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.gitattributes vendored
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*.yaml linguist-language=Python
*.xml linguist-language=Python
*.md linguist-language=Python

165
.gitignore vendored
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# sth. can't open
/msctPkgver/secrets/*.py
/msctPkgver/secrets/*.c
# mystuff
/.vscode
/*.mid
/*.midi
/*.mcpack
/*.bdx
/*.json
/*.mcstructure
.mscbackup
/logs
/languages
/llc_cli.py
/utils
test.py
RES.txt
# Byte-compiled / optimized
__pycache__/
*.pyc
*$py.class
# Distribution / packaging
.Python
build/
develop-eggs/
dist/
downloads/
eggs/
.eggs/
lib/
lib64/
parts/
sdist/
var/
wheels/
share/python-wheels/
*.egg-info/
.installed.cfg
*.egg
MANIFEST
# PyInstaller
# Usually these files are written by a python script from a template
# before PyInstaller builds the exe, so as to inject date/other infos into it.
*.manifest
*.spec
# Installer logs
pip-log.txt
pip-delete-this-directory.txt
# Unit test / coverage reports
htmlcov/
.tox/
.nox/
.coverage
.coverage.*
.cache
nosetests.xml
coverage.xml
*.cover
*.py,cover
.hypothesis/
.pytest_cache/
cover/
# Translations
*.mo
*.pot
# Django stuff:
*.log
local_settings.py
db.sqlite3
db.sqlite3-journal
# Flask stuff:
instance/
.webassets-cache
# Scrapy stuff:
.scrapy
# Sphinx documentation
docs/_build/
# PyBuilder
.pybuilder/
target/
# Jupyter Notebook
.ipynb_checkpoints
# IPython
profile_default/
ipython_config.py
# pyenv
# For a library or package, you might want to ignore these files since the code is
# intended to run in multiple environments; otherwise, check them in:
# .python-version
# pipenv
# According to pypa/pipenv#598, it is recommended to include Pipfile.lock in version control.
# However, in case of collaboration, if having platform-specific dependencies or dependencies
# having no cross-platform support, pipenv may install dependencies that don't work, or not
# install all needed dependencies.
#Pipfile.lock
# PEP 582; used by e.g. github.com/David-OConnor/pyflow
__pypackages__/
# Celery stuff
celerybeat-schedule
celerybeat.pid
# SageMath parsed files
*.sage.py
# Environments
.env
.venv
env/
venv/
ENV/
env.bak/
venv.bak/
# Spyder project settings
.spyderproject
.spyproject
# Rope project settings
.ropeproject
# mkdocs documentation
/site
# mypy
.mypy_cache/
.dmypy.json
dmypy.json
# Pyre type checker
.pyre/
# pytype static type analyzer
.pytype/
# Cython debug symbols
cython_debug/
# Pycharm
/.idea
# log
/.log
# package
.7z

219
LICENSE.md
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**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**
1. 音·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. 音·创或(及)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,音·创允许对其或(及)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
5. Apache2.0 协议的英文原文副本可见下文
> 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.
**Note, The TERMS AND CONDITIONS below should and must be above all others in this project**
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.
```text
Apache License
Version 2.0, January 2004
http://www.apache.org/licenses/
TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION
1. Definitions.
"License" shall mean the terms and conditions for use, reproduction,
and distribution as defined by Sections 1 through 9 of this document.
"Licensor" shall mean the copyright owner or entity authorized by
the copyright owner that is granting the License.
"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.
"You" (or "Your") shall mean an individual or Legal Entity
exercising permissions granted by this License.
"Source" form shall mean the preferred form for making modifications,
including but not limited to software source code, documentation
source, and configuration files.
"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.
"Work" shall mean the work of authorship, whether in Source or
Object form, made available under the License, as indicated by a
copyright notice that is included in or attached to the work
(an example is provided in the Appendix below).
"Derivative Works" shall mean any work, whether in Source or Object
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of this License, Derivative Works shall not include works that remain
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"Contribution" shall mean any work of authorship, including
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designated in writing by the copyright owner as "Not a Contribution."
"Contributor" shall mean Licensor and any individual or Legal Entity
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2. Grant of Copyright License. Subject to the terms and conditions of
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names, trademarks, service marks, or product names of the Licensor,
except as required for reasonable and customary use in describing the
origin of the Work and reproducing the content of the NOTICE file.
7. Disclaimer of Warranty. Unless required by applicable law or
agreed to in writing, Licensor provides the Work (and each
Contributor provides its Contributions) on an "AS IS" BASIS,
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risks associated with Your exercise of permissions under this License.
8. Limitation of Liability. In no event and under no legal theory,
whether in tort (including negligence), contract, or otherwise,
unless required by applicable law (such as deliberate and grossly
negligent acts) or agreed to in writing, shall any Contributor be
liable to You for damages, including any direct, indirect, special,
incidental, or consequential damages of any character arising as a
result of this License or out of the use or inability to use the
Work (including but not limited to damages for loss of goodwill,
work stoppage, computer failure or malfunction, or any and all
other commercial damages or losses), even if such Contributor
has been advised of the possibility of such damages.
9. Accepting Warranty or Additional Liability. While redistributing
the Work or Derivative Works thereof, You may choose to offer,
and charge a fee for, acceptance of support, warranty, indemnity,
or other liability obligations and/or rights consistent with this
License. However, in accepting such obligations, You may act only
on Your own behalf and on Your sole responsibility, not on behalf
of any other Contributor, and only if You agree to indemnify,
defend, and hold each Contributor harmless for any liability
incurred by, or claims asserted against, such Contributor by reason
of your accepting any such warranty or additional liability.
END OF TERMS AND CONDITIONS
Copyright 2023 TriM-Organization 金羿("Eilles Wan") & 诸葛亮与八卦阵("bgArray") & all the developers of Musicreater
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
http://www.apache.org/licenses/LICENSE-2.0
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.
```

37
Musicreater/__init__.py
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# -*- coding: utf-8 -*-
"""一个简单的我的世界音频转换库
· (Musicreater)
是一款免费开源的针对我的世界的midi音乐转换库
Musicreater(·)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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
__version__ = "1.6.2"
__vername__ = "新的转换算法测试,更好的声音适配"
__author__ = (
("金羿", "Eilles Wan"),
("诸葛亮与八卦阵", "bgArray"),
("偷吃不是Touch", "Touch"),
("鸣凤鸽子", "MingFengPigeon"),
)
__all__ = [
# 主要类
"MidiConvert",
# 附加类
"SingleNote",
"SingleCommand",
# "TimeStamp", 未来功能
]
from .main import *

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Musicreater/constants.py
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# -*- coding: utf-8 -*-
"""
存放常量与数值性内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 Dict, List, Tuple
x = "x"
"""
x
"""
y = "y"
"""
y
"""
z = "z"
"""
z
"""
DEFAULT_PROGRESSBAR_STYLE = (
r"%%N [ %%s/%^s %%% __________ %%t|%^t ]",
("§e=§r", "§7=§r"),
)
"""
默认的进度条样式组
"""
MIDI_PITCH_NAME_TABLE: Dict[int, str] = {
0: "C",
1: "C#",
2: "D",
3: "D#",
4: "E",
5: "F",
6: "F#",
7: "G",
8: "G#",
9: "A",
10: "A#",
11: "B",
12: "C",
13: "C#",
14: "D",
15: "D#",
16: "E",
17: "F",
18: "F#",
19: "G",
20: "G#",
21: "A",
22: "A#",
23: "B",
24: "C",
25: "C#",
26: "D",
27: "D#",
28: "E",
29: "F",
30: "F#",
31: "G",
32: "G#",
33: "A",
34: "A#",
35: "B",
36: "C",
37: "C#",
38: "D",
39: "D#",
40: "E",
41: "F",
42: "F#",
43: "G",
44: "G#",
45: "A",
46: "A#",
47: "B",
48: "C",
49: "C#",
50: "D",
51: "D#",
52: "E",
53: "F",
54: "F#",
55: "G",
56: "G#",
57: "A",
58: "A#",
59: "B",
60: "C",
61: "C#",
62: "D",
63: "D#",
64: "E",
65: "F",
66: "F#",
67: "G",
68: "G#",
69: "A",
70: "A#",
71: "B",
72: "C",
73: "C#",
74: "D",
75: "D#",
76: "E",
77: "F",
78: "F#",
79: "G",
80: "G#",
81: "A",
82: "A#",
83: "B",
84: "C",
85: "C#",
86: "D",
87: "D#",
88: "E",
89: "F",
90: "F#",
91: "G",
92: "G#",
93: "A",
94: "A#",
95: "B",
96: "C",
97: "C#",
98: "D",
99: "D#",
100: "E",
101: "F",
102: "F#",
103: "G",
104: "G#",
105: "A",
106: "A#",
107: "B",
108: "C",
109: "C#",
110: "D",
111: "D#",
112: "E",
113: "F",
114: "F#",
115: "G",
116: "G#",
117: "A",
118: "A#",
119: "B",
120: "C",
121: "C#",
122: "D",
123: "D#",
124: "E",
125: "F",
126: "F#",
127: "G",
}
# 以下是由 Touch “偷吃” 带来的高准确率音效对照表
# 包括乐音乐器对照和打击乐器对照
PITCHED_INSTRUMENT_TABLE: Dict[int, Tuple[str, int]] = {
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.guitar", 7),
7: ("note.guitar", 7),
8: ("note.iron_xylophone", 8),
9: ("note.bell", 4), # 打击乐器无音域
10: ("note.iron_xylophone", 6),
11: ("note.iron_xylophone", 6),
12: ("note.iron_xylophone", 6),
13: ("note.xylophone", 4),
14: ("note.chime", 4),
15: ("note.banjo", 6),
16: ("note.xylophone", 6),
17: ("note.iron_xylophone", 6),
18: ("note.flute", 5),
19: ("note.flute", 5),
20: ("note.flute", 5),
21: ("note.flute", 5),
22: ("note.flute", 5),
23: ("note.flute", 5),
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.flute", 5),
41: ("note.flute", 5),
42: ("note.flute", 5),
43: ("note.bass", 8),
44: ("note.flute", 5),
45: ("note.iron_xylophone", 6),
46: ("note.harp", 6),
47: ("note.snare", 7),
48: ("note.flute", 5),
49: ("note.flute", 5),
50: ("note.flute", 5),
51: ("note.flute", 5),
52: ("note.didgeridoo", 5),
53: ("note.flute", 5), # 合唱“啊”音
54: ("note.flute", 5), # 人声“嘟”音
55: ("mob.zombie.wood", 7), # 合成人声
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.bit", 6),
70: ("note.banjo", 6),
71: ("note.flute", 5),
72: ("note.flute", 5),
73: ("note.flute", 5),
74: ("note.flute", 5),
75: ("note.flute", 5),
76: ("note.iron_xylophone", 6),
77: ("note.iron_xylophone", 6),
78: ("note.flute", 5),
79: ("note.flute", 5),
80: ("note.bit", 6),
81: ("note.bit", 6),
82: ("note.flute", 5),
83: ("note.flute", 5),
84: ("note.guitar", 7),
85: ("note.flute", 5),
86: ("note.bass", 8),
87: ("note.bass", 8),
88: ("note.bit", 6),
89: ("note.flute", 5),
90: ("note.bit", 6),
91: ("note.flute", 5),
92: ("note.bell", 4),
93: ("note.guitar", 7),
94: ("note.flute", 5),
95: ("note.bit", 6),
96: ("note.bit", 6), # 雨声
97: ("note.flute", 5),
98: ("note.bell", 4),
99: ("note.bit", 6), # 大气
100: ("note.bit", 6), # 明亮
101: ("note.bit", 6), # 鬼怪
102: ("note.bit", 6), # 回声
103: ("note.bit", 6), # 科幻
104: ("note.iron_xylophone", 6),
105: ("note.banjo", 6),
106: ("note.harp", 6),
107: ("note.harp", 6),
108: ("note.bell", 4),
109: ("note.flute", 5),
110: ("note.flute", 5),
111: ("note.flute", 5),
112: ("note.bell", 4),
113: ("note.xylophone", 4),
114: ("note.flute", 5),
115: ("note.hat", 7), # 打击乐器无音域
116: ("note.snare", 7), # 打击乐器无音域
117: ("note.snare", 7), # 打击乐器无音域
118: ("note.bd", 7), # 打击乐器无音域
119: ("firework.blast", 7), # 打击乐器无音域
120: ("note.guitar", 7), # 吉他还把杂音
121: ("note.harp", 6), # 呼吸声
122: ("note.harp", 6), # 海浪声
123: ("note.harp", 6), # 鸟鸣
124: ("note.bit", 6),
125: ("note.hat", 7), # 直升机
126: ("firework.twinkle", 7), # 打击乐器无音域
127: ("mob.zombie.wood", 7), # 打击乐器无音域
}
PERCUSSION_INSTRUMENT_TABLE: Dict[int, Tuple[str, int]] = {
34: ("note.hat", 7),
35: ("note.bd", 7),
36: ("note.bd", 7),
37: ("note.snare", 7),
38: ("note.snare", 7),
39: ("fire.ignite", 7),
40: ("note.snare", 7),
41: ("note.hat", 7),
42: ("note.hat", 7),
43: ("firework.blast", 7),
44: ("note.hat", 7),
45: ("note.snare", 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),
}
PERCUSSION_INSTRUMENT_LIST: List[str] = [
"note.snare",
"note.bd",
"note.hat",
"note.basedrum",
"firework.blast",
"firework.twinkle",
"fire.ignite",
"mob.zombie.wood",
]
INSTRUMENT_BLOCKS_TABLE: Dict[str, Tuple[str, ...]] = {
"note.bass": ("planks",),
"note.snare": ("sand",),
"note.hat": ("glass",),
"note.bd": ("stone",),
"note.basedrum": ("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": ("dirt",),
# 呃……
"firework.blast": ("sandstone",),
"firework.twinkle": ("red_sandstone",),
"fire.ignite": ("concrete_powder",),
"mob.zombie.wood": ("sand",),
}
# 即将启用
height2note = {
0.5: 0,
0.53: 1,
0.56: 2,
0.6: 3,
0.63: 4,
0.67: 5,
0.7: 6,
0.75: 7,
0.8: 8,
0.84: 9,
0.9: 10,
0.94: 11,
1.0: 12,
1.05: 13,
1.12: 14,
1.2: 15,
1.25: 16,
1.33: 17,
1.4: 18,
1.5: 19,
1.6: 20,
1.7: 21,
1.8: 22,
1.9: 23,
2.0: 24,
}
"""音高对照表\n
MC音高:音符盒音调"""

