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23 Commits
0.2.4 ... 46d992b408

Author SHA1 Message Date
Wang Zhiyu
46d992b408 组件可用性更新 2025-08-06 05:27:38 +08:00
Wang Zhiyu
b77f3f2abe 布局更新 2025-08-06 04:57:28 +08:00
Wang Zhiyu
6c28bd461b 修复 2025-08-05 20:29:20 +08:00
Wang Zhiyu
44f75bca90 更新谜题生成器 2025-08-05 19:40:36 +08:00
Wang Zhiyu
961f0ba785 改进 2025-08-05 14:13:11 +08:00
Wang Zhiyu
c9185fbd0a 逻辑改进 2025-08-04 01:24:35 +08:00
Wang Zhiyu
4beb42f615 重构布局系统并改进界面 2025-08-03 03:57:21 +08:00
Wang Zhiyu
445e15646b 改进 2025-08-02 17:48:42 +08:00
Wang Zhiyu
4d6d1f1b60 中途改进 2025-07-30 23:10:43 +08:00
Wang Zhiyu
722ae6f72c 完善 webshare 2025-07-30 16:16:50 +08:00
Wang Zhiyu
88650b0856 完善 webshare 2025-07-30 16:15:36 +08:00
Wang Zhiyu
620473863a 完善 webshare 2025-07-30 16:13:03 +08:00
Wang Zhiyu
9d8cb17cc6 完善项目安装配置 & 中途改进 2025-07-30 16:07:31 +08:00
Wang Zhiyu
123f7919b0 实现音频预缓存实用程序 2025-07-30 01:55:46 +08:00
Wang Zhiyu
2eeb60c75b 更新版本号 2025-07-30 01:34:06 +08:00
Wang Zhiyu
2c870377a6 修复 ElectronUnion 对象初始化问题 2025-07-30 01:32:31 +08:00
Wang Zhiyu
36562323b7 使用 NucleonUnion & ElectronUnion 取代繁琐的 AtomicFiles 2025-07-30 01:11:03 +08:00
Wang Zhiyu
b91176241b 小改动 2025-07-28 16:48:46 +08:00
Wang Zhiyu
edfeb0b40b README.md 2025-07-27 21:54:50 +08:00
Wang Zhiyu
9d658ea646 README.md 2025-07-27 21:54:27 +08:00
Wang Zhiyu
5d3c354d8f 中途改进 2025-07-27 21:39:34 +08:00
Wang Zhiyu
d27d353374 更新自述文件, 更新 gitignore 2025-07-25 23:57:58 +08:00
Wang Zhiyu
3988b55f1f v0.2.5 修复初次激活相关问题 2025-07-25 23:50:07 +08:00
32 changed files with 1375 additions and 314 deletions
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.gitignore vendored
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@@ -1 +1,6 @@
.vscode
.vscode
.directory
__pycache__/
scripts/
.idea
cache

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CONTRIBUTING.md Normal file
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50
README.md
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@@ -1,21 +1,26 @@
# 潜进 (HeurAMS) - 开放源代码实验型辅助记忆程序
# 潜进 (HeurAMS) - 实验型辅助记忆程序
> 形人而我无形,**则我专而敌分**
## 概述
"潜进" (HeurAMS, 中文含义: 启发式辅助记忆软件) 是一款为古诗词设计的记忆辅助软件, 集成记忆拟合算法、自然语音技术与生成式人工智能, 提供科学的记忆训练解决方案
"潜进" (HeurAMS, 中文含义: 启发式辅助记忆软件) 是为习题册, 古诗词, 及其他问答/记忆/理解型题目设计的记忆辅助软件, 提供优化记忆方案
## 核心特性
### 科学记忆拟合算法
## 技术集成与特性
- 采用经实证的 SM-2 间隔重复算法
### 间隔迭代算法
> 许多出版物都广泛讨论了不同重复间隔对学习效果的影响。特别是,间隔效应被认为是一种普遍现象。间隔效应是指,如果重复的间隔是分散/稀疏的,而不是集中重复,那么学习任务的表现会更好。因此,有观点提出,学习中使用的最佳重复间隔是**最长的、但不会导致遗忘的间隔**。
- 采用经实证的 SM-2 间隔迭代算法, 此算法亦用作 Anki 闪卡记忆软件的默认闪卡调度器
> 计划: 将添加 FSRS 算法 (Anki 的新可选闪卡调度器) 与一种 SM-15 变体算法作为后续替代
> 参考 https://github.com/slaypni/SM-15
> 为什么使用 SM-15 的变体?
> SM-2 后续算法仅有论文, 无具体方程, 故使用一种基于 SM-15 描述实现的变体算法
- 动态优化每首诗词的记忆间隔时间表
- 实时跟踪记忆曲线,最大化长期记忆保留率与稳定性
- 实时跟踪记忆曲线,化长期记忆保留率与稳定性
### 技术集成与优化
- 逐字解析:支持点击查看每个字的详细释义
- 语法分析:接入生成式人工智能, 支持古文结构**交互式**解析
### 学习进程优化
- 逐字解析:支持逐字详细释义解析
- 语法分析:接入生成式人工智能, 支持古文结构交互式解析
- 自然语音:集成微软神经网络文本转语音 (TTS) 技术
### 现代用户界面
@@ -24,34 +29,43 @@
- 支持触屏/鼠标/键盘多操作模式
- 简洁直观的复习流程设计
## 技术架构
## 屏幕截图
![scrshot2](readme_src/image_2.png)
![scrshot1](readme_src/image_1.png)
## 技术架构
> 有关技术与实现的细节, 请参阅 CONTRIBUTING.md
> 提交拉取请求以参与到此开放源代码项目
``` mermaid
graph TD
subgraph 后端
A[SM-2算法] --> B[间隔预测引擎]
B --> C[个性化记忆模型]
A[SM-2 算法] --> B[间隔迭代算法]
B --> C[迭代记忆参数]
end
subgraph 用户界面
D[诗词展示模块] --> E[交互复习界面]
D[展示模块] --> E[用户界面]
E --> F[进度追踪面板]
end
subgraph 外部服务
G[词义解析]
H[语法分析]
I[语音合成]
G[LLM]
H[TTS]
end
C --> D
F -->|用户数据| C
D --> G
D --> H
D --> I
```
## 系统要求
- 平台支持Windows / macOS / Linux / Android(需要 Termux) (终端或浏览器)
- 平台支持Windows / macOS / Linux / Android (需要 Termux 或 Linux) (终端或浏览器)
- 网络连接:可预缓存语音文件, 需联网使用大模型服务功能
## 使用 Nuitka 静态编译
运行
```bash
nuitka --clang --jobs=6 --standalone --onefile main.py
```

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auxiliary.py
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@@ -27,7 +27,7 @@ def get_daystamp() -> int:
time_override = config.get("time_override", -1)
if time_override is not None and time_override != -1:
print(f"TIME OVERRIDEED TO {time_override}")
#print(f"TIME OVERRIDEED TO {time_override}")
return int(time_override)
return int(time.time() // (24 * 3600))
return int(time.time() // (24 * 3600))

