮音.zip",
101: "101.FX_goblins_合成特效-小妖.zip",
102: "102.FX_echoes_合成特效-回声.zip",
103: "103.FX_sci-fi_合成特效-科幻.zip",
104: "104.Sitar_锡塔尔.zip",
105: "105.Banjo_班卓.zip",
106: "106.Shamisen_三味线.zip",
107: "107.Koto_筝.zip",
108: "108.Kalimba_卡林巴.zip",
109: "109.Bagpipe_风笛.zip",
11: "11.Vibraphone_电颤琴.zip",
110: "110.Fiddle_古提琴.zip",
111: "111.Shanai_唢呐.zip",
112: "112.Tinkle_Bell_铃铛.zip",
113: "113.Agogo_拉丁打铃.zip",
114: "114.Steel_Drums_钢鼓.zip",
115: "115.Woodblock_木块.zip",
116: "116.Taiko_Drum_太鼓.zip",
117: "117.Melodic_Tom_嗵鼓.zip",
118: "118.Synth_Drum_合成鼓.zip",
119: "119.Reverse_Cymbal_镲波形反转.zip",
12: "12.Marimba_马林巴.zip",
13: "13.Xylophone_木琴.zip",
14: "14.Tubular_Bells_管钟.zip",
15: "15.Dulcimer_扬琴.zip",
16: "16.Drawbar_Organ_击杆风琴.zip",
17: "17.Percussive_Organ_打击型风琴.zip",
18: "18.Rock_Organ_摇滚风琴.zip",
19: "19.Church_Organ_管风琴.zip",
2: "2.Electric_Grand_Piano_电子大钢琴.zip",
20: "20.Reed_Organ_簧风琴.zip",
21: "21.Accordion_手风琴.zip",
22: "22.Harmonica_口琴.zip",
23: "23.Tango_Accordian_探戈手风琴.zip",
24: "24.Acoustic_Guitar_(nylon)_尼龙弦吉他.zip",
25: "25.Acoustic_Guitar(steel)_钢弦吉他.zip",
26: "26.Electric_Guitar_(jazz)_爵士乐电吉他.zip",
27: "27.Electric_Guitar_(clean)_清音电吉他.zip",
28: "28.Electric_Guitar_(muted)_弱音电吉他.zip",
29: "29.Overdriven_Guitar_驱动音效吉他.zip",
3: "3.Honky-Tonk_Piano_酒吧钢琴.zip",
30: "30.Distortion_Guitar_失真音效吉他.zip",
31: "31.Guitar_Harmonics_吉他泛音.zip",
32: "32.Acoustic_Bass_原声贝司.zip",
33: "33.Electric_Bass(finger)_指拨电贝司.zip",
34: "34.Electric_Bass(pick)_拨片拨电贝司.zip",
35: "35.Fretless_Bass_无品贝司.zip",
36: "36.Slap_Bass_A_击弦贝司A.zip",
37: "37.Slap_Bass_B_击弦贝司B.zip",
38: "38.Synth_Bass_A_合成贝司A.zip",
39: "39.Synth_Bass_B_合成贝司B.zip",
4: "4.Electric_Piano_1_电钢琴A.zip",
40: "40.Violin_小提琴.zip",
41: "41.Viola_中提琴.zip",
42: "42.Cello_大提琴.zip",
43: "43.Contrabass_低音提琴.zip",
44: "44.Tremolo_Strings_弦乐震音.zip",
45: "45.Pizzicato_Strings_弦乐拨奏.zip",
46: "46.Orchestral_Harp_竖琴.zip",
47: "47.Timpani_定音鼓.zip",
48: "48.String_Ensemble_A_弦乐合奏A.zip",
49: "49.String_Ensemble_B_弦乐合奏B.zip",
5: "5.Electric_Piano_2_电钢琴B.zip",
50: "50.SynthStrings_A_合成弦乐A.zip",
51: "51.SynthStrings_B_合成弦乐B.zip",
52: "52.Choir_Aahs_合唱“啊”音.zip",
53: "53.Voice_Oohs_人声“哦”音.zip",
54: "54.Synth_Voice_合成人声.zip",
55: "55.Orchestra_Hit_乐队打击乐.zip",
56: "56.Trumpet_小号.zip",
57: "57.Trombone_长号.zip",
58: "58.Tuba_大号.zip",
59: "59.Muted_Trumpet_弱音小号.zip",
6: "6.Harpsichord_拨弦古钢琴.zip",
60: "60.French_Horn_圆号.zip",
61: "61.Brass_Section_铜管组.zip",
62: "62.Synth_Brass_A_合成铜管A.zip",
63: "63.Synth_Brass_A_合成铜管B.zip",
64: "64.Soprano_Sax_高音萨克斯.zip",
65: "65.Alto_Sax_中音萨克斯.zip",
66: "66.Tenor_Sax_次中音萨克斯.zip",
67: "67.Baritone_Sax_上低音萨克斯.zip",
68: "68.Oboe_双簧管.zip",
69: "69.English_Horn_英国管.zip",
7: "7.Clavinet_击弦古钢琴.zip",
70: "70.Bassoon_大管.zip",
71: "71.Clarinet_单簧管.zip",
72: "72.Piccolo_短笛.zip",
73: "73.Flute_长笛.zip",
74: "74.Recorder_竖笛.zip",
75: "75.Pan_Flute_排笛.zip",
76: "76.Bottle_Blow_吹瓶口.zip",
77: "77.Skakuhachi_尺八.zip",
78: "78.Whistle_哨.zip",
79: "79.Ocarina_洋埙.zip",
8: "8.Celesta_钢片琴.zip",
80: "80.Lead_square_合成主音-方波.zip",
81: "81.Lead_sawtooth_合成主音-锯齿波.zip",
82: "82.Lead_calliope_lead_合成主音-汽笛风琴.zip",
83: "83.Lead_chiff_lead_合成主音-吹管.zip",
84: "84.Lead_charang_合成主音5-吉他.zip",
85: "85.Lead_voice_合成主音-人声.zip",
86: "86.Lead_fifths_合成主音-五度.zip",
87: "87.Lead_bass+lead_合成主音-低音加主音.zip",
88: "88.Pad_new_age_合成柔音-新时代.zip",
89: "89.Pad_warm_合成柔音-暖音.zip",
9: "9.Glockenspiel_钟琴.zip",
90: "90.Pad_polysynth_合成柔音-复合成.zip",
91: "91.Pad_choir_合成柔音-合唱.zip",
92: "92.Pad_bowed_合成柔音-弓弦.zip",
93: "93.Pad_metallic_合成柔音-金属.zip",
94: "94.Pad_halo_合成柔音-光环.zip",
95: "95.Pad_sweep_合成柔音-扫弦.zip",
96: "96.FX_rain_合成特效-雨.zip",
97: "97.FX_soundtrack_合成特效-音轨.zip",
98: "98.FX_crystal_合成特效-水晶.zip",
99: "99.FX_atmosphere_合成特效-大气.zip",
}
mcpack_name = {
-1: "-1.Acoustic_Kit_打击乐.mcpack",
0: "0.Acoustic_Grand_Piano_大钢琴.mcpack",
1: "1.Bright_Acoustic_Piano_亮音大钢琴.mcpack",
10: "10.Music_Box_八音盒.mcpack",
100: "100.FX_brightness_合成特效-亮音.mcpack",
101: "101.FX_goblins_合成特效-小妖.mcpack",
102: "102.FX_echoes_合成特效-回声.mcpack",
103: "103.FX_sci-fi_合成特效-科幻.mcpack",
104: "104.Sitar_锡塔尔.mcpack",
105: "105.Banjo_班卓.mcpack",
106: "106.Shamisen_三味线.mcpack",
107: "107.Koto_筝.mcpack",
108: "108.Kalimba_卡林巴.mcpack",
109: "109.Bagpipe_风笛.mcpack",
11: "11.Vibraphone_电颤琴.mcpack",
110: "110.Fiddle_古提琴.mcpack",
111: "111.Shanai_唢呐.mcpack",
112: "112.Tinkle_Bell_铃铛.mcpack",
113: "113.Agogo_拉丁打铃.mcpack",
114: "114.Steel_Drums_钢鼓.mcpack",
115: "115.Woodblock_木块.mcpack",
116: "116.Taiko_Drum_太鼓.mcpack",
117: "117.Melodic_Tom_嗵鼓.mcpack",
118: "118.Synth_Drum_合成鼓.mcpack",
119: "119.Reverse_Cymbal_镲波形反转.mcpack",
12: "12.Marimba_马林巴.mcpack",
13: "13.Xylophone_木琴.mcpack",
14: "14.Tubular_Bells_管钟.mcpack",
15: "15.Dulcimer_扬琴.mcpack",
16: "16.Drawbar_Organ_击杆风琴.mcpack",
17: "17.Percussive_Organ_打击型风琴.mcpack",
18: "18.Rock_Organ_摇滚风琴.mcpack",
19: "19.Church_Organ_管风琴.mcpack",
2: "2.Electric_Grand_Piano_电子大钢琴.mcpack",
20: "20.Reed_Organ_簧风琴.mcpack",
21: "21.Accordion_手风琴.mcpack",
22: "22.Harmonica_口琴.mcpack",
23: "23.Tango_Accordian_探戈手风琴.mcpack",
24: "24.Acoustic_Guitar_(nylon)_尼龙弦吉他.mcpack",
25: "25.Acoustic_Guitar(steel)_钢弦吉他.mcpack",
26: "26.Electric_Guitar_(jazz)_爵士乐电吉他.mcpack",
27: "27.Electric_Guitar_(clean)_清音电吉他.mcpack",
28: "28.Electric_Guitar_(muted)_弱音电吉他.mcpack",
29: "29.Overdriven_Guitar_驱动音效吉他.mcpack",
3: "3.Honky-Tonk_Piano_酒吧钢琴.mcpack",
30: "30.Distortion_Guitar_失真音效吉他.mcpack",
31: "31.Guitar_Harmonics_吉他泛音.mcpack",
32: "32.Acoustic_Bass_原声贝司.mcpack",
33: "33.Electric_Bass(finger)_指拨电贝司.mcpack",
34: "34.Electric_Bass(pick)_拨片拨电贝司.mcpack",
35: "35.Fretless_Bass_无品贝司.mcpack",
36: "36.Slap_Bass_A_击弦贝司A.mcpack",
37: "37.Slap_Bass_B_击弦贝司B.mcpack",
38: "38.Synth_Bass_A_合成贝司A.mcpack",
39: "39.Synth_Bass_B_合成贝司B.mcpack",
4: "4.Electric_Piano_1_电钢琴A.mcpack",
40: "40.Violin_小提琴.mcpack",
41: "41.Viola_中提琴.mcpack",
42: "42.Cello_大提琴.mcpack",
43: "43.Contrabass_低音提琴.mcpack",
44: "44.Tremolo_Strings_弦乐震音.mcpack",
45: "45.Pizzicato_Strings_弦乐拨奏.mcpack",
46: "46.Orchestral_Harp_竖琴.mcpack",
47: "47.Timpani_定音鼓.mcpack",
48: "48.String_Ensemble_A_弦乐合奏A.mcpack",
49: "49.String_Ensemble_B_弦乐合奏B.mcpack",
5: "5.Electric_Piano_2_电钢琴B.mcpack",
50: "50.SynthStrings_A_合成弦乐A.mcpack",
51: "51.SynthStrings_B_合成弦乐B.mcpack",
52: "52.Choir_Aahs_合唱“啊”音.mcpack",
53: "53.Voice_Oohs_人声“哦”音.mcpack",
54: "54.Synth_Voice_合成人声.mcpack",
55: "55.Orchestra_Hit_乐队打击乐.mcpack",
56: "56.Trumpet_小号.mcpack",
57: "57.Trombone_长号.mcpack",
58: "58.Tuba_大号.mcpack",
59: "59.Muted_Trumpet_弱音小号.mcpack",
6: "6.Harpsichord_拨弦古钢琴.mcpack",
60: "60.French_Horn_圆号.mcpack",
61: "61.Brass_Section_铜管组.mcpack",
62: "62.Synth_Brass_A_合成铜管A.mcpack",
63: "63.Synth_Brass_A_合成铜管B.mcpack",
64: "64.Soprano_Sax_高音萨克斯.mcpack",
65: "65.Alto_Sax_中音萨克斯.mcpack",
66: "66.Tenor_Sax_次中音萨克斯.mcpack",
67: "67.Baritone_Sax_上低音萨克斯.mcpack",
68: "68.Oboe_双簧管.mcpack",
69: "69.English_Horn_英国管.mcpack",
7: "7.Clavinet_击弦古钢琴.mcpack",
70: "70.Bassoon_大管.mcpack",
71: "71.Clarinet_单簧管.mcpack",
72: "72.Piccolo_短笛.mcpack",
73: "73.Flute_长笛.mcpack",
74: "74.Recorder_竖笛.mcpack",
75: "75.Pan_Flute_排笛.mcpack",
76: "76.Bottle_Blow_吹瓶口.mcpack",
77: "77.Skakuhachi_尺八.mcpack",
78: "78.Whistle_哨.mcpack",
79: "79.Ocarina_洋埙.mcpack",
8: "8.Celesta_钢片琴.mcpack",
80: "80.Lead_square_合成主音-方波.mcpack",
81: "81.Lead_sawtooth_合成主音-锯齿波.mcpack",
82: "82.Lead_calliope_lead_合成主音-汽笛风琴.mcpack",
83: "83.Lead_chiff_lead_合成主音-吹管.mcpack",
84: "84.Lead_charang_合成主音5-吉他.mcpack",
85: "85.Lead_voice_合成主音-人声.mcpack",
86: "86.Lead_fifths_合成主音-五度.mcpack",
87: "87.Lead_bass+lead_合成主音-低音加主音.mcpack",
88: "88.Pad_new_age_合成柔音-新时代.mcpack",
89: "89.Pad_warm_合成柔音-暖音.mcpack",
9: "9.Glockenspiel_钟琴.mcpack",
90: "90.Pad_polysynth_合成柔音-复合成.mcpack",
91: "91.Pad_choir_合成柔音-合唱.mcpack",
92: "92.Pad_bowed_合成柔音-弓弦.mcpack",
93: "93.Pad_metallic_合成柔音-金属.mcpack",
94: "94.Pad_halo_合成柔音-光环.mcpack",
95: "95.Pad_sweep_合成柔音-扫弦.mcpack",
96: "96.FX_rain_合成特效-雨.mcpack",
97: "97.FX_soundtrack_合成特效-音轨.mcpack",
98: "98.FX_crystal_合成特效-水晶.mcpack",
99: "99.FX_atmosphere_合成特效-大气.mcpack",
}
if __name__ == "__main__":
print(zip_name[0])