117
Musicreater/exceptions.py
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@ -1,117 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放一堆报错类型
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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·创库版本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)
def meow(
self,
):
for i in self.args:
print(i + "喵!")
def crash_it(self):
raise self
class MidiFormatException(MSCTBaseException):
"""音·创库版本的所有MIDI格式错误均继承于此"""
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)
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"""
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)
class CommandFormatError(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?
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 ZeroSpeedError(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)

333
Musicreater/experiment.py
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@ -1,333 +0,0 @@
# -*- coding: utf-8 -*-
"""
新版本功能以及即将启用的函数
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 random
from .constants import INSTRUMENT_BLOCKS_TABLE
from .exceptions import *
from .main import MidiConvert
from .subclass import *
from .utils import *
from .types import Tuple, List, Dict
class FutureMidiConvertRSNB(MidiConvert):
"""
加入红石音乐适配
"""
music_command_list: Dict[int, SingleNoteBox]
"""音乐指令列表"""
@staticmethod
def soundID_to_block(sound_id: str, random_select: bool = False) -> str:
"""
将我的世界乐器名改作音符盒所需的对应方块名称
Parameters
----------
sound_id: str
将我的世界乐器名
random_select: bool
是否随机选取对应方块
Returns
-------
str方块名称
"""
try:
if random_select:
return random.choice(INSTRUMENT_BLOCKS_TABLE[sound_id])
else:
return INSTRUMENT_BLOCKS_TABLE[sound_id][0]
except KeyError:
return "air"
class FutureMidiConvertM4(MidiConvert):
"""
加入插值算法优化音感
: 经测试生成效果已经达到感觉良好
"""
# 临时用的插值计算函数
@staticmethod
def _linear_note(
_note: SingleNote,
_apply_time_division: float = 100,
) -> List[SingleNote]:
"""传入音符数据,返回以半秒为分割的插值列表
:param _note: SingleNote 音符
:param _apply_time_division: int 间隔毫秒数
:return list[tuple(int开始时间毫秒, int乐器, int音符, int力度内置, float音量播放),]"""
if _note.percussive:
return [
_note,
]
totalCount = int(_note.duration / _apply_time_division)
if totalCount == 0:
return [
_note,
]
# print(totalCount)
result: List[SingleNote] = []
for _i in range(totalCount):
result.append(
SingleNote(
instrument=_note.inst,
pitch=_note.pitch,
velocity=_note.velocity,
startime=int(_note.start_time + _i * (_note.duration / totalCount)),
lastime=int(_note.duration / totalCount),
track_number=_note.track_no,
is_percussion=_note.percussive,
)
# (
# _note.start_time + _i * _apply_time_division,
# _note.instrument,
# _note.pitch,
# _note.velocity,
# ((totalCount - _i) / totalCount),
# )
)
return result
def to_command_list_in_delay(
self,
max_volume: float = 1.0,
speed: float = 1.0,
player_selector: str = "@a",
) -> Tuple[List[SingleCommand], int, int]:
"""
将midi转换为我的世界命令列表并输出每个音符之后的延迟
Parameters
----------
max_volume: float
最大播放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
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
player_selector: str
玩家选择器默认为`@a`
Returns
-------
tuple( list[SingleCommand,...], int音乐时长游戏刻, int最大同时播放的指令数量 )
"""
if speed == 0:
raise ZeroSpeedError("播放速度仅可为(0,1]范围内的正实数")
max_volume = 1 if max_volume > 1 else (0.001 if max_volume <= 0 else max_volume)
notes_list: List[SingleNote] = []
# 此处 我们把通道视为音轨
for channel in self.to_music_note_channels().values():
for note in channel:
if not note.percussive:
notes_list.extend(self._linear_note(note, note.get_mc_pitch * 500))
else:
notes_list.append(note)
notes_list.sort(key=lambda a: a.start_time)
self.music_command_list = []
multi = max_multi = 0
delaytime_previous = 0
for note in notes_list:
delaytime_now = round(note.start_time / speed / 50)
if (tickdelay := (delaytime_now - delaytime_previous)) == 0:
multi += 1
else:
max_multi = max(max_multi, multi)
multi = 0
self.music_command_list.append(
SingleCommand(
self.execute_cmd_head.format(player_selector)
+ note.to_command(max_volume),
tick_delay=tickdelay,
annotation="{}播放{}%{}".format(
mctick2timestr(delaytime_now),
max_volume * 100,
"{}:{}".format(note.mc_sound_ID, note.mc_pitch),
),
)
)
delaytime_previous = delaytime_now
self.music_tick_num = round(notes_list[-1].start_time / speed / 50)
return self.music_command_list, self.music_tick_num, max_multi + 1
class FutureMidiConvertM5(MidiConvert):
"""
加入同刻偏移算法优化音感
"""
# 神奇的偏移音
def to_command_list_in_delay(
self,
max_volume: float = 1.0,
speed: float = 1.0,
player_selector: str = "@a",
) -> Tuple[List[SingleCommand], int]:
"""
使用金羿的转换思路使用同刻偏移算法优化音感后将midi转换为我的世界命令列表并输出每个音符之后的延迟
Parameters
----------
max_volume: float
最大播放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
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
player_selector: str
玩家选择器默认为`@a`
Returns
-------
tuple( list[SingleCommand,...], int音乐时长游戏刻 )
"""
if speed == 0:
raise ZeroSpeedError("播放速度仅可为正实数")
max_volume = 1 if max_volume > 1 else (0.001 if max_volume <= 0 else max_volume)
self.to_music_channels()
tracks = {}
InstID = -1
# 此处 我们把通道视为音轨
for i in self.channels.keys():
# 如果当前通道为空 则跳过
if not self.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 self.channels[i].items():
for msg in track:
if msg[0] == "PgmC":
InstID = msg[1]
elif msg[0] == "NoteS":
soundID, _X = (
self.perc_inst_to_soundID_withX(msg[1])
if SpecialBits
else self.inst_to_souldID_withX(InstID)
)
score_now = round(msg[-1] / float(speed) / 50)
# print(score_now)
try:
tracks[score_now].append(
self.execute_cmd_head.format(player_selector)
+ f"playsound {soundID} @s ^ ^ ^{128 / max_volume / msg[2] - 1} {msg[2] / 128} "
+ (
""
if SpecialBits
else f"{2 ** ((msg[1] - 60 - _X) / 12)}"
)
)
except KeyError:
tracks[score_now] = [
self.execute_cmd_head.format(player_selector)
+ f"playsound {soundID} @s ^ ^ ^{128 / max_volume / msg[2] - 1} {msg[2] / 128} "
+ (
""
if SpecialBits
else 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(
SingleCommand(
tracks[all_ticks[i]][j],
tick_delay=(
(
0
if (
(all_ticks[i + 1] - all_ticks[i])
/ len(tracks[all_ticks[i]])
< 1
)
else 1
)
if j != 0
else (
(
all_ticks[i]
- all_ticks[i - 1]
- (
0
if (
(all_ticks[i] - all_ticks[i - 1])
/ len(tracks[all_ticks[i - 1]])
< 1
)
else (len(tracks[all_ticks[i - 1]]) - 1)
)
)
if i != 0
else all_ticks[i]
)
),
annotation="{}播放{}%{}".format(
mctick2timestr(
i + 0
if (
(all_ticks[i + 1] - all_ticks[i])
/ len(tracks[all_ticks[i]])
< 1
)
else j
),
max_volume * 100,
"",
),
)
)
self.music_command_list = results
self.music_tick_num = max(all_ticks)
return results, self.music_tick_num
class FutureMidiConvertM6(MidiConvert):
"""
加入插值算法优化音感但仅用于第一音轨
"""
# TODO 没写完的!!!!