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compositions.py Normal file
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from textual.app import App, ComposeResult
from textual.events import Event
from textual.widgets import Collapsible, Header, Footer, Markdown, ListView, ListItem, Label, Static, Button
from textual.containers import Container, Horizontal, Center
from textual.screen import Screen
from textual.widget import Widget
import uuid
from typing import Tuple, Dict
import particles as pt
import puzzles as pz
import re
import random
import copy
class Composition():
def __init__(self, screen: Screen, reactor, atom: Tuple[pt.Electron, pt.Nucleon, Dict] = pt.Atom.placeholder()):
self.screen = screen
self.atom = atom
from reactor import Reactor
self.reactor: Reactor = reactor
self.reg = dict()
def regid(self, id_):
self.reg[id_] = id_ + str(uuid.uuid4())
return self.reg[id_]
def getid(self, id_):
if id_ not in self.reg.keys():
return "None"
return self.reg[id_]
def recid(self, id_):
return id_[:-36]
def compose(self):
yield Label("示例标签", id="testlabel")
yield Button("示例按钮", id="testbtn")
def handler(self, event, type_):
return 1
#if hasattr(event, "button"):
#print(event.button.id)
# self.screen.query_one("#testlabel", Label).update("hi")
class Finished(Composition):
def __init__(self, screen: Screen, reactor, atom: Tuple[pt.Electron, pt.Nucleon, Dict]):
super().__init__(screen, reactor, atom)
def compose(self):
yield Label("本次记忆进程结束", id=self.regid("msg"))
#yield Button("示例按钮", id="testbtn")
class Placeholder(Composition):
def __init__(self, screen: Screen):
self.screen = screen
def compose(self):
yield Label("示例标签", id="testlabel")
yield Button("示例按钮", id="testbtn", classes="choice")
def handler(self, event, type_):
#print(event.button.id)
self.screen.query_one("#testlabel", Label).update("hi")
class Recognition(Composition):
def __init__(self, screen: Screen, reactor, atom: Tuple[pt.Electron, pt.Nucleon, Dict]):
super().__init__(screen, reactor, atom)
def compose(self):
with Center():
yield Static(f"[dim]{self.atom[1]['translation']}[/]")
yield Label(f"")
s = str(self.atom[1]['content'])
replace_dict = {
", ": ",",
". ": ".",
"; ": ";",
": ": ":",
"/,": ",",
"./": ".",
"/;": ";",
";/": ";",
":/": ":",
}
for old, new in replace_dict.items():
s = s.replace(old, new)
result = re.split(r"(?<=[,;:|])", s.replace('/', ' '))
for i in result:
with Center():
yield Label(f"[b][b]{i.replace("/", " ")}[/][/]", id=self.regid("sentence"+str(hash(i)))) # 致敬传奇去重串 uuid
#with Collapsible(title="附加信息", collapsed=True):
for i in self.atom[2]["testdata"]["additional_inf"]:
if self.atom[1][i]:
#print(type(self.atom[1][i]))
#print(self.atom[1][i])
if isinstance(self.atom[1][i], list):
for j in self.atom[1][i]:
yield Markdown(f"### {self.atom[2]['keydata'][i]}: {j}")
continue
if isinstance(self.atom[1][i], Dict):
t = ""
for j, k in self.atom[1][i].items():
t += f"> **{j}**: {k} \n"
yield Markdown(t, id=self.regid("tran"))
with Center():
yield Button("我已知晓", id=self.regid("ok"))
def handler(self, event, type_):
##print(event)
if type_ == "button":
#print(event.button.id)
if event.button.id == self.getid("ok"):
#print(1)
""""""#assessment = self.reactor.report(self.reactor.current_atom, -1)
return 0
if type_ == 1:
pass
return -1
class BasicEvaluation(Composition):
# 不再使用, 仅作为测试
def __init__(self, screen: Screen, reactor, atom: Tuple[pt.Electron, pt.Nucleon, Dict]):
super().__init__(screen, reactor, atom)
def compose(self):
yield Label(self.atom[1]["content"], id="sentence")
with Container(id="button_container"):
btn = {}
btn['5'] = Button("完美回想", variant="success", id=self.regid("feedback5"), classes="choice")
btn['4'] = Button("犹豫后正确", variant="success", id=self.regid("feedback4"), classes="choice")
btn['3'] = Button("困难地正确", variant="warning", id=self.regid("feedback3"), classes="choice")
btn['2'] = Button("错误但熟悉", variant="warning", id=self.regid("feedback2"), classes="choice")
btn['1'] = Button("错误且不熟", variant="error", id=self.regid("feedback1"), classes="choice")
btn['0'] = Button("完全空白", variant="error", id=self.regid("feedback0"), classes="choice")
yield Horizontal(btn['5'], btn['4'])
yield Horizontal(btn['3'], btn['2'])
yield Horizontal(btn['1'], btn['0'])
def handler(self, event, type_):
if "feedback" in event.button.id:
#print(self.recid(event.button.id)[8:9])
assess = int(self.recid(event.button.id)[8:9])
ret = self.reactor.report(self.atom, assess)
return ret
class FillBlank(Composition):
def __init__(self, screen: Screen, reactor, atom: Tuple[pt.Electron, pt.Nucleon, Dict]):
super().__init__(screen, reactor, atom)
self.inputlist = []
self.hashtable = {}
self._work()
def _work(self):
self.puzzle = pz.BlankPuzzle(self.atom[1]["content"], 4)
self.puzzle.refresh()
self.ans = copy.copy(self.puzzle.answer)
random.shuffle(self.ans)
def compose(self):
yield Label(self.puzzle.wording, id=self.regid("sentence"))
yield Label(f"当前输入: {self.inputlist}", id=self.regid("inputpreview"))
#yield Label(renderable=f"答案: {self.puzzle.answer}", id=self.regid("ans"))
for i in self.ans:
self.hashtable[str(hash(i))] = i
yield Button(i, id=self.regid(f"select{hash(i)}"))
yield Button("退格", id=self.regid(f"delete"))
def handler(self, event, type_):
if type_ == "button":
if self.recid(event.button.id) == "delete" and len(self.inputlist) > 0:
self.inputlist.pop()
else:
self.inputlist.append(self.hashtable[self.recid(event.button.id)[6:]])
if len(self.inputlist) < len(self.puzzle.answer):
return 1
else:
if self.inputlist == self.puzzle.answer:
print("ok")
return 0
else:
self.inputlist = []
return 1
class DrawCard(Composition):
def __init__(self, screen: Screen, reactor, atom: Tuple[pt.Electron, pt.Nucleon, Dict]):
super().__init__(screen, reactor, atom)
self.inputlist = []
self.hashtable = {}
self._work()
def _work(self):
self.puzzle = pz.SelectionPuzzle(self.atom[1]["keyword_note"], [], 2, "选择正确词义: ")
self.puzzle.refresh()
def compose(self):
print(len(self.inputlist))
yield Label(self.atom[1].content, id=self.regid("sentence"))
yield Label(self.puzzle.wording[len(self.inputlist)], id=self.regid("puzzle"))
yield Label(f"当前输入: {self.inputlist}", id=self.regid("inputpreview"))
yield Label(renderable=f"答案: {self.puzzle.answer}", id=self.regid("ans"))
for i in self.puzzle.options[len(self.inputlist)]:
self.hashtable[str(hash(i))] = i
yield Button(i, id=self.regid(f"select{hash(i)}"))
yield Button("退格", id=self.regid(f"delete"))
def handler(self, event, type_):
if type_ == "button":
if self.recid(event.button.id) == "delete" and len(self.inputlist) > 0:
self.inputlist.pop()
else:
self.inputlist.append(self.hashtable[self.recid(event.button.id)[6:]])
if len(self.inputlist) < len(self.puzzle.answer):
return 1
else:
if self.inputlist == self.puzzle.answer:
print("ok")
return 0
else:
self.inputlist = []
return 1
registry = {
"sample": Composition,
"recognition": Recognition,
"fill_blank_test": FillBlank,
"draw_card_test": DrawCard,
"basic_evaluation": BasicEvaluation,
}
# TEST
class TestScreen(Screen):
def __init__(self):
super().__init__(name=None, id=None, classes=None)
self.comp = Recognition(self, None, pt.Atom.advanced_placeholder())
def compose(self) -> ComposeResult:
yield Header(show_clock=True)
yield from self.comp.compose()
yield Footer()
def on_mount(self) -> None:
pass
def on_button_pressed(self, event: Event) -> None:
self.comp.handler(event, "button")
def action_quit_app(self) -> None:
self.app.exit()
class AppLauncher(App):
CSS_PATH = "styles.tcss"
TITLE = '测试布局'
BINDINGS = [("escape", "quit", "退出"), ("d", "toggle_dark", "改变色调")]
SCREENS = {
"testscreen": TestScreen,
}
def on_mount(self) -> None:
self.action_toggle_dark()
self.push_screen("testscreen")
if __name__ == "__main__":
app = AppLauncher()
app.run()

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config.toml
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@@ -3,6 +3,6 @@ save = 1
# [调试] 覆写时间
time_override = 10
# 对于每个项目的新记忆核子数量
tasked_number = 12
tasked_number = 8
# 竖屏适配
mobile_mode = 1

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electron/陈情表.toml
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["臣/密/言: /臣/以/险衅/, 夙/遭/闵凶./"]
efactor = 2.5
real_rept = 2
rept = 0
interval = 1
last_date = 10
next_date = 11
is_activated = 1
last_modify = 1754244217.8045535
["生孩/六月/, 慈父/见背/; /行年/四岁/, 舅/夺/母志./"]
efactor = 2.5
real_rept = 2
rept = 0
interval = 1
last_date = 10
next_date = 11
is_activated = 1
last_modify = 1754244218.3349776
["祖母/刘/愍/臣/孤弱/, 躬亲/抚养./"]
efactor = 2.5
real_rept = 2
rept = 0
interval = 1
last_date = 10
next_date = 11
is_activated = 1
last_modify = 1754244218.9444783
["臣/少/多/疾病/, 九岁/不行/, 零丁/孤苦/, 至于/成立./"]
efactor = 2.5
real_rept = 2
rept = 0
interval = 1
last_date = 10
next_date = 11
is_activated = 1
last_modify = 1754244219.28863
["既/无/伯叔/, 终/鲜/兄弟/, 门/衰/祚/薄/, 晚/有/儿息./"]
efactor = 2.5
real_rept = 2
rept = 0
interval = 1
last_date = 10
next_date = 11
is_activated = 1
last_modify = 1754244219.6544538
["外/无/期功/强近/之亲/, 内/无/应门/五尺/之僮/, 茕茕/孑立/, 形影/相吊./"]
efactor = 2.5
real_rept = 2
rept = 0
interval = 1
last_date = 10
next_date = 11
is_activated = 1
last_modify = 1754244220.0074852
["而/刘/夙/婴/疾病/, 常/在/床蓐/, 臣/侍/汤药/, 未曾/废离./"]
efactor = 2.5
real_rept = 2
rept = 0
interval = 1
last_date = 10
next_date = 11
is_activated = 1
last_modify = 1754244220.3606052
["逮/奉/圣朝/, 沐浴/清化./"]
efactor = 2.5
real_rept = 17
rept = 0
interval = 1
last_date = 10
next_date = 11
is_activated = 1
last_modify = 1754244226.386384
["前/太守/臣/逵/察/臣/孝廉/; /后/刺史/臣/荣/举/臣/秀才./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.007183
["臣/以/供养/无主/, 辞/不赴命./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0071847
["诏书/特下/, 拜/臣/郎中/, 寻/蒙/国恩/, 除/臣/洗马./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0071867
["猥/以/微贱/, 当/侍/东宫/, 非/臣/陨首/所能/上报./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0071883
["臣/具/以表/闻/, 辞/不就职./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0071898
["诏书/切峻/, 责/臣/逋慢/; /郡县/逼迫/, 催/臣/上道/; /州司/临门/, 急于/星火./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.007191
["臣/欲/奉诏/奔驰/, 则/刘/病/日笃/, 欲/苟/顺/私情/, 则/告诉/不许./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0071924
["臣/之/进退/, 实为/狼狈./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0071936
["伏惟/圣朝/以/孝/治/天下/, 凡/在/故老/, 犹/蒙/矜育/, 况/臣/孤苦/, 特为/尤甚./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.007195
["且/臣/少/仕/伪朝/, 历职/郎署/, 本图/宦达/, 不矜/名节./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0071962
["今/臣/亡国/贱俘/, 至微/至陋/, 过/蒙/拔擢/, 宠命/优渥/, 岂敢/盘桓/, 有所/希冀!/"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0071974
["但/以/刘/日薄/西山/, 气息/奄奄/, 人命/危浅/, 朝不/虑夕./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0072057
["臣/无/祖母/, 无以/至今日/, 祖母/无/臣/, 无以/终余年./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.007207
["母孙/二人/, 更相/为命/, 是以/区区/不能/废远./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0072083
["臣/密/今年/四十/有四/, 祖母/今年/九十/有六/, 是/臣/尽节/于/陛下/之日/长/, 报养/刘/之日/短./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0072105
["乌鸟/私情/, 愿/乞/终养./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0072117
["臣/之/辛苦/, 非独/蜀之/人士/及/二州/牧伯/所见/明知/, 皇天/后土/, 实所/共鉴./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0072134
["愿/陛下/矜悯/愚诚/, 听/臣/微志/, 庶/刘/侥幸/, 保/卒/余年./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0072145
["臣/生/当/陨首/, 死/当/结草./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.0072162
["臣/不胜/犬马/怖惧/之情/, 谨/拜表/以闻./"]
efactor = 2.5
real_rept = 0
rept = 0
interval = 0
last_date = 0
next_date = 0
is_activated = 0
last_modify = 1754244183.007218