134
old-things/bgArrayLib/pitchStrConstant.py Normal file
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pitch = {
"0": "0.0220970869120796",
"1": "0.0234110480761981",
"2": "0.0248031414370031",
"3": "0.0262780129766786",
"4": "0.0278405849418856",
"5": "0.0294960722713029",
"6": "0.03125",
"7": "0.033108221698728",
"8": "0.0350769390096679",
"9": "0.037162722343835",
"10": "0.0393725328092148",
"11": "0.0417137454428136",
"12": "0.0441941738241592",
"13": "0.0468220961523963",
"14": "0.0496062828740062",
"15": "0.0525560259533572",
"16": "0.0556811698837712",
"17": "0.0589921445426059",
"18": "0.0625",
"19": "0.066216443397456",
"20": "0.0701538780193358",
"21": "0.0743254446876701",
"22": "0.0787450656184296",
"23": "0.0834274908856271",
"24": "0.0883883476483184",
"25": "0.0936441923047926",
"26": "0.0992125657480125",
"27": "0.105112051906714",
"28": "0.111362339767542",
"29": "0.117984289085212",
"30": "0.125",
"31": "0.132432886794912",
"32": "0.140307756038672",
"33": "0.14865088937534",
"34": "0.157490131236859",
"35": "0.166854981771254",
"36": "0.176776695296637",
"37": "0.187288384609585",
"38": "0.198425131496025",
"39": "0.210224103813429",
"40": "0.222724679535085",
"41": "0.235968578170423",
"42": "0.25",
"43": "0.264865773589824",
"44": "0.280615512077343",
"45": "0.29730177875068",
"46": "0.314980262473718",
"47": "0.333709963542509",
"48": "0.353553390593274",
"49": "0.37457676921917",
"50": "0.39685026299205",
"51": "0.420448207626857",
"52": "0.44544935907017",
"53": "0.471937156340847",
"54": "0.5",
"55": "0.529731547179648",
"56": "0.561231024154687",
"57": "0.594603557501361",
"58": "0.629960524947437",
"59": "0.667419927085017",
"60": "0.707106781186548",
"61": "0.749153538438341",
"62": "0.7937005259841",
"63": "0.840896415253715",
"64": "0.890898718140339",
"65": "0.943874312681694",
"66": "1",
"67": "1.0594630943593",
"68": "1.12246204830937",
"69": "1.18920711500272",
"70": "1.25992104989487",
"71": "1.33483985417003",
"72": "1.4142135623731",
"73": "1.49830707687668",
"74": "1.5874010519682",
"75": "1.68179283050743",
"76": "1.78179743628068",
"77": "1.88774862536339",
"78": "2",
"79": "2.11892618871859",
"80": "2.24492409661875",
"81": "2.37841423000544",
"82": "2.51984209978975",
"83": "2.66967970834007",
"84": "2.82842712474619",
"85": "2.99661415375336",
"86": "3.1748021039364",
"87": "3.36358566101486",
"88": "3.56359487256136",
"89": "3.77549725072677",
"90": "4",
"91": "4.23785237743718",
"92": "4.48984819323749",
"93": "4.75682846001088",
"94": "5.03968419957949",
"95": "5.33935941668014",
"96": "5.65685424949238",
"97": "5.99322830750673",
"98": "6.3496042078728",
"99": "6.72717132202972",
"100": "7.12718974512272",
"101": "7.55099450145355",
"102": "8",
"103": "8.47570475487436",
"104": "8.97969638647498",
"105": "9.51365692002177",
"106": "10.079368399159",
"107": "10.6787188333603",
"108": "11.3137084989848",
"109": "11.9864566150135",
"110": "12.6992084157456",
"111": "13.4543426440594",
"112": "14.2543794902454",
"113": "15.1019890029071",
"114": "16",
"115": "16.9514095097487",
"116": "17.95939277295",
"117": "19.0273138400435",
"118": "20.158736798318",
"119": "21.3574376667206",
"120": "22.6274169979695",
"121": "23.9729132300269",
"122": "25.3984168314912",
"123": "26.9086852881189",
"124": "28.5087589804909",
"125": "30.2039780058142",
"126": "32",
"127": "33.9028190194974",
"128": "35.9187855458999",
"129": "38.0546276800871",
"130": "40.3174735966359",
"131": "42.7148753334411",
}