225
Musicreater/magicmain.py
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@ -1,225 +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
"""
· (Musicreater)
是一款免费开源的针对我的世界的midi音乐转换库
Musicreater (·)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2023 · 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 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 Structure, Block
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]

728
Musicreater/main.py
View File

@ -1,728 +0,0 @@
# -*- coding: utf-8 -*-
"""
· (Musicreater)
是一款免费开源的针对我的世界的midi音乐转换库
Musicreater (·)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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
"""
# 音·创 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
# BUG退散BUG退散 BUG退散BUG退散
# 异常、错误作乱之时 異常、誤りが、困った時は
# 二六字组!万国码合!二六字组!万国码合! グループ!コード#!グループ!コード#!
# 赶快呼叫 程序员Let's Go 直ぐに呼びましょプログラマ レッツゴー!
import math
import os
from .constants import *
from .exceptions import *
from .subclass import *
from .types import *
from .utils import *
"""
学习笔记
tempo: microseconds per quarter note 毫秒每四分音符换句话说就是一拍占多少毫秒
tick: midi帧
ticks_per_beat: 帧每拍即一拍多少帧
那么
tick / ticks_per_beat => amount_of_beats 拍数(四分音符数)
tempo * amount_of_beats => 毫秒数
所以
tempo * tick / ticks_per_beat => 毫秒数
###########
seconds per tick:
(tempo / 1000000.0) / ticks_per_beat
seconds:
tick * tempo / 1000000.0 / ticks_per_beat
microseconds:
tick * tempo / 1000.0 / ticks_per_beat
gameticks:
tick * tempo / 1000000.0 / ticks_per_beat * 一秒多少游戏刻
"""
@dataclass(init=False)
class MidiConvert:
"""
将Midi文件转换为我的世界内容
"""
midi: VoidMido
"""MidiFile对象"""
midi_music_name: str
"""Midi乐曲名"""
enable_old_exe_format: bool
"""是否启用旧版execute指令格式"""
execute_cmd_head: str
"""execute指令头部"""
channels: Union[ChannelType, NoteChannelType]
"""频道信息字典"""
music_command_list: List[SingleCommand]
"""音乐指令列表"""
music_tick_num: int
"""音乐总延迟"""
progress_bar_command: List[SingleCommand]
"""进度条指令列表"""
def __init__(
self,
midi_obj: VoidMido,
midi_name: str,
enable_old_exe_format: bool = False,
):
"""
简单的midi转换类将midi对象转换为我的世界结构或者包
Parameters
----------
midi_obj: mido.MidiFile 对象
需要处理的midi对象
midi_name: MIDI乐曲名称
此音乐之名
enable_old_exe_format: bool
是否启用旧版(1.19)指令格式默认为否
"""
self.midi: VoidMido = midi_obj
self.midi_music_name: str = midi_name
self.enable_old_exe_format: bool = enable_old_exe_format
self.execute_cmd_head = (
"execute {} ~ ~ ~ "
if enable_old_exe_format
else "execute as {} at @s positioned ~ ~ ~ run "
)
self.progress_bar_command = self.music_command_list = []
self.channels = {}
self.music_tick_num = 0
@classmethod
def from_midi_file(
cls,
midi_file_path: str,
old_exe_format: bool = False,
):
"""
直接输入文件地址将midi文件读入
Parameters
----------
midi_file: str
midi文件地址
enable_old_exe_format: bool
是否启用旧版(1.19)指令格式默认为否
"""
midi_music_name = os.path.splitext(os.path.basename(midi_file_path))[0].replace(
" ", "_"
)
"""文件名,不含路径且不含后缀"""
try:
return cls(
mido.MidiFile(midi_file_path, clip=True),
midi_music_name,
old_exe_format,
)
except (ValueError, TypeError) as E:
raise MidiDestroyedError(f"文件{midi_file_path}损坏:{E}")
except FileNotFoundError as E:
raise FileNotFoundError(f"文件{midi_file_path}不存在:{E}")
# ……真的那么重要吗
# 我又几曾何时,知道祂真的会抛下我
def form_progress_bar(
self,
max_score: int,
scoreboard_name: str,
progressbar_style: tuple = DEFAULT_PROGRESSBAR_STYLE,
) -> List[SingleCommand]:
"""
生成进度条
Parameters
----------
maxscore: int
midi的乐器ID
scoreboard_name: str
所使用的计分板名称
progressbar_style: tuple
此参数详见 ../docs/库的生成与功能文档.md#进度条自定义
Returns
-------
list[SingleCommand,]
"""
pgs_style = progressbar_style[0]
"""用于被替换的进度条原始样式"""
"""
| 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|
"""
perEach = max_score / pgs_style.count("_")
"""每个进度条代表的分值"""
result: List[SingleCommand] = []
if r"%^s" in pgs_style:
pgs_style = pgs_style.replace(r"%^s", str(max_score))
if r"%^t" in pgs_style:
pgs_style = pgs_style.replace(r"%^t", mctick2timestr(max_score))
sbn_pc = scoreboard_name[:2]
if r"%%%" in pgs_style:
result.append(
SingleCommand(
'scoreboard objectives add {}PercT dummy "百分比计算"'.format(sbn_pc),
annotation="新增临时计算用计分板(百分比)",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players set MaxScore {} {}".format(
scoreboard_name, max_score
),
annotation="设定此音乐最大计分",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players set n100 {} 100".format(scoreboard_name),
annotation="设置常量100",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players operation @s {} = @s {}".format(
sbn_pc + "PercT", scoreboard_name
),
annotation="为临时变量赋值",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players operation @s {} *= n100 {}".format(
sbn_pc + "PercT", scoreboard_name
),
annotation="改变临时变量的单位为百分比(扩大精度)",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players operation @s {} /= MaxScore {}".format(
sbn_pc + "PercT", scoreboard_name
),
annotation="使用临时变量计算百分比",
)
)
# 那是假的
# 一切都并未留下痕迹啊
# 那梦又是多么的真实……
if r"%%t" in pgs_style:
result.append(
SingleCommand(
'scoreboard objectives add {}TMinT dummy "时间计算:分"'.format(sbn_pc),
annotation="新增临时计算计分板(分)",
)
)
result.append(
SingleCommand(
'scoreboard objectives add {}TSecT dummy "时间计算:秒"'.format(sbn_pc),
annotation="新增临时计算计分板(秒)",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players set n20 {} 20".format(scoreboard_name),
annotation="设置常量20",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players set n60 {} 60".format(scoreboard_name),
annotation="设置常量60",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players operation @s {} = @s {}".format(
sbn_pc + "TMinT", scoreboard_name
),
annotation="为临时变量(分)赋值",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players operation @s {} /= n20 {}".format(
sbn_pc + "TMinT", scoreboard_name
),
annotation="将临时变量转换单位为秒(缩减精度)",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players operation @s {} = @s {}".format(
sbn_pc + "TSecT", sbn_pc + "TMinT"
),
annotation="为临时变量(秒)赋值",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players operation @s {} /= n60 {}".format(
sbn_pc + "TMinT", scoreboard_name
),
annotation="将临时变量(分)转换单位为分(缩减精度)",
)
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores={" + scoreboard_name + "=1..}]"
)
+ "scoreboard players operation @s {} %= n60 {}".format(
sbn_pc + "TSecT", scoreboard_name
),
annotation="将临时变量(秒)确定下来(框定精度区间)",
)
)
for i in range(pgs_style.count("_")):
npg_stl = (
pgs_style.replace("_", progressbar_style[1][0], i + 1)
.replace("_", progressbar_style[1][1])
.replace(r"%%N", self.midi_music_name)
if r"%%N" in pgs_style
else pgs_style.replace("_", progressbar_style[1][0], i + 1).replace(
"_", progressbar_style[1][1]
)
)
if r"%%s" in npg_stl:
npg_stl = npg_stl.replace(
r"%%s",
'"},{"score":{"name":"*","objective":"'
+ scoreboard_name
+ '"}},{"text":"',
)
if r"%%%" in npg_stl:
npg_stl = npg_stl.replace(
r"%%%",
r'"},{"score":{"name":"*","objective":"'
+ sbn_pc
+ r'PercT"}},{"text":"%',
)
if r"%%t" in npg_stl:
npg_stl = npg_stl.replace(
r"%%t",
r'"},{"score":{"name":"*","objective":"{-}TMinT"}},{"text":":"},'
r'{"score":{"name":"*","objective":"{-}TSecT"}},{"text":"'.replace(
r"{-}", sbn_pc
),
)
result.append(
SingleCommand(
self.execute_cmd_head.format(
r"@a[scores={"
+ scoreboard_name
+ f"={int(i * perEach)}..{math.ceil((i + 1) * perEach)}"
+ r"}]"
)
+ r'titleraw @s actionbar {"rawtext":[{"text":"'
+ npg_stl
+ r'"}]}',
annotation="进度条显示",
)
)
if r"%%%" in pgs_style:
result.append(
SingleCommand(
"scoreboard objectives remove {}PercT".format(sbn_pc),
annotation="移除临时计算计分板(百分比)",
)
)
if r"%%t" in pgs_style:
result.append(
SingleCommand(
"scoreboard objectives remove {}TMinT".format(sbn_pc),
annotation="移除临时计算计分板(分)",
)
)
result.append(
SingleCommand(
"scoreboard objectives remove {}TSecT".format(sbn_pc),
annotation="移除临时计算计分板(秒)",
)
)
self.progress_bar_command = result
return result
def to_music_note_channels(
self,
ignore_mismatch_error: bool = True,
) -> NoteChannelType:
"""
将midi解析并转换为频道音符字典
Returns
-------
以频道作为分割的Midi音符列表字典:
Dict[int,List[SingleNote,]]
"""
if self.midi is None:
raise MidiUnboundError(
"你是否正在使用的是一个由 copy_important 生成的MidiConvert对象这是不可复用的。"
)
# 一个midi中仅有16个通道 我们通过通道来识别而不是音轨
midi_channels: NoteChannelType = empty_midi_channels(staff=[])
tempo = mido.midifiles.midifiles.DEFAULT_TEMPO
# 我们来用通道统计音乐信息
# 但是是用分轨的思路的
for track_no, track in enumerate(self.midi.tracks):
microseconds = 0
if not track:
continue
note_queue_A: Dict[
int,
List[
Tuple[
int,
int,
]
],
] = empty_midi_channels(staff=[])
note_queue_B: Dict[
int,
List[
Tuple[
int,
int,
]
],
] = empty_midi_channels(staff=[])
channel_program: Dict[int, int] = empty_midi_channels(staff=-1)
for msg in track:
if msg.time != 0:
microseconds += msg.time * tempo / self.midi.ticks_per_beat / 1000
if msg.is_meta:
if msg.type == "set_tempo":
tempo = msg.tempo
else:
if msg.type == "program_change":
channel_program[msg.channel] = msg.program
elif msg.type == "note_on" and msg.velocity != 0:
note_queue_A[msg.channel].append(
(msg.note, channel_program[msg.channel])
)
note_queue_B[msg.channel].append((msg.velocity, microseconds))
elif (msg.type == "note_off") or (
msg.type == "note_on" and msg.velocity == 0
):
if (msg.note, channel_program[msg.channel]) in note_queue_A[
msg.channel
]:
_velocity, _ms = note_queue_B[msg.channel][
note_queue_A[msg.channel].index(
(msg.note, channel_program[msg.channel])
)
]
note_queue_A[msg.channel].remove(
(msg.note, channel_program[msg.channel])
)
note_queue_B[msg.channel].remove((_velocity, _ms))
midi_channels[msg.channel].append(
SingleNote(
instrument=msg.note,
pitch=channel_program[msg.channel],
velocity=_velocity,
startime=_ms,
lastime=microseconds - _ms,
track_number=track_no,
is_percussion=True,
)
if msg.channel == 9
else SingleNote(
instrument=channel_program[msg.channel],
pitch=msg.note,
velocity=_velocity,
startime=_ms,
lastime=microseconds - _ms,
track_number=track_no,
is_percussion=False,
)
)
else:
if ignore_mismatch_error:
print(
"[WARRING] MIDI格式错误 音符不匹配 {} 无法在上文中找到与之匹配的音符开音消息".format(
msg
)
)
else:
raise NoteOnOffMismatchError(
"当前的MIDI很可能有损坏之嫌……", msg, "无法在上文中找到与之匹配的音符开音消息。"
)
"""整合后的音乐通道格式
每个通道包括若干消息元素其中逃不过这三种
1 切换乐器消息
("PgmC", 切换后的乐器ID: int, 距离演奏开始的毫秒)
2 音符开始消息
("NoteS", 开始的音符ID, 力度响度, 距离演奏开始的毫秒)
3 音符结束消息
("NoteE", 结束的音符ID, 距离演奏开始的毫秒)"""
del tempo, self.channels
self.channels = dict(
[
(channel_no, sorted(channel_notes, key=lambda note: note.start_time))
for channel_no, channel_notes in midi_channels.items()
]
)
return self.channels
def to_command_list_in_score(
self,
scoreboard_name: str = "mscplay",
max_volume: float = 1.0,
speed: float = 1.0,
) -> Tuple[List[List[SingleCommand]], int, int]:
"""
将midi转换为我的世界命令列表
Parameters
----------
scoreboard_name: str
我的世界的计分板名称
max_volume: float
最大播放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
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[list[SingleCommand指令,... ],... ], int指令数量, int音乐时长游戏刻 )
"""
if speed == 0:
raise ZeroSpeedError("播放速度仅可为(0,1]范围内的正实数")
max_volume = 1 if max_volume > 1 else (0.001 if max_volume <= 0 else max_volume)
command_channels = []
command_amount = 0
max_score = 0
# 此处 我们把通道视为音轨
for channel in self.to_music_note_channels().values():
# 如果当前通道为空 则跳过
if not channel:
continue
this_channel = []
for note in channel:
score_now = round(note.start_time / float(speed) / 50)
max_score = max(max_score, score_now)
this_channel.append(
SingleCommand(
self.execute_cmd_head.format(
"@a[scores=({}={})]".format(scoreboard_name, score_now)
.replace("(", r"{")
.replace(")", r"}")
)
+ note.to_command(
(max_volume) if note.track_no == 0 else (max_volume * 0.9)
),
annotation="{}播放{}%{}".format(
mctick2timestr(score_now),
max_volume * 100,
"{}:{}".format(note.mc_sound_ID, note.mc_pitch),
),
),
)
command_amount += 1
if this_channel:
self.music_command_list.extend(this_channel)
command_channels.append(this_channel)
self.music_tick_num = max_score
return (command_channels, command_amount, max_score)
def to_command_list_in_delay(
self,
max_volume: float = 1.0,
speed: float = 1.0,
player_selector: str = "@a",
) -> Tuple[List[SingleCommand], int, int]:
"""
将midi转换为我的世界命令列表并输出每个音符之后的延迟
Parameters
----------
max_volume: float
最大播放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
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
player_selector: str
玩家选择器默认为`@a`
Returns
-------
tuple( list[SingleCommand,...], int音乐时长游戏刻, int最大同时播放的指令数量 )
"""
if speed == 0:
raise ZeroSpeedError("播放速度仅可为(0,1]范围内的正实数")
max_volume = 1 if max_volume > 1 else (0.001 if max_volume <= 0 else max_volume)
notes_list: List[SingleNote] = []
# 此处 我们把通道视为音轨
for channel in self.to_music_note_channels().values():
notes_list.extend(channel)
notes_list.sort(key=lambda a: a.start_time)
self.music_command_list = []
multi = max_multi = 0
delaytime_previous = 0
for note in notes_list:
delaytime_now = round(note.start_time / speed / 50)
if (tickdelay := (delaytime_now - delaytime_previous)) == 0:
multi += 1
else:
max_multi = max(max_multi, multi)
multi = 0
self.music_command_list.append(
SingleCommand(
self.execute_cmd_head.format(player_selector)
+ note.to_command(
(max_volume) if note.track_no == 0 else (max_volume * 0.9)
),
tick_delay=tickdelay,
annotation="{}播放{}%{}".format(
mctick2timestr(delaytime_now),
max_volume * 100,
"{}:{}".format(note.mc_sound_ID, note.mc_pitch),
),
)
)
delaytime_previous = delaytime_now
self.music_tick_num = round(notes_list[-1].start_time / speed / 50)
return self.music_command_list, self.music_tick_num, max_multi + 1
def copy_important(self):
dst = MidiConvert(
midi_obj=None,
midi_name=self.midi_music_name,
enable_old_exe_format=self.enable_old_exe_format,
)
dst.music_command_list = [i.copy() for i in self.music_command_list]
dst.progress_bar_command = [i.copy() for i in self.progress_bar_command]
dst.music_tick_num = self.music_tick_num
return dst