40
install.bat Normal file
View File

@@ -0,0 +1,40 @@
@echo off
echo "HeurAMS 环境安装脚本"
echo "正在检测系统中是否安装 Python 3.x..."
rem 检查 Python 3 是否存在
where python >nul 2>nul
if %errorlevel% neq 0 (
echo "错误: 未检测到 Python. 请确保 Python 已添加到系统 PATH 中,然后再次运行此脚本。"
exit /b 1
)
rem 检查 Python 版本是否为 3.x
for /f "tokens=*" %%i in ('python -c "import sys; print(f'{sys.version_info.major}')"') do set PYTHON_MAJOR_VERSION=%%i
if "%PYTHON_MAJOR_VERSION%"=="3" (
for /f "tokens=*" %%i in ('python -c "import sys; print(f'{sys.version_info.major}.{sys.version_info.minor}')"') do set PYTHON_VERSION=%%i
echo "检测到 Python 3 已安装, 版本为: %PYTHON_VERSION%"
) else (
echo "错误: 未检测到 Python 3. 请先安装 Python 3, 然后再次运行此脚本."
exit /b 1
)
echo "---"
echo "正在安装 requirements.txt 中的依赖..."
rem 检查 requirements.txt 文件是否存在
if exist "requirements.txt" (
python -m pip install -r requirements.txt
if %errorlevel% equ 0 (
echo "依赖安装成功."
) else (
echo "错误: 依赖安装失败. 请检查 requirements.txt 文件或网络连接."
exit /b 1
)
) else (
echo "警告: 未找到 requirements.txt 文件. 跳过依赖安装."
)
echo "---"
echo "HeurAMS 的环境依赖已安装"
pause

28
install.sh Normal file
View File

@@ -0,0 +1,28 @@
#!/bin/bash
echo "HeurAMS 环境安装脚本"
echo "正在检测系统中是否安装 Python 3.x..."
if command -v python3 &>/dev/null; then
PYTHON_VERSION=$(python3 -c "import sys; print(f'{sys.version_info.major}.{sys.version_info.minor}')")
echo "检测到 Python 3 已安装, 版本为: ${PYTHON_VERSION}"
else
echo "错误: 未检测到 Python 3. 请先安装 Python 3, 然后再次运行此脚本. "
exit 1 # 退出脚本, 因为 Python 3 是必需的
fi
echo "---"
echo "正在安装 requirements.txt 中的依赖..."
if [ -f "requirements.txt" ]; then
python3 -m pip install -r requirements.txt
if [ $? -eq 0 ]; then
echo "依赖安装成功. "
else
echo "错误: 依赖安装失败. 请检查 requirements.txt 文件或网络连接. "
exit 1
fi
else
echo "警告: 未找到 requirements.txt 文件. 跳过依赖安装. "
fi
echo "---"
echo "HeurAMS 的环境依赖已安装"

167
main.py
View File

@@ -1,18 +1,32 @@
from textual.app import App, ComposeResult
from textual.widgets import Header, Footer, ListView, ListItem, Label, Static, Button
from textual.containers import Container, Horizontal
from textual.widgets import Header, Footer, ListView, ProgressBar, DirectoryTree, ListItem, Label, Static, Button
from textual.containers import Container, Horizontal, Center
from textual.screen import Screen
import pathlib
import threading
import edge_tts as tts
from playsound import playsound
from textual.logging import TextualHandler
import particles as pt
from reactor import Reactor
from reactor import Reactor, Apparatus
import auxiliary as aux
import compositions as compo
ver = '0.2.4'
import builtins
# 保存原始的 open 函数
_original_open = builtins.open
# 定义新的 open 函数,默认使用 UTF-8
def _open(*args, **kwargs):
if 'encoding' not in kwargs:
kwargs['encoding'] = 'utf-8'
return _original_open(*args, **kwargs)
# 替换全局的 open
builtins.open = _open
ver = '0.3.0'
config = aux.ConfigFile("config.toml")
@@ -37,69 +51,93 @@ class MemScreen(Screen):
btn = dict()
def __init__(
self,
nucleon_file: pt.AtomicFile,
electron_file: pt.AtomicFile,
nucleon_file: pt.NucleonUnion,
electron_file: pt.ElectronUnion,
tasked_num
):
super().__init__(name=None, id=None, classes=None)
self.reactor = Reactor(nucleon_file, electron_file, tasked_num)
self.reactor = Reactor(nucleon_file, electron_file, self, tasked_num)
self.stage = 1
self.stage += self.reactor.set_round_templated(self.stage)
#print(self.reactor.procession)
##print(self.reactor.procession)
self.reactor.forward()
#self.compo:compo.Composition = compo.Placeholder(self)
self.compo = next(self.reactor.current_appar)
def compose(self) -> ComposeResult:
#print(self.compo)
yield Header(show_clock=True)
with Container(id="main_container"):
yield Label(self.reactor.round_title, id="round_title")
yield Label("记住了吗?", id="question")
yield Static(self.reactor.current_atom[1].content, id="sentence")
yield Static("", id="feedback") # 用于显示反馈
yield Label(self._get_progress_text(), id="progress")
with Container(id="button_container"):
self.btn['5'] = Button("完美回想", variant="success", id="q5", classes="choice")
self.btn['4'] = Button("犹豫后正确", variant="success", id="q4", classes="choice")
self.btn['3'] = Button("困难地正确", variant="warning", id="q3", classes="choice")
self.btn['2'] = Button("错误但熟悉", variant="warning", id="q2", classes="choice")
self.btn['1'] = Button("错误且不熟", variant="error", id="q1", classes="choice")
self.btn['0'] = Button("完全空白", variant="error", id="q0", classes="choice")
yield Horizontal(self.btn['5'], self.btn['4'])
yield Horizontal(self.btn['3'], self.btn['2'])
yield Horizontal(self.btn['1'], self.btn['0'])
with Center():
yield Static(f"{len(self.reactor.procession) - self.reactor.index}/{len(self.reactor.procession)}")
#yield ProgressBar(total=len(self.reactor.procession) - 1, show_percentage=False, show_eta=False, id="progress")
yield from self.compo.compose()
yield Footer()
"""
def _get_progress_text(self):
return f"{len(self.reactor.procession) - self.reactor.index}/{len(self.reactor.procession)}"
"""
def on_mount(self):
# 首次挂载时调用
self._update_ui()
def _update_ui(self):
self.query_one("#round_title", Label).update(self.reactor.round_title)
self.query_one("#sentence", Static).update(self.reactor.current_atom[1].content)
self.query_one("#progress", Label).update(self._get_progress_text())
self.query_one("#feedback", Static).update("") # 清除任何之前的反馈消息
def _show_finished_screen(self, message):
self.query_one("#question", Label).update(message)
self.query_one("#sentence", Static).update("已经完成记忆任务")
self.query_one("#round_title").display = False
self.query_one("#progress").display = False
for i in range(6):
self.query_one(f"#q{i}", Button).display = False
pass
def on_button_pressed(self, event):
feedback_label = self.query_one("#feedback", Static)
if type(event) == str:
btnid = event
else:
btnid = event.button.id
btnid = str(btnid)
quality = int(btnid.replace('q', ''))
ret = self.compo.handler(event, "button")
self._forward_judge(ret)
def _forward_judge(self, ret):
if ret == -1:
return
if ret == 0: # 成功
try:
self.compo = next(self.reactor.current_appar)
self.refresh_ui()
except StopIteration:
nxt = self.reactor.forward(1)
#print(2)
try:
self.compo = next(self.reactor.current_appar)
except:
pass
if nxt == -1:
if self.reactor.round_set == 0:
if self.stage == 4:
#if config.get("save"):
#self.reactor.save()
self.compo = compo.Finished(self, None, pt.Atom.placeholder())
self.refresh_ui()
#self._show_finished_screen("今日目标已完成")
else:
self.reactor.set_round_templated(self.stage)
self.reactor.forward(1)
#self._update_ui()
self.stage += 1
self.compo = next(self.reactor.current_appar)
self.refresh_ui()
return
return
else:
self.refresh_ui()
return
if ret == 1: # 不允许前进
self.refresh_ui()
return
def refresh_ui(self):
self.call_later(self.recompose)
#self.call_later(lambda: self.query_one("#progress", expect_type=ProgressBar).advance(self.reactor.index))
##print(area.children)
#for child in list(area.children):
# child.remove() # 致敬传奇组件树 DOM
##print(1,list(self.compo.compose()))
#area.mount(*list(self.compo.compose()))
def report(self, quality):
assessment = self.reactor.report(self.reactor.current_atom, quality)
if assessment == 1:
return assessment
"""if assessment == 1:
# 需要复习
feedback_label.update(f"评分为 {quality}, 已经加入至复习, 请重复记忆")
else:
@@ -118,18 +156,19 @@ class MemScreen(Screen):
self.stage += 1
return
#feedback_label.update("") # 清除反馈消息
self._update_ui()
def action_press(self, btnid):
self.on_button_pressed(btnid)
self._update_ui()"""
#def action_press(self, btnid):
# self.on_button_pressed(btnid)
def action_play_voice(self):
def play():
cache_dir = pathlib.Path(f"./cache/voice/")
cache_dir.mkdir(parents = True, exist_ok = True)
cache = cache_dir / f"{self.reactor.current_atom[1].content}.wav"
cache = cache_dir / f"{self.reactor.current_atom[1].content.replace("/","")}.wav"
if not cache.exists():
communicate = tts.Communicate(self.reactor.current_atom[1].content, "zh-CN-YunjianNeural")
communicate.save_sync(f"./cache/voice/{self.reactor.current_atom[1].content}.wav")
communicate = tts.Communicate(self.reactor.current_atom[1].content.replace("/",""), "zh-CN-YunjianNeural")
communicate.save_sync(f"./cache/voice/{self.reactor.current_atom[1].content.replace("/","")}.wav")
playsound(str(cache))
threading.Thread(target=play).start()
@@ -146,7 +185,7 @@ class PreparationScreen(Screen):
("escape", "quit_app", "退出")
]
def __init__(self, nucleon_file: pt.AtomicFile, electron_file: pt.AtomicFile) -> None:
def __init__(self, nucleon_file: pt.NucleonUnion, electron_file: pt.ElectronUnion) -> None:
super().__init__(name=None, id=None, classes=None)
self.nucleon_file = nucleon_file
self.electron_file = electron_file
@@ -157,12 +196,18 @@ class PreparationScreen(Screen):
yield Label(f"记忆项目: [b]{self.nucleon_file.name}[/b]\n")
yield Label(f"核子文件对象: ./nucleon/[b]{self.nucleon_file.name}[/b].toml")
yield Label(f"电子文件对象: ./electron/[b]{self.electron_file.name}[/b].toml")
yield Label(f"核子数量:{self.nucleon_file.get_len()}")
yield Label(f"核子数量:{len(self.nucleon_file)}")
yield Button("开始记忆", id="start_memorizing_button", variant="primary", classes="start-button")
yield Static(f"\n全文如下:\n")
yield Static(self.nucleon_file.get_full_content(), classes="full")
yield Static(self._get_full_content(), classes="full")
yield Footer()
def _get_full_content(self):
content = ""
for i in self.nucleon_file.nucleons:
content += i['content']
return content
def action_go_back(self):
self.app.pop_screen()
@@ -215,13 +260,13 @@ class FileSelectorScreen(Screen):
return
selected_filename = str(selected_label.renderable)
nucleon_file = pt.AtomicFile(pathlib.Path("./nucleon") / selected_filename, "nucleon")
nucleon_file = pt.NucleonUnion(pathlib.Path("./nucleon") / selected_filename)
electron_file_path = pathlib.Path("./electron") / selected_filename
if electron_file_path.exists():
pass
else:
electron_file_path.touch()
electron_file = pt.AtomicFile(pathlib.Path("./electron") / selected_filename, "electron")
electron_file = pt.ElectronUnion(pathlib.Path("./electron") / selected_filename)
# self.notify(f"已选择: {selected_filename}", timeout=2)
self.app.push_screen(PreparationScreen(nucleon_file, electron_file))
@@ -237,7 +282,7 @@ class AppLauncher(App):
}
def on_mount(self) -> None:
self.action_toggle_dark()
#self.action_toggle_dark()
self.push_screen("file_selection_screen")
if __name__ == "__main__":

