更新自述文件

.gitignore

@@ -3,3 +3,4 @@
 __pycache__/
 scripts/
 .idea
+cache

CONTRIBUTING.md

@@ -0,0 +1,7 @@
+# 贡献指南
+## 使用 Nuitka 静态编译
+运行
+
+```bash
+nuitka --clang --jobs=6 --standalone --onefile main.py   
+```

README.md

@@ -3,8 +3,7 @@
 
 ## 概述
 
-"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
-
+"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/理解型知识设计的辅助记忆软件, 提供动态规划的优化记忆方案
 
 ## 技术集成与特性
 
@@ -13,10 +12,10 @@
 - 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，优化长期记忆保留率与稳定性
+> 使用 SM-15 的变体:  
+> SM-2 后续算法并非完全开放, 故使用一种基于 SM-15 描述实现的变体算法
+- 动态规划每个记忆单元的记忆间隔时间表
+- 动态跟踪记忆反馈数据，优化长期记忆保留率与稳定性
 
 ### 学习进程优化
 - 逐字解析：支持逐字详细释义解析
@@ -30,12 +29,19 @@
 - 简洁直观的复习流程设计
 
 ## 屏幕截图
-![scrshot2](readme_src/image_2.png)
-![scrshot1](readme_src/image_1.png)
+
+> 单击图片以放大
+
+<img src="./readme_src/img1.png" alt="img1" style="zoom: 33%;" />
+<img src="./readme_src/img2.png" alt="img2" style="zoom:33%;" />
+<img src="./readme_src/img3.png" alt="img3" style="zoom:33%;" />
+<img src="./readme_src/img4.png" alt="img4" style="zoom:33%;" />
 
 ## 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
@@ -63,9 +69,3 @@ graph TD
 
 - 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   
-```

auxiliary.py

@@ -1,33 +1,46 @@
 import time
 import pathlib
 import toml
+import typing
 
-class ConfigFile():
-    def __init__(self, path):
+class ConfigFile:
+    def __init__(self, path: str):
         self.path = pathlib.Path(path)
-        if self.path.exists() == 0:
+        if not self.path.exists():
             self.path.touch()
         self.data = dict()
+        self._load()
+
+    def _load(self):
+        """从文件加载配置数据"""
         with open(self.path, 'r') as f:
+            try:
                 self.data = toml.load(f)
-    def modify(self, key, value):
+            except toml.TomlDecodeError:
+                self.data = {}
+
+    def modify(self, key: str, value: typing.Any):
+        """修改配置值并保存"""
         self.data[key] = value
         self.save()
-    def save(self, path=""):
-        if path == "":
-            path = self.path
-        with open(path, 'w') as f:
+
+    def save(self, path: typing.Union[str, pathlib.Path] = ""):
+        """保存配置到文件"""
+        save_path = pathlib.Path(path) if path else self.path
+        with open(save_path, 'w') as f:
             toml.dump(self.data, f)
-    def get(self, key, default = None):
+
+    def get(self, key: str, default: typing.Any = None) -> typing.Any:
+        """获取配置值，如果不存在返回默认值"""
         return self.data.get(key, default)
 
-def get_daystamp() -> int:
-    config = ConfigFile("config.toml")
 
+def get_daystamp() -> int:
+    """获取当前日戳(以天为单位的整数时间戳)"""
+    config = ConfigFile("config.toml")
     time_override = config.get("time_override", -1)
     
-    if time_override is not None and time_override != -1:
-        #print(f"TIME OVERRIDEED TO {time_override}")
+    if time_override != -1:
         return int(time_override)
     
     return int(time.time() // (24 * 3600))