208
old-things/bgArrayLib/reader.py Normal file
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@@ -0,0 +1,208 @@
# -*- coding: utf-8 -*-
# from nmcsup.log import log
import pickle
class Note:
def __init__(self, channel, pitch, velocity, time, time_position, instrument):
self.channel = channel
self.pitch = pitch
self.velocity = velocity
self.delay = time
self.time_position = time_position
self.instrument = instrument
self.CD = "d"
def get_CD(self, start, end):
if end - start > 1.00:
self.CD = "c"
else:
self.CD = "d"
def midiNewReader(midfile: str):
import mido
# from msctspt.threadOpera import NewThread
from bgArrayLib.bpm import get
def Time(mt, tpb_a, bpm_a):
return round(mt / tpb_a / bpm_a * 60 * 20)
Notes = []
tracks = []
note_list = []
close = []
on = []
off = []
instruments = []
isPercussion = False
try:
mid = mido.MidiFile(midfile)
except Exception:
print("找不到文件或无法读取文件" + midfile)
return False
tpb = mid.ticks_per_beat
bpm = get(mid)
# 解析
# def loadMidi(track1):
for track in mid.tracks:
overallTime = 0.0
instrument = 0
for i in track:
overallTime += i.time
try:
if i.channel != 9:
# try:
# log("event_type(事件): " + str(i.type) + " channel(音轨): " + str(i.channel) +
# " note/pitch(音高): " +
# str(i[2]) +
# " velocity(力度): " + str(i.velocity) + " time(间隔时间): " + str(i.time) +
# " overallTime/globalTime/timePosition: " + str(overallTime) + " \n")
# except AttributeError:
# log("event_type(事件): " + str(i.type) + " thing(内容)" + str(i) + " \n")
if "program_change" in str(i):
instrument = i.program
if instrument > 119: # 音色不够
pass
else:
instruments.append(i.program)
if "note_on" in str(i) and i.velocity > 0:
print(i)
# print(i.note)
# print([Note(i.channel, i.note, i.velocity, i.time, Time(overallTime, tpb, bpm), instrument)])
tracks.append(
[
Note(
i.channel,
i.note,
i.velocity,
i.time,
Time(overallTime, tpb, bpm),
instrument,
)
]
)
note_list.append(
[
i.channel,
i.note,
i.velocity,
i.time,
Time(overallTime, tpb, bpm),
instrument,
]
)
on.append([i.note, Time(overallTime, tpb, bpm)])
# return [Note(i.channel, i, i.velocity, i.time, Time(overallTime, tpb, bpm))]
if "note_off" in str(i) or "note_on" in str(i) and i.velocity == 0:
# print(i)
# print([Note(i.channel, i.note, i.velocity, i.time, Time(overallTime, tpb, bpm))])
close.append(
[
Note(
i.channel,
i.note,
i.velocity,
i.time,
Time(overallTime, tpb, bpm),
instrument,
)
]
)
off.append([i.note, Time(overallTime, tpb, bpm)])
# return [Note(i.channel, i, i.velocity, i.time, Time(overallTime, tpb, bpm))]
except AttributeError:
pass
if "note_on" in str(i) and i.channel == 9:
if "note_on" in str(i) and i.velocity > 0:
print(i)
# print(i.note)
# print([Note(i.channel, i.note, i.velocity, i.time, Time(overallTime, tpb, bpm), -1)])
tracks.append(
[
Note(
i.channel,
i.note,
i.velocity,
i.time,
Time(overallTime, tpb, bpm),
-1,
)
]
)
note_list.append(
[
i.channel,
i.note,
i.velocity,
i.time,
Time(overallTime, tpb, bpm),
-1,
]
)
on.append([i.note, Time(overallTime, tpb, bpm)])
isPercussion = True
# return [Note(i.channel, i, i.velocity, i.time, Time(overallTime, tpb, bpm))]
Notes.append(tracks)
if instruments is []:
instruments.append(0)
instruments = list(set(instruments))
with open("1.pkl", "wb") as b:
pickle.dump([instruments, isPercussion], b)
# for j, track in enumerate(mid.tracks):
# th = NewThread(loadMidi, (track,))
# th.start()
# Notes.append(th.getResult())
# print(Notes)
print(Notes.__len__())
# print(note_list)
print(instruments)
return Notes
# return [Notes, note_list]
def midiClassReader(midfile: str):
import mido
from bgArrayLib.bpm import get
def Time(mt, tpb_a, bpm_a):
return round(mt / tpb_a / bpm_a * 60 * 20)
Notes = []
tracks = []
try:
mid = mido.MidiFile(filename=midfile, clip=True)
except Exception:
print("找不到文件或无法读取文件" + midfile)
return False
print("midi已经载入了。")
tpb = mid.ticks_per_beat
bpm = get(mid)
for track in mid.tracks:
overallTime = 0.0
instrument = 0
for i in track:
overallTime += i.time
if "note_on" in str(i) and i.velocity > 0:
print(i)
tracks.append(
[
Note(
i.channel,
i.note,
i.velocity,
i.time,
Time(overallTime, tpb, bpm),
instrument,
)
]
)
Notes.append(tracks)
print(Notes.__len__())
return Notes