22
Musicreater/plugin/__init__.py
View File

@ -1,22 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放非音·创本体的附加内容插件
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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__ = [
"ConvertConfig",
]
__author__ = (("金羿", "Eilles Wan"), ("诸葛亮与八卦阵", "bgArray"))
from .main import *

28
Musicreater/plugin/addonpack/__init__.py
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@ -1,28 +0,0 @@
# -*- coding: utf-8 -*-
"""
用以生成附加包的附加功能
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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",
]
__author__ = (("金羿", "Eilles Wan"),)
from .main import (
to_addon_pack_in_delay,
to_addon_pack_in_repeater,
to_addon_pack_in_score,
)

541
Musicreater/plugin/addonpack/main.py
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@ -1,541 +0,0 @@
# -*- coding: utf-8 -*-
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 Tuple
from TrimMCStruct import Structure
from ...main import MidiConvert
from ..archive import behavior_mcpack_manifest, compress_zipfile
from ..main import ConvertConfig
from ..mcstructure import (
COMPABILITY_VERSION_117,
COMPABILITY_VERSION_119,
commands_to_redstone_delay_structure,
commands_to_structure,
form_command_block_in_NBT_struct,
)
def to_addon_pack_in_score(
midi_cvt: MidiConvert,
data_cfg: ConvertConfig,
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
data_cfg: ConvertConfig 对象
部分转换通用参数
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, data_cfg.volume_ratio, data_cfg.speed_multiplier
)
# 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"{data_cfg.dist_path}/temp/functions/"):
shutil.rmtree(f"{data_cfg.dist_path}/temp/functions/")
os.makedirs(f"{data_cfg.dist_path}/temp/functions/mscplay")
# 写入manifest.json
with open(f"{data_cfg.dist_path}/temp/manifest.json", "w", encoding="utf-8") as f:
json.dump(
behavior_mcpack_manifest(
pack_description=f"{midi_cvt.midi_music_name} 音乐播放包MCFUNCTION(MCPACK) 计分播放器 - 由 音·创 生成",
pack_name=midi_cvt.midi_music_name + "播放",
modules_description=f"无 - 由 音·创 生成",
),
fp=f,
indent=4,
)
# 写入stop.mcfunction
with open(
f"{data_cfg.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"{data_cfg.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"{data_cfg.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 data_cfg.progressbar_style else "",
)
)
if data_cfg.progressbar_style:
with open(
f"{data_cfg.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, data_cfg.progressbar_style
)
]
)
)
index_file.close()
if os.path.exists(f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack"):
os.remove(f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack")
compress_zipfile(
f"{data_cfg.dist_path}/temp/",
f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack",
)
shutil.rmtree(f"{data_cfg.dist_path}/temp/")
return maxlen, maxscore
def to_addon_pack_in_delay(
midi_cvt: MidiConvert,
data_cfg: ConvertConfig,
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
data_cfg: ConvertConfig 对象
部分转换通用参数
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(
data_cfg.volume_ratio,
data_cfg.speed_multiplier,
player,
)[:2]
if not os.path.exists(data_cfg.dist_path):
os.makedirs(data_cfg.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"{data_cfg.dist_path}/temp/"):
shutil.rmtree(f"{data_cfg.dist_path}/temp/")
os.makedirs(f"{data_cfg.dist_path}/temp/functions/")
os.makedirs(f"{data_cfg.dist_path}/temp/structures/")
# 写入manifest.json
with open(f"{data_cfg.dist_path}/temp/manifest.json", "w", encoding="utf-8") as f:
json.dump(
behavior_mcpack_manifest(
pack_description=f"{midi_cvt.midi_music_name} 音乐播放包MCSTRUCTURE(MCPACK) 延迟播放器 - 由 音·创 生成",
pack_name=midi_cvt.midi_music_name + "播放",
modules_description=f"无 - 由 音·创 生成",
),
fp=f,
indent=4,
)
# 写入stop.mcfunction
with open(
f"{data_cfg.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"{data_cfg.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(
data_cfg.dist_path,
"temp/structures/",
f"{midi_cvt.midi_music_name}_main.mcstructure",
)
),
"wb+",
) as f:
struct.dump(f)
del struct
if data_cfg.progressbar_style:
scb_name = midi_cvt.midi_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(
data_cfg.dist_path,
"temp/structures/",
f"{midi_cvt.midi_music_name}_start.mcstructure",
)
),
"wb+",
) as f:
struct_a.dump(f)
index_file.write(f"structure load {midi_cvt.midi_music_name}_start ~ ~ ~1\n")
pgb_struct, pgbSize, pgbNowPos = commands_to_structure(
midi_cvt.form_progress_bar(max_delay, scb_name, data_cfg.progressbar_style),
max_height - 1,
compability_version_=compability_ver,
)
with open(
os.path.abspath(
os.path.join(
data_cfg.dist_path,
"temp/structures/",
f"{midi_cvt.midi_music_name}_pgb.mcstructure",
)
),
"wb+",
) as f:
pgb_struct.dump(f)
index_file.write(f"structure load {midi_cvt.midi_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(
data_cfg.dist_path,
"temp/structures/",
f"{midi_cvt.midi_music_name}_reset.mcstructure",
)
),
"wb+",
) as f:
struct_a.dump(f)
del struct_a, pgb_struct
index_file.write(
f"structure load {midi_cvt.midi_music_name}_reset ~{pgbSize[0] + 2} ~ ~1\n"
)
index_file.write(
f"structure load {midi_cvt.midi_music_name}_main ~{pgbSize[0] + 2} ~1 ~1\n"
)
else:
index_file.write(f"structure load {midi_cvt.midi_music_name}_main ~ ~ ~1\n")
index_file.close()
if os.path.exists(f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack"):
os.remove(f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack")
compress_zipfile(
f"{data_cfg.dist_path}/temp/",
f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack",
)
shutil.rmtree(f"{data_cfg.dist_path}/temp/")
return len(command_list), max_delay
def to_addon_pack_in_repeater(
midi_cvt: MidiConvert,
data_cfg: ConvertConfig,
player: str = "@a",
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
data_cfg: ConvertConfig 对象
部分转换通用参数
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(
data_cfg.volume_ratio,
data_cfg.speed_multiplier,
player,
)
if not os.path.exists(data_cfg.dist_path):
os.makedirs(data_cfg.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"{data_cfg.dist_path}/temp/"):
shutil.rmtree(f"{data_cfg.dist_path}/temp/")
os.makedirs(f"{data_cfg.dist_path}/temp/functions/")
os.makedirs(f"{data_cfg.dist_path}/temp/structures/")
# 写入manifest.json
with open(f"{data_cfg.dist_path}/temp/manifest.json", "w", encoding="utf-8") as f:
json.dump(
behavior_mcpack_manifest(
pack_description=f"{midi_cvt.midi_music_name} 音乐播放包MCSTRUCTURE(MCPACK) 中继器播放器 - 由 音·创 生成",
pack_name=midi_cvt.midi_music_name + "播放",
modules_description=f"无 - 由 音·创 生成",
),
fp=f,
indent=4,
)
# 写入stop.mcfunction
with open(
f"{data_cfg.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"{data_cfg.dist_path}/temp/functions/index.mcfunction", "w", encoding="utf-8"
)
struct, size, end_pos = commands_to_redstone_delay_structure(
command_list,
max_delay,
max_together,
compability_version_=compability_ver,
)
with open(
os.path.abspath(
os.path.join(
data_cfg.dist_path,
"temp/structures/",
f"{midi_cvt.midi_music_name}_main.mcstructure",
)
),
"wb+",
) as f:
struct.dump(f)
del struct
if data_cfg.progressbar_style:
scb_name = midi_cvt.midi_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(
data_cfg.dist_path,
"temp/structures/",
f"{midi_cvt.midi_music_name}_start.mcstructure",
)
),
"wb+",
) as f:
struct_a.dump(f)
index_file.write(f"structure load {midi_cvt.midi_music_name}_start ~ ~ ~1\n")
pgb_struct, pgbSize, pgbNowPos = commands_to_structure(
midi_cvt.form_progress_bar(max_delay, scb_name, data_cfg.progressbar_style),
max_height - 1,
compability_version_=compability_ver,
)
with open(
os.path.abspath(
os.path.join(
data_cfg.dist_path,
"temp/structures/",
f"{midi_cvt.midi_music_name}_pgb.mcstructure",
)
),
"wb+",
) as f:
pgb_struct.dump(f)
index_file.write(f"structure load {midi_cvt.midi_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(
data_cfg.dist_path,
"temp/structures/",
f"{midi_cvt.midi_music_name}_reset.mcstructure",
)
),
"wb+",
) as f:
struct_a.dump(f)
del struct_a, pgb_struct
index_file.write(
f"structure load {midi_cvt.midi_music_name}_reset ~{pgbSize[0] + 2} ~ ~1\n"
)
index_file.write(
f"structure load {midi_cvt.midi_music_name}_main ~{pgbSize[0] + 2} ~1 ~1\n"
)
else:
index_file.write(f"structure load {midi_cvt.midi_music_name}_main ~ ~ ~1\n")
index_file.close()
if os.path.exists(f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack"):
os.remove(f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack")
compress_zipfile(
f"{data_cfg.dist_path}/temp/",
f"{data_cfg.dist_path}/{midi_cvt.midi_music_name}.mcpack",
)
shutil.rmtree(f"{data_cfg.dist_path}/temp/")
return len(command_list), max_delay

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Musicreater/plugin/archive.py
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@ -1,83 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放关于文件打包的内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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
"""
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(
pack_description: str = "",
pack_version: Union[List[int], Literal[None]] = None,
pack_name: str = "",
pack_uuid: Union[str, Literal[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,
]
return {
"format_version": 1,
"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,
}
],
}

215
Musicreater/plugin/bdx.py
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@ -1,215 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放有关BDX结构操作的内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 SingleCommand
from .common import bottem_side_length_of_smallest_square_bottom_box
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"""
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 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 无条件
:1 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 无条件
:7 无条件
:8 有条件
:9 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 有条件
:14 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 commands_to_BDX_bytes(
commands_list: List[SingleCommand],
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_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_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],
)

20
Musicreater/plugin/bdxfile/__init__.py
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@ -1,20 +0,0 @@
# -*- coding: utf-8 -*-
"""
用以生成BDX结构文件的附加功能
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 Wan"),)
from .main import to_BDX_file_in_delay, to_BDX_file_in_score

226
Musicreater/plugin/bdxfile/main.py
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@ -1,226 +0,0 @@
# -*- coding: utf-8 -*-
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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
import brotli
from ...main import MidiConvert
from ...subclass import SingleCommand
from ..bdx import (
bdx_move,
commands_to_BDX_bytes,
form_command_block_in_BDX_bytes,
x,
y,
z,
)
from ..main import ConvertConfig
def to_BDX_file_in_score(
midi_cvt: MidiConvert,
data_cfg: ConvertConfig,
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
data_cfg: ConvertConfig 对象
部分转换通用参数
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, data_cfg.volume_ratio, data_cfg.speed_multiplier
)
if not os.path.exists(data_cfg.dist_path):
os.makedirs(data_cfg.dist_path)
with open(
os.path.abspath(
os.path.join(data_cfg.dist_path, f"{midi_cvt.midi_music_name}.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
+ (
[
SingleCommand(
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 data_cfg.progressbar_style:
pgbBytes, pgbSize, pgbNowPos = commands_to_BDX_bytes(
midi_cvt.form_progress_bar(
max_score, scoreboard_name, data_cfg.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(data_cfg.dist_path, f"{midi_cvt.midi_music_name}.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,
data_cfg: ConvertConfig,
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
data_cfg: ConvertConfig 对象
部分转换通用参数
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(
data_cfg.volume_ratio,
data_cfg.speed_multiplier,
player,
)[:2]
if not os.path.exists(data_cfg.dist_path):
os.makedirs(data_cfg.dist_path)
with open(
os.path.abspath(
os.path.join(data_cfg.dist_path, f"{midi_cvt.midi_music_name}.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 data_cfg.progressbar_style:
scb_name = midi_cvt.midi_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, data_cfg.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(data_cfg.dist_path, f"{midi_cvt.midi_music_name}.bdx")
),
"ab+",
) as f:
f.write(brotli.compress(_bytes + b"XE"))
return len(cmdlist), max_delay, size, finalPos

27
Musicreater/plugin/common.py
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@ -1,27 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放通用的普遍性的插件内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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: 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)))

86
Musicreater/plugin/main.py
View File

@ -1,86 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放附加内容功能
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 ..constants import DEFAULT_PROGRESSBAR_STYLE
@dataclass(init=False)
class ConvertConfig:
"""
转换通用设置存储类
"""
volume_ratio: float
"""音量比例"""
speed_multiplier: float
"""速度倍率"""
progressbar_style: Union[Tuple[str, Tuple[str, str]], Literal[None]]
"""进度条样式组"""
dist_path: str
"""输出目录"""
def __init__(
self,
output_path: str,
volume: float = 1.0,
speed: float = 1.0,
progressbar: Union[bool, Tuple[str, Tuple[str, str]]] = True,
):
"""
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"""
self.volume_ratio = volume
"""音量比例"""
self.speed_multiplier = speed
"""速度倍率"""
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
"""进度条样式组"""
else:
self.progressbar_style = progressbar
"""进度条样式组"""
else:
self.progressbar_style = None
"""进度条样式组"""

23
Musicreater/plugin/mcstructfile/__init__.py
View File

@ -1,23 +0,0 @@
# -*- coding: utf-8 -*-
"""
用以生成单个mcstructure文件的附加功能
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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",
]
__author__ = (("金羿", "Eilles Wan"),)
from .main import to_mcstructure_file_in_delay, to_mcstructure_file_in_repeater

143
Musicreater/plugin/mcstructfile/main.py
View File

@ -1,143 +0,0 @@
# -*- coding: utf-8 -*-
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 ...exceptions import CommandFormatError
from ...main import MidiConvert
from ..main import ConvertConfig
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,
data_cfg: ConvertConfig,
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
data_cfg: ConvertConfig 对象
部分转换通用参数
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,]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(
data_cfg.volume_ratio,
data_cfg.speed_multiplier,
player,
)[:2]
if not os.path.exists(data_cfg.dist_path):
os.makedirs(data_cfg.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(data_cfg.dist_path, f"{midi_cvt.midi_music_name}.mcstructure")
),
"wb+",
) as f:
struct.dump(f)
return size, max_delay
def to_mcstructure_file_in_repeater(
midi_cvt: MidiConvert,
data_cfg: ConvertConfig,
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
data_cfg: ConvertConfig 对象
部分转换通用参数
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,]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(
data_cfg.volume_ratio,
data_cfg.speed_multiplier,
player,
)
if not os.path.exists(data_cfg.dist_path):
os.makedirs(data_cfg.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(data_cfg.dist_path, f"{midi_cvt.midi_music_name}.mcstructure")
),
"wb+",
) as f:
struct.dump(f)
return size, max_delay

487
Musicreater/plugin/mcstructure.py
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@ -1,487 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放有关MCSTRUCTURE结构操作的内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 SingleCommand
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
"""
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,
):
"""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
"""
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,
):
"""生成中继器方块
:param facing: 朝向
Z- 0
X- 1
Z+ 2
X+ 西 3
:param delay: 0~3
:return Block()"""
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,
):
"""
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 无条件
:1 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 无条件
:7 无条件
:8 有条件
:9 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 有条件
:14 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
"""
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],
} # type: ignore
},
compability_version=compability_version_number,
)
def commands_to_structure(
commands: List[SingleCommand],
max_height: int = 64,
compability_version_: int = COMPABILITY_VERSION_119,
):
"""
:param commands: 指令列表
:param max_height: 生成结构最大高度
:return 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[SingleCommand],
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]]:
"""
:param commands: 指令列表
:param delay_length: 延时总长
:param max_multicmd_length: 最大同时播放的音符数量
:param base_block: 生成结构的基底方块
:param axis_: 生成结构的延展方向
:return 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