compositions.py

@@ -0,0 +1,296 @@
+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
+
+
+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"))
+
+
+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_):
+        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))),
+                )
+        for i in self.atom[2]["testdata"]["additional_inf"]:
+            if 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(): # type: ignore
+                        # 弱智的 Pylance 类型推导 
+                        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_):
+        if type_ == "button":
+            if event.button.id == self.getid("ok"):
+                self.reactor.report(self.atom, 5)
+                return 0
+        return -1
+
+
+class BasicEvaluation(Composition):
+    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:
+            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"))
+        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":
+                if len(self.inputlist) > 0:
+                    self.inputlist.pop()
+                else:
+                    return 1
+            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:
+                    self.reactor.report(self.atom, 4)
+                    return 0
+                else:
+                    self.inputlist = []
+                    self.reactor.report(self.atom, 2)
+                    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: ")  # type: ignore
+        self.puzzle.refresh()
+
+    def compose(self):
+        yield Label(self.atom[1].content.replace("/",""), 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"))
+        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":
+                if len(self.inputlist) > 0:
+                    self.inputlist.pop()
+                else:
+                    return 1
+            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:
+                    self.reactor.report(self.atom, 4)
+                    return 0
+                else:
+                    self.inputlist = []
+                    self.reactor.report(self.atom, 2)
+                    return 1
+
+
+registry = {
+    "sample": Composition,
+    "recognition": Recognition,
+    "fill_blank_test": FillBlank,
+    "draw_card_test": DrawCard,
+    "basic_evaluation": BasicEvaluation,
+}
+
+
+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()

config.toml

@@ -1,8 +1,14 @@
 # [调试] 将更改保存到文件
 save = 1
+
 # [调试] 覆写时间
-time_override = 11
+time_override = -1
+
+# [调试] 一键通过
+quick_pass = 0
+
 # 对于每个项目的新记忆核子数量
-tasked_number = 12
-# 竖屏适配
+tasked_number = 8
+
+# 竖屏适配 (未完成)
 mobile_mode = 1

install.bat

@@ -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

install.sh

@@ -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"

main.py

@@ -1,153 +1,155 @@
 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
+import builtins
 
-ver = '0.2.9'
+# Hook python 的 open() 函数, 使用 utf-8 (兼容 Windows 万年 GBK)
+
+_original_open = builtins.open
+
+def _open(*args, **kwargs):
+    if "encoding" not in kwargs:
+        kwargs["encoding"] = "utf-8"
+    return _original_open(*args, **kwargs)
+
+builtins.open = _open
+
+ver = "0.3.0"
 
 config = aux.ConfigFile("config.toml")
 
+
 class MemScreen(Screen):
     BINDINGS = [
         ("d", "toggle_dark", "改变色调"),
         ("q", "pop_screen", "返回主菜单"),
         ("v", "play_voice", "朗读"),
-        ("0", "press('q0')", None),
-        ("1", "press('q1')", None),
-        ("2", "press('q2')", None),
-        ("3", "press('q3')", None),
-        ("4", "press('q4')", None),
-        ("5", "press('q5')", None),
-        ("[", "press('q5')", None),
-        ("]", "press('q4')", None),
-        (";", "press('q3')", None),
-        ("'", "press('q2')", None),
-        (".", "press('q1')", None),
-        ("/", "press('q0')", None),
     ]
+    if config.get("quick_pass"):
+        BINDINGS.append(("k", "quick_pass", "快速通过[调试]"))
     btn = dict()
+
     def __init__(
         self,
         nucleon_file: pt.NucleonUnion,
         electron_file: pt.ElectronUnion,
-        tasked_num
+        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)
         self.reactor.forward()
+        self.compo = next(self.reactor.current_appar)
 
     def compose(self) -> ComposeResult:
         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"):
-                if 1:
-                    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 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', ''))
-        assessment = self.reactor.report(self.reactor.current_atom, quality)
-        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:
-            ret = self.reactor.forward(1)
+        ret = self.compo.handler(event, "button")
+        self._forward_judge(ret)
+
+    def _forward_judge(self, ret):
         if ret == -1:
+            return
+        if ret == 0:
+            try:
+                self.compo = next(self.reactor.current_appar)
+                self.refresh_ui()
+            except StopIteration:
+                nxt = self.reactor.forward(1)
+                try:
+                    self.compo = next(self.reactor.current_appar)
+                except:
+                    pass
+                if nxt == -1:
                     if self.reactor.round_set == 0:
                         if self.stage == 4:
-                        # NOTE #
                             if config.get("save"):
                                 self.reactor.save()
-                        self._show_finished_screen("今日目标已完成")
+                            self.compo = compo.Finished(
+                                self, None, pt.Atom.placeholder()
+                            )
+                            self.refresh_ui()
                         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
-        #feedback_label.update("") # 清除反馈消息
-            self._update_ui()
-    def action_press(self, btnid):
-        self.on_button_pressed(btnid)
+                    return
+                else:
+                    self.refresh_ui()
+                    return
+        if ret == 1:
+            self.refresh_ui()
+            return
+
+    def refresh_ui(self):
+        self.call_later(self.recompose)
 
