diff --git a/工具v3/Qt面板.ui b/工具v3/Qt面板.ui new file mode 100644 index 00000000..4d0c29b5 --- /dev/null +++ b/工具v3/Qt面板.ui @@ -0,0 +1,211 @@ + + + MainWindow + + + + 0 + 0 + 426 + 330 + + + + 题库工具面板(PyQt)-20240301 + + + + + + 0 + 0 + 426 + 22 + + + + + 录入 + + + + + + + + + + + 维护 + + + + + + + + + + + + + + + + + + + + 使用 + + + + + + + + + + + + + 备课组 + + + + + + + + + LaTeX代码相关 + + + + + + + + + + + + + + 寻找空闲题号 + + + + + 新题比对 + + + + + 批量收录新题 + + + + + 添加关联题目 + + + + + 批量添加字段数据 + + + + + 小闲使用记录导入 + + + + + 手动使用记录导入 + + + + + 统考使用记录导入 + + + + + 合并使用记录并排序 + + + + + 单元挂钩 + + + + + 提取答案 + + + + + 关键字筛选题号 + + + + + 选题编译 + + + + + 题号生成图片 + + + + + 添加基础知识梳理 + + + + + 讲义结构编号录入 + + + + + 录入答题纸对应信息 + + + + + 系列讲义生成 + + + + + 获取题号 + + + + + 文本转换处理 + + + + + 编辑题目 + + + + + 生成直方图代码 + + + + + 根据正确率选择题号 + + + + + + diff --git a/工具v3/Ui_Qt面板.py b/工具v3/Ui_Qt面板.py new file mode 100644 index 00000000..d3578b09 --- /dev/null +++ b/工具v3/Ui_Qt面板.py @@ -0,0 +1,171 @@ +# -*- coding: utf-8 -*- + +################################################################################ +## Form generated from reading UI file 'Qt面板.ui' +## +## Created by: Qt User Interface Compiler version 6.6.2 +## +## WARNING! All changes made in this file will be lost when recompiling UI file! +################################################################################ + +from PySide6.QtCore import (QCoreApplication, QDate, QDateTime, QLocale, + QMetaObject, QObject, QPoint, QRect, + QSize, QTime, QUrl, Qt) +from PySide6.QtGui import (QAction, QBrush, QColor, QConicalGradient, + QCursor, QFont, QFontDatabase, QGradient, + QIcon, QImage, QKeySequence, QLinearGradient, + QPainter, QPalette, QPixmap, QRadialGradient, + QTransform) +from PySide6.QtWidgets import (QApplication, QMainWindow, QMenu, QMenuBar, + QSizePolicy, QStatusBar, QWidget) + +class Ui_MainWindow(object): + def setupUi(self, MainWindow): + if not MainWindow.objectName(): + MainWindow.setObjectName(u"MainWindow") + MainWindow.resize(426, 330) + self.action_kxth = QAction(MainWindow) + self.action_kxth.setObjectName(u"action_kxth") + self.action_xtbd = QAction(MainWindow) + self.action_xtbd.setObjectName(u"action_xtbd") + self.action_plsl = QAction(MainWindow) + self.action_plsl.setObjectName(u"action_plsl") + self.action_tjgl = QAction(MainWindow) + self.action_tjgl.setObjectName(u"action_tjgl") + self.action_tjzd = QAction(MainWindow) + self.action_tjzd.setObjectName(u"action_tjzd") + self.action_xxdr = QAction(MainWindow) + self.action_xxdr.setObjectName(u"action_xxdr") + self.action_sddr = QAction(MainWindow) + self.action_sddr.setObjectName(u"action_sddr") + self.action_tkdr = QAction(MainWindow) + self.action_tkdr.setObjectName(u"action_tkdr") + self.action_hbsy = QAction(MainWindow) + self.action_hbsy.setObjectName(u"action_hbsy") + self.action_dygg = QAction(MainWindow) + self.action_dygg.setObjectName(u"action_dygg") + self.action_tqda = QAction(MainWindow) + self.action_tqda.setObjectName(u"action_tqda") + self.action_sxth = QAction(MainWindow) + self.action_sxth.setObjectName(u"action_sxth") + self.action_xtby = QAction(MainWindow) + self.action_xtby.setObjectName(u"action_xtby") + self.action_sctp = QAction(MainWindow) + self.action_sctp.setObjectName(u"action_sctp") + self.action_tjjc = QAction(MainWindow) + self.action_tjjc.setObjectName(u"action_tjjc") + self.action_jglr = QAction(MainWindow) + self.action_jglr.setObjectName(u"action_jglr") + self.action_dtdy = QAction(MainWindow) + self.action_dtdy.setObjectName(u"action_dtdy") + self.action_jysc = QAction(MainWindow) + self.action_jysc.setObjectName(u"action_jysc") + self.action_hqth = QAction(MainWindow) + self.action_hqth.setObjectName(u"action_hqth") + self.action_wbzh = QAction(MainWindow) + self.action_wbzh.setObjectName(u"action_wbzh") + self.action_bjtm = QAction(MainWindow) + self.action_bjtm.setObjectName(u"action_bjtm") + self.action_hist = QAction(MainWindow) + self.action_hist.setObjectName(u"action_hist") + self.action_xzth = QAction(MainWindow) + self.action_xzth.setObjectName(u"action_xzth") + self.centralwidget = QWidget(MainWindow) + self.centralwidget.setObjectName(u"centralwidget") + MainWindow.setCentralWidget(self.centralwidget) + self.menubar = QMenuBar(MainWindow) + self.menubar.setObjectName(u"menubar") + self.menubar.setGeometry(QRect(0, 0, 426, 22)) + self.menu_luru = QMenu(self.menubar) + self.menu_luru.setObjectName(u"menu_luru") + self.menu_weihu = QMenu(self.menubar) + self.menu_weihu.setObjectName(u"menu_weihu") + self.menu_shiyong = QMenu(self.menubar) + self.menu_shiyong.setObjectName(u"menu_shiyong") + self.menu_beikezu = QMenu(self.menubar) + self.menu_beikezu.setObjectName(u"menu_beikezu") + self.menu_latex = QMenu(self.menubar) + self.menu_latex.setObjectName(u"menu_latex") + MainWindow.setMenuBar(self.menubar) + self.statusbar = QStatusBar(MainWindow) + self.statusbar.setObjectName(u"statusbar") + MainWindow.setStatusBar(self.statusbar) + + self.menubar.addAction(self.menu_luru.menuAction()) + self.menubar.addAction(self.menu_weihu.menuAction()) + self.menubar.addAction(self.menu_shiyong.menuAction()) + self.menubar.addAction(self.menu_beikezu.menuAction()) + self.menubar.addAction(self.menu_latex.menuAction()) + self.menu_luru.addAction(self.action_kxth) + self.menu_luru.addSeparator() + self.menu_luru.addAction(self.action_xtbd) + self.menu_luru.addAction(self.action_plsl) + self.menu_luru.addSeparator() + self.menu_luru.addAction(self.action_tjgl) + self.menu_weihu.addAction(self.action_tjzd) + self.menu_weihu.addSeparator() + self.menu_weihu.addAction(self.action_bjtm) + self.menu_weihu.addSeparator() + self.menu_weihu.addAction(self.action_xxdr) + self.menu_weihu.addAction(self.action_sddr) + self.menu_weihu.addAction(self.action_tkdr) + self.menu_weihu.addSeparator() + self.menu_weihu.addAction(self.action_dygg) + self.menu_weihu.addSeparator() + self.menu_weihu.addAction(self.action_tqda) + self.menu_weihu.addSeparator() + self.menu_weihu.addAction(self.action_hbsy) + self.menu_weihu.addSeparator() + self.menu_weihu.addAction(self.action_tjjc) + self.menu_shiyong.addAction(self.action_sxth) + self.menu_shiyong.addAction(self.action_xzth) + self.menu_shiyong.addSeparator() + self.menu_shiyong.addAction(self.action_xtby) + self.menu_shiyong.addSeparator() + self.menu_shiyong.addAction(self.action_sctp) + self.menu_shiyong.addSeparator() + self.menu_shiyong.addAction(self.action_hqth) + self.menu_beikezu.addAction(self.action_jglr) + self.menu_beikezu.addAction(self.action_dtdy) + self.menu_beikezu.addSeparator() + self.menu_beikezu.addAction(self.action_jysc) + self.menu_latex.addAction(self.action_wbzh) + self.menu_latex.addAction(self.action_hist) + + self.retranslateUi(MainWindow) + + QMetaObject.connectSlotsByName(MainWindow) + # setupUi + + def retranslateUi(self, MainWindow): + MainWindow.setWindowTitle(QCoreApplication.translate("MainWindow", u"\u9898\u5e93\u5de5\u5177\u9762\u677f(PyQt)-20240301", None)) + self.action_kxth.setText(QCoreApplication.translate("MainWindow", u"\u5bfb\u627e\u7a7a\u95f2\u9898\u53f7", None)) + self.action_xtbd.setText(QCoreApplication.translate("MainWindow", u"\u65b0\u9898\u6bd4\u5bf9", None)) + self.action_plsl.setText(QCoreApplication.translate("MainWindow", u"\u6279\u91cf\u6536\u5f55\u65b0\u9898", None)) + self.action_tjgl.setText(QCoreApplication.translate("MainWindow", u"\u6dfb\u52a0\u5173\u8054\u9898\u76ee", None)) + self.action_tjzd.setText(QCoreApplication.translate("MainWindow", u"\u6279\u91cf\u6dfb\u52a0\u5b57\u6bb5\u6570\u636e", None)) + self.action_xxdr.setText(QCoreApplication.translate("MainWindow", u"\u5c0f\u95f2\u4f7f\u7528\u8bb0\u5f55\u5bfc\u5165", None)) + self.action_sddr.setText(QCoreApplication.translate("MainWindow", u"\u624b\u52a8\u4f7f\u7528\u8bb0\u5f55\u5bfc\u5165", None)) + self.action_tkdr.setText(QCoreApplication.translate("MainWindow", u"\u7edf\u8003\u4f7f\u7528\u8bb0\u5f55\u5bfc\u5165", None)) + self.action_hbsy.setText(QCoreApplication.translate("MainWindow", u"\u5408\u5e76\u4f7f\u7528\u8bb0\u5f55\u5e76\u6392\u5e8f", None)) + self.action_dygg.setText(QCoreApplication.translate("MainWindow", u"\u5355\u5143\u6302\u94a9", None)) + self.action_tqda.setText(QCoreApplication.translate("MainWindow", u"\u63d0\u53d6\u7b54\u6848", None)) + self.action_sxth.setText(QCoreApplication.translate("MainWindow", u"\u5173\u952e\u5b57\u7b5b\u9009\u9898\u53f7", None)) + self.action_xtby.setText(QCoreApplication.translate("MainWindow", u"\u9009\u9898\u7f16\u8bd1", None)) + self.action_sctp.setText(QCoreApplication.translate("MainWindow", u"\u9898\u53f7\u751f\u6210\u56fe\u7247", None)) + self.action_tjjc.setText(QCoreApplication.translate("MainWindow", u"\u6dfb\u52a0\u57fa\u7840\u77e5\u8bc6\u68b3\u7406", None)) + self.action_jglr.setText(QCoreApplication.translate("MainWindow", u"\u8bb2\u4e49\u7ed3\u6784\u7f16\u53f7\u5f55\u5165", None)) + self.action_dtdy.setText(QCoreApplication.translate("MainWindow", u"\u5f55\u5165\u7b54\u9898\u7eb8\u5bf9\u5e94\u4fe1\u606f", None)) + self.action_jysc.setText(QCoreApplication.translate("MainWindow", u"\u7cfb\u5217\u8bb2\u4e49\u751f\u6210", None)) + self.action_hqth.setText(QCoreApplication.translate("MainWindow", u"\u83b7\u53d6\u9898\u53f7", None)) + self.action_wbzh.setText(QCoreApplication.translate("MainWindow", u"\u6587\u672c\u8f6c\u6362\u5904\u7406", None)) + self.action_bjtm.setText(QCoreApplication.translate("MainWindow", u"\u7f16\u8f91\u9898\u76ee", None)) + self.action_hist.setText(QCoreApplication.translate("MainWindow", u"\u751f\u6210\u76f4\u65b9\u56fe\u4ee3\u7801", None)) + self.action_xzth.setText(QCoreApplication.translate("MainWindow", u"\u6839\u636e\u6b63\u786e\u7387\u9009\u62e9\u9898\u53f7", None)) + self.menu_luru.setTitle(QCoreApplication.translate("MainWindow", u"\u5f55\u5165", None)) + self.menu_weihu.setTitle(QCoreApplication.translate("MainWindow", u"\u7ef4\u62a4", None)) + self.menu_shiyong.setTitle(QCoreApplication.translate("MainWindow", u"\u4f7f\u7528", None)) + self.menu_beikezu.setTitle(QCoreApplication.translate("MainWindow", u"\u5907\u8bfe\u7ec4", None)) + self.menu_latex.setTitle(QCoreApplication.translate("MainWindow", u"LaTeX\u4ee3\u7801\u76f8\u5173", None)) + # retranslateUi + diff --git a/工具v3/Ui_寻找空闲题号 copy.py b/工具v3/Ui_寻找空闲题号 copy.py new file mode 100644 index 00000000..61cc01d9 --- /dev/null +++ b/工具v3/Ui_寻找空闲题号 copy.py @@ -0,0 +1,48 @@ +# -*- coding: utf-8 -*- + +################################################################################ +## Form generated from reading UI file '寻找空闲题号.ui' +## +## Created by: Qt User Interface Compiler version 6.6.2 +## +## WARNING! All changes made in this file will be lost when recompiling UI file! +################################################################################ + +from PySide6.QtCore import (QCoreApplication, QDate, QDateTime, QLocale, + QMetaObject, QObject, QPoint, QRect, + QSize, QTime, QUrl, Qt) +from PySide6.QtGui import (QBrush, QColor, QConicalGradient, QCursor, + QFont, QFontDatabase, QGradient, QIcon, + QImage, QKeySequence, QLinearGradient, QPainter, + QPalette, QPixmap, QRadialGradient, QTransform) +from PySide6.QtWidgets import (QApplication, QFrame, QLabel, QLineEdit, + QPushButton, QSizePolicy, QWidget) + +class Ui_Form(object): + def setupUi(self, Form): + if not Form.objectName(): + Form.setObjectName(u"Form") + Form.resize(400, 300) + self.pushButton_SelectFilepath = QPushButton(Form) + self.pushButton_SelectFilepath.setObjectName(u"pushButton_SelectFilepath") + self.pushButton_SelectFilepath.setGeometry(QRect(20, 20, 75, 24)) + self.lineEdit_FilePath = QLineEdit(Form) + self.lineEdit_FilePath.setObjectName(u"lineEdit_FilePath") + self.lineEdit_FilePath.setGeometry(QRect(20, 50, 361, 20)) + self.label_Available = QLabel(Form) + self.label_Available.setObjectName(u"label_Available") + self.label_Available.setGeometry(QRect(20, 80, 361, 201)) + self.label_Available.setFrameShape(QFrame.StyledPanel) + self.label_Available.setAlignment(Qt.AlignLeading|Qt.AlignLeft|Qt.AlignTop) + + self.retranslateUi(Form) + + QMetaObject.connectSlotsByName(Form) + # setupUi + + def