147
old-things/bgArrayLib/sy_resourcesPacker.py Normal file
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import os
import pickle
import shutil
# import tkinter.filedialog
# from namesConstant import zip_name
# from namesConstant import mcpack_name
import bgArrayLib.namesConstant
zipN = bgArrayLib.namesConstant.zip_name
mpN = bgArrayLib.namesConstant.mcpack_name
manifest = {
"format_version": 1,
"header": {
"name": "羽音缭绕-midiout_25.5--音创使用",
"description": "羽音缭绕-midiout_25.0--音创使用",
"uuid": "c1adbda4-3b3e-4e5b-a57e-cde8ac80ee19",
"version": [25, 5, 0],
},
"modules": [
{
"description": "羽音缭绕-midiout_25.0--音创使用",
"type": "resources",
"uuid": "c13455d5-b9f3-47f2-9706-c05ad86b3180 ",
"version": [25, 5, 0],
}
],
}
def resources_pathSetting(newPath: str = ""):
if not os.path.isfile("./bgArrayLib/resourcesPath.rpposi") and newPath == "":
return [False, 1] # 1:没有路径文件
elif newPath != "": # not os.path.isfile("./bgArrayLib/resourcesPath.rpposi") and
path = newPath
print(path)
with open("./bgArrayLib/resourcesPath.rpposi", "w") as w:
w.write(path)
if "mcpack(国际版推荐)格式_25.0" in os.listdir(
path
) and "zip格式_25.0" in os.listdir(path):
return [True, path, 1] # 1:都有
elif "mcpack(国际版推荐)格式_25.0" in os.listdir(
path
) and "zip格式_25.0" not in os.listdir(path):
return [True, path, 2] # 2:有pack
elif "mcpack(国际版推荐)格式_25.0" not in os.listdir(
path
) and "zip格式_25.0" in os.listdir(path):
return [True, path, 3] # 3:有zip
else:
return [False, 2] # 2:路径文件指示错误
if os.path.isfile("./bgArrayLib/resourcesPath.rpposi") and newPath == "":
with open("./bgArrayLib/resourcesPath.rpposi", "r") as f:
path = f.read()
if "mcpack(国际版推荐)格式_25.0" in os.listdir(
path
) and "zip格式_25.0" in os.listdir(path):
return [True, path, 1] # 1:都有
elif "mcpack(国际版推荐)格式_25.0" in os.listdir(
path
) and "zip格式_25.0" not in os.listdir(path):
return [True, path, 2] # 2:有pack
elif "mcpack(国际版推荐)格式_25.0" not in os.listdir(
path
) and "zip格式_25.0" in os.listdir(path):
return [True, path, 3] # 3:有zip
else:
return [False, 2] # 2:路径文件指示错误
raise
def choose_resources():
global zipN
global mpN
back_list = []
try:
with open(r"1.pkl", "rb") as rb:
instrument = list(pickle.load(rb))
print(instrument)
except FileNotFoundError:
with open(r"./nmcsup/1.pkl", "rb") as rb:
instrument = list(pickle.load(rb))
print(instrument)
path = resources_pathSetting()
if path.__len__() == 2:
return path
else:
dataT = path[2]
pathT = path[1]
if dataT == 1:
if instrument[1] is True: # 是否存在打击乐器
index = zipN.get(-1, "")
percussion_instrument = str(pathT) + "\\zip格式_25.0\\" + index
# print(percussion_instrument)
back_list.append(percussion_instrument)
for i in instrument[0]:
ins_p = str(pathT) + "\\zip格式_25.0\\" + str(zipN.get(i))
# print(ins_p)
back_list.append(ins_p)
print(back_list)
return back_list
elif dataT == 2:
if instrument[1] is True:
index = mpN.get(-1, "")
percussion_instrument = (
str(pathT) + "\\mcpack(国际版推荐)格式_25.0\\" + index
)
# print(percussion_instrument)
back_list.append(percussion_instrument)
for i in instrument[0]:
ins_p = str(pathT) + "\\mcpack(国际版推荐)格式_25.0\\" + str(mpN.get(i))
# print(ins_p)
back_list.append(ins_p)
print(back_list)
return back_list
elif dataT == 3:
if instrument[1] is True:
index = zipN.get(-1, "")
percussion_instrument = str(pathT) + "\\zip格式_25.0\\" + index
# print(percussion_instrument)
back_list.append(percussion_instrument)
for i in instrument[0]:
ins_p = str(pathT) + "\\zip格式_25.0\\" + str(zipN.get(i))
# print(ins_p)
back_list.append(ins_p)
print(back_list)
return back_list
raise
def scatteredPack(path):
pack_list = choose_resources()
print(pack_list)
print(path)
# os.close("L:/0WorldMusicCreater-MFMS new edition")
# shutil.copy("L:\\shenyu\\音源的资源包\\羽音缭绕-midiout_25.0\\mcpack(国际版推荐)格式_25.0\\0.Acoustic_Grand_Piano_大钢琴.mcpack",
# "L:/0WorldMusicCreater-MFMS new edition")
for i in pack_list:
shutil.copy(i, path)
if __name__ == "__main__":
# print(resources_pathSetting(r"L:\shenyu\音源的资源包\羽音缭绕-midiout_25.0"))
choose_resources()

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# -*- coding: utf-8 -*-
# 伶伦 开发交流群 861684859
"""
音·创 (Musicreater) 演示程序
是一款免费开源的针对《我的世界》的midi音乐转换库
Musicreater (音·创)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 ./License.md
Terms & Conditions: ./License.md
"""
import os
import Musicreater.old_init as old_init
from Musicreater.old_plugin.addonpack import (
to_addon_pack_in_delay,
to_addon_pack_in_repeater,
to_addon_pack_in_score,
)
from Musicreater.old_plugin.mcstructfile import (
to_mcstructure_file_in_delay,
to_mcstructure_file_in_repeater,
to_mcstructure_file_in_score,
)
from Musicreater.old_plugin.bdxfile import to_BDX_file_in_delay, to_BDX_file_in_score
# 获取midi列表
midi_path = input(f"请输入MIDI路径")
# 获取输出地址
out_path = input(f"请输入输出路径:")
# 选择输出格式
fileFormat = int(
input(f"请输入输出格式[MCSTRUCTURE(2) 或 BDX(1) 或 MCPACK(0)]").lower()
)
playerFormat = int(input(f"请选择播放方式[红石(2) 或 计分板(1) 或 延迟(0)]").lower())
# 真假字符串判断
def bool_str(sth: str):
try:
return bool(float(sth))
except:
if str(sth).lower() in ("true", "", "", "y", "t"):
return True
elif str(sth).lower() in ("false", "", "", "f", "n"):
return False
else:
raise ValueError("非法逻辑字串")
def isin(sth: str, range_list: dict):
sth = sth.lower()
for bool_value, res_list in range_list.items():
if sth in res_list:
return bool_value
raise ValueError(
"不在可选范围内:{}".format([j for i in range_list.values() for j in i])
)
if os.path.exists("./demo_config.json"):
import json
prompts = json.load(open("./demo_config.json", "r", encoding="utf-8"))
else:
prompts = []
# 提示语 检测函数 错误提示语
for args in [
(
f"最小播放音量:",
float,
),
(
f"播放速度:",
float,
),
(
f"是否启用进度条:",
bool_str,
),
(
(
f"计分板名称:",
str,
)
if playerFormat == 1
else (
f"玩家选择器:",
str,
)
),
(
(
f"是否自动重置计分板:",
bool_str,
)
if playerFormat == 1
else ()
),
(
(
f"BDX作者署名",
str,
)
if fileFormat == 1
else (
(
"结构延展方向:",
lambda a: isin(
a,
{
"z+": ["z+", "Z+"],
"x+": ["X+", "x+"],
"z-": ["Z-", "z-"],
"x-": ["x-", "X-"],
},
),
)
if (playerFormat == 2 and fileFormat == 2)
else ()
)
),
(
()
if playerFormat == 1
else (
(
"基础空白方块:",
str,
)
if (playerFormat == 2 and fileFormat == 2)
else (
f"最大结构高度:",
int,
)
)
),
]:
if args:
try:
prompts.append(args[1](input(args[0])))
except Exception:
print(args)
print(f"正在处理 {midi_path} ")
cvt_mid = old_init.MidiConvert.from_midi_file(
midi_path, old_exe_format=False, min_volume=prompts[0], play_speed=prompts[1]
)
if fileFormat == 0:
if playerFormat == 1:
cvt_method = to_addon_pack_in_score
elif playerFormat == 0:
cvt_method = to_addon_pack_in_delay
elif playerFormat == 2:
cvt_method = to_addon_pack_in_repeater
elif fileFormat == 2:
if playerFormat == 1:
cvt_method = to_mcstructure_file_in_score
elif playerFormat == 0:
cvt_method = to_mcstructure_file_in_delay
elif playerFormat == 2:
cvt_method = to_mcstructure_file_in_repeater
# 测试
# print(cvt_mid)
print(
" 指令总长:{},最高延迟:{}".format(
*(
cvt_method(
cvt_mid,
out_path,
old_init.DEFAULT_PROGRESSBAR_STYLE if prompts[2] else None, # type: ignore
*prompts[3:],
)
)
)
if fileFormat == 0
else (
" 指令总长:{},最高延迟:{},结构大小{},终点坐标{}".format(
*(
to_BDX_file_in_score(
cvt_mid,
out_path,
old_init.DEFAULT_PROGRESSBAR_STYLE if prompts[2] else None,
*prompts[3:],
)
if playerFormat == 1
else to_BDX_file_in_delay(
cvt_mid,
out_path,
old_init.DEFAULT_PROGRESSBAR_STYLE if prompts[2] else None,
*prompts[3:],
)
)
)
if fileFormat == 1
else (
" 结构大小:{},延迟总数:{},指令数量:{}".format(
*(
cvt_method(
cvt_mid,
out_path,
*prompts[3:],
)
)
)
if playerFormat == 1
else " 结构大小:{},延迟总数:{}".format(
*(
cvt_method(
cvt_mid,
out_path,
# Musicreater.DEFAULT_PROGRESSBAR_STYLE if prompts[2] else None, # type: ignore
*prompts[3:],
)
)
)
)
)
)
exitSth = input("回车退出").lower()
if exitSth == "record":
import json
with open("./demo_config.json", "w", encoding="utf-8") as f:
json.dump(prompts, f)
elif exitSth == "delrec":
os.remove("./demo_config.json")

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import Musicreater.experiment
import Musicreater.old_plugin
import Musicreater.old_plugin.mcstructfile
print(
Musicreater.old_plugin.mcstructfile.to_mcstructure_file_in_delay(
Musicreater.experiment.FutureMidiConvertM4.from_midi_file(
input("midi路径:"), old_exe_format=False
),
input("输出路径:"),
# Musicreater.plugin.ConvertConfig(input("输出路径:"),),
max_height=32,
)
)