117
Musicreater/plugin/noteblock.py
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@ -1,117 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放有关红石音乐生成操作的内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 ..exceptions import NotDefineProgramError, ZeroSpeedError
from ..main import MidiConvert
from ..subclass import SingleCommand
from ..utils import inst_to_souldID_withX, 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_souldID_withX(InstID)
)
except UnboundLocalError as E:
soundID, _X = (
perc_inst_to_soundID_withX(-1)
if SpecialBits
else inst_to_souldID_withX(-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)]

18
Musicreater/plugin/schematic.py
View File

@ -1,18 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放有关Schematic结构生成的内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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
Musicreater/plugin/schematic/__init__.py
View File

@ -1,22 +0,0 @@
# -*- coding: utf-8 -*-
"""
用以生成Schematic结构的附加功能
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 Wan"),)
from .main import *

14
Musicreater/plugin/schematic/main.py
View File

@ -1,14 +0,0 @@
# -*- coding: utf-8 -*-
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 *

40
Musicreater/plugin/websocket.py
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@ -1,40 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放有关WebSocket服务器操作的内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 fcwslib
# 这个库有问题,正在检修
class Plugin(fcwslib.Plugin):
async def on_connect(self) -> None:
print("对象已被连接")
await self.send_command("list", callback=self.list)
await self.subscribe("PlayerMessage", callback=self.player_message)
async def on_disconnect(self) -> None:
print("对象停止连接")
async def on_receive(self, response) -> None:
print("已接收非常规回复 {}".format(response))
async def list(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))

21
Musicreater/plugin/websocket/__init__.py
View File

@ -1,21 +0,0 @@
# -*- coding: utf-8 -*-
"""
用以启动WebSocket服务器播放的附加功能
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 Wan"),)
from .main import *

29
Musicreater/plugin/websocket/main.py
View File

@ -1,29 +0,0 @@
# -*- coding: utf-8 -*-
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 fcwslib
from ...main import MidiConvert
from ..main import ConvertConfig
from ...subclass import SingleCommand
def open_websocket_server(
midi_cvt: MidiConvert,
data_cfg: ConvertConfig,
player: str = "@a",
server_dist: str = "localhost",
server_port: int = 8000,
):
wssever = fcwslib.Server(server=server_dist,port=server_port,debug_mode=False)

455
Musicreater/previous.py
View File

@ -1,455 +0,0 @@
# -*- coding: utf-8 -*-
"""
旧版本转换功能以及已经弃用的函数
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 .exceptions import *
from .main import MidiConvert, mido
from .subclass import *
from .types import ChannelType
from .utils import *
class ObsoleteMidiConvert(MidiConvert):
"""
我说一句话
这些破烂老代码能跑得起来就是谢天谢地你们还指望我怎么样这玩意真的不会再维护了我发誓
"""
def to_music_channels(
self,
) -> ChannelType:
"""
使用金羿的转换思路将midi解析并转换为频道信息字典
Returns
-------
以频道作为分割的Midi信息字典:
Dict[int,Dict[int,List[Union[Tuple[Literal["PgmC"], int, int],Tuple[Literal["NoteS"], int, int, int],Tuple[Literal["NoteE"], int, int],]],],]
"""
if self.midi is None:
raise MidiUnboundError(
"你是否正在使用的是一个由 copy_important 生成的MidiConvert对象这是不可复用的。"
)
# 一个midi中仅有16个通道 我们通过通道来识别而不是音轨
midi_channels: ChannelType = empty_midi_channels()
tempo = mido.midifiles.midifiles.DEFAULT_TEMPO
# 我们来用通道统计音乐信息
# 但是是用分轨的思路的
for track_no, track in enumerate(self.midi.tracks):
microseconds = 0
if not track:
continue
note_queue = empty_midi_channels(staff=[])
for msg in track:
if msg.time != 0:
microseconds += msg.time * tempo / self.midi.ticks_per_beat / 1000
if msg.is_meta:
if msg.type == "set_tempo":
tempo = msg.tempo
else:
try:
if not track_no in midi_channels[msg.channel].keys():
midi_channels[msg.channel][track_no] = []
except AttributeError as E:
print(msg, E)
if msg.type == "program_change":
midi_channels[msg.channel][track_no].append(
("PgmC", msg.program, microseconds)
)
elif msg.type == "note_on" and msg.velocity != 0:
midi_channels[msg.channel][track_no].append(
("NoteS", msg.note, msg.velocity, microseconds)
)
elif (msg.type == "note_on" and msg.velocity == 0) or (
msg.type == "note_off"
):
midi_channels[msg.channel][track_no].append(
("NoteE", msg.note, microseconds)
)
"""整合后的音乐通道格式
每个通道包括若干消息元素其中逃不过这三种
1 切换乐器消息
("PgmC", 切换后的乐器ID: int, 距离演奏开始的毫秒)
2 音符开始消息
("NoteS", 开始的音符ID, 力度响度, 距离演奏开始的毫秒)
3 音符结束消息
("NoteE", 结束的音符ID, 距离演奏开始的毫秒)"""
del tempo, self.channels
self.channels = midi_channels
# [print([print(no,tno,sum([True if i[0] == 'NoteS' else False for i in track])) for tno,track in cna.items()]) if cna else False for no,cna in midi_channels.items()]
return midi_channels
def to_command_list_method1(
self,
scoreboard_name: str = "mscplay",
MaxVolume: 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 scoreboard_name: 我的世界的计分板名称
: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)
"""
# :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
tracks = []
if speed == 0:
raise ZeroSpeedError("播放速度仅可为正实数")
if not self.midi:
raise MidiUnboundError(
"你是否正在使用的是一个由 copy_important 生成的MidiConvert对象这是不可复用的。"
)
MaxVolume = 1 if MaxVolume > 1 else (0.001 if MaxVolume <= 0 else MaxVolume)
commands = 0
maxscore = 0
tempo = mido.midifiles.midifiles.DEFAULT_TEMPO
# 分轨的思路其实并不好,但这个算法就是这样
# 所以我建议用第二个方法 _toCmdList_m2
for i, track in enumerate(self.midi.tracks):
ticks = 0
instrumentID = 0
singleTrack = []
for msg in track:
ticks += msg.time
if msg.is_meta:
if msg.type == "set_tempo":
tempo = msg.tempo
else:
if msg.type == "program_change":
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)
if msg.channel == 9:
soundID, _X = perc_inst_to_soundID_withX(instrumentID)
else:
soundID, _X = inst_to_souldID_withX(instrumentID)
singleTrack.append(
"execute @a[scores={"
+ str(scoreboard_name)
+ "="
+ str(nowscore)
+ "}"
+ f"] ~ ~ ~ playsound {soundID} @s ^ ^ ^{1 / MaxVolume - 1} {msg.velocity / 128} "
f"{2 ** ((msg.note - 60 - _X) / 12)}"
)
commands += 1
if len(singleTrack) != 0:
tracks.append(singleTrack)
return [tracks, commands, maxscore]
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): # type:ignore
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) # type: ignore
)
maxscore = max(maxscore, nowscore)
soundID, _X = inst_to_souldID_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]
# 原本这个算法的转换效果应该和上面的算法相似的
def _toCmdList_m2(
self,
scoreboard_name: str = "mscplay",
MaxVolume: float = 1.0,
speed: float = 1.0,
) -> tuple:
"""
使用神羽和金羿的转换思路将midi转换为我的世界命令列表
:param scoreboard_name: 我的世界的计分板名称
:param MaxVolume: 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)
"""
if speed == 0:
raise ZeroSpeedError("播放速度仅可为正实数")
MaxVolume = 1 if MaxVolume > 1 else (0.001 if MaxVolume <= 0 else MaxVolume)
tracks = []
cmdAmount = 0
maxScore = 0
InstID = -1
self.to_music_channels()
# 此处 我们把通道视为音轨
for i in self.channels.keys():
# 如果当前通道为空 则跳过
if not self.channels[i]:
continue
if i == 9:
SpecialBits = True
else:
SpecialBits = False
nowTrack = []
for track_no, track in self.channels[i].items(): # type: ignore
for msg in track:
if msg[0] == "PgmC":
InstID = msg[1]
elif msg[0] == "NoteS":
soundID, _X = (
perc_inst_to_soundID_withX(msg[1])
if SpecialBits
else inst_to_souldID_withX(InstID)
)
score_now = round(msg[-1] / float(speed) / 50)
maxScore = max(maxScore, score_now)
nowTrack.append(
self.execute_cmd_head.format(
"@a[scores=({}={})]".format(scoreboard_name, score_now)
.replace("(", r"{")
.replace(")", r"}")
)
+ f"playsound {soundID} @s ^ ^ ^{1 / MaxVolume - 1} {msg[2] / 128} "
f"{2 ** ((msg[1] - 60 - _X) / 12)}"
)
cmdAmount += 1
if nowTrack:
tracks.append(nowTrack)
return tracks, cmdAmount, maxScore
def _toCmdList_withDelay_m1(
self,
MaxVolume: float = 1.0,
speed: float = 1.0,
player: str = "@a",
) -> list:
"""
使用Dislink Sforza的转换思路将midi转换为我的世界命令列表并输出每个音符之后的延迟
:param MaxVolume: 最大播放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
:param player: 玩家选择器默认为`@a`
:return: 全部指令列表[ ( str指令, int距离上一个指令的延迟 ),...]
"""
tracks = {}
if speed == 0:
raise ZeroSpeedError("播放速度仅可为正实数")
if not self.midi:
raise MidiUnboundError(
"你是否正在使用的是一个由 copy_important 生成的MidiConvert对象这是不可复用的。"
)
MaxVolume = 1 if MaxVolume > 1 else (0.001 if MaxVolume <= 0 else MaxVolume)
tempo = mido.midifiles.midifiles.DEFAULT_TEMPO
for i, track in enumerate(self.midi.tracks):
instrumentID = 0
ticks = 0
for msg in track:
ticks += msg.time
if msg.is_meta:
if msg.type == "set_tempo":
tempo = msg.tempo
else:
if msg.type == "program_change":
instrumentID = msg.program
if msg.type == "note_on" and msg.velocity != 0:
now_tick = round(
(ticks * tempo)
/ ((self.midi.ticks_per_beat * float(speed)) * 50000)
)
soundID, _X = inst_to_souldID_withX(instrumentID)
try:
tracks[now_tick].append(
self.execute_cmd_head.format(player)
+ f"playsound {soundID} @s ^ ^ ^{1 / MaxVolume - 1} {msg.velocity / 128} "
f"{2 ** ((msg.note - 60 - _X) / 12)}"
)
except KeyError:
tracks[now_tick] = [
self.execute_cmd_head.format(player)
+ f"playsound {soundID} @s ^ ^ ^{1 / MaxVolume - 1} {msg.velocity / 128} "
f"{2 ** ((msg.note - 60 - _X) / 12)}"
]
results = []
all_ticks = list(tracks.keys())
all_ticks.sort()
for i in range(len(all_ticks)):
if i != 0:
for j in range(len(tracks[all_ticks[i]])):
if j != 0:
results.append((tracks[all_ticks[i]][j], 0))
else:
results.append(
(tracks[all_ticks[i]][j], all_ticks[i] - all_ticks[i - 1])
)
else:
for j in range(len(tracks[all_ticks[i]])):
results.append((tracks[all_ticks[i]][j], all_ticks[i]))
return [results, max(all_ticks)]
def _toCmdList_withDelay_m2(
self,
MaxVolume: float = 1.0,
speed: float = 1.0,
player: str = "@a",
) -> list:
"""
使用神羽和金羿的转换思路将midi转换为我的世界命令列表并输出每个音符之后的延迟
:param MaxVolume: 最大播放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
:param player: 玩家选择器默认为`@a`
:return: 全部指令列表[ ( str指令, int距离上一个指令的延迟 ),...]
"""
tracks = {}
if speed == 0:
raise ZeroSpeedError("播放速度仅可为正实数")
MaxVolume = 1 if MaxVolume > 1 else (0.001 if MaxVolume <= 0 else MaxVolume)
InstID = -1
self.to_music_channels()
results = []
for i in self.channels.keys():
# 如果当前通道为空 则跳过
if not self.channels[i]:
continue
if i == 9:
SpecialBits = True
else:
SpecialBits = False
for track_no, track in self.channels[i].items(): # type: ignore
for msg in track:
if msg[0] == "PgmC":
InstID = msg[1]
elif msg[0] == "NoteS":
soundID, _X = (
perc_inst_to_soundID_withX(msg[1])
if SpecialBits
else inst_to_souldID_withX(InstID)
)
score_now = round(msg[-1] / float(speed) / 50)
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()
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)]