237
nucleon/陈情表.toml
View File

@@ -1,139 +1,154 @@
["臣密言:臣以险衅, 夙遭闵凶."]
note = []
translation = "臣子李密陈言:我因命运不好,小时候遭遇到了不幸"
keyword_note = {"险衅"="凶险祸患(这里指命运不好)", "夙"="早时,这里指年幼的时候", "闵"="通'悯',指可忧患的事", "凶"="不幸,指丧父"}
# 散列表的键翻译
["keydata"]
note = "笔记"
keyword_note = "关键词翻译"
translation = "语句翻译"
["生孩六月, 慈父见背;行年四岁, 舅夺母志."]
note = []
translation = "刚出生六个月,我慈爱的父亲就不幸去世了。经过了四年,舅父逼母亲改嫁"
keyword_note = {"见背"="死的委婉说法", "行年"="经历的年岁", "母志"="母亲守节之志(改嫁的委婉说法)"}
# 测试项目元数据
["testdata"]
# 记忆时显示的额外信息
additional_inf = ["translation","keyword_note", "note"]
# 填空测试, content指代键名
fill_blank_test = {"from"=["content"], "hint"=["translation"]}
# 选择题测试
draw_card_test = {"from"=["keyword_note"]}
["祖母刘愍臣孤弱, 躬亲抚养."]
note = []
translation = "我的祖母刘氏,怜悯我从小丧父,便亲自对我加以抚养"
keyword_note = {"愍"="怜悯", "躬亲"="亲身"}
["臣/密/言: /臣/以/险衅/, 夙/遭/闵凶./"]
note = []
translation = "臣子李密陈言: 我因命运不好, 小时候遭遇到了不幸"
keyword_note = {"险衅"="凶险祸患(这里指命运不好)", "夙"="早时, 这里指年幼的时候", "闵"="通'悯', 指可忧患的事", ""="不幸, 指丧父"}
["臣少多疾病, 九岁不行, 零丁孤苦, 至于成立."]
note = []
translation = "臣小的时候经常生病,九岁时还不会行走。孤独无靠,一直到成人自立"
keyword_note = {"成立"="成人自立"}
["生孩/六月/, 慈父/见背/; /行年/四岁/, 舅/夺/母志./"]
note = []
translation = "刚出生六个月, 我慈爱的父亲就不幸去世了。经过了四年, 舅父逼母亲改嫁"
keyword_note = {"见背"="死的委婉说法", "行年"="经历的年岁", "母志"="母亲守节之志(改嫁的委婉说法)"}
["既无伯叔, 终鲜兄弟, 门衰祚薄, 晚有儿息."]
note = []
translation = "既没有叔叔伯伯,又没什么兄弟,门庭衰微而福分浅薄,很晚才有儿子"
keyword_note = {""="少,这里指'无'", "祚薄"="福分浅薄", "儿息"="亲生子女"}
["祖母/刘/愍/臣/孤弱/, 躬亲/抚养./"]
note = []
translation = "我的祖母刘氏, 怜悯我从小丧父, 便亲自对我加以抚养"
keyword_note = {""="怜悯", "躬亲"="亲"}
["外无期功强近之亲, 内无应门五尺之僮, 茕茕孑立, 形影相吊."]
note = []
translation = "在外面没有比较亲近的亲戚,在家里又没有照应门户的童仆。生活孤单没有依靠,每天只有自己的身体和影子相互安慰"
keyword_note = {"期功"="指关系较近的亲属", "茕茕孑立"="孤单无依靠的样子", "吊"="安慰"}
["臣/少/多/疾病/, 九岁/不行/, 零丁/孤苦/, 至于/成立./"]
note = []
translation = "臣小的时候经常生病, 九岁时还不会行走。孤独无靠, 一直到成人自立"
keyword_note = {"成立"="成人自立"}
["而刘夙婴疾病, 常在床蓐, 臣侍汤药, 未曾废离."]
note = []
translation = "但祖母又早被疾病缠绕,常年卧床不起,我侍奉她吃饭喝药,从来就没有停止侍奉而离开她"
keyword_note = {""="被...缠绕", "蓐"="通'褥',床垫", ""="停止服侍", ""="离开"}
["既/无/伯叔/, 终/鲜/兄弟/, 门/衰/祚/薄/, 晚/有/儿息./"]
note = []
translation = "既没有叔叔伯伯, 又没什么兄弟, 门庭衰微而福分浅薄, 很晚才有儿子"
keyword_note = {""="少, 这里指'无'", "祚薄"="福分浅薄", "儿息"="亲生子女"}
["逮奉圣朝, 沐浴清化."]
note = []
translation = "到了晋朝建立,我蒙受着清明的政治教化"
keyword_note = {""="及,到", ""="承奉", "圣朝"="指当时的晋朝", "沐浴清化"="蒙受清平教化"}
["外/无/期功/强近/之亲/, 内/无/应门/五尺/之僮/, 茕茕/孑立/, 形影/相吊./"]
note = []
translation = "在外面没有比较亲近的亲戚, 在家里又没有照应门户的童仆。生活孤单没有依靠, 每天只有自己的身体和影子相互安慰"
keyword_note = {"期功"="指关系较近的亲属", "茕茕孑立"="孤单无依靠的样子", ""="安慰"}
["前太守臣逵察臣孝廉;后刺史臣荣举臣秀才."]
note = []
translation = "前任太守逵,考察后推举臣下为孝廉,后任刺史荣又推举臣下为优秀人才"
keyword_note = {""="考察和推举", "孝廉"="孝顺,品性纯洁", ""="推举", "秀才"="优秀人才"}
["而/刘/夙/婴/疾病/, 常/在/床蓐/, 臣/侍/汤药/, 未曾/废离./"]
note = []
translation = "但祖母又早被疾病缠绕, 常年卧床不起, 我侍奉她吃饭喝药, 从来就没有停止侍奉而离开她"
keyword_note = {""="被...缠绕", ""="通'褥', 床垫", ""="停止服侍", ""="离开"}
["臣以供养无主, 辞不赴命."]
note = []
translation = "臣下因为供奉赡养祖母的事无人承担,辞谢不接受任命"
keyword_note = {"无主"="无人承担"}
["逮/奉/圣朝/, 沐浴/清化./"]
note = []
translation = "到了晋朝建立, 我蒙受着清明的政治教化"
keyword_note = {"逮"="及, 到", "奉"="承奉", "圣朝"="指当时的晋朝", "沐浴清化"="蒙受清平教化"}
["诏书特下, 拜臣郎中, 寻蒙国恩, 除臣洗马."]
note = []
translation = "朝廷又特地下了诏书,任命我为郎中,不久又蒙受国家恩命,任命我为太子洗马"
keyword_note = {""="授予官职", "郎中"="尚书省的属官", "寻"="不久", ""="拜官受职", "洗马"="太子的属官"}
["前/太守/臣/逵/察/臣/孝廉/; /后/刺史/臣/荣/举/臣/秀才./"]
note = []
translation = "前任太守逵, 考察后推举臣下为孝廉, 后任刺史荣又推举臣下为优秀人才"
keyword_note = {""="考察和推举", "孝廉"="孝顺, 品性纯洁", ""="推举", "秀才"="优秀人才"}
["猥以微贱, 当侍东宫, 非臣陨首所能上报."]
note = []
translation = "像我这样出身微贱地位卑下的人,担当侍奉太子的职务,这实在不是我杀身捐躯所能报答朝廷的"
keyword_note = {""="谦词", "微贱"="卑微低贱", "东宫"="太子居处", "陨首"="杀身"}
["臣/以/供养/无主/, 辞/不赴命./"]
note = []
translation = "臣下因为供奉赡养祖母的事无人承担, 辞谢不接受任命"
keyword_note = {"无主"="无人承担"}
["臣具以表闻, 辞不就职."]
note = []
translation = "我将以上苦衷上表报告,加以推辞不去就职"
keyword_note = {""="详细", ""="使...知道"}
["诏书/特下/, 拜/臣/郎中/, 寻/蒙/国恩/, 除/臣/洗马./"]
note = []
translation = "朝廷又特地下了诏书, 任命我为郎中, 不久又蒙受国家恩命, 任命我为太子洗马"
keyword_note = {"拜"="授予官职", "郎中"="尚书省的属官", "寻"="不久", ""="拜官受职", "洗马"="太子的属官"}
["诏书切峻, 责臣逋慢;郡县逼迫, 催臣上道;州司临门, 急于星火."]
note = []
translation = "但是诏书急切严峻,责备我逃避命令,有意拖延,态度傲慢。郡县长官催促我立刻上路;州官登门督促,比流星坠落还要急迫"
keyword_note = {"切峻"="急切而严厉", "逋慢"="逃避怠慢", "星火"="流星的光,喻急迫"}
["猥/以/微贱/, 当/侍/东宫/, 非/臣/陨首/所能/上报./"]
note = []
translation = "像我这样出身微贱地位卑下的人, 担当侍奉太子的职务, 这实在不是我杀身捐躯所能报答朝廷的"
keyword_note = {""="谦词", "微贱"="卑微低贱", "东宫"="太子居处", "陨首"="杀身"}
["臣欲奉诏奔驰, 则刘病日笃, 欲苟顺私情, 则告诉不许."]
note = []
translation = "我很想遵从皇上的旨意赴京就职,但祖母刘氏的病却一天比一天重;想要姑且顺从自己的私情,但报告申诉不被允许"
keyword_note = {"日笃"="病情日益加重", "苟"="姑且", "告诉"="报告申诉"}
["臣/具/以表/闻/, 辞/不就职./"]
note = []