16
old-things/example_singleConvert.py Normal file
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import Musicreater.old_init as old_init
import Musicreater.old_plugin
import Musicreater.old_plugin.mcstructfile
print(
old_init.old_plugin.mcstructfile.to_mcstructure_file_in_delay(
old_init.MidiConvert.from_midi_file(
input("midi路径:"),
old_exe_format=False,
# note_table_replacement={"note.harp": "note.flute"},
),
input("输出路径:"),
# Musicreater.plugin.ConvertConfig(input("输出路径:"),),
# max_height=32,
)
)

24
old-things/example_websocket.py Normal file
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import Musicreater.old_init as old_init
import Musicreater.old_plugin
import Musicreater.old_plugin.websocket
import os
dire = input("midi目录")
print(
old_init.old_plugin.websocket.to_websocket_server(
[
old_init.MidiConvert.from_midi_file(
os.path.join(dire, names), old_exe_format=False
)
for names in os.listdir(
dire,
)
if names.endswith((".mid", ".midi"))
],
input("服务器地址:"),
int(input("服务器端口:")),
old_init.DEFAULT_PROGRESSBAR_STYLE,
)
)

1
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SEE: https://mingfengpigeon.mit-license.org/

5
old-things/fcwslib/__init__.py Normal file
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__all__ = ['Server', 'Plugin', 'build_header']
__version__ = '3.0.1'
__author__ = ['mingfengpigeon <mingfengpigeon@gmail.com>',"Eilles Wan <EillesWan@outlook.com>"]
from .server import Server, Plugin, build_header

142
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import asyncio
import copy
import json
import uuid
import websockets
class Server:
sent_commands = {}
subscribed_events = {}
_plugins = []
_connections = []
def __init__(self, server='0.0.0.0', port=8000, debug_mode=False):
self._server = server
self._port = port
self._debug_mode = debug_mode
def handler(self):
return copy.deepcopy(self._plugins)
def add_plugin(self, plugin):
if self._plugins:
for connection in self._connections:
plugin_ = plugin()
asyncio.create_task(plugin_.on_connect())
connection.append(plugin_)
self._plugins.append(plugin)
def remove_plugin(self, plugin):
if self._connections:
for connection in self._connections:
for plugin_ in connection.plugins:
if isinstance(plugin_, plugin):
plugin_.remove(plugin_)
break
self._plugins.remove(plugin)
async def run_forever(self):
self.running = True
async with websockets.serve(self._on_connect, self._server, self._port):
await asyncio.Future()
async def _on_connect(self, websocket, path):
plugins = []
self._connections.append({
"websocket": websocket,
"path": path,
"plugins": plugins,
})
for plugin in self._plugins:
plugins.append(plugin(websocket, path, self, self._debug_mode))
for plugin in plugins:
asyncio.create_task(plugin.on_connect())
while self.running:
try:
response = json.loads(await websocket.recv())
except (websockets.exceptions.ConnectionClosedOK, websockets.exceptions.ConnectionClosedError):
tasks = []
for plugin in plugins:
tasks.append(plugin.on_disconnect())
for task in tasks:
await task
break
else:
message_purpose = response['header']['messagePurpose']
if message_purpose == 'commandResponse':
request_id = response['header']['requestId']
if request_id in self.sent_commands:
asyncio.create_task(self.sent_commands[request_id](response))
del self.sent_commands[request_id]
else:
try:
event_name = response['header']['eventName']
asyncio.create_task(self.subscribed_events[event_name](response))
except KeyError:
print("ERROR EVENT NAME:\n{}".format(response))
async def disconnect(self, websocket: websockets.WebSocketServerProtocol):
self.running = False
await websocket.close_connection()
for number in range(len(self._connections) - 1):
connection = self._connections[number]
if connection['websocket'] == websocket:
del self._connections[number]
class Plugin:
def __init__(self, websocket, path, server, debug_mode=False):
self._websocket = websocket
self._path = path
self._server = server
self._debug_mode = debug_mode
async def on_connect(self):
pass
async def on_disconnect(self):
pass
async def on_receive(self, response):
pass
async def send_command(self, command, callback=None):
request = {
'body': {'commandLine': command},
'header': build_header('commandRequest')
}
if callback:
self._server.sent_commands[request['header']['requestId']] = callback
await self._websocket.send(json.dumps(request, **{'indent': 4} if self._debug_mode else {}))
async def subscribe(self, event_name, callback):
request = {
'body': {'eventName': event_name},
'header': build_header('subscribe')
}
self._server.subscribed_events[event_name] = callback
await self._websocket.send(json.dumps(request, **{'indent': 4} if self._debug_mode else {}))
async def unsubscribe(self, event_name):
request = {
'body': {'eventName': event_name},
'header': build_header('unsubscribe')
}
del self._server.subscribed_events[event_name]
await self._websocket.send(json.dumps(request, **{'indent': 4} if self._debug_mode else {}))
async def disconnect(self):
await self._server.disconnect(self._websocket)
def build_header(message_purpose, request_id=None):
if not request_id:
request_id = str(uuid.uuid4())
return {
'requestId': request_id,
'messagePurpose': message_purpose,
'version': '1',
'messageType': 'commandRequest',
}

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"""
版权所有 © 2025 金羿 & 诸葛亮与八卦阵
Copyright © 2025 Eilles & bgArray
开源相关声明请见 仓库根目录下的 License.md
Terms & Conditions: License.md in the root directory
"""
import os
import shutil
from typing import Optional, Tuple
import Musicreater.experiment
from Musicreater.old_plugin.archive import compress_zipfile
from Musicreater.utils import guess_deviation, is_in_diapason
def to_zip_pack_in_score(
midi_cvt: Musicreater.experiment.FutureMidiConvertJavaE,
dist_path: str,
progressbar_style: Optional[Musicreater.experiment.ProgressBarStyle],
scoreboard_name: str = "mscplay",
sound_source: str = "ambient",
auto_reset: bool = False,
) -> Tuple[int, int]:
"""
将midi以计分播放器形式转换为我的世界函数附加包
Parameters
----------
midi_cvt: MidiConvert 对象
用于转换的MidiConvert对象
dist_path: str
转换结果输出的目标路径
progressbar_style: ProgressBarStyle 对象
进度条对象
scoreboard_name: str
我的世界的计分板名称
auto_reset: bool
是否自动重置计分板
Returns
-------
tuple[int指令数量, int音乐总延迟]
"""
cmdlist, maxlen, maxscore = midi_cvt.to_command_list_in_java_score(
scoreboard_name=scoreboard_name,
source_of_sound=sound_source,
)
# 当文件f夹{self.outputPath}/temp/mscplyfuncs存在时清空其下所有项目然后创建
if os.path.exists(f"{dist_path}/temp/mscplyfuncs/"):
shutil.rmtree(f"{dist_path}/temp/mscplyfuncs/")
os.makedirs(f"{dist_path}/temp/mscplyfuncs/mscplay")
# 写入stop.mcfunction
with open(
f"{dist_path}/temp/mscplyfuncs/stop.mcfunction", "w", encoding="utf-8"
) as f:
f.write("scoreboard players reset @a {}".format(scoreboard_name))
# 将命令列表写入文件
index_file = open(
f"{dist_path}/temp/mscplyfuncs/index.mcfunction", "w", encoding="utf-8"
)
for i in range(len(cmdlist)):
index_file.write(f"function mscplyfuncs:mscplay/track{i + 1}\n")
with open(
f"{dist_path}/temp/mscplyfuncs/mscplay/track{i + 1}.mcfunction",
"w",
encoding="utf-8",
) as f:
f.write("\n".join([single_cmd.cmd for single_cmd in cmdlist[i]]))
index_file.writelines(
(
"scoreboard players add @a[score_{0}_min=1] {0} 1\n".format(
scoreboard_name
),
(
"scoreboard players reset @a[score_{0}_min={1}] {0}\n".format(
scoreboard_name, maxscore + 20
)
if auto_reset
else ""
),
f"function mscplyfuncs:mscplay/progressShow\n" if progressbar_style else "",
)
)
if progressbar_style:
with open(
f"{dist_path}/temp/mscplyfuncs/mscplay/progressShow.mcfunction",
"w",
encoding="utf-8",
) as f:
f.writelines(
"\n".join(
[
single_cmd.cmd
for single_cmd in midi_cvt.form_java_progress_bar(
maxscore, scoreboard_name, progressbar_style
)
]
)
)
index_file.close()
if os.path.exists(f"{dist_path}/{midi_cvt.music_name}.zip"):
os.remove(f"{dist_path}/{midi_cvt.music_name}.zip")
compress_zipfile(
f"{dist_path}/temp/",
f"{dist_path}/{midi_cvt.music_name}[JEscore].zip",
)
shutil.rmtree(f"{dist_path}/temp/")
return maxlen, maxscore
msc_cvt = Musicreater.experiment.FutureMidiConvertJavaE.from_midi_file(
input("midi路径"),
play_speed=float(input("播放速度:")),
old_exe_format=True,
note_table_replacement=Musicreater.old_init.MC_EILLES_RTJE12_INSTRUMENT_REPLACE_TABLE,
# pitched_note_table=Musicreater.MM_NBS_PITCHED_INSTRUMENT_TABLE,
)
msc_cvt.set_deviation(
guess_deviation(
msc_cvt.total_note_count,
len(msc_cvt.note_count_per_instrument),
msc_cvt.note_count_per_instrument,
music_channels=msc_cvt.channels,
)
)
in_diapason_count = 0
for this_note in [k for j in msc_cvt.channels.values() for k in j]:
if is_in_diapason(
this_note.note_pitch + msc_cvt.music_deviation, this_note.sound_name
):
in_diapason_count += 1
zip_res = to_zip_pack_in_score(
msc_cvt,
input("输出路径:"),
Musicreater.experiment.ProgressBarStyle(),
# Musicreater.plugin.ConvertConfig(input("输出路径:"),),
scoreboard_name=input("计分板名称:"),
sound_source=input("发音源:"),
auto_reset=True,
)
print(
"符合音符播放音高的音符数量:{}/{}({:.2f}%)".format(
in_diapason_count,
msc_cvt.total_note_count,
in_diapason_count * 100 / msc_cvt.total_note_count,
),
"\n指令数量:{};音乐总延迟:{}".format(*zip_res),
)