retranslateUi(self, Form): + Form.setWindowTitle(QCoreApplication.translate("Form", u"\u5bfb\u627e\u7a7a\u95f2\u9898\u53f7", None)) + self.pushButton_SelectFilepath.setText(QCoreApplication.translate("Form", u"\u9009\u62e9\u6587\u4ef6", None)) + self.label_Available.setText(QCoreApplication.translate("Form", u"TextLabel", None)) + # retranslateUi + diff --git a/工具v3/Ui_寻找空闲题号.py b/工具v3/Ui_寻找空闲题号.py new file mode 100644 index 00000000..56ed3ccd --- /dev/null +++ b/工具v3/Ui_寻找空闲题号.py @@ -0,0 +1,41 @@ +# -*- coding: utf-8 -*- + +################################################################################ +## Form generated from reading UI file '寻找空闲题号.ui' +## +## Created by: Qt User Interface Compiler version 6.6.2 +## +## WARNING! All changes made in this file will be lost when recompiling UI file! +################################################################################ + +from PySide6.QtCore import (QCoreApplication, QDate, QDateTime, QLocale, + QMetaObject, QObject, QPoint, QRect, + QSize, QTime, QUrl, Qt) +from PySide6.QtGui import (QBrush, QColor, QConicalGradient, QCursor, + QFont, QFontDatabase, QGradient, QIcon, + QImage, QKeySequence, QLinearGradient, QPainter, + QPalette, QPixmap, QRadialGradient, QTransform) +from PySide6.QtWidgets import (QApplication, QFrame, QLabel, QSizePolicy, + QWidget) + +class Ui_Form(object): + def setupUi(self, Form): + if not Form.objectName(): + Form.setObjectName(u"Form") + Form.resize(400, 229) + self.label_Available = QLabel(Form) + self.label_Available.setObjectName(u"label_Available") + self.label_Available.setGeometry(QRect(20, 10, 361, 201)) + self.label_Available.setFrameShape(QFrame.StyledPanel) + self.label_Available.setAlignment(Qt.AlignLeading|Qt.AlignLeft|Qt.AlignTop) + + self.retranslateUi(Form) + + QMetaObject.connectSlotsByName(Form) + # setupUi + + def retranslateUi(self, Form): + Form.setWindowTitle(QCoreApplication.translate("Form", u"\u5bfb\u627e\u7a7a\u95f2\u9898\u53f7", None)) + self.label_Available.setText(QCoreApplication.translate("Form", u"TextLabel", None)) + # retranslateUi + diff --git a/工具v3/database_tools_2.py b/工具v3/database_tools_2.py new file mode 100644 index 00000000..acf9a4ba --- /dev/null +++ b/工具v3/database_tools_2.py @@ -0,0 +1,2308 @@ +import json,re,os,Levenshtein,fitz,time,sys,subprocess +import pandas as pd +import numpy as np +import pyperclip +import mysql.connector + + +BuildFullScheme = { + "输出路径": "临时文件", + "教师版": True, + "字段显示设置": { + "题后空间": True, + "课时目标": True, + "题目标签": True, + "答案": True, + "解答与提示": True, + "使用记录": [3,-1], + "使用记录说明": "[a,b]表示显示最好的a个和最差b个, 有-2表示不显示, 无-2但有-1表示全部显示", + "来源": True, + "备注": True, + "届别": [] + } + } + + +def GetDate(): #获得当前日期 + currentdate = str(time.localtime().tm_year)+str(time.localtime().tm_mon).zfill(2)+str(time.localtime().tm_mday).zfill(2) + return currentdate #返回当前日期yyyymmdd + +def GetTime(): #获得当前时间 + t = time.localtime() + currenttime = f"{t.tm_hour:0>2}{t.tm_min:0>2}{t.tm_sec:0>2}" + return currenttime #返回当前时间hhmmss + +def datestrtotimestamp(date_str): # 将yyyymmdd的时间转为时间戳timestamp(以分钟为单位的整数) + date_obj = time.strptime(date_str, "%Y%m%d") + timestamp = int(time.mktime(date_obj)) + return timestamp + +def ReadTextFile(filepath): #读取文本格式的文件 + with open(filepath,"r",encoding="u8") as f: + data = f.read() + return data #返回文本格式文件的内容 + +def SaveTextFile(data,filepath): #写入文本格式的文件 + pathname = os.path.dirname(filepath) + if not os.path.exists(pathname): + makedir(pathname) + with open(filepath,"w",encoding="u8") as f: + f.write(data) + return filepath #返回文件名 + +def AppendTextFile(string,filepath): #在文本文件后添加内容 + with open(filepath,"a",encoding = "u8") as f: + f.write(string.strip()+"\n\n") + return filepath #返回文件名 + +def SortDict(adict): #按字典项顺序排序字典 + return dict(sorted(adict.items())) #返回排序后的字典 + + +#读取存储json数据库相关(不限于题号数据库) + +def load_dict(filename): #根据filename读取json数据库并转化为python字典 + with open(filename,"r",encoding = "u8") as f: + adict = json.loads(f.read()) + return adict #返回python字典 + +def save_dict(adict,filepath): #将adict字典转化为json文件并保存至filename文件中 + try: + jsondata = json.dumps(adict,indent=4,ensure_ascii=False) + SaveTextFile(jsondata,filepath) + return filepath # 成功则返回文件路径 + except: + print("保存 %s 文件失败"%filepath) + return 1 # 失败则返回1 + + + +def pre_treating(string): #删除字符串中对比较无用的字符, 以供比较 + string = re.sub(r"\\begin\{center\}[\s\S]*?\\end\{center\}","",string) + string = re.sub(r"(bracket\{\d+\})|(blank\{\d+\})|(fourch)|(twoch)|(onech)","",string) + string = re.sub(r"[\s\\\{\}\$\(\)\[\]]","",string) + string = re.sub(r"[\n\t]","",string) + string = re.sub(r"(displaystyle)|(overrightarrow)|(overline)","",string) + string = re.sub(r"[,\.:;?]","",string) + return string #返回处理后的字符串 + +def treat_dict(p_dict): #对整个题库字典中的内容部分进行预处理,删除无用字符 + treated_dict = {} + for id in p_dict: + treated_dict[id] = {} + treated_dict[id]["content"] = pre_treating(p_dict[id]["content"]) + treated_dict[id]["same"] = p_dict[id]["same"] + return treated_dict #返回处理后的字典, 含内容字段及相同题目字段 + +def detectmaxsim(currentid,excludelist,adict): #检测与已知题目关联程度最大的题目(除外列表之外的部分) + maxsim = -1 + argmaxsim = "000000" + for id in adict: + if not id in excludelist and not "OBSOLETE" in adict[id]["content"]: + simrate = Levenshtein.jaro(adict[id]["content"],adict[currentid]["content"]) + if simrate > maxsim: + maxsim = simrate + argmaxsim = id + return (maxsim,argmaxsim) #返回最大关联系数与关联程度最大的题号 + +def stringmaxsim(string,adict,listlength): + # maxsim = -1 + # argmaxsim = "000000" + maxsimlist = [] + string = pre_treating(string) + for id in adict: + if not "OBSOLETE" in adict[id]["content"]: + simrate = Levenshtein.jaro(adict[id]["content"],string) + # if simrate > maxsim: + # maxsim = simrate + # argmaxsim = id + if len(maxsimlist) < listlength: + maxsimlist.append((id,simrate)) + elif simrate > maxsimlist[-1][1]: + maxsimlist = maxsimlist[:-1] + maxsimlist.append((id,simrate)) + maxsimlist = sorted(maxsimlist,key = lambda x: x[1], reverse = True) + return maxsimlist #返回最大关联的listlength个题号及关联系数 + +def generate_sim_group(startingids,prodict,max_size,threshold): #生成与已知题块startingids(冒号和逗号连接的字符串)关联程度超过threshold的题目组, 超过max_size即停止 + id_list = generate_number_set(startingids) + output_list = [] + treated_dict = treat_dict(prodict) + continue_flag = True + while continue_flag: + appending_id_list = [] + for oldid