361
Musicreater/subclass.py
View File

@ -1,361 +0,0 @@
# -*- coding: utf-8 -*-
"""
存储许多非主要的相关类
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 Optional
from .constants import PERCUSSION_INSTRUMENT_LIST
from .utils import inst_to_souldID_withX, perc_inst_to_soundID_withX, volume2distance
@dataclass(init=False)
class SingleNote:
"""存储单个音符的类"""
instrument: int
"""乐器编号"""
note: int
"""音符编号"""
velocity: int
"""力度/响度"""
start_time: int
"""开始之时 ms"""
duration: int
"""音符持续时间 ms"""
track_no: int
"""音符所处的音轨"""
percussive: bool
"""是否为打击乐器"""
def __init__(
self,
instrument: int,
pitch: int,
velocity: int,
startime: int,
lastime: int,
track_number: int = 0,
is_percussion: Optional[bool] = None,
):
"""用于存储单个音符的类
:param instrument 乐器编号
:param pitch 音符编号
:param velocity 力度/响度
:param startTime 开始之时(ms)
此处的时间是用从乐曲开始到当前的毫秒数
:param lastTime 音符延续时间(ms)"""
self.instrument: int = instrument
"""乐器编号"""
self.note: int = pitch
"""音符编号"""
self.velocity: int = velocity
"""力度/响度"""
self.start_time: int = startime
"""开始之时 ms"""
self.duration: int = lastime
"""音符持续时间 ms"""
self.track_no: int = track_number
"""音符所处的音轨"""
self.percussive = (
(is_percussion in PERCUSSION_INSTRUMENT_LIST)
if (is_percussion is None)
else is_percussion
)
"""是否为打击乐器"""
@property
def inst(self) -> int:
"""乐器编号"""
return self.instrument
@inst.setter
def inst(self, inst_: int):
self.instrument = inst_
@property
def pitch(self) -> int:
"""音符编号"""
return self.note
@property
def get_mc_pitch(self) -> float:
self.mc_sound_ID, _X = (
perc_inst_to_soundID_withX(self.inst)
if self.percussive
else inst_to_souldID_withX(self.inst)
)
return -1 if self.percussive else 2 ** ((self.note - 60 - _X) / 12)
def __str__(self, is_track: bool = False):
return "{}Note(Instrument = {}, {}Velocity = {}, StartTime = {}, Duration = {}{})".format(
"Percussive" if self.percussive else "",
self.inst,
"" if self.percussive else "Pitch = {}, ".format(self.pitch),
self.start_time,
self.duration,
", Track = {}".format(self.track_no) if is_track else "",
)
def __tuple__(self):
return (
(
self.percussive,
self.inst,
self.velocity,
self.start_time,
self.duration,
self.track_no,
)
if self.percussive
else (
self.percussive,
self.inst,
self.note,
self.velocity,
self.start_time,
self.duration,
self.track_no,
)
)
def __dict__(self):
return (
{
"Percussive": self.percussive,
"Instrument": self.inst,
"Velocity": self.velocity,
"StartTime": self.start_time,
"Duration": self.duration,
"Track": self.track_no,
}
if self.percussive
else {
"Percussive": self.percussive,
"Instrument": self.inst,
"Pitch": self.note,
"Velocity": self.velocity,
"StartTime": self.start_time,
"Duration": self.duration,
"Track": self.track_no,
}
)
def __eq__(self, other) -> bool:
if not isinstance(other, self.__class__):
return False
return self.__str__() == other.__str__()
def to_command(self, volume_percentage: float = 1) -> str:
"""
将音符转为播放的指令
:param volume_percentage:int 音量占比(0,1]
:return str指令
"""
self.mc_sound_ID, _X = (
perc_inst_to_soundID_withX(self.inst)
if self.percussive
else inst_to_souldID_withX(self.inst)
)
# delaytime_now = round(self.start_time / float(speed) / 50)
self.mc_pitch = "" if self.percussive else 2 ** ((self.note - 60 - _X) / 12)
self.mc_distance_volume = volume2distance(self.velocity * volume_percentage)
return "playsound {} @s ^ ^ ^{} {} {}".format(
self.mc_sound_ID,
self.mc_distance_volume,
volume_percentage,
self.mc_pitch,
)
@dataclass(init=False)
class SingleCommand:
"""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 SingleCommand(
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
:param instrument_block_ 音符盒演奏所使用的乐器方块
:param note_value_ 音符盒的演奏音高
:param percussion 此音符盒乐器是否作为打击乐处理
若为空则自动识别是否为打击乐器
:param annotation 音符注释"""
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 in PERCUSSION_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__()

64
Musicreater/types.py
View File

@ -1,64 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放数据类型的定义
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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 Any, Dict, List, Literal, Optional, Tuple, Union
import mido
from .subclass import SingleNote
ProgressStyle = Tuple[str, Tuple[str, str]]
"""
进度条样式类型
"""
VoidMido = Union[mido.MidiFile, None] # void mido
"""
空Midi类类型
"""
NoteChannelType = Dict[
int,
List[SingleNote,],
]
"""
频道信息类型
Dict[int,Dict[int,List[SingleNote,],],]
"""
ChannelType = Dict[
int,
Dict[
int,
List[
Union[
Tuple[Literal["PgmC"], int, int],
Tuple[Literal["NoteS"], int, int, int],
Tuple[Literal["NoteE"], int, int],
]
],
],
]
"""
以字典所标记的频道信息类型已弃用
Dict[int,Dict[int,List[Union[Tuple[Literal["PgmC"], int, int],Tuple[Literal["NoteS"], int, int, int],Tuple[Literal["NoteE"], int, int],]],],]
"""

119
Musicreater/utils.py
View File

@ -1,119 +0,0 @@
# -*- coding: utf-8 -*-
"""
存放主程序所必须的功能性内容
"""
"""
版权所有 © 2023 · 开发者
Copyright © 2023 all the developers of Musicreater
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
from .constants import PERCUSSION_INSTRUMENT_TABLE, PITCHED_INSTRUMENT_TABLE
from typing import Any, Dict, Tuple
def mctick2timestr(mc_tick: int) -> str:
"""
我的世界的游戏刻计转为表示时间的字符串
"""
return str(int(int(mc_tick / 20) / 60)) + ":" + str(int(int(mc_tick / 20) % 60))
def empty_midi_channels(channel_count: int = 17, staff: Any = {}) -> Dict[int, Any]:
"""
空MIDI通道字典
"""
return dict(
(
i,
(staff.copy() if isinstance(staff, (dict, list)) else staff),
) # 这告诉我们你不能忽略任何一个复制的序列因为它真的我哭死折磨我一整天全在这个bug上了
for i in range(channel_count)
)
def inst_to_souldID_withX(
instrumentID: int,
) -> Tuple[str, int]:
"""
返回midi的乐器ID对应的我的世界乐器名对于音域转换算法如下
2**( ( msg.note - 60 - X ) / 12 ) 即为MC的音高其中
X的取值随乐器不同而变化
竖琴harp电钢琴pling班卓琴banjo方波bit颤音琴iron_xylophone 的时候为6
吉他的时候为7
贝斯bass迪吉里杜管didgeridoo的时候为8
长笛flute牛铃cou_bell的时候为5
钟琴bell管钟chime木琴xylophone的时候为4
而存在一些打击乐器bd(basedrum)hatsnare没有音域则没有X那么我们返回7即可
Parameters
----------
instrumentID: int
midi的乐器ID
Returns
-------
tuple(str我的世界乐器名, int转换算法中的X)
"""
try:
return PITCHED_INSTRUMENT_TABLE[instrumentID]
except KeyError:
return "note.flute", 5
def perc_inst_to_soundID_withX(instrumentID: int) -> Tuple[str, int]:
"""
对于Midi第10通道所对应的打击乐器返回我的世界乐器名
Parameters
----------
instrumentID: int
midi的乐器ID
Returns
-------
tuple(str我的世界乐器名, int转换算法中的X)
"""
try:
return PERCUSSION_INSTRUMENT_TABLE[instrumentID]
except KeyError:
return "note.bd", 7
# 明明已经走了
# 凭什么还要在我心里留下缠绵缱绻
def volume2distance(vol: float) -> float:
"""
midi力度值拟合成的距离函数
Parameters
----------
vol: int
midi音符力度值
Returns
-------
float播放中心到玩家的距离
"""
return (
-8.081720684086314
* math.log(
vol + 14.579508825070013,
)
+ 37.65806375944386
if vol < 60.64
else 0.2721359356095803 * ((vol + 2592.272889454798) ** 1.358571233418649)
+ -6.313841334963396 * (vol + 2592.272889454798)
+ 4558.496367823575
)