39
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from rich.pretty import pprint
import Musicreater.old_init as old_init
from Musicreater.utils import (
load_decode_fsq_flush_release,
load_decode_musicsequence_metainfo,
)
msc_seq = old_init.MusicSequence.from_mido(
old_init.mido.MidiFile(
"./resources/测试片段.mid",
),
"TEST-测试片段",
)
pprint("音乐源取入成功:")
pprint(msc_seq)
with open("test.fsq", "wb") as f:
f.write(fsq_bytes := msc_seq.encode_dump(flowing_codec_support=True))
with open("test.fsq", "rb") as f:
msc_seq_r = old_init.MusicSequence.load_decode(f.read(), verify=True)
pprint("FSQ 传入类成功:")
pprint(msc_seq_r)
with open("test.fsq", "rb") as f:
pprint("流式 FSQ 元数据:")
pprint(metas := load_decode_musicsequence_metainfo(f))
pprint("流式 FSQ 音符序列:")
cnt = 0
for i in load_decode_fsq_flush_release(f, metas[-2], metas[-3], metas[-1]):
pprint(
i,
)
cnt += 1
pprint(f"{cnt} 个音符")

33
old-things/test_future_kamires.py Normal file
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import Musicreater.experiment
import Musicreater.old_plugin
import Musicreater.old_plugin.mcstructfile
msct = Musicreater.experiment.FutureMidiConvertKamiRES.from_midi_file(
input("midi路径:"), old_exe_format=False
)
opt = input("输出路径:")
print(
"乐器使用情况",
)
for name in sorted(
set(
[
n.split(".")[0].replace("c", "").replace("d", "")
for n in msct.note_count_per_instrument.keys()
]
)
):
print("\t", name, flush=True)
print(
"\n输出:",
Musicreater.old_plugin.mcstructfile.to_mcstructure_file_in_delay(
msct,
opt,
# Musicreater.plugin.ConvertConfig(input("输出路径:"),),
max_height=32,
),
)

33
old-things/test_future_lyric.py Normal file
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import Musicreater.experiment
import Musicreater.old_plugin
import Musicreater.old_plugin.mcstructfile
msct = Musicreater.experiment.FutureMidiConvertLyricSupport.from_midi_file(
input("midi路径:"), old_exe_format=False
)
opt = input("输出路径:")
# print(
# "乐器使用情况",
# )
# for name in sorted(
# set(
# [
# n.split(".")[0].replace("c", "").replace("d", "")
# for n in msct.note_count_per_instrument.keys()
# ]
# )
# ):
# print("\t", name, flush=True)
print(
"\n输出:",
Musicreater.old_plugin.mcstructfile.to_mcstructure_file_in_delay(
msct,
opt,
# Musicreater.plugin.ConvertConfig(input("输出路径:"),),
max_height=32,
),
)

34
old-things/test_msq_opera.py Normal file
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from rich.pretty import pprint
import Musicreater.old_init as old_init
from Musicreater.utils import (
load_decode_msq_flush_release,
load_decode_musicsequence_metainfo,
)
msc_seq = old_init.MusicSequence.from_mido(
old_init.mido.MidiFile(
"./resources/测试片段.mid",
),
"TEST-测试片段",
)
pprint("音乐源取入成功:")
pprint(msc_seq)
with open("test.msq", "wb") as f:
f.write(msq_bytes := msc_seq.encode_dump())
with open("test.msq", "rb") as f:
msc_seq_r = old_init.MusicSequence.load_decode(f.read())
pprint("常规 MSQ 读取成功:")
pprint(msc_seq_r)
with open("test.msq", "rb") as f:
pprint("流式 MSQ 元数据:")
pprint(metas := load_decode_musicsequence_metainfo(f))
pprint("流式 MSQ 音符序列:")
for i in load_decode_msq_flush_release(f, metas[-2], metas[-3], metas[-1]):
pprint(i)

47
poem.txt
View File

@@ -1,47 +0,0 @@
> 是谁把科技的领域布满政治的火药
>
> 是谁把纯净的蓝天染上暗淡的沉灰
>
> 中国人民无不热爱自己伟大的祖国
>
> 我们不会忘记屈辱历史留下的惨痛
>
> 我们希望世界和平
>
> 我们希望获得世界的尊重
>
> 愿世上再也没有战争
>
> 无论是热还是冷
>
> 无论是经济还是政治
>
> 让美妙的和平的优雅的音乐响彻世界
>
> ——金羿
> 2022 5 7
> Who has dropped political gunpowder into the technology
>
> Who has dyed clear blue sky into the dark grey
>
> All Chinese people love our great homeland
>
> We *WILL* remember the remain pain of the humiliating history
>
> We love the whole world but in peace
>
> We love everyone but under respect
>
> It is to be hoped that the war ends forever
>
> Whatever it is cold or hot
>
> Whatever it is economical or political
>
> Just let the wonderful music of peace surround the world
>
> ---- Eilles Wan
> 7/5 2022

101
pyproject.toml Normal file
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[project]
name = "Musicreater"
dynamic = ["version"]
requires-python = ">= 3.8, < 4.0"
dependencies = [
"mido >= 1.3",
"tomli >= 2.4.0; python_version < '3.11'",
"tomli-w >= 1.0.0",
"xxhash >= 3",
]
authors = [
{ name = "金羿Eilles" },
{ name = "玉衡Alioth" },
{ name = "鱼旧梦ElapsingDreams" },
{ name = "睿乐组织 TriMO", email = "TriM-Organization@hotmail.com" },
]
maintainers = [
{ name = "金羿Eilles", email = "EillesWan@outlook.com" },
]
description = "A free open source library used for dealing with **Minecraft** digital musics."
readme = "README_EN.md"
license = { file = "LICENSE.md" }
keywords = ["midi", "minecraft", "minecraft: bedrock edition"]
classifiers = [
"Intended Audience :: Developers",
"Natural Language :: Chinese (Simplified)",
"Operating System :: OS Independent",
"Topic :: Software Development :: Libraries",
"Programming Language :: Python",
"Programming Language :: Python :: 3",
"Topic :: Multimedia",
"Topic :: Multimedia :: Sound/Audio :: MIDI",
]
[project.urls]
# Homepage = "https://example.com"
# Documentation = "https://readthedocs.org"
Repository = "https://gitee.com/TriM-Organization/Musicreater"
Issues = "https://gitee.com/TriM-Organization/Musicreater/issues"
Mirror-Repository = "https://github.com/TriM-Organization/Musicreater"
Mirror-Issues = "https://github.com/TriM-Organization/Musicreater/issues"
[project.optional-dependencies]
full = [
"TrimMCStruct <= 0.0.5.9",
"brotli >= 1.0.0",
"numpy",
]
dev = [
"TrimMCStruct <= 0.0.5.9",
"brotli >= 1.0.0",
"dill",
"rich",
"pyinstaller",
"twine",
]
[build-system]
requires = ["pdm-backend"]
build-backend = "pdm.backend"
# https://backend.pdm-project.org/build_config/#build-configurations
[tool.pdm.build]
# includes = [
# # "README_EN.md",
# # "README.md",
# # "LICENSE.md",
# # "Musicreater/",
# # "docs/",
# ]
source-includes = [
"README_EN.md",
"README.md",
"LICENSE.md",
]
excludes = [
"fcwslib/",
"bgArrayLib/",
"Packer/",
"resources/",
"./*.mid",
"./*.msq",
"./*.fsq",
"./MSCT_Packer.py",
"resources/poem.md",
]
[tool.pdm.version]
source = "file"
path = "Musicreater/__init__.py"
[tool.pyright]
typeCheckingMode = "basic"