in id_list: + for newid in [id for id in prodict if not id in id_list and not id in output_list and not "OBSOLETE" in treated_dict[id]["content"]]: + simrate = Levenshtein.jaro(treated_dict[oldid]["content"],treated_dict[newid]["content"]) + if simrate >= threshold: + appending_id_list.append(newid) + output_list = output_list + id_list.copy() + id_list = appending_id_list.copy() + if len(appending_id_list) == 0 or len(output_list)>max_size: + continue_flag = False + return generate_exp(sorted(output_list)) #返回冒号和逗号连接的题目组字符串 + + +def generate_problem_series(startingid,length,adict): #在adict字典里返回从startingid开始的一系列题号, 每一题都是与上一题的关联程度最大的 + excludelist = [startingid] + currentid = startingid + for i in range(length): + maxsim,currentid = detectmaxsim(currentid,excludelist,adict) + excludelist.append(currentid) + return ",".join(excludelist) #返回按顺序的题号列表 + + +def generate_number_set(string,*thedict): #根据可能含有":"和","的题号字符串生成一个用逗号分隔的六位题号列表, 例如"1:3,5"会生成["000001","000002","000003","000005"] +#可变参数*dict如果存在, 将只生成dict的keys中包含的题号列表 + string = re.sub(r"[\n\s]","",string).strip() + while not string[-1] in "0123456789": + string = string[:-1] + string = RefinePunctuations(string) + string_list = string.split(",") + numbers_list = [] + for s in string_list: + if not ":" in s: + numbers_list.append(s.zfill(6)) + else: + start,end = s.split(":") + for ind in range(int(start),int(end)+1): + numbers_list.append(str(ind).zfill(6)) + if len(thedict) == 0: + return numbers_list #返回六位题号列表 + elif len(thedict) == 1 and type(thedict[0]) == dict: + numbers_list = [id for id in numbers_list if id in thedict[0]] + return numbers_list #返回字典中存在的六位题号列表 + else: + return "输入参数有误" + +def generate_classid(string): #返回班级列表 + string = re.sub(r"[\n\s]","",string).strip() + while not string[-1] in "0123456789": + string = string[:-1] + string = RefinePunctuations(string) + string_list = string.split(",") + numbers_list = [] + for s in string_list: + if not ":" in s: + numbers_list.append(s.zfill(2)+"班") + else: + start,end = s.split(":") + for ind in range(int(start),int(end)+1): + numbers_list.append(str(ind).zfill(2)+"班") + return numbers_list #返回2位班级号列表 + + +def generate_id_set(string,*thedict): #除了生成题号列表外, 还能根据首字母生成基础知识编号列表或课时目标列表 + if re.findall(r"[BXK]",string) == []: + if thedict == (): + return generate_number_set(string) + else: + return generate_number_set(string,thedict) + else: + if string[0] == "B": + string = re.sub("B","",string) + return ["B"+i[-5:] for i in generate_number_set(string)] + elif string[0] == "K": + suffix = string.strip()[-1] + string = re.sub("[KBX]","",string) + return ["K"+i.zfill(7)+suffix for i in generate_number_set(string)] + +def generate_exp(id_list): #根据题号列表生成字符串式的含":"和","的题号字符串, 例如["000001","000002","000003","000005"]生成"000001:000003,000005", 若列表为空则生成"无有效题号" + if not len(id_list) == 0: + exp_list = [] + start = id_list[0] + current = start + end = start + for id in id_list[1:]: + # print(id,current) + if int(id)-1 == int(current): + current = id + end = id + else: + if not start == end: + exp_list.append('"'+start+":"+end+'"') + else: + exp_list.append('"'+start+'"') + start = id + current = id + end = id + if not start == end: + exp_list.append('"'+start+":"+end+'"') + else: + exp_list.append('"'+start+'"') + exp_str = ",".join(exp_list).replace('"',"") + else: + exp_str = "无有效题号" + return exp_str #返回含有":"或","的题号字符串 + +def parsePDF(filePath): #提取pdf文件中的字符 + with fitz.open(filePath) as doc: + text = "" + for page in doc.pages(): + text += page.get_text() + "\n" + return text + +def extractIDs(filePath): #提取.txt,.tex或.pdf文件中的题号, 返回含有":"或","的题号字符串 + if filePath[-4:] == ".txt" or filePath[-4:] == ".tex": + with open(filePath,"r",encoding = "u8") as f: + data = f.read() + elif filePath[-4:] == ".pdf": + data = parsePDF(filePath) + else: + return "格式不正确" + ids = re.findall(r"\((\d{6})\)",data) + return generate_exp(ids) + + +def spareIDs(host,port,username,password): #返回空闲题号 + mydb = mysql.connector.connect(host = host, port = port, user=username, password=password, database = "tikutest") + mycursor = mydb.cursor() + mycursor.execute("SELECT ID FROM problems;") + idlist = [ret[0] for ret in mycursor.fetchall()] + used_str = generate_exp(idlist) + used_list = used_str.split(",") + output = "" + for group in range(len(used_list)-1): + output += "首个空闲id: %s, 直至: %s"%(str(int(used_list[group][-6:])+1).zfill(6),str(int(used_list[group+1][:6])-1).zfill(6)) + "\n" + output += "首个空闲id: %s, 直至: %s"%(str(int(used_list[-1][-6:])+1).zfill(6),"999999") + mydb.close() + return output #返回的是一个多行的字符串, 每一行中含有一个空闲题号的闭区间 + + +def NextSpareID(num,adict): #返回adict中下一个空闲的题号 + num = int(num) + while str(num).zfill(6) in adict: + num += 1 + return num + +def NextSpareIDBlock(num,adict): #返回adict中下一个空闲的题号块 + start = NextSpareID(num,adict) + larger_ID_list = [int(id) for id in adict.keys() if int(id)>start] + if larger_ID_list == []: + end = 999999 + else: + end = min(larger_ID_list) - 1 + return str(start)+":"+str(end) + +def GenerateProblemListFromString(data): #从来自.tex文件的字符串生成题目列表, 每个item是一道题目, 新一行的%用作前缀 + try: + data = re.findall(r"\\begin\{document\}([\s\S]*?)\\end\{document\}",data)[0] + except: + pass + data = re.sub(r"\n{2,}","\n",data) + data = re.sub(r"\\item",r"\\enditem\\item",data) + data = re.sub(r"\\end\{enumerate\}",r"\\enditem",data) #切除无关信息, 保留关键信息 + problempositions = [] + for item in re.finditer(r"\\item([\s\S]*?)\\enditem",data): + problempositions.append(item.regs[1]) #确定题目内容所在位置 + problem_list = [] + for pos in problempositions: + content = data[pos[0]:pos[1]].strip() + content = re.sub(r"\n\%[\s\S]*$","",content) #题目内容 + content = re.sub(r"\\\\$","",content) # 删去题目最后一行处可能存在的\\ + subdata = data[:pos[0]] #开始寻找出处中缀 + suflist = re.findall(r"\n(\%\s{0,}[\S]+)\n",subdata) + if len(suflist) == 0: + suffix = "" + else: + suffix = suflist[-1].replace("%","").strip() + problem_list.append((content,suffix)) + return problem_list #返回一个列表, 每一项是一个由 题目内容 和 题目来源前缀 组成的元组 + + +def GenerateProblemListFromString2024(data): #从来自.tex文件的字符串生成题目列表, 每个item是一道题目, 新一行的%用作前缀, item后面的方括号放与题库的交互信息(如[rep3214]表示不添加, 用003214代替; [s2521;r354;u10021,20024]表示和2521相同, 和354相关, 和10021,20024无关), 返回三元组(题目内容, 题目来源前缀, 交互信息列表)的字典 + try: + data = re.findall(r"\\begin\{document\}([\s\S]*?)