     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_dir.mkdir(parents=True, exist_ok=True)
+            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()
 
+    def action_quick_pass(self):
+        self.reactor.report(self.reactor.current_atom, 5)
+        self._forward_judge(0)
     def action_toggle_dark(self):
         self.app.action_toggle_dark()
 
     def action_pop_screen(self):
-        """返回到上一个屏幕"""
         self.app.pop_screen()
 
-class PreparationScreen(Screen):
-    BINDINGS = [
-        ("q", "go_back", "返回"),
-        ("escape", "quit_app", "退出")
-    ]
 
-    def __init__(self, nucleon_file: pt.NucleonUnion, electron_file: pt.ElectronUnion) -> None:
+class PreparationScreen(Screen):
+    BINDINGS = [("q", "go_back", "返回"), ("escape", "quit_app", "退出")]
+
+    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
@@ -156,18 +158,27 @@ class PreparationScreen(Screen):
         yield Header(show_clock=True)
         with Container(id="learning_screen_container"):
             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:{len(self.nucleon_file)}")
-            yield Button("开始记忆", id="start_memorizing_button", variant="primary", classes="start-button")
+            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._get_full_content(), classes="full")
+            yield Static(self._get_full_content().replace("/", ""), classes="full")
         yield Footer()
 
     def _get_full_content(self):
         content = ""
         for i in self.nucleon_file.nucleons:
-            content += i['content']
+            content += i["content"]
         return content
 
     def action_go_back(self):
@@ -177,76 +188,79 @@ class PreparationScreen(Screen):
         self.app.exit()
 
     def on_button_pressed(self, event: Button.Pressed) -> None:
-        pass
         if event.button.id == "start_memorizing_button":
-            #init_file(Path(self.atom_file).name)
-            newscr = MemScreen(self.nucleon_file, self.electron_file, config.get("tasked_number", 8))
-            self.app.push_screen(
-                newscr
+            newscr = MemScreen(
+                self.nucleon_file, self.electron_file, config.get("tasked_number", 8)
             )
-        #if event.button.id == "edit_metadata_button":
-        #    init_file(Path(self.atom_file).name)
-        #    os.system("reset;nano ./data/" + str(Path(self.atom_file).name.replace(".txt", "_atoms.json")))
+            self.app.push_screen(newscr)
+
 
 class FileSelectorScreen(Screen):
     global ver
+
     def compose(self) -> ComposeResult:
         yield Header(show_clock=True)
         yield Container(
             Label(f'欢迎使用 "潜进" 辅助记忆软件, 版本 {ver}', classes="title-label"),
             Label("选择要学习的文件:", classes="title-label"),
-            ListView(id="file-list", classes="file-list-view")
+            ListView(id="file-list", classes="file-list-view"),
         )
         yield Footer()
 
     def on_mount(self) -> None:
         file_list_widget = self.query_one("#file-list", ListView)
         nucleon_path = pathlib.Path("./nucleon")
-        nucleon_files = sorted([f.name for f in nucleon_path.iterdir() if f.suffix == ".toml"])
+        nucleon_files = sorted(
+            [f.name for f in nucleon_path.iterdir() if f.suffix == ".toml"]
+        )
 
         if nucleon_files:
             for filename in nucleon_files:
                 file_list_widget.append(ListItem(Label(filename)))
         else:
-            file_list_widget.append(ListItem(Static("在 ./nucleon/ 中未找到任何核子文件. 请放置文件后重启应用.")))
+            file_list_widget.append(
+                ListItem(Static("在 ./nucleon/ 中未找到任何核子文件. 请放置文件后重启应用."))
+            )
             file_list_widget.disabled = True
 
     def on_list_view_selected(self, event: ListView.Selected) -> None:
         if not isinstance(event.item, ListItem):
-            self.notify("无法选择此项。", severity="error")
             return
 