2
requirements.txt
View File

@@ -1,2 +0,0 @@
Brotli>=1.0.9
mido>=1.2.10

21
resources/msctDevAuthors.txt
View File

@@ -1,21 +0,0 @@
# 注意,这里是作者署名文件,文件格式开头为单子启
# 紧跟其后,不加空格留下常用名,常用名即常用网名
# 而在其后是各个语言下的名字。用 井字符 开头表示
# 注释,请注意,注释符号必须在一行之首否则无作用
# 每进行一次分段表示一个新的开发者,换行表示一个
# 新的语言。请全体开发者就此署名,谢谢!
启金羿
zh-CN 金羿
zh-TW 金羿
zh-ME 金羿羿喵
zh-HK 金 羿
en-GB Eilles Wan
en-US EillesWan
启诸葛亮与八卦阵
zh-CN 诸葛亮与八卦阵
zh-TW 諸葛亮與八卦陣
zh-ME 诸葛八卦喵
zh-HK 諸葛亮與八卦陣
en-GB Bagua Array
en-US bgArray

260
resources/test/enfasted_list_merging_test.py Normal file
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import random
import time
from itertools import chain
from multiprocessing import Pool, Process, freeze_support
from rich.console import Console
from rich.progress import Progress
from rich.table import Table
console = Console()
# gening_stst = {"NOWIDX": 0, "DATA": {}}
# 生成单个字典的函数(用于多进程)
def generate_single_dict(args):
dict_id, dict_size = args
# if dict_id:
# console.print(
# f"字典 {dict_id + 1} 大小 {dict_size} 生成中...",
# )
# else:
# console.print(
# f"\n字典 {dict_id + 1} 大小 {dict_size} 生成中...",
# )
# final_d = {}
# gening_stst["DATA"][dict_id] = 0
# for i in range(dict_size):
# final_d[i] = [random.randint(0, 1000) for _ in range(random.randint(10000, 99999))]
# gening_stst["DATA"][dict_id] += 1
return dict_id, {
i: [random.randint(0, 1000) for _ in range(random.randint(10000, 90000))]
for i in range(dict_size)
}
# return dict_id, final_d
# 合并函数定义
def chain_merging(dict_info: dict):
return sorted(chain(*dict_info.values()))
def seq_merging(dict_info: dict):
return sorted([i for sub in dict_info.values() for i in sub])
def summing(*_):
k = []
for i in _:
k += i
return k
def plus_merging(dict_info: dict):
return sorted(summing(*dict_info.values()))
if __name__ == "__main__":
freeze_support() # Windows系统需要这个调用
# 测试配置
dict_size = 50 # 每个字典的键值对数量
num_tests = 50 # 测试次数
function_list = [chain_merging, seq_merging, plus_merging]
# dict_list = []
results = {func.__name__: [] for func in function_list}
# 多进程生成多个字典
with Progress() as progress:
task = progress.add_task("[green]进行速度测试...", total=num_tests)
# gen_task = progress.add_task("[cyan] - 生成测试数据...", total=num_tests)
with Pool() as pool:
args_list = [
(
i,
dict_size,
)
for i in range(num_tests)
]
# def disp_work():
# while gening_stst["NOWIDX"] < num_tests:
# progress.update(
# gen_task,
# advance=1,
# description=f"[cyan]正在生成 {gening_stst['DATA']['NOWIDX']}/{dict_size -1}",
# # description="正在生成..."+console._render_buffer(
# # console.render(table,),
# # ),
# )
# Process(target=disp_work).start()
for result in pool.imap_unordered(generate_single_dict, args_list):
# dict_list.append(result)
progress.update(
task,
advance=1,
description=f"[cyan]正在测试 {result[0] + 1}/{num_tests}",
# description="正在生成..."+console._render_buffer(
# console.render(table,),
# ),
# refresh=True,
)
# gening_stst["NOWIDX"] += 1
# for _ in range(num_tests):
# 随机选择字典和打乱函数顺序
# current_dict = generate_single_dict((_, dict_size))
# progress.update(
# test_task,
# advance=1,
# # description=f"[cyan]正在测试 {_}/{num_tests -1}",
# # description="正在测试..."+console._render_buffer(
# # console.render(table,progress.console.options),
# # ),
# # refresh=True,
# )
# rangen_task = progress.add_task(
# "[green]正在生成测试数据...",
# total=dict_size,
# )
# current_dict = {}
# desc = "正在生成序列 {}/{}".format("{}",dict_size-1)
# for i in range(dict_size):
# # print("正在生成第", i, "个序列",end="\r",flush=True)
# progress.update(rangen_task, advance=1, description=desc.format(i))
# current_dict[i] = [random.randint(0, 1000) for _ in range(random.randint(10000, 99999))]
shuffled_funcs = random.sample(function_list, len(function_list))
# table.rows
# table.columns = fine_column
# progress.live
# progress.console._buffer.extend(progress.console.render(table))
# for j in progress.console.render(table,progress.console.options):
# progress.console._buffer.insert(0,j)
for i, func in enumerate(shuffled_funcs):
start = time.perf_counter()
func(result[1])
elapsed = time.perf_counter() - start
results[func.__name__].append(elapsed)
# gening_stst["NOWIDX"] = num_tests
# fine_column = table.columns.copy()
# for func in function_list:
# name = func.__name__
# table.add_row(
# name,
# f"-",
# f"-",
# f"-",
# f"-",
# )
# # proc_pool = []
# 测试执行部分(保持顺序执行)
# with Progress() as progress:
# # progress.live.update(table, refresh=True)
# # progress.live.process_renderables([table],)
# # print([console._render_buffer(
# # console.render(table,),
# # )])
# # progress.console._buffer.extend(progress.console.render(table))
# test_task = progress.add_task("[cyan]进行速度测试...", total=num_tests)
# for _ in range(num_tests):
# # 随机选择字典和打乱函数顺序
# # current_dict = generate_single_dict((_, dict_size))
# progress.update(
# test_task,
# advance=1,
# description=f"[cyan]正在测试 {_}/{num_tests -1}",
# # description="正在测试..."+console._render_buffer(
# # console.render(table,progress.console.options),
# # ),
# # refresh=True,
# )
# rangen_task = progress.add_task(
# "[green]正在生成测试数据...",
# total=dict_size,
# )
# current_dict = {}
# desc = "正在生成序列 {}/{}".format("{}",dict_size-1)
# for i in range(dict_size):
# # print("正在生成第", i, "个序列",end="\r",flush=True)
# progress.update(rangen_task, advance=1, description=desc.format(i))
# current_dict[i] = [random.randint(0, 1000) for _ in range(random.randint(10000, 99999))]
# shuffled_funcs = random.sample(function_list, len(function_list))
# # table.rows
# # table.columns = fine_column
# # progress.live
# # progress.console._buffer.extend(progress.console.render(table))
# # for j in progress.console.render(table,progress.console.options):
# # progress.console._buffer.insert(0,j)
# for i, func in enumerate(shuffled_funcs):
# start = time.perf_counter()
# func(current_dict)
# elapsed = time.perf_counter() - start
# results[func.__name__].append(elapsed)
# times = results[func.__name__]
# avg_time = sum(times) / len(times)
# min_time = min(times)
# max_time = max(times)
# table.columns[0]
# table.columns[0]._cells[i] = func.__name__
# table.columns[1]._cells[i] = f"{avg_time:.5f}"
# table.columns[2]._cells[i] = f"{min_time:.5f}"
# table.columns[3]._cells[i] = f"{max_time:.5f}"
# table.columns[4]._cells[i] = str(len(times))
# progress.update(test_task, advance=0.5)
# 结果展示部分
# 结果表格
table = Table(title="\n[cyan]性能测试结果", show_header=True, header_style="bold")
table.add_column("函数名称", style="dim", width=15)
table.add_column("平均耗时 (秒)", justify="right")
table.add_column("最小耗时 (秒)", justify="right")
table.add_column("最大耗时 (秒)", justify="right")
table.add_column("测试次数", justify="right")
for i, func in enumerate(function_list):
name = func.__name__
times = results[name]
avg_time = sum(times) / len(times)
min_time = min(times)
max_time = max(times)
table.add_row(
name,
f"{avg_time:.5f}",
f"{min_time:.5f}",
f"{max_time:.5f}",
str(len(times)),
)
# table.columns[0]._cells[i] = name
# table.columns[1]._cells[i] = f"{avg_time:.5f}"
# table.columns[2]._cells[i] = f"{min_time:.5f}"
# table.columns[3]._cells[i] = f"{max_time:.5f}"
# table.columns[4]._cells[i] = str(len(times))
console.print(table)