translation = "我将以上苦衷上表报告, 加以推辞不去就职"
keyword_note = {""="详细", ""="使...知道"}
["臣之进退, 实为狼狈."]
note = []
translation = "我是进退两难,十分狼狈"
keyword_note = {"狼狈"="进退两难的样子"}
["诏书/切峻/, 责/臣/逋慢/; /郡县/逼迫/, 催/臣/上道/; /州司/临门/, 急于/星火./"]
note = []
translation = "但是诏书急切严峻, 责备我逃避命令, 有意拖延, 态度傲慢。郡县长官催促我立刻上路; 州官登门督促, 比流星坠落还要急迫"
keyword_note = {"切峻"="急切而严厉", "逋慢"="逃避怠慢", "星火"="流星的光, 喻急迫"}
["伏惟圣朝以孝治天下, 凡在故老, 犹蒙矜育, 况臣孤苦, 特为尤甚."]
note = []
translation = "我俯伏思量晋朝是用孝道来治理天下的,凡是年老而德高的旧臣,尚且还受到怜悯养育,何况我的孤苦程度更为严重呢"
keyword_note = {"伏惟"="下对上的敬辞", "故老"="年老德高的旧臣", "矜育"="怜悯养育"}
["臣/欲/奉诏/奔驰/, 则/刘/病/日笃/, 欲/苟/顺/私情/, 则/告诉/不许./"]
note = []
translation = "我很想遵从皇上的旨意赴京就职, 但祖母刘氏的病却一天比一天重; 想要姑且顺从自己的私情, 但报告申诉不被允许"
keyword_note = {"日笃"="病情日益加重", ""="姑且", "告诉"="报告申诉"}
["且臣少仕伪朝, 历职郎署, 本图宦达, 不矜名节."]
note = []
translation = "况且我年轻的时候曾经做过蜀汉的官,担任过郎官职务,本来就希望做官显达,并不顾惜名声节操"
keyword_note = {"伪朝"="对前朝的蔑称", "历职"="连续任职", "郎署"="尚书郎的官衙", "宦达"="官场上显达"}
["臣/之/进退/, 实为/狼狈./"]
note = []
translation = "我是进退两难, 十分狼狈"
keyword_note = {"狼狈"="进退两难的样子"}
["今臣亡国贱俘, 至微至陋, 过蒙拔擢, 宠命优渥, 岂敢盘桓, 有所希冀!"]
note = []
translation = "现在我是一个低贱的亡国俘虏,十分卑微浅陋,受到过分提拔,恩宠优厚,怎敢犹豫不决而有非分的企求呢"
keyword_note = {"拔擢"="提拔", "优渥"="优厚", "盘桓"="徘徊不前", "希冀"="非分的企求"}
["伏惟/圣朝/以/孝/治/天下/, 凡/在/故老/, 犹/蒙/矜育/, 况/臣/孤苦/, 特为/尤甚./"]
note = []
translation = "我俯伏思量晋朝是用孝道来治理天下的, 凡是年老而德高的旧臣, 尚且还受到怜悯养育, 何况我的孤苦程度更为严重呢"
keyword_note = {"伏惟"="下对上的敬辞", "故老"="年老德高的旧臣", "矜育"="怜悯养育"}
["但以刘日薄西山, 气息奄奄, 人命危浅, 朝不虑夕."]
note = []
translation = "只是因为祖母刘氏寿命即将终了,气息微弱,生命垂危,早上不能想到晚上怎样"
keyword_note = {"日薄西山"="太阳接近西山,喻人寿命将终", "危浅"="生命垂危"}
["且/臣/少/仕/伪朝/, 历职/郎署/, 本图/宦达/, 不矜/名节./"]
note = []
translation = "况且我年轻的时候曾经做过蜀汉的官, 担任过郎官职务, 本来就希望做官显达, 并不顾惜名声节操"
keyword_note = {"伪朝"="对前朝的蔑称", "历职"="连续任职", "郎署"="尚书郎的官衙", "宦达"="官场上显达"}
["臣无祖母, 无以至今日, 祖母无臣, 无以终余年."]
note = []
translation = "臣下我如果没有祖母,就没有今天的样子;祖母如果没有我的照料,也无法度过她的余生"
keyword_note = {"终余年"="度过余生"}
["今/臣/亡国/贱俘/, 至微/至陋/, 过/蒙/拔擢/, 宠命/优渥/, 岂敢/盘桓/, 有所/希冀!/"]
note = []
translation = "现在我是一个低贱的亡国俘虏, 十分卑微浅陋, 受到过分提拔, 恩宠优厚, 怎敢犹豫不决而有非分的企求呢"
keyword_note = {"拔擢"="提拔", "优渥"="优厚", "盘桓"="徘徊不前", "希冀"="非分的企求"}
["母孙二人, 更相为命, 是以区区不能废远."]
note = []
translation = "我们祖孙二人,互相依靠而维持生命,因此我的内心不愿废止奉养,远离祖母"
keyword_note = {"更相"="相互", "区区"="自己的私情", "废远"="废止奉养而远离"}
["但/以/刘/日薄/西山/, 气息/奄奄/, 人命/危浅/, 朝不/虑夕./"]
note = []
translation = "只是因为祖母刘氏寿命即将终了, 气息微弱, 生命垂危, 早上不能想到晚上怎样"
keyword_note = {"日薄西山"="太阳接近西山, 喻人寿命将终", "危浅"="生命垂危"}
["臣密今年四十有四, 祖母今年九十有六, 是臣尽节于陛下之日长, 报养刘之日短."]
note = []
translation = "臣下我现在的年龄四十四岁了,祖母现在的年龄九十六岁了,臣下我在陛下面前尽忠尽节的日子还长着呢,而在祖母刘氏面前尽孝尽心的日子已经不多了"
keyword_note = {""="", "尽节"="尽忠节"}
["臣/无/祖母/, 无以/至今日/, 祖母/无/臣/, 无以/终余年./"]
note = []
translation = "臣下我如果没有祖母, 就没有今天的样子; 祖母如果没有我的照料, 也无法度过她的余生"
keyword_note = {"终余年"="度过余生"}
["乌鸟私情, 愿乞终养."]
note = []
translation = "我怀着乌鸦反哺的私情,乞求能够准许我完成对祖母养老送终的心愿"
keyword_note = {"乌鸟私情"="乌鸦反哺之情,喻孝心", "终养"="养老至终"}
["母孙/二人/, 更相/为命/, 是以/区区/不能/废远./"]
note = []
translation = "我们祖孙二人, 互相依靠而维持生命, 因此我的内心不愿废止奉养, 远离祖母"
keyword_note = {"更相"="相互", "区区"="自己的私情", "废远"="废止奉养而远离"}
["臣之辛苦, 非独蜀之人士及二州牧伯所见明知, 皇天后土, 实所共鉴."]
note = []
translation = "我的辛酸苦楚,并不仅仅被蜀地的百姓及益州、梁州的长官所亲眼目睹、内心明白,连天地神明也都看得清清楚楚"
keyword_note = {"辛苦"="辛酸苦楚", "牧伯"="州郡长官", "皇天后土"="天地神明", "鉴"="明察"}
["臣/密/今年/四十/有四/, 祖母/今年/九十/有六/, 是/臣/尽节/于/陛下/之日/长/, 报养/刘/之日/短./"]
note = []
translation = "臣下我现在的年龄四十四岁了, 祖母现在的年龄九十六岁了, 臣下我在陛下面前尽忠尽节的日子还长着呢, 而在祖母刘氏面前尽孝尽心的日子已经不多了"
keyword_note = {""="", "尽节"="尽忠节"}
["愿陛下矜悯愚诚, 听臣微志, 庶刘侥幸, 保卒余年."]
note = []
translation = "希望陛下能怜悯我愚昧诚心,请允许我完成臣下一点小小的心愿,使祖母刘氏能够侥幸地保全她的余生"
keyword_note = {"矜悯"="怜悯", "听"="准许", ""="或许(表希望)", "卒余年"="终老"}
["乌鸟/私情/, 愿/乞/终养./"]
note = []
translation = "我怀着乌鸦反哺的私情, 乞求能够准许我完成对祖母养老送终的心愿"
keyword_note = {"乌鸟私情"="乌鸦反哺之情, 喻孝心", "终养"="养老至终"}
["臣生当陨首, 死当结草."]
note = []
translation = "我活着应当杀身报效朝廷,死了也要结草衔环来报答陛下的恩情"
keyword_note = {"陨首"="掉脑袋,指献出生命", "结草"="死后报恩的典故"}
["臣/之/辛苦/, 非独/蜀之/人士/及/二州/牧伯/所见/明知/, 皇天/后土/, 实所/共鉴./"]
note = []
translation = "我的辛酸苦楚, 并不仅仅被蜀地的百姓及益州、梁州的长官所亲眼目睹、内心明白, 连天地神明也都看得清清楚楚"
keyword_note = {"辛苦"="辛酸苦楚", "牧伯"="州郡长官", "皇天后土"="天地神明", "鉴"="明察"}
["臣不胜犬马怖惧之情, 谨拜表以闻."]
note = []
translation = "臣下我怀着牛马一样不胜恐惧的心情,恭敬地呈上此表来使陛下知道这件事"
["愿/陛下/矜悯/愚诚/, 听/臣/微志/, 庶/刘/侥幸/, 保/卒/余年./"]
note = []
translation = "希望陛下能怜悯我愚昧诚心, 请允许我完成臣下一点小小的心愿, 使祖母刘氏能够侥幸地保全她的余生"
keyword_note = {"矜悯"="怜悯", "听"="准许", "庶"="或许(表希望)", "卒余年"="终老"}
["臣/生/当/陨首/, 死/当/结草./"]
note = []
translation = "我活着应当杀身报效朝廷, 死了也要结草衔环来报答陛下的恩情"
keyword_note = {"陨首"="掉脑袋, 指献出生命", "结草"="死后报恩的典故"}
["臣/不胜/犬马/怖惧/之情/, 谨/拜表/以闻./"]
note = []
translation = "臣下我怀着牛马一样不胜恐惧的心情, 恭敬地呈上此表来使陛下知道这件事"
keyword_note = {"不胜"="禁不住", "犬马怖惧"="臣子谦卑的自比", "闻"="使...知道"}