         selected_label = event.item.query_one(Label)
         if "未找到任何 .toml 文件" in str(selected_label.renderable):
-            self.notify("请先在 `./atoms/` 目录中放置 .toml 文件。", severity="warning")
             return
 
         selected_filename = str(selected_label.renderable)
-        nucleon_file = pt.NucleonUnion(pathlib.Path("./nucleon") / selected_filename)
+        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.ElectronUnion(pathlib.Path("./electron") / selected_filename)
-        # self.notify(f"已选择: {selected_filename}", timeout=2)
+        electron_file = pt.ElectronUnion(
+            pathlib.Path("./electron") / selected_filename
+        )
         self.app.push_screen(PreparationScreen(nucleon_file, electron_file))
 
     def action_quit_app(self) -> None:
         self.app.exit()
 
+
 class AppLauncher(App):
     CSS_PATH = "styles.tcss"
-    TITLE = '潜进 - 辅助记忆程序'
+    TITLE = "潜进 - 辅助记忆程序"
     BINDINGS = [("escape", "quit", "退出"), ("d", "toggle_dark", "改变色调")]
     SCREENS = {
         "file_selection_screen": FileSelectorScreen,
     }
 
     def on_mount(self) -> None:
-        self.action_toggle_dark()
         self.push_screen("file_selection_screen")
 
+
 if __name__ == "__main__":
     app = AppLauncher()
     app.run()

nucleon/陈情表.toml

@@ -7,148 +7,148 @@ translation = "语句翻译"
 # 测试项目元数据
 ["testdata"]
 # 记忆时显示的额外信息
-additional_inf = ["translation", "note"]
-# 填空测试
-fill_blank = ["translation"]
+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 = ["keyword_note"]
+draw_card_test = {"from"=["keyword_note"]}
 
-["臣密言：臣以险衅, 夙遭闵凶."]
+["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"}
+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"}  
 
-["生孩六月, 慈父见背；行年四岁, 舅夺母志."]
+["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"
+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）"}  
 
-["祖母刘愍臣孤弱, 躬亲抚养."]
+["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"
+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"}  
 
-["臣少多疾病, 九岁不行, 零丁孤苦, 至于成立."]
+["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"
+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"}  
 
-["既无伯叔, 终鲜兄弟, 门衰祚薄, 晚有儿息."]
+["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 = {"鲜"="少，这里指'无'", "祚薄"="福分浅薄", "儿息"="亲生子女"}
+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 = {"鲜"="少, 这里指'无'", "祚薄"="福分浅薄", "儿息"="亲生子女"}  
 
-["外无期功强近之亲, 内无应门五尺之僮, 茕茕孑立, 形影相吊."]
+["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"
+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"}  
 
-["而刘夙婴疾病, 常在床蓐, 臣侍汤药, 未曾废离."]
+["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 = {"婴"="被...缠绕", "蓐"="通'褥'，床垫", "废"="停止服侍", "离"="离开"}
+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 = {"婴"="被...缠绕", "蓐"="通'褥', 床垫", "废"="停止服侍", "离"="离开"}  
 
-["逮奉圣朝, 沐浴清化."]
+["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"}
+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"}  
 
-["前太守臣逵察臣孝廉；后刺史臣荣举臣秀才."]
+["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 = {"察"="考察和推举", "孝廉"="孝顺，品性纯洁", "举"="推举", "秀才"="优秀人才"}
+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 = {"察"="考察和推举", "孝廉"="孝顺, 品性纯洁", "举"="推举", "秀才"="优秀人才"}  
 
-["臣以供养无主, 辞不赴命."]
+["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"
+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"}  
 
-["诏书特下, 拜臣郎中, 寻蒙国恩, 除臣洗马."]
+["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"
+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", "除"="拜官受职", "洗马"="太子的属官"}  
 
-["猥以微贱, 当侍东宫, 非臣陨首所能上报."]
+["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"
+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 = {"猥"="谦词", "微贱"="卑微低贱", "东宫"="太子居处", "陨首"="杀身"}  
 
-["臣具以表闻, 辞不就职."]
+["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"
+translation = "我将以上苦衷上表报告, 加以推辞不去就职"  
 keyword_note = {"具"="详细", "闻"="使...知道"}  
 