21
resources/test/genexpr_vs_yieldfrom.py Normal file
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@@ -0,0 +1,21 @@
# 模拟两种写法
def method_A(self, start, end):
yield from (f"{track}.get_range(start, end)" for track in self)
def method_B(self, start, end):
return (f"{track}.get_range(start, end)" for track in self)
tracks = ["A", "B"]
gen_a = method_A(tracks, 0, 10)
print(list(gen_a))
gen_b = method_B(tracks, 0, 10)
print(list(gen_b))
# they are the same output

39
resources/test/list_merging_text.py Normal file
View File

@@ -0,0 +1,39 @@
import random
import time
from itertools import chain
print("生成序列中")
fine_dict = {}
for i in range(50):
print("正在生成第", i, "个序列",end="\r",flush=True)
fine_dict[i] = [random.randint(0, 1000) for _ in range(random.randint(10000, 99999))]
print("序列生成完成")
def chain_merging(dict_info: dict):
return sorted(chain(*dict_info.values()))
def seq_merging(dict_info: dict):
return sorted([i for sub in dict_info.values() for i in sub])
def summing(*_):
k = []
for i in _:
k += i
return k
def plus_merging(dict_info: dict):
return sorted(summing(*dict_info.values()))
function_list = [chain_merging, seq_merging, plus_merging]
for func in function_list:
print("正在使用",func.__name__,"函数",)
start = time.time()
func(fine_dict)
print("耗时",time.time() - start)
print("结束")

42
resources/test/volumn_function_fit.py Normal file
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@@ -0,0 +1,42 @@
import matplotlib.pyplot as plt
import numpy as np
from scipy.optimize import curve_fit
def q_function1(x, a, a2, c1,):
return a * np.log( x + a2,)+ c1
def q_function2(x, b, b2, b3, b4, c2):
return b * ((x + b2) ** b3) + b4 * (x+b2) + c2
x_data = np.array([0, 16, 32, 48, 64, 80, 96, 112, 128])
y_data = np.array([16, 10, 6.75, 4, 2.5, 1.6, 0.8, 0.3, 0])
p_est1, err_est1 = curve_fit(q_function1, x_data[:5], y_data[:5], maxfev=1000000)
p_est2, err_est2 = curve_fit(q_function2, x_data[4:], y_data[4:], maxfev=1000000)
print(q_function1(x_data[:5], *p_est1))
print(q_function2(x_data[4:], *p_est2))
print("参数一:",*p_est1)
print("参数二:",*p_est2)
# 绘制图像
plt.plot(
np.arange(0, 64.1, 0.1), q_function1(np.arange(0, 64.1, 0.1), *p_est1), label=r"FIT1"
)
plt.plot(
np.arange(64, 128.1, 0.1), q_function2(np.arange(64, 128.1, 0.1), *p_est2), label=r"FIT2"
)
plt.scatter(x_data, y_data, color="red") # 标记给定的点
# plt.xlabel('x')
# plt.ylabel('y')
plt.title("Function Fit")
plt.legend()
# plt.grid(True)
plt.show()

37
resources/test/volumn_function_test.py Normal file
View File

@@ -0,0 +1,37 @@
import matplotlib.pyplot as plt
import numpy as np
# 定义对数函数
def q_function1(vol):
# return -23.65060754864053*((x+508.2130392724084)**0.8433764630986903) + 7.257078620637543 * (x+407.86870598508153) + 1585.6201108739122
# return -58.863374003875954 *((x+12.41481943150274 )**0.9973316187745871 ) +57.92341268595151 * (x+ 13.391132186222036) + -32.92986286030519
return -8.081720684086314 * np.log( vol + 14.579508825070013,)+ 37.65806375944386
def q_function2(vol):
return 0.2721359356095803 * ((vol + 2592.272889454798) ** 1.358571233418649) + -6.313841334963396 * (vol + 2592.272889454798) + 4558.496367823575
# 生成 x 值
x_values = np.linspace(0, 128, 1000)
x_data = np.array([0,16,32,48,64,80,96,112,128])
y_data = np.array([16, 10, 6.75, 4, 2.5, 1.6, 0.8, 0.3, 0])
print(q_function1(x_data))
print(q_function2(x_data))
# 绘制图像
plt.plot(x_values, q_function1(x_values,),label = "fit1")
plt.plot(x_values, q_function2(x_values,),label = "fit2")
plt.scatter(x_data, y_data, color='red') # 标记给定的点
# plt.scatter(x_data, y_data2, color='green') # 标记给定的点
# plt.scatter(x_data, y_data3, color='blue') # 标记给定的点
plt.xlabel('x')
plt.ylabel('y')
plt.title('Function')
plt.legend()
plt.grid(True)
plt.show()

BIN
resources/测试片段.mid Normal file
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Binary file not shown.

BIN
resources/测试片段.mscz Normal file
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Binary file not shown.

14
resources/音乐测试片段版权声明.txt Normal file
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@@ -0,0 +1,14 @@
音乐谱面文件
测试片段.mid、测试片段.mscz
皆系 音·创 库所用之连带软件
禁止在 音·创 库以外传播
不允许独立发行、独立副本
不允许未经允许的二次创作
不允许脱离于 音·创 独立存在
不得随任何其他非 音·创 软件连带发布
不得用于商业用途
若 音·创 库被用于商业用途,应当将其剔除
版权所有 © 2026 玉衡Alioth

40
setup.py
View File

@@ -1,40 +0,0 @@
# -*- coding: utf-8 -*-
import setuptools
import Musicreater
with open("requirements.txt", "r", encoding="utf-8") as fh:
dependences = fh.read().strip().split("\n")
with open("README.md", "r", encoding="utf-8") as fh:
long_description = fh.read().replace(
"./docs/", "https://github.com/TriM-Organization/Musicreater/blob/master/docs/"
)
setuptools.setup(
name="Musicreater",
version=Musicreater.__version__,
author="Eilles Wan, bgArray",
author_email="TriM-Organization@hotmail.com",
description="一款免费开源的 《我的世界》 mid音乐转换库。\n"
"A free open-source python library used to convert midi into Minecraft.",
long_description=long_description,
long_description_content_type="text/markdown",
url="https://github.com/TriM-Organization/Musicreater",
packages=setuptools.find_packages(),
classifiers=[
"Intended Audience :: Developers",
"Natural Language :: Chinese (Simplified)",
"License :: OSI Approved :: Apache Software License",
"Operating System :: OS Independent",
"Topic :: Software Development :: Libraries",
"Programming Language :: Python",
"Programming Language :: Python :: 3",
"Programming Language :: Python :: 3.6",
"Programming Language :: Python :: 3.7",
"Programming Language :: Python :: 3.8",
"Programming Language :: Python :: 3.9",
"Programming Language :: Python :: 3.10",
],
# 需要安装的依赖
install_requires=dependences,
)

24
test_read.py Normal file
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@@ -0,0 +1,24 @@
# 一个简单的项目实践测试
from pathlib import Path
from Musicreater import load_plugin_module, MusiCreater
from Musicreater.plugins import _global_plugin_registry
load_plugin_module("Musicreater.builtin_plugins.midi_read")
print("当前支持的导入格式:", _global_plugin_registry.supported_input_formats())
print("当前支持的导出格式:", _global_plugin_registry.supported_output_formats())
print(msct:=MusiCreater.import_music(Path("./resources/测试片段.mid")))
print(msct.music)
# 为了让类型检查器满意,以下方法不建议使用,因为这本质上是越过了 MusiCreater 类而直接执行插件的函数
print(t := msct.midi_2_music_plugin.load(Path("./resources/测试片段.mid"), None))
# 我们建议用这种方式来代替
t = _global_plugin_registry._music_input_plugins["midi_2_music_plugin"].load(Path("./resources/测试片段.mid"), None)
print(_global_plugin_registry)
print(msct._plugin_cache)

8
upload.bat
View File

@@ -1,3 +1,7 @@
python -m build
python -m twine upload dist/*
uv build
python -m twine check dist/*
pause
uv publish
pause
python clean_update.py
pause

4
upload.sh
View File

@@ -1,4 +0,0 @@
#!/usr/bin/env bash
python -m build
python -m twine upload dist/*
python clean_update.py

3
upload_bgArray.bat
View File

@@ -1,3 +0,0 @@
python setup.py sdist bdist_wheel
python -m twine upload dist/*
python clean_update.py

1341
uv.lock generated Normal file
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