272
particles.py
View File

@@ -3,51 +3,45 @@ import toml
import time
import auxiliary as aux
import time
class Electron():
"""电子: 记忆分析元数据及算法"""
algorithm = "SM-2" # 暂时使用 SM-2 算法进行记忆拟合, 考虑 SM-15 替代
"""
content = "" # 内容
efactor = 2.5 # 易度系数, 越大越简单, 最大为5
real_rept = 0 # (实际)重复次数
rept = 0 # (有效)重复次数
interval = 0 # 最佳间隔
last_date = 0 # 上一次复习的时间戳
next_date = 0 # 将要复习的时间戳
is_activated = 0 # 激活状态
# *NOTE: 此处"时间戳"是以天为单位的整数, 即 UNIX 时间戳除以一天的秒数取整
last_modify = 0 # 最后修改时间戳(此处是UNIX时间戳)
"""
def __init__(self, content: str, data: dict):
def __init__(self, content: str, metadata: dict):
self.content = content
self.efactor = data.get('efactor', 2.5)
self.real_rept = data.get('real_rept', 0)
self.rept = data.get('rept', 0)
self.interval = data.get('interval', 0)
self.last_date = data.get('last_date', 0)
self.next_date = data.get('next_date', 0)
self.is_activated = data.get('is_activated', 0)
self.last_modify = time.time()
self.metadata = metadata
if metadata == {}:
#print("NULL")
self._default_init()
def _default_init(self):
defaults = {
'efactor': 2.5, # 易度系数, 越大越简单, 最大为5
'real_rept': 0, # (实际)重复次数
'rept': 0, # (有效)重复次数
'interval': 0, # 最佳间隔
'last_date': 0, # 上一次复习的时间戳
'next_date': 0, # 将要复习的时间戳
'is_activated': 0, # 激活状态
# *NOTE: 此处"时间戳"是以天为单位的整数, 即 UNIX 时间戳除以一天的秒数取整
'last_modify': time.time() # 最后修改时间戳(此处是UNIX时间戳)
}
self.metadata = defaults
def activate(self):
self.is_activated = 1
self.metadata['is_activated'] = 1
self.metadata['last_modify'] = time.time()
def modify(self, var: str, value):
setattr(self, var, value)
self.last_modify = time.time()
def export_data(self):
return {
'efactor': self.efactor,
'real_rept': self.real_rept,
'rept': self.rept,
'interval': self.interval,
'last_date': self.last_date,
'next_date': self.next_date,
'is_activated': self.is_activated
}
if var in self.metadata:
self.metadata[var] = value
self.metadata['last_modify'] = time.time()
else:
print(f"警告: '{var}' 非已知元数据字段")
def revisor(self, quality):
def revisor(self, quality: int = 5, is_new_activation: bool = False):
"""SM-2 算法迭代决策机制实现
根据 quality(0 ~ 5) 进行参数迭代最佳间隔
quality 由主程序评估
@@ -58,87 +52,168 @@ class Electron():
if quality == -1:
return -1
self.efactor = self.efactor + (0.1 - (5 - quality) * (0.08 + (5 - quality) * 0.02))
self.efactor = max(1.3, self.efactor)
self.metadata['efactor'] = self.metadata['efactor'] + (0.1 - (5 - quality) * (0.08 + (5 - quality) * 0.02))
self.metadata['efactor'] = max(1.3, self.metadata['efactor'])
if quality < 3:
# 若保留率低于 3重置重复次数
self.rept = 0
self.interval = 0 # 设为0以便下面重新计算 I(1)
self.metadata['rept'] = 0
self.metadata['interval'] = 0 # 设为0以便下面重新计算 I(1)
else:
self.rept += 1
self.real_rept += 1
self.metadata['rept'] += 1
if self.rept == 0: # 刚被重置或初次激活后复习
self.interval = 1 # I(1)
elif self.rept == 1:
self.interval = 6 # I(2) 经验公式
else:
self.interval = round(self.interval * self.efactor)
self.metadata['real_rept'] += 1
self.last_date = aux.get_daystamp()
self.next_date = aux.get_daystamp() + self.interval
if is_new_activation: # 初次激活
self.metadata['rept'] = 0
self.metadata['efactor'] = 2.5
if self.metadata['rept'] == 0: # 刚被重置或初次激活后复习
self.metadata['interval'] = 1 # I(1)
elif self.metadata['rept'] == 1:
self.metadata['interval'] = 6 # I(2) 经验公式
else:
self.metadata['interval'] = round(self.metadata['interval'] * self.metadata['efactor'])
self.metadata['last_date'] = aux.get_daystamp()
self.metadata['next_date'] = aux.get_daystamp() + self.metadata['interval']
self.metadata['last_modify'] = time.time()
def __str__(self):
return (f"记忆单元预览 \n"
f"内容: '{self.content}' \n"
f"易度系数: {self.efactor:.2f} \n"
f"已经重复的次数: {self.rept} \n"
f"下次间隔: {self.interval}\n"
f"下次复习日期时间戳: {self.next_date}")
f"易度系数: {self.metadata['efactor']:.2f} \n"
f"已经重复的次数: {self.metadata['rept']} \n"
f"下次间隔: {self.metadata['interval']}\n"
f"下次复习日期时间戳: {self.metadata['next_date']}")
def __eq__(self, other):
if self.content == other.content:
return 1
return 0
return True
return False
def __hash__(self):
return hash(self.content)
def __getitem__(self, key):
if key == "content":
return self.content
if key in self.metadata:
return self.metadata[key]
else:
raise KeyError(f"Key '{key}' not found in metadata.")
def __setitem__(self, key, value):
if key == "content":
raise AttributeError("content 应为只读")
# 可以在此处添加更复杂的验证逻辑,例如只允许修改预定义的 metadata 键
# 或者根据键进行类型检查等。
self.metadata[key] = value
self.metadata['last_modify'] = time.time()
def __iter__(self):
yield from self.metadata.keys()
def __len__(self):
return len(self.metadata)
@staticmethod
def placeholder():
return Electron("电子对象样例内容", {})
@staticmethod
def import_from_file(path: pathlib.Path):
name = path.name.replace(path.suffix, "")
with open(path, 'r') as f:
all = toml.load(f)
lst = list()
for i in all.keys():
lst.append(Electron(i, all[i]))
return (name, lst)
@staticmethod
def save_to_file(electron_dictized, path: pathlib.Path):
with open(path, 'w') as f:
toml.dump(electron_dictized, f)
class Nucleon():
class Nucleon:
"""核子: 材料元数据"""
def __init__(self, content: str, data: dict):
self.metadata = data
self.content = content
@staticmethod
def import_from_file(path: pathlib.Path):
name = path.name.replace(path.suffix, "")
with open(path, 'r') as f:
all = toml.load(f)
lst = list()
for i in all.keys():
lst.append(Nucleon(i, all[i]))
return (name, lst)
@staticmethod
def save_to_file(nucleon_dictized, path: pathlib.Path):
with open(path, 'w') as f:
toml.dump(nucleon_dictized, f)
def __getitem__(self, key):
if key == "content":
return self.content
if key in self.metadata:
return self.metadata[key]
else:
raise KeyError(f"Key '{key}' not found in metadata.")
def __iter__(self):
yield from self.metadata.keys()
def __len__(self):
return len(self.metadata)
def __hash__(self):
return hash(self.content)
@staticmethod
def placeholder():
return Nucleon("核子对象样例内容", {})
class AtomicFile():
class NucleonUnion():
"""
替代原有 NucleonFile 类, 支持复杂逻辑
Attributes:
path (Path): 对应于 NucleonUnion 实例的文件路径。
name (str): 核联对象的显示名称,从文件名中派生。
nucleons (list): 内部核子对象的列表。
nucleons_dict (dict): 内部核子对象的字典,以核子内容作为键。
keydata (dict): 核子对象字典键名的翻译。
testdata (dict): 记忆测试项目的元数据。
Parameters:
path (Path): 包含核子数据的文件路径。
"""
def __init__(self, path):
self.path = path
self.name = path.name.replace(path.suffix, "")
with open(path, 'r') as f:
all = toml.load(f)
lst = list()
for i in all.keys():
if "data" in i:
continue
lst.append(Nucleon(i, all[i]))
self.keydata = all["keydata"]
self.testdata = all["testdata"]
self.nucleons = lst
self.nucleons_dict = {i.content: i for i in lst}
def __len__(self):
return len(self.nucleons)
def save(self):
with open(self.path, 'w') as f:
tmp = {i.content: i.metadata for i in self.nucleons}
toml.dump(tmp, f)
class ElectronUnion():
"取代原有 ElectronFile 类, 以支持复杂逻辑"
def __init__(self, path):
self.path = path
self.name = path.name.replace(path.suffix, "")
with open(path, 'r') as f:
all = toml.load(f)
lst = list()
for i in all.keys():
lst.append(Electron(i, all[i]))
self.electrons = lst
self.electrons_dict = {i.content: i for i in lst}
def sync(self):
"""同步 electrons_dict 中新增对到 electrons 中"""
self.electrons = self.electrons_dict.values()
def save(self):
#print(1)
with open(self.path, 'w') as f:
tmp = {i.content: i.metadata for i in self.electrons}
#print(tmp)
toml.dump(tmp, f)
"""class AtomicFile():
def __init__(self, path, type_="unknown"):
self.path = path
self.type_ = type_
@@ -163,8 +238,29 @@ class AtomicFile():
def get_len(self):
return len(self.datalist)
"""
class Atom():
@staticmethod
def placeholder():
return (Electron.placeholder(), Nucleon.placeholder())
return (Electron.placeholder(), Nucleon.placeholder(), {})
@staticmethod
def advanced_placeholder():
return (
Electron("两只黄鹤鸣翠柳", {}),
Nucleon("两只黄鹤鸣翠柳", {"note": [],
"translation": "臣子李密陈言:我因命运不好,小时候遭遇到了不幸",
"keyword_note": {"险衅":"凶险祸患(这里指命运不好)", "":"早时,这里指年幼的时候", "":"'',指可忧患的事", "":"不幸,指丧父"}}),
{
"keydata":{
"note": "笔记",
"keyword_note": "关键词翻译",
"translation": "语句翻译"},
"testdata":{
"additional_inf": ["translation", "note", "keyword_note"],
"fill_blank_test": ["translation"],
"draw_card_test": ["keyword_note"]
},
"is_new_activation": 0
})