-["诏书切峻, 责臣逋慢；郡县逼迫, 催臣上道；州司临门, 急于星火."]
+["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"}
+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"}  
 
-["臣欲奉诏奔驰, 则刘病日笃, 欲苟顺私情, 则告诉不许."]
+["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"
+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"}  
 
-["臣之进退, 实为狼狈."]
+["臣/之/进退/, 实为/狼狈./"]  
 note = []  
-translation = "我是进退两难，十分狼狈"
+translation = "我是进退两难, 十分狼狈"  
 keyword_note = {"狼狈"="进退两难的样子"}  
 
-["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."]
+["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"
+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"}  
 
-["且臣少仕伪朝, 历职郎署, 本图宦达, 不矜名节."]
+["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"
+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"}  
 
-["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！"]
+["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"
+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"}  
 
-["但以刘日薄西山, 气息奄奄, 人命危浅, 朝不虑夕."]
+["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"}
+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"}  
 
-["臣无祖母, 无以至今日, 祖母无臣, 无以终余年."]
+["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"
+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"}  
 
-["母孙二人, 更相为命, 是以区区不能废远."]
+["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"
+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."]
+["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"
+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 = {"有"="又", "尽节"="尽忠节"}  
 
-["乌鸟私情, 愿乞终养."]
+["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"}
+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."]
+["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"
+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"}  
 
-["愿陛下矜悯愚诚, 听臣微志, 庶刘侥幸, 保卒余年."]
+["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"
+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."]
+["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"}
+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."]
+["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"
+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"}

particles.py

@@ -3,9 +3,8 @@ import toml
 import time
 import auxiliary as aux
 
-import time
 
-class Electron():
+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
 
@@ -13,7 +12,7 @@ class Electron():
         self.content = content
         self.metadata = metadata
         if metadata == {}:
-            #print("NULL")
+            # print("NULL")
             self._default_init()
 
     def _default_init(self):
@@ -49,10 +48,13 @@ class Electron():
         Args:
             quality (int): 记忆保留率量化参数
         """
+        print(f"REVISOR: {quality}, {is_new_activation}")
         if quality == -1:
             return -1
 
-        self.metadata['efactor'] = self.metadata['efactor'] + (0.1 - (5 - quality) * (0.08 + (5 - quality) * 0.02))
+        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:
@@ -73,19 +75,23 @@ class Electron():
         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['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"
+        return (
+            f"记忆单元预览 \n"
             f"内容: '{self.content}' \n"
             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']} 天 \n"
-                f"下次复习日期时间戳: {self.metadata['next_date']}")
+            f"下次复习日期时间戳: {self.metadata['next_date']}"
+        )
 
     def __eq__(self, other):
         if self.content == other.content:
@@ -106,10 +112,6 @@ class Electron():
     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()
 
@@ -123,6 +125,7 @@ class Electron():
     def placeholder():
         return Electron("电子对象样例内容", {})
 
+
 class Nucleon:
     """核子: 材料元数据"""
 
@@ -151,7 +154,8 @@ class Nucleon:
     def placeholder():
         return Nucleon("核子对象样例内容", {})
 
-class NucleonUnion():
+
+class NucleonUnion:
     """
     替代原有 NucleonFile 类, 支持复杂逻辑
 
@@ -166,6 +170,7 @@ class NucleonUnion():
     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, "")
@@ -189,8 +194,10 @@ class NucleonUnion():
             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"
+
+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, "")
@@ -207,13 +214,15 @@ class ElectronUnion():
         self.electrons = self.electrons_dict.values()
 
     def save(self):
-        #print(1)
+        # print(1)
         with open(self.path, 'w') as f:
             tmp = {i.content: i.metadata for i in self.electrons}
-            #print(tmp)
+            # print(tmp)
             toml.dump(tmp, f)
 
-"""class AtomicFile():
+
+"""
+class AtomicFile():
     def __init__(self, path, type_="unknown"):
         self.path = path
         self.type_ = type_
@@ -237,10 +246,42 @@ class ElectronUnion():
         return ""
     def get_len(self):
         return len(self.datalist)
-
 """
 