\\end\{document\}",data)[0] + except: + pass + data = re.sub(r"\n{2,}","\n",data) + data = re.sub(r"\\definecolor[^\n]*\n","\n",data) + data = re.sub(r"\\begin\{tcolorbox\}[\s\S]*?\\end\{tcolorbox\}","\n",data) + data = re.sub(r"\\item",r"\\enditem\\item",data) + data = re.sub(r"\\end\{enumerate\}",r"\\enditem",data) #切除无关信息, 保留关键信息 + problempositions = [] + for item in re.finditer(r"\\item([\s\S]*?)\\enditem",data): + problempositions.append(item.regs[1]) #确定题目内容所在位置 + problem_list = [] + for pos in problempositions: + content_raw = data[pos[0]:pos[1]].strip() + content_raw = re.sub(r"\n\%[\s\S]*$","",content_raw) #题目内容 + content_raw = re.sub(r"\\\\$","",content_raw) # 删去题目最后一行处可能存在的\\ + content_raw = content_raw.strip() # 删去前后多余的空格 + meta = {} + if not content_raw[0] == "[": # 根据方括号内的内容生成交互信息, 这是无方括号的内容, 无meta + content = content_raw + else: + same_id_list = [] + related_id_list = [] + unrelated_id_list = [] + content = re.sub(r"^\[[A-Za-z\d,\s]*?\]","",content_raw).strip() + metaraw = re.findall(r"\[.*\]",content_raw)[0] + metaraw = re.sub(r"[\[\]]","",metaraw) + metalist = metaraw.split(",") + for metaitem in metalist: + metaitem = metaitem.upper() + if metaitem.startswith("REP"): + meta = {"rep":metaitem[3:].zfill(6)} + elif metaitem.startswith("S"): + same_id_list.append(metaitem[1:].zfill(6)) + elif metaitem.startswith("R"): + related_id_list.append(metaitem[1:].zfill(6)) + elif metaitem.startswith("U"): + unrelated_id_list.append(metaitem[1:].zfill(6)) + if not "rep" in meta: + meta = {"same":same_id_list,"related":related_id_list,"unrelated":unrelated_id_list} + subdata = data[:pos[0]] #开始寻找出处中缀 + suflist = re.findall(r"\n(\%\s{0,}[\S]+)\n",subdata) + if len(suflist) == 0: + suffix = "" + else: + suffix = suflist[-1].replace("%","").strip() + problem_list.append((content,suffix,meta)) + return problem_list #返回一个列表, 每一项是一个由 题目内容 和 题目来源前缀 和 交互信息字典 组成的元组 + + +def CreateEmptyProblem(problem): # 根据已有的题目创建新的空题目 + NewProblem = problem.copy() + for field in NewProblem: + if type(NewProblem[field]) == str: + NewProblem[field] = "" + elif type(NewProblem[field]) == list: + NewProblem[field] = [] + elif type(NewProblem[field]) == int or type(NewProblem[field]) == float: + NewProblem[field] = -1 + return NewProblem #返回一个空题目的字典, ID和内容待赋值 + +def CreateNewProblem(id,content,origin,dict,editor): # 构建一道新题目的字典 + NewProblem = CreateEmptyProblem(dict["000001"]) + NewProblem["id"] = str(id).zfill(6) + NewProblem["content"] = content + NewProblem["origin"] = origin + NewProblem["edit"] = [editor] + return NewProblem # 返回一道新题目的字典, 已赋新的ID, 内容, 来源和编辑者 + + +def AddProblemstoDict(startingid,raworigin,problems,editor,indexdescription,thedict): #将来自GenerateProblemListFromString的列表中的题目添加到thedict字典 + id = int(startingid) + currentsuffix = problems[0][1] + problemindex = 0 + for p_and_suffix in problems: + p, suffix = p_and_suffix + pid = str(id).zfill(6) + if pid in thedict: + print("ID %s 已被使用."%pid) + return 1 + else: + if suffix == currentsuffix: + problemindex += 1 + else: + problemindex = 1 + currentsuffix = suffix + origin = raworigin + suffix + indexdescription.strip() + ("" if indexdescription.strip() == "" else str(problemindex)) + newproblem = CreateNewProblem(pid,p.strip(),origin,thedict,GetDate() + "\t" + editor) + if "blank" in p: + newproblem["genre"] = "填空题" + newproblem["space"] = "" + elif "bracket" in p: + newproblem["genre"] = "选择题" + newproblem["space"] = "" + else: + newproblem["genre"] = "解答题" + newproblem["space"] = "4em" + thedict[pid] = newproblem + maxsim,argmaxsim = detectmaxsim(pid,[pid],thedict) + print("已收录题号: %s, 最接近题目: %s, 相似程度: %.3f, 题目类型: %s, 题目来源: %s, 题目内容: %s"%(pid,argmaxsim,maxsim,newproblem["genre"],origin,p)) + id += 1 + return 0 + + +def AddProblemstoDict2024(startingid,raworigin,problems,editor,indexed,thedict): #将来自GenerateProblemListFromString的列表中的题目添加到thedict字典, 返回题号列表(包括用老题号替代的题目) + idlist = [] + id = int(startingid) + currentsuffix = problems[0][1] + problemindex = 0 + for p_and_suffix_and_meta in problems: + p, suffix, meta = p_and_suffix_and_meta + pid = str(id).zfill(6) + if pid in thedict: + print("ID %s 已被使用."%pid) + return 1 + else: + if suffix == currentsuffix: + problemindex += 1 + else: + problemindex = 1 + currentsuffix = suffix + if indexed: + origin = {"来源": raworigin + suffix, "题号": problemindex} + else: + origin = {"来源": raworigin + suffix} + if not "rep" in meta: + newproblem = CreateNewProblem(pid,p.strip(),origin,thedict,GetDate() + "\t" + editor) + if "blank" in p: + newproblem["genre"] = "填空题" + newproblem["space"] = "" + elif "bracket" in p: + newproblem["genre"] = "选择题" + newproblem["space"] = "" + else: + newproblem["genre"] = "解答题" + newproblem["space"] = "4em" + if "same" in meta: + for sid in meta["same"]: + thedict[sid]["same"].append(pid) + newproblem["same"].append(sid) + if "related" in meta: + for sid in meta["related"]: + thedict[sid]["related"].append(pid) + newproblem["related"].append(sid) + if "unrelated" in meta: + for sid in meta["unrelated"]: + thedict[sid]["unrelated"].append(pid) + newproblem["unrelated"].append(sid) + thedict[pid] = newproblem + maxsim,argmaxsim = detectmaxsim(pid,[pid],thedict) + print("已收录题号: %s, 最接近题目: %s, 相似程度: %.3f, 题目类型: %s, 题目来源: %s, 题目内容: %s"%(pid,argmaxsim,maxsim,newproblem["genre"],origin,p)) + id += 1 + idlist.append(pid) + else: + idlist.append(meta["rep"]) + print(f"该题 {idlist[-1]} {p} 已在题库中, 不必收录.") + return idlist + +def CreateIDLinks(old_id_list,new_id_list,*thedict): #建立已有id和新id之间的联系, thedict为可选, 选中的话即为当前字典, 会从new_id_list中排除当前字典中有的项 + if len(thedict) == 1 and type(thedict[0]) == dict: + new_id_list = [id for id in new_id_list if not id in thedict[0]] + if len(old_id_list)>len(new_id_list): + return "新ID个数不足." + else: + id_links = [] + for i in range(len(old_id_list)): + id_links.append((old_id_list[i],new_id_list[i])) + return id_links # 返回id联系, 每个元组表示一对id, 前者是旧id, 后者是新id + + +def CreateRelatedProblems(links,thedict,filepath,editor): # 根据links关联生成待编辑的新题目字典, 等待编辑修改 + try: + new_dict = {} + for item in links: + old_id,new_id = item + new_dict[old_id] = thedict[old_id].copy() + new_dict[old_id]["id"] = new_id + "待替换" + new_dict[old_id]["content"] = new_dict[old_id]["content"] + new_dict[old_id]["usages"] = [] + new_dict[old_id]["same"] = [] + new_dict[old_id]["unrelated"] = [] + new_dict[old_id]["edit"] = new_dict[old_id]["edit"].copy() + [GetDate()+"\t"+editor] + new_dict[old_id]["origin"] = {"来源": "改编题目", "前序": old_id} + save_dict(new_dict,filepath) + except: + return 1 #异常返回1 + return 0 #正常返回0 + +def ImportRelatedProblems(new_json,main_json): # 导入编辑过的关联题目json文件到主数据库 + pro_dict = load_dict(main_json) + new_dict = load_dict(new_json) + edited = [] + for id in new_dict: + new_id = new_dict[id]["id"].replace("待替换","") #新题号后需要跟"待替换"字样 + if new_id in pro_dict: + print("题号有重复") + return 1 #异常返回1 + else: + edited.append(new_id) + pro_dict[new_id] = new_dict[id].copy() + pro_dict[new_id]["id"] = new_id + pro_dict[id]["related"] += [new_id] + pro_dict[new_id]["related"] += [id] + p = pro_dict[new_id]["content"] + if "blank" in p: + pro_dict[new_id]["genre"] = "填空题" + pro_dict[new_id]["genre"] = "" + elif "bracket" in p: + pro_dict[new_id]["genre"] = "选择题" + pro_dict[new_id]["genre"] = "" + else: + pro_dict[new_id]["genre"] = "解答题" + pro_dict[new_id]["genre"] = "4em" + print("导入关联题目 %s -> %s 信息成功."%(id,new_id)) + save_dict(SortDict(pro_dict),main_json) #保存至目标pro_dict文件 + return generate_exp(edited) #正常返回新题号list + + +def strip_suffix(originalString, suf_words_list): # 字符串去除指定后缀 + for sw in suf_words_list: + output = re.sub(sw+r"[\S]*$","",originalString) + return(output) # 返回原字符串中截去suf_words_list及之后字符的部分 + +def get_striped_origin(pro_dict,id,suf_words_list): # 题目来源去除指定后缀 + return strip_suffix(pro_dict[id]["origin"],suf_words_list) # 返回去除指定后缀后的题目来源 + + +def SeperateFirstLine(string): # 切割一个含有换行的字符串 + thelist = string.split("\n") + firstline = thelist[0].strip() + contents = "\n".join([lines.strip() for lines in thelist[1:]]) + return (firstline,contents) # 返回第一行, 其余行形成的二元组, 每一行前后的空格都被删去 + +def ObtainDatatoModify(metadatafilepath,fields_dict): #从metadata文件中获取需要修改的综合信息, metadata文件用双回车区分项, 单行的项表示此后的字段, 不小于两行的项中第一行是题目id, 第二行起是要修改的内容. +#fieldsdictpath是字段信息数据库文件路径 + data = ReadTextFile(metadatafilepath) + datalines = data.split("\n") + data = "" + for l in datalines: + if l.strip() in fields_dict: + data += l + "\n\n" + else: + data += l + "\n" + data = re.sub(r"\n[\s\n]*\n","\n\n",data.strip()) #去除一些无意义的空格和多余的回车 + datalist = data.split("\n\n") + to_modify_list = [] + currentfield = "NotAField" + for line in datalist: + if line.strip() in fields_dict: + currentfield = line.strip() + elif not "\n" in line: + currentfield = "NotAField" + else: + id,content = SeperateFirstLine(line) + to_modify_list.append((currentfield,str(id).zfill(6),content)) + return to_modify_list #返回一个列表, 每一项是一个三元组, 三项依次为字段, 题号, 要修改的内容 + +def FloatToInt(string): #从字符串返回浮点数,如果值非常接近整数则返回该整数 + f = float(string) + if abs(f-round(f))<0.01: + f = round(f) + return f #返回浮点数或整数 + +def OverwriteData(prodict,fieldsdict,field_id_and_content): #用覆盖方式修改题目某字段信息 + field,id,content = field_id_and_content + fieldType = fieldsdict[field]["FieldType"] + if not id in prodict: + print("题号 %s 并不在数据库中"%id) + else: + if fieldType == "str": + prodict[id][field] = content + elif fieldType == "int" or fieldType == "float": + content = FloatToInt(content) + prodict[id][field] = content + print("已覆盖 %s 的 %s 字段, 内容为 %s"%(id,field,content)) + return (id,field,content) #返回三元组: 题号, 字段, 覆盖内容 + +def AppendData(prodict,fieldsdict,field_id_and_content): #用添加方式修改题目某字段信息 + field,id,content = field_id_and_content + fieldType = fieldsdict[field]["FieldType"] + if not id in prodict: + print("题号 %s 并不在数据库中"%id) + else: + if fieldType == "str": + if content.strip() in prodict[id][field]: + print("题号 %s 的 %s 字段, 内容 %s 已存在"%(id,field,content)) + elif prodict[id][field].strip() == "": + prodict[id][field] = content.strip() + print("已于 %s 的 %s 字段执行添加, 内容为 %s"%(id,field,content)) + else: + prodict[id][field] = (prodict[id][field].strip() + "\\\\\n" + content).strip() + print("已于 %s 的 %s 字段执行添加, 内容为 %s"%(id,field,content)) + elif fieldType == "list": + lines = [line.strip() for line in content.split("\n")] + for line in lines: + if line in prodict[id][field]: + print("题号 %s 的 %s 字段, 内容 %s 已存在"%(id,field,line)) + else: + prodict[id][field] = prodict[id][field].copy() + [line] + print("已于 %s 的 %s 字段执行添加, 内容为 %s"%(id,field,line)) + return (id,field,content) #返回三元组: 题号, 字段, 内容 + +def AppendMutualData(prodict,field_id_and_content): #添加两个id之间的same, related, unrelated关联 + field,id,content = field_id_and_content + lines = [str(line).zfill(6) for line in content.split("\n")] + for id2 in lines: + if not id in prodict: + print("题号 %s 并不在数据库中"%id) + elif not id2 in prodict: + print("题号 %s 并不在数据库中"%id2) + else: + if id2 in prodict[id][field]: + print("题号 %s 的 %s 字段, 内容 %s 已存在"%(id,field,id2)) + else: + prodict[id][field] = prodict[id][field] + [id2] + print("已于 %s 的 %s 字段执行添加, 内容为 %s"%(id,field,id2)) + if id in prodict[id2][field]: + print("题号 %s 的 %s 字段, 内容 %s 已存在"%(id2,field,id)) + else: + prodict[id2][field] = prodict[id2][field] + [id] + print("已于 %s 的 %s 字段执行添加, 内容为 %s"%(id2,field,id)) + return (id,field,content) #返回三元组: 题号, 字段, 内容 + +def AppendObjData(prodict,objdict,field_id_and_content): #添加目标编号数据 + field,id,content = field_id_and_content + if not id in prodict: + print("题号 %s 并不在数据库中"%id) + else: + lines = [line.strip() for line in content.split("\n")] + for objid in lines: + if not objid in objdict: + print("目标编号 %s 并不在数据库中"%objid) + elif objid in prodict[id][field]: + print("题号 %s 的 %s 字段, 内容 %s 已存在"%(id,field,objid)) + else: + prodict[id][field] = prodict[id][field] + [objid] + print("已于 %s 的 %s 字段执行添加, 编号为 %s, 内容为 %s"%(id,field,objid,objdict[objid]["content"])) + return (id,field,content) #返回三元组: 题号, 字段, 内容 + +def AppendUsageData(prodict,field_id_and_content): #添加使用记录数据 + field,id,content = field_id_and_content + lines = [re.sub(r"\s+",r"\t",line.strip()) for line in content.strip().split("\n")] + pending_list = [] + for line in lines: + if not "FORCE" in line.upper(): + time_stripped = re.sub(r"^\d{4,}\t","",line) #读取去除时间的数据 + if