5
playsound_android.py
View File

@@ -1,5 +0,0 @@
"""Android Termux 无法编译 playsound 库的替代方案,
需要安装 playaudio, 并重命名此文件至 playsound.py"""
import os
def playsound(path):
os.system(f"play-audio '{path}'")

43
precaching.py
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@@ -0,0 +1,43 @@
# 音频预缓存实用程序, 独立于主程序之外, 但依赖 particles 组件
import particles as pt
import edge_tts as tts
from pathlib import Path
import shutil
def precache(text):
cache_dir = Path(f"./cache/voice/")
cache_dir.mkdir(parents = True, exist_ok = True)
cache = cache_dir / f"{text}.wav"
if not cache.exists():
communicate = tts.Communicate(text, "zh-CN-YunjianNeural")
communicate.save_sync(f"./cache/voice/{text}.wav")
def proc_file(path):
nu = pt.NucleonUnion(path)
c = 0
for i in nu.nucleons:
c += 1
print(f"预缓存 [{nu.name}] ({c}/{len(nu)}): {i["content"]}")
precache(f"{i["content"]}")
def walk(path_str):
path = Path(path_str)
print(f"正在遍历目录: {path}")
for item in path.iterdir():
if item.is_file():
if item.suffix == ".toml":
print(f"正预缓存文件: {item.name}")
proc_file(item)
elif item.is_dir():
print(f"进入目录: {item.name}")
print("音频预缓存实用程序")
print("需要?")
print("全部缓存: A")
print("清空缓存: C")
choice = input("输入选项 $ ")
if choice == "a" or choice == "A":
walk("./nucleon")
if choice == "c" or choice == "C":
shutil.rmtree("./cache/voice")

114
puzzles.py Normal file
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@@ -0,0 +1,114 @@
import random
class Puzzle():
pass
class BlankPuzzle(Puzzle):
"""填空题谜题生成器
Args:
text: 原始字符串(需要 "/" 分割句子, 末尾应有 "/")
min_denominator: 最小概率倒数(如占所有可生成填空数的 1/7 中的 7, 若期望值小于 1, 则取 1)
"""
def __init__(self, text, min_denominator):
self.text = text
self.min_denominator = min_denominator
self.wording = "填空题 - 尚未刷新谜题"
self.answer = ["填空题 - 尚未刷新谜题"]
def refresh(self): # 刷新谜题
placeholder = "___SLASH___"
tmp_text = self.text.replace("/", placeholder)
words = tmp_text.split(placeholder)
if not words:
return ""
words = [word for word in words if word]
num_blanks = min(max(1, len(words) // self.min_denominator), len(words))
indices_to_blank = random.sample(range(len(words)), num_blanks)
indices_to_blank.sort()
blanked_words = list(words)
answer = list()
for index in indices_to_blank:
blanked_words[index] = "__" * len(words[index])
answer.append(words[index])
result = []
for word in blanked_words:
result.append(word)
self.answer = answer
self.wording = "".join(result)
def __str__(self):
return f"{self.wording}\n{str(self.answer)}"
class SelectionPuzzle(Puzzle):
"""选择题谜题生成器
Args:
mapping: 正确选项映射 {问题: 答案}
jammer: 干扰项列表
max_riddles_num: 最大生成谜题数 (默认2个)
prefix: 问题前缀
"""
def __init__(self, mapping, jammer: list, max_riddles_num: int = 2, prefix: str = ""):
jammer += ["1","2","3","4"]
self.prefix = prefix
self.mapping = mapping
self.jammer = list(set(jammer + list(mapping.values()))) # 合并干扰项和正确答案并去重
self.max_riddles_num = max(1, min(max_riddles_num, 5)) # 限制1-5个谜题
self.wording = "选择题 - 尚未刷新谜题"
self.answer = ["选择题 - 尚未刷新谜题"]
self.options = []
def refresh(self):
"""刷新谜题,根据题目数量生成适当数量的谜题"""
if not self.mapping:
self.wording = "无可用题目"
self.answer = ["无答案"]
self.options = []
return
# 确定实际生成的谜题数量
num_questions = min(self.max_riddles_num, len(self.mapping))
questions = random.sample(list(self.mapping.items()), num_questions)
# 生成谜题
puzzles = []
answers = []
all_options = []
for question, correct_answer in questions:
# 生成选项 (正确答案 + 3个干扰项)
options = [correct_answer]
available_jammers = [j for j in self.jammer if j != correct_answer]
if len(available_jammers) >= 3:
selected_jammers = random.sample(available_jammers, 3)
else:
selected_jammers = random.choices(available_jammers, k=3)
options.extend(selected_jammers)
random.shuffle(options)
puzzles.append(question)
answers.append(correct_answer)
all_options.append(options)
question_texts = []
for i, (puzzle, options) in enumerate(zip(puzzles, all_options)):
#options_text = "\n".join([f" {chr(97+j)}. {opt}" for j, opt in enumerate(options)])
question_texts.append(f"{self.prefix}:\n {i+1}. {puzzle}")
self.wording = question_texts
self.answer = answers
self.options = all_options
def __str__(self):
return f"{self.wording}\n正确答案: {', '.join(self.answer)}"
puz = SelectionPuzzle({"1+1":"2", "1+2":"3", "1+3": "4"}, ["2","5","0"], 3, '求值: ')
puz.refresh()
print(puz.wording)
print(puz.answer)
print(puz.options)