-class Atom():
+
+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）",
+                        "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"
+                    }
+                }
+            ),
+            {
+                "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
+            }
+        )

playsound_android.py

@@ -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}'")

precaching.py

@@ -0,0 +1,52 @@
+# 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: str):
+    """预缓存单个文本的音频"""
+    cache_dir = Path("./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: Path):
+    """处理单个文件"""
+    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(i['content'])
+
+
+def walk(path_str: str):
+    """遍历目录处理所有文件"""
+    path = Path(path_str)
+    print(f"正在遍历目录: {path}")
+    
+    for item in path.iterdir():
+        if item.is_file() and 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}")
+
+
+if __name__ == "__main__":
+    print("音频预缓存实用程序")
+    print("A: 全部缓存")
+    print("C: 清空缓存")
+    
+    choice = input("输入选项 $ ").upper()
+    
+    if choice == "A":
+        walk("./nucleon")
+    elif choice == "C":
+        shutil.rmtree("./cache/voice", ignore_errors=True)
+        print("缓存已清空")

puzzles.py

@@ -0,0 +1,121 @@
+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: str, min_denominator: int):
+        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])
+        self.answer = answer
+        self.wording = "".join(blanked_words)
+
+    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: dict,
+        jammer: list,
+        max_riddles_num: int = 2,
+        prefix: str = ""
+    ):
+        self.prefix = prefix
+        self.mapping = mapping
+        self.jammer = list(set(jammer + list(mapping.values())))
+        while len(self.jammer) < 4:
+            self.jammer.append(" ")
+        self.max_riddles_num = max(1, min(max_riddles_num, 5))
+        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
+        
+        num_questions = min(self.max_riddles_num, len(self.mapping))
+        questions = random.sample(list(self.mapping.items()), num_questions)
+        puzzles = []
+        answers = []
+        all_options = []
+        
+        for question, correct_answer in questions:
+            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 in enumerate(puzzles):
+            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)}"
+
+if __name__ == "__main__":
+    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)

reactor.py

@@ -2,42 +2,67 @@ 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.NucleonUnion, electron_file: pt.ElectronUnion, 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
         self.electron_file = electron_file
         self.tasked_num = tasked_num
         self.atoms_new = list()
         self.atoms_review = list()
         counter = self.tasked_num
-
+        self.screen = screen
         self.electron_dict = electron_file.electrons_dict
-
+        self.quality_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
                 electron_file.sync()
-            
             return value  # 返回获取的值（可能是默认值）
 
         for nucleon in nucleon_file.nucleons:
-            atom = (electron_dict_get_fallback(nucleon.content), nucleon)
+            # 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[2]["is_new_activation"] = 1
                     atom[0]["is_activated"] = 1
                     self.atoms_new.append(atom)
                     counter -= 1
             else:
+                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)
@@ -46,10 +71,10 @@ class Reactor():
         self.procession: list
         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
@@ -64,13 +89,10 @@ class Reactor():
             2: "新记忆模式",
             3: "总复习模式"
         }
-        print("Atoms New:", self.atoms_new)
-        print("Atoms Review:", self.atoms_review)
-
         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:
@@ -80,6 +102,12 @@ 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
@@ -94,22 +122,29 @@ 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):
+        self._deploy_report()
         print("Progress saved")
         # self.nucleon_file.save()
         self.electron_file.save()
     
+    def _deploy_report(self):
+        "部署所有 _report"
+        for e, q in self.quality_dict.items():
+            if q == -1:
+                e.revisor(5, True)
+                continue
+            e.revisor(q)
     def report(self, atom, quality):
+        "向反应器和最低质量记录汇报"
         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])
+            self.quality_dict[atom[0]] = -1
+            print(self.quality_dict)
+            return
+        self.quality_dict[atom[0]] = min(quality, self.quality_dict.get(atom[0], 5))
         if quality <= 3:
             self.failed.append(atom)
-            return 1
-        else:
-            return 0
+        print(self.quality_dict)

requirements.txt

@@ -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

styles.tcss

@@ -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%;

todo.md

@@ -1,3 +0,0 @@
-- [] 基于释义的评估
-> 使用 EFACTOR 取最低值方法
-- [] 附加属性