time_stripped in "\n".join(prodict[id][field]): + print("题号 %s 的 %s 字段, 内容 %s 已存在"%(id,field,line)) + else: + classid = [info for info in line.split("\t") if len(re.findall(r"[班高一二三]",info))>0][0] # 读取班级号 + if classid in "\n".join(prodict[id][field]): + print("班级 %s 在题号为 %s 的题目处已有使用记录, 在pending list中记录"%(classid,id)) + oldinfo = [usage for usage in prodict[id][field] if classid in usage] + pending_list = pending_list + [(id,line,oldinfo)] + else: + prodict[id][field].append(line) + print("已于 %s 的 %s 字段执行添加, 内容为 %s"%(id,field,line)) + else: + line = re.sub(r"\s+",r"\t",re.sub(r"FORCE","",line.upper())).strip() + prodict[id][field].append(line) + print("已于 %s 的 %s 字段执行强制添加, 内容为 %s"%(id,field,line)) + output = "" + for item in pending_list: + id,new,oldlist = item + output += id + "\n" + output += new+"\tFORCE\n" + output += "\n".join(oldlist)+"\n\n" + return (field,id,content,output) #返回四元组: 题号, 字段, 内容, 待确定是否要添加的字符串(不含FORCE字样的行为旧结果,含FORCE字样的行为新结果,FORCE是运行后强制添加) + +def AppendUsageData2024(prodict,field_id_and_content): + field,id,content = field_id_and_content + lines = [re.sub(r"\s+",r"\t",line.strip()) for line in content.strip().split("\n")] + pending_list = [] + for line in lines: + if not "FORCE" in line.upper(): + time_stripped = re.sub(r"^\d{4,}\t","",line) #读取去除时间的数据 + if time_stripped in "\n".join(prodict[id][field]): + print(f"******题号 {id} 的 {field} 字段, 内容 {line} 已存在") + else: + usage = parseUsage(line) + oldusages = prodict[id]["usages"] + importflag = True + for u in oldusages: + oldusage = parseUsage(u) + if usage["classid"] == oldusage["classid"] and abs(datestrtotimestamp(usage["date"])-datestrtotimestamp(oldusage["date"])) < 7*86400 and usagelistdifference(usage["difficulties"],oldusage["difficulties"])<0.05: + print(f"######班级 {usage['classid']} 在题号为 {id} 的题目处已有非常类似的使用记录, 不作记录") + importflag = False + break + if importflag: + for u in oldusages: + oldusage = parseUsage(u) + if usage["classid"] == oldusage["classid"]: + print(f"!!!!!!班级 {usage['classid']} 在题号为 {id} 的题目处已有使用记录, 在pending list中记录") + oldinfo = [v for v in prodict[id][field] if usage['classid'] in v] + pending_list = pending_list + [(id,line,oldinfo)] + importflag = False + break + if importflag: + prodict[id][field].append(line) + print(f"已于 {id} 的 {field} 字段执行添加, 内容为 {line}") + else: + line = re.sub(r"\s+",r"\t",re.sub(r"FORCE","",line.upper())).strip() + prodict[id][field].append(line) + print(f"&&&&&&&&&&&& 已于 {id} 的 {field} 字段执行强制添加, 内容为 {line} &&&&&&") + output = "" + for item in pending_list: + id,new,oldlist = item + output += id + "\n" + output += new+"\tFORCE\n" + output += "\n".join(oldlist)+"\n\n" + return (field,id,content,output) #返回四元组: 题号, 字段, 内容, 待确定是否要添加的字符串(不含FORCE字样的行为旧结果,含FORCE字样的行为新结果,FORCE是运行后强制添加) + + +def ImportMetadata(prodict,objdict,fieldsdict,metadatafilepath,pendingdatafilepath): #metadata自动修改, 根据字段自适应修改, 参数为题库字典, 目标字典, 字段字典, metadata文本文件路径, 待确定是否替换的内容的存放路径 + data_to_modify = ObtainDatatoModify(metadatafilepath,fieldsdict) + outputstring = "usages\n\n" + for item in data_to_modify: + field = item[0] + if field == "NotAField": + print("字段名有误") + return 1 + else: + method = fieldsdict[field]["Method"] + if method == "overwrite": + feedback = OverwriteData(prodict,fieldsdict,item) + elif method == "append": + feedback = AppendData(prodict,fieldsdict,item) + elif method == "mutualappend": + feedback = AppendMutualData(prodict,item) + elif method == "objappend": + feedback = AppendObjData(prodict,objdict,item) + elif method == "usageappend": + feedback = AppendUsageData2024(prodict,item) + outputstring += feedback[3] + elif method == "fixed": + print("字段 %s 不可按此方式修改"%field) + SaveTextFile(outputstring,pendingdatafilepath) + return outputstring # 已在数据库中修改, 之后需要将数据库写入一次, 返回1表示字段名有误, 返回其他表示成功进行了修改 + +def parseUsage(usagestring): #对单行usage信息进行分词 + usagedict = {} + datalist = re.sub(r"\s+",r"\t",usagestring.strip()).split("\t") + if re.findall(r"20[\d]{2,6}",datalist[0]) != [] and re.findall(r"[\u4e00-\u9fa5]",datalist[0]) == []: + date = datalist.pop(0) + else: + date = "" + usagedict["date"] = date + if re.findall(r"[高一二三班]",datalist[0]) != []: + classid = datalist.pop(0) + else: + classid = "" + usagedict["classid"] = classid + usagedict["subproblems"] = len(datalist) + usagedict["difficulties"] = [float(u) for u in datalist] + usagedict["glossdiff"] = round(sum(usagedict["difficulties"])/usagedict["subproblems"],3) + return usagedict #返回词典, 含date日期, classid班级标识, subproblems小题数目, difficulties得分率, glossdiff小题平均得分率 + +def StringSubstitute(regex,template,stringtuple): # 用stringtuple里的字符串逐个替换template中的符合某种regex规则的字符串 + toSub = re.findall(regex,template) + if not len(toSub) == len(stringtuple): + print("长度不符.") + return 1 #若长度不符则显示“长度不符”并返回1 + else: + output = template + for i in range(len(toSub)): + output = output.replace(toSub[i],stringtuple[i]) + return output #若长度符合则返回替换后的字符串 + +def GenerateTexDataforEditing(id_string,prodict,templatefilepath,editor): # 根据id_string的题号列表在prodict中生成一个可修改的tex文件, 包含题目内容,答案和解答,editor表示编辑者 + id_list = generate_number_set(id_string,prodict) + output = "编辑者: " + editor + "\n\n\\begin{enumerate}\n\n" + for id in id_list: + content = prodict[id]["content"] + answer = prodict[id]["ans"] + solution = prodict[id]["solution"] + remark = prodict[id]["remark"] + output += "\\item (%s) "%str(id).zfill(6) + content + "\n\n" + "答案: " + answer + "\n\n" + "解答与提示: " + solution + "\n\n" + "备注: " + remark + "\n\n" + output += "\\end{enumerate}" + template = ReadTextFile(templatefilepath) + texdata = StringSubstitute(r"<<[\s\S]*?待替换[\s\S]*?>>",template,[output]) + return texdata # 返回Tex文件的字符串, 待保存至tex文件 + + +def GetEditedProblems(string): #从.tex文件所读取的字符串中取出正文内容, 并切割成以题号为key的字典, 内容为[题目内容, 答案, 解答与提示, 备注]四元数组 + bodydata = re.findall(r"\\begin\{enumerate\}([\s\S]*)\\end\{enumerate\}",string)[0]+r"\item" + problems = re.findall(r"\((\d{6})\)([\s\S]*?)