80
reactor.py
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@@ -2,12 +2,35 @@ import typing
import particles as pt
import pathlib
import auxiliary as aux
class Parser():
"""轻量级版本文件解析器, 用于文件管理器的记忆状态解析"""
import compositions as comps
import random
#from pprint import pprint as print # debug
class Apparatus():
"""反应器对象, 决策一个原子的不同记忆方式, 并反馈到布局"""
def __init__(self, screen, reactor, atom):
self.electron: pt.Electron = atom[0]
self.nucleon: pt.Nucleon = atom[1]
self.positron: dict = atom[2]
self.testdata = self.positron["testdata"]
self.procession: typing.List[comps.Composition] = list()
if self.positron["is_new_activation"] == 1:
self.positron["is_new_activation"] = 0
self.procession.append(comps.registry["recognition"](screen, reactor, atom))
return
for i in self.positron["testdata"].keys():
if i == "additional_inf":
continue
self.procession.append(comps.registry[i](screen, reactor, atom))
# self.procession.reverse()
random.shuffle(self.procession)
def iterator(self):
yield from self.procession
class Reactor():
"""反应堆对象, 用于全面解析文件, 并处理和分配一次文件记忆流程的资源与策略"""
def __init__(self, nucleon_file: pt.AtomicFile, electron_file: pt.AtomicFile, tasked_num):
"""反应堆对象, 处理和分配一次文件记忆流程的资源与策略"""
def __init__(self, nucleon_file: pt.NucleonUnion, electron_file: pt.ElectronUnion, screen, tasked_num):
# 导入原子对象
self.reported = set()
self.nucleon_file = nucleon_file
@@ -16,30 +39,32 @@ class Reactor():
self.atoms_new = list()
self.atoms_review = list()
counter = self.tasked_num
self.electron_dict = {elect.content: elect for elect in electron_file.datalist}
self.screen = screen
self.electron_dict = electron_file.electrons_dict
def electron_dict_get_fallback(key) -> pt.Electron:
value = self.electron_dict.get(key)
# 如果值不存在,则设置默认值
if value is None:
value = pt.Electron(key, {}) # 获取默认值
self.electron_dict[key] = value # 将默认值存入字典
value = self.electron_dict[key]
electron_file.sync()
return value # 返回获取的值(可能是默认值)
for nucleon in nucleon_file.datalist:
atom = (electron_dict_get_fallback(nucleon.content), nucleon)
if atom[0].is_activated == 0:
for nucleon in nucleon_file.nucleons:
# atom = (Electron, Nucleon, Positron) 即 (记忆元数据, 内容元数据, 运行时数据)
atom = (electron_dict_get_fallback(nucleon.content), nucleon, {}) # 使用 "Positron" 代称 atom[2]
atom[2]["testdata"] = nucleon_file.testdata
atom[2]["keydata"] = nucleon_file.keydata
if atom[0]["is_activated"] == 0:
if counter > 0:
atom[0].is_activated = 1
atom[2]["is_new_activation"] = 1
atom[0]["is_activated"] = 1
self.atoms_new.append(atom)
counter -= 1
else:
if atom[0].next_date <= aux.get_daystamp():
atom[0].last_date = aux.get_daystamp()
atom[2]["is_new_activation"] = 0
if int(atom[0]["next_date"]) <= aux.get_daystamp():
atom[0]["last_date"] = aux.get_daystamp()
self.atoms_review.append(atom)
# 设置运行时
self.index: int
@@ -47,9 +72,10 @@ class Reactor():
self.failed: list
self.round_title: str
self.reported: set
self.current_atom: typing.Tuple[pt.Electron, pt.Nucleon]
self.current_atom: typing.Tuple[pt.Electron, pt.Nucleon, dict]
self.round_set = 0
self.current_atom = pt.Atom.placeholder()
#print(self.atoms_new)
def set_round(self, title, procession):
self.round_set = 1
@@ -67,7 +93,7 @@ class Reactor():
processions = {
1: self.atoms_review,
2: self.atoms_new,
3: list(set(self.atoms_new + self.atoms_review))
3: (self.atoms_new + self.atoms_review)
}
ret = 1
if stage == 1 and len(processions[1]) == 0:
@@ -77,6 +103,12 @@ class Reactor():
return ret
def forward(self, step = 1):
"""
返回值规则:
1: 重定向至 failed
-1: 此轮已完成
0: 下一个记忆单元
"""
if self.index + step >= len(self.procession):
if len(self.failed) > 0:
self.procession = self.failed
@@ -91,18 +123,22 @@ class Reactor():
return -1 # 此轮已完成
self.index += step
self.current_atom = self.procession[self.index]
self.current_appar = Apparatus(self.screen, self, self.current_atom).iterator()
return 0
def save(self):
print("Progress saved")
# self.nucleon_file.save()
temp = list()
for i in self.electron_dict.keys():
temp.append(self.electron_dict[i])
self.electron_file.datalist = temp
self.electron_file.save()
def report(self, atom, quality):
"""
0: 初次激活/通过
1: 不通过
"""
if atom in self.atoms_new:
atom[0].revisor(quality, True)
return 0
if atom[0] not in self.reported:
atom[0].revisor(quality)
self.reported.add(atom[0])

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requirements.txt Normal file
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@@ -0,0 +1,8 @@
aiohttp==3.12.13
aiohttp_jinja2==1.6
edge_tts==7.0.2
Jinja2==3.1.6
playsound==1.2.2
rich==14.1.0
textual==5.0.1
toml==0.10.2

15
styles.tcss
View File

@@ -1,16 +1,23 @@
Screen {
align: center middle;
align: center bottom;
}
#main_container {
align: center middle;
width: 80%;
width: 95%;
height: auto;
border: thick $primary-lighten-2;
padding: 2;
}
#vice_container {
align: center middle;
width: 95%;
height: auto;
padding: 2;
}
#sentence {
content-align: center middle;
width: 100%;
@@ -52,4 +59,4 @@ Button {
margin-bottom: 0;
align-horizontal: center;
width: 40%;
}
}

45
testfield/blank_maker.py Normal file
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@@ -0,0 +1,45 @@
import random
class BlankPuzzle():
"""填空题谜题生成器
Args:
text: 原始字符串(需要 "/" 分割句子, 末尾应有 "/")
min_denominator: 最小概率倒数(如占所有可生成填空数的 1/7 中的 7, 若期望值小于 1, 则取 1)
"""
def __init__(self, text, min_denominator):
self.text = text
self.min_denominator = min_denominator
self.wording = "填空题 - 尚未刷新谜题"
self.answer = ["填空题 - 尚未刷新谜题"]
def refresh(self): # 刷新谜题
placeholder = "___SLASH___"
tmp_text = self.text.replace("/", placeholder)
words = tmp_text.split(placeholder)
if not words:
return ""
words = [word for word in words if word]
num_blanks = min(max(1, len(words) // self.min_denominator), len(words))
indices_to_blank = random.sample(range(len(words)), num_blanks)
indices_to_blank.sort()
blanked_words = list(words)
answer = list()
for index in indices_to_blank:
blanked_words[index] = "__" * len(words[index])
answer.append(words[index])
result = []
for word in blanked_words:
result.append(word)
self.answer = answer
self.wording = "".join(result)
def __str__(self):
return f"{self.wording}\n{str(self.answer)}"
# demo
text = """我联合国人民/同兹/决心/: /欲免/后世/再遭/今代人类/两度/身历/惨不堪言/之战祸/.../"""
riddle = BlankPuzzle(text, 3)
print(riddle)
riddle.refresh()
print(riddle)

45
testfield/selection_maker.py Normal file
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@@ -0,0 +1,45 @@
import random
class SelectionPuzzle():
"""选择题谜题生成器
Args:
text: 原始字符串(需要 "/" 分割句子, 末尾应有 "/")
min_denominator: 最小概率倒数(如占所有可生成填空数的 1/7 中的 7, 若期望值小于 1, 则取 1)
"""
def __init__(self, prefix_text, origin_dict, min_denominator):
self.text = text
self.min_denominator = min_denominator
self.wording = "填空题 - 尚未刷新谜题"
self.answer = ["填空题 - 尚未刷新谜题"]
def refresh(self): # 刷新谜题
placeholder = "___SLASH___"
tmp_text = self.text.replace("/", placeholder)
words = tmp_text.split(placeholder)
if not words:
return ""
words = [word for word in words if word]
num_blanks = min(max(1, len(words) // self.min_denominator), len(words))
indices_to_blank = random.sample(range(len(words)), num_blanks)
indices_to_blank.sort()
blanked_words = list(words)
answer = list()
for index in indices_to_blank:
blanked_words[index] = "__" * len(words[index])
answer.append(words[index])
result = []
for word in blanked_words:
result.append(word)
self.answer = answer
self.wording = "".join(result)
def __str__(self):
return f"{self.wording}\n{str(self.answer)}"
# demo
text = """我联合国人民/同兹/决心/: /欲免/后世/再遭/今代人类/两度/身历/惨不堪言/之战祸/.../"""
riddle = BlankPuzzle(text, 3)
print(riddle)
riddle.refresh()
print(riddle)

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