138
README.md
View File

@ -1,127 +1,11 @@
<h1 align="center">
音·创 Musicreater
</h1>
<p align="center">
<img width="128" height="128" src="https://gitee.com/TriM-Organization/Musicreater/raw/master/resources/msctIcon.ico">
</img>
</p>
<h3 align="center">一款免费开源的《我的世界》数字音频转换库。</h3>
<p align="center">
<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)
[![CodeStyle: black]](https://github.com/psf/black)
[![][python]](https://www.python.org/)
[![][license]](LICENSE)
[![][release]](../../releases)
[![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)
简体中文 🇨🇳 | [English🇬🇧](README_EN.md)
## 介绍 🚀
音·创 是一个免费开源的针对 **《我的世界》** 的 MIDI 音乐转换库
欢迎加群:[861684859](https://jq.qq.com/?_wv=1027&k=hpeRxrYr)
## 安装 🔳
- 使用 pypi
```bash
pip install --upgrade Musicreater
```
- 如果无法更新最新,可以尝试:
```bash
pip install --upgrade -i https://pypi.python.org/simple Musicreater
```
- 克隆仓库并安装(**不推荐**
```bash
git clone https://gitee.com/TriM-Organization/Musicreater.git
cd Musicreater
python setup.py install
```
以上命令中 `python``pip` 请依照各个环境不同灵活更换,可能为`python3``pip3`之类。
## 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)
## 作者 ✒
**金羿 Eilles**我的世界基岩版指令师个人开发者B 站不知名 UP 主,江西在校高中生。
**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。
**偷吃不是Touch Touch**:我的世界基岩版指令师,提供 BDX 导入测试支持
## 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。
- 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,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)”** 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\> 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\> 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**\<QQ2836146704\> 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>
> 感谢广大群友为此库提供的测试和建议等
>
> 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 📞
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 群](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
此项目不隶属或关联于 Mojang Studios 或 微软
此项目亦不隶属或关联于 网易
“Minecraft”是 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
- 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
NOT AN OFFICIAL MINECRAFT PRODUCT.
NOT APPROVED BY OR ASSOCIATED WITH MOJANG OR MICROSOFT.
NOT APPROVED BY OR ASSOCIATED WITH NETEASE.
[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
# ***NOTICE*** 请注意
## ***NEVER NEVER UPDATE FILES IN THIS REPOSITORY*** 请不要在此处编辑
> 此仓库中的编辑信息会被 Gitee 的更新覆盖,您在此做出的更改皆无效
>
> **Editions in *this repo(on GitHub)* will all be covered by the ones on Gitee so it's a MUST NOT edit this *on GitHub***
IF YOU WANT TO TAKE PART IN THE DEVELOPMENT OF *Musicreater* , PLEASE CONTACT EILLES,
or you can see [Musicreater on Gitee](https://gitee.com/EillesWan/Musicreater/)
若欲加入开发,请联系金羿或者看一看[Gitee上的音·创](https://gitee.com/EillesWan/Musicreater/)

130
README_EN.md
View File

@ -1,130 +0,0 @@
<h1 align="center">
音·创 Musicreater
</h1>
<p align="center">
<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 digital music files into <i>Minecraft</i> formats.</h3>
<p align="center">
<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)
[![CodeStyle: black]](https://github.com/psf/black)
[![][python]](https://www.python.org/)
[![][license]](LICENSE)
[![][release]](../../releases)
[![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)
[简体中文 🇨🇳](README.md) | English🇬🇧
**Notice that the localizations of documents may NOT be up-to-date.**
## Introduction🚀
Musicreater is a free open-source library used for converting digital music files into formats that could be read in _Minecraft_.
Welcome to join our QQ group: [861684859](https://jq.qq.com/?_wv=1027&k=hpeRxrYr)
## 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 (**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)
### Authors ✒
**Eilles (金羿)**A senior high school 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.
**Touch (偷吃不是Touch)**: A man who is used to use command(s) in _Minecraft: Bedrock Edition_, who supported us of debugging and testing program and algorithm
## 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 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 **油炸**\<QQ2836146704\> 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>
> 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 📞
Meet problems? Welcome to give out your issue [here](https://github.com/EillesWan/Musicreater/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.
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 或 微软
此项目亦不隶属或关联于 网易 相关
“Minecraft”是 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
- 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
[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-3.8-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

8
RSMC_test.py
View File

@ -1,8 +0,0 @@
import Musicreater.experiment
print(
Musicreater.experiment.FutureMidiConvertRSNB.from_midi_file(
input("midi路径:"), old_exe_format=False
).to_note_list_in_delay()
)

22
clean_update.py
View File

@ -1,22 +0,0 @@
import shutil
import os
from rich.console import Console
from rich.progress import track
console = Console()
def main():
with console.status("Find the full path of .egg-info folder"):
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"):
if os.path.isdir(file) and os.access(file, os.W_OK):
shutil.rmtree(file)
if __name__ == "__main__":
main()

13
docs/API.md
View File

@ -1,13 +0,0 @@
<h1 align="center">音·创 Musicreater</h1>
<p align="center">
<img width="128" height="128" src="https://s1.ax1x.com/2022/05/06/Ouhghj.md.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

307
docs/库的生成与功能文档.md
View File

@ -1,307 +0,0 @@
<h1 align="center">音·创 Musicreater</h1>
<p align="center">
<img width="128" height="128" src="https://s1.ax1x.com/2022/05/06/Ouhghj.md.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**
# 库的简单调用
参见[example.py的相关部分](../example.py)使用此库进行MIDI转换非常简单。
- 在导入转换库后,使用 MidiConvert 类建立转换对象读取Midi文件
音·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
# 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
# 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
)
# 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
)
```
- 获取 Midi 音乐经转换后的播放指令
```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 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 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
)
# 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
)
)
```
- 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 **音·创** 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
## 名词解释
|名词|解释|备注|
|--------|-----------|----------|
|指令区|一个用于放置指令系统的区域,通常是常加载区。|常见于服务器指令系统、好友联机房间中|
|指令链(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(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,更多情况下,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
**音·创**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**和**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。以 $S$ 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 $0.9$ 倍。|
|`Ptc`|音符的音高|这是决定音调的参数。以 $P$ 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》中,不同的[乐器存在不同的音域](https://minecraft.fandom.com/zh/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。
在**音·创**中,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
```
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。
2. 延迟播放器
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。**
在**音·创**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:
```mcfunction
execute Tg ~ ~ ~ playsound InstID @s ^ ^ ^Ht Vlct Ptc
```
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”之“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;在`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**和**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?音·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。其 $Z$ 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(即 $Y$ 轴)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。
一个进度条,明显地,有**固定部分**和**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“条”了)。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。
标识符如下(注意大小写):
| 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|
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,这也是默认的进度条的样式:
`▶ %%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“条”。
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”和“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“条”的定义是这样的:
`('§e=§r', '§7=§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!
我们的默认定义参数如下:
`(r'▶ %%N [ %%s/%^s %%% __________ %%t|%^t]',('§e=§r', '§7=§r'))`
*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*

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@ -1,56 +0,0 @@
<h1 align="center">音·创 Musicreater</h1>
<p align="center">
<img width="128" height="128" src="https://s1.ax1x.com/2022/05/06/Ouhghj.md.png" >
</p>
# 生成文件的使用
*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`
- 计分板播放器
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 和 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
支持的文件后缀:`.MCSTRUCTURE``.BDX`
1. 将结构导入世界
- 延迟播放器
2. 将结构生成的第一个指令方块之模式更改为**脉冲**
3. 激活脉冲方块
4. 若欲重置播放,可以停止对此链的激活,例如停止区块加载
5. 此播放器不支持暂停
- 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`
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

217
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@ -1,217 +0,0 @@
<h1 align="center">音·创 Musicreater</h1>
<p align="center">
<img width="128" height="128" src="https://s1.ax1x.com/2022/05/06/Ouhghj.md.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 © 2023 音·创 开发者
- Copyright © 2023 all the developers of Musicreater
* 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
音·创 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 | 在《我的世界》中,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 |

142
example.py
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@ -1,142 +0,0 @@
# -*- coding: utf-8 -*-
# 伶伦 开发交流群 861684859
"""
· (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 (·)
A free open source library used for convert midi file into formats that is suitable for **Minecraft**.
版权所有 © 2023 · 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
from Musicreater.plugin import ConvertConfig
from Musicreater.plugin.addonpack import (
to_addon_pack_in_delay,
to_addon_pack_in_repeater,
to_addon_pack_in_score,
)
from Musicreater.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[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("布尔字符串啊?")
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"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 (),
()
if playerFormat == 1
else (
f"最大结构高度:",
int,
),
]:
if args:
prompts.append(args[1](input(args[0])))
print(f"正在处理 {midi_path} ")
cvt_mid = Musicreater.MidiConvert.from_midi_file(midi_path, old_exe_format=False)
cvt_cfg = ConvertConfig(out_path, *prompts[:3])
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
print(
" 指令总长:{},最高延迟:{}".format(
*(cvt_method(cvt_mid, cvt_cfg, *prompts[3:])) # type: ignore
)
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, cvt_cfg, *prompts[3:])
if playerFormat == 1
else to_BDX_file_in_delay(cvt_mid, cvt_cfg, *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")

13
example_futureFunction.py
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import Musicreater.experiment
import Musicreater.plugin
import Musicreater.plugin.mcstructfile
print(
Musicreater.plugin.mcstructfile.to_mcstructure_file_in_delay(
Musicreater.experiment.FutureMidiConvertM4.from_midi_file(
input("midi路径:"), old_exe_format=False
),
Musicreater.plugin.ConvertConfig(input("输出路径:"), volume=1),
max_height=32,
)
)

11
example_mcstructure.py
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import Musicreater
import Musicreater.plugin
import Musicreater.plugin.mcstructfile
print(
Musicreater.plugin.mcstructfile.to_mcstructure_file_in_delay(
Musicreater.MidiConvert.from_midi_file(input("midi路径:"), old_exe_format=False),
Musicreater.plugin.ConvertConfig(input("输出路径:"), volume=1),
max_height=32,
)
)

10
example_mcstructure_rcd.py
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import Musicreater
import Musicreater.plugin
import Musicreater.plugin.mcstructfile
print(
Musicreater.plugin.mcstructfile.to_mcstructure_file_in_repeater(
Musicreater.MidiConvert.from_midi_file(input("midi路径:"), old_exe_format=False),
Musicreater.plugin.ConvertConfig(input("输出路径:"), volume=1),
)
)

12
example_mcstructure_rcd_future.py
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import Musicreater.experiment
import Musicreater.plugin
import Musicreater.plugin.mcstructfile
print(
Musicreater.plugin.mcstructfile.to_mcstructure_file_in_repeater(
Musicreater.experiment.FutureMidiConvertM4.from_midi_file(
input("midi路径:"), old_exe_format=False
),
Musicreater.plugin.ConvertConfig(input("输出路径:"), volume=1),
)
)

1
requirements.txt
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@ -1 +0,0 @@
mido>=1.3

21
resources/msctDevAuthors.txt
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@ -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

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resources/msctIcon.ico
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resources/msctIcon.png
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47
resources/poem.md
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> 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

42
resources/test/volumn_function_fit.py
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import numpy as np
from scipy.optimize import curve_fit
import matplotlib.pyplot as plt
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()

36
resources/test/volumn_function_test.py
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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()

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resources/测试片段.mid
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resources/测试片段.mscz
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14
resources/音乐测试片段版权声明.txt
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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 © 2023 诸葛亮与八卦阵

38
setup.py
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# -*- 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_EN.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 :: 3.8",
"Programming Language :: Python :: 3.9",
"Programming Language :: Python :: 3.10",
],
# 需要安装的依赖
install_requires=dependences,
)

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