\\item",bodydata) + edited_dict = {} + for problem in problems: + id, pro_string = problem + edited_dict[id] = parseProblem(pro_string) + return edited_dict # 返回以题号为key, 内容为[题目内容, 答案, 解答与提示, 备注]四元数组的字典 + +def parseProblem(string): # 对以不小于两个回车切分的四段式字符串进行分词(通常第二段有"答案:", 第三段有"解答与提示:", 第四段有"备注:") + data = string.strip() + data = re.sub(r"\n{2,}","\n\n",data) + content,ans,solution,remark = data.split("\n\n") + content = content.strip() + ans = re.sub("答案:","",ans).strip() + solution = re.sub("解答与提示:","",solution).strip() + remark = re.sub("备注:","",remark).strip() + return (content,ans,solution,remark) # 返回四元组(题目内容, 答案, 解答与提示, 备注) + +def ModifyProblembyTeX(id_string,prodict,toeditfilepath,editor): # vscode打开.tex文件修改题目的内容, 答案与解答 + + # 读取题号列表并生成待编辑的.tex文件 + texdata = GenerateTexDataforEditing(id_string,prodict,"模板文件/题目编辑.txt",editor) + SaveTextFile(texdata,toeditfilepath) + + # 打开待编辑的.tex文件 + print("编辑完成后保存文件, 关闭文件继续...") + os.system("code -w -g "+toeditfilepath) + + # 生成修改后的题号与内容, 答案, 解答与提示的对应 + editor = GetDate() + "\t" + editor + editedtexdata = ReadTextFile(toeditfilepath) + edited_dict = GetEditedProblems(editedtexdata) + editedIDList = [] + + # 将.tex文件中的修改反映到原题库字典, 并保存 + for id in edited_dict: + content, ans, solution, remark = edited_dict[id] + if not (content == prodict[id]["content"] and ans == prodict[id]["ans"] and solution == prodict[id]["solution"] and remark == prodict[id]["remark"]): + prodict[id]["content"] = content + prodict[id]["ans"] = ans + prodict[id]["solution"] = solution + prodict[id]["remark"] = remark + prodict[id]["edit"] = prodict[id]["edit"] + [editor] + editedIDList.append(id) + + save_dict(prodict,"../题库0.3/Problems.json") + return generate_exp(editedIDList) # 返回编辑过的字典 + + +def RemoveMutualLink(metadata,prodict): # 删除双向关联id(same,related,unrelated), 输入为一个字符串, 每行表示一对题号, 用空格或制表符隔开 + lines = [re.sub(r"[\s]+",r"\t",line).strip() for line in metadata.split("\n")] + for line in lines: + if not line == []: + id1,id2 = line.split("\t") + id1 = id1.zfill(6) + id2 = id2.zfill(6) + for field in ["same","related","unrelated"]: + if id1 in prodict[id2][field]: + prodict[id2][field].remove(id1) + if id2 in prodict[id1][field]: + prodict[id1][field].remove(id2) + return 0 # 返回0 + +def jsonEditProblemMetadata(id_string,prodict,editor): #用vscode在json模式下编辑题目综合信息 + jsontoeditpath = "临时文件/problem_edit.json" + idlist = generate_number_set(id_string,prodict) + edit_dict = {} + for id in idlist: + edit_dict[id] = prodict[id].copy() + save_dict(edit_dict,jsontoeditpath) + #打开待编辑的json文件 + os.system("code -w -g "+jsontoeditpath) + #编辑后关闭文件窗口自动执行下面步骤 + editeddict = load_dict(jsontoeditpath) + editlist = [] + for id in editeddict: + if not prodict[id] == editeddict[id]: + prodict[id] = editeddict[id].copy() + prodict[id]["edit"] = prodict[id]["edit"] + [GetDate() + "\t" + editor] + editlist.append(id) + return(generate_exp(editlist)) # 返回编辑过的题号字符串 + +def GetSamePairs(prodict): #获取已标注的相同题目组 + same_groups = [] + for id in prodict: + same = prodict[id]["same"] + if len(same) > 0 and not len(prodict[id]["usages"]) == 0: + same_groups.append([id]+same) + return(same_groups) #返回相同题目组, 每组由一些相同的题目构成 + +def ShareSameUsages(prodict,same_group): #对same_group中的所有题号共享使用记录 + current_usages = [] + for id in same_group: + for usage in prodict[id]["usages"]: + if not usage in current_usages: + current_usages = current_usages + [usage] + for id in same_group: + prodict[id]["usages"] = current_usages.copy() + return((same_group,current_usages)) #返回same_group中的题号列表 及 所有题号记录 组成的二元组 + +def SortUsages(prodict): #对使用记录按字符串进行排序 + for id in prodict: + usages = prodict[id]["usages"].copy() + usages.sort() + prodict[id]["usages"] = usages.copy() + return 0 #返回0 + + +def SortUsagesbyAverage(theusages): #根据使用记录每一条的平均值进行排序, 越高的在越前面 + glossdifflist = [] + for i in range(len(theusages)): + glossdiff = parseUsage(theusages[i])["glossdiff"] + if glossdiff <= 0.999: #去除全对的使用记录 + glossdifflist = glossdifflist + [(i,glossdiff)] + sortedglossdifflist = sorted(glossdifflist, key = lambda x:x[1], reverse = True) + newusages = [theusages[i[0]] for i in sortedglossdifflist] + return(newusages) # 返回排序后的list + + +def StripSuffix(string, suf_words): #除去字符串前后的空格及suf_words中每一个符合regex的字符串及其之后的部分 + string = string.strip() + for sw in suf_words: + string = re.sub(sw+r"[\S]*$","",string) + return(string) # 返回处理以后的字符串 + + +def generate_origin(origin_dict): + data = origin_dict["来源"] + if "题号" in origin_dict: + data = f"{data}试题{origin_dict['题号']}" + if "前序" in origin_dict: + data = f"{data}-改编自{origin_dict['前序']}" + return data + +def MatchCondition2024(problem,condition_list): #判断problem这一字典是否符合condition_list中的所有筛选条件 + match = True #初始设定符合条件 + for field, flag_not, matchexp in condition_list: + exps = [i.strip() for i in matchexp.split(",")] + if type(problem[field]) == list: + data = "\n".join(problem[field]) + elif field == "origin": + data = generate_origin(problem[field]) + else: + data = str(problem[field]) #至此将每个字段中的内容都转为string + if flag_not == False: #表示肯定的筛选 + if all([re.findall(exp,data) == [] for exp in exps]): #如果有一个条件中的每个关键字都找不到, 就返回"不符合条件"(False) + return False + if flag_not == True: + if all([re.findall(exp,data) != [] for exp in exps]): #如果有一个条件中的每个关键字都能找到, 就返回"不符合条件"(False) + return False + return match #返回是否符合条件 + +def MatchCondition(problem,condition_dict): #判断problem这一字典是否符合condition_dict中的所有筛选条件 + match = True #初始设定符合条件 + for fieldraw in [c for c in condition_dict if not "_not" in c and not condition_dict[c] == [""]]: #选出正向的条件([""]表示该条件不起作用) + cond_list = condition_dict[fieldraw] + if type(cond_list) == str: + cond_list = [cond_list] + field = re.sub(r"\d","",fieldraw) + if type(problem[field]) == list: #将题库字典中的相应字段转化成字符串string + string = "\n".join((problem[field])) + else: + string = str(problem[field]) + current_match = False + for cond in cond_list: #有一个条件被满足, 就认为当前字段满足条件了 + if len(re.findall(cond,string)) > 0: + current_match = True + if current_match == False: + match = False # 如果某个正向条件未满足, 那么match就赋值为False; 如果每一个正向条件都被满足, 那么match仍为True + for fieldraw in [c for c in condition_dict if "_not" in c and not condition_dict[c] == [""]]: #选出反向的条件([""]表示该条件不起作用) + cond_list = condition_dict[fieldraw] + fieldraw = fieldraw.replace("_not","") + field = re.sub(r"\d","",fieldraw) + if type(problem[field]) == list: #将题库字典中的相应字段转化成字符串string + string = "\n".join((problem[field])) + else: + string = str(problem[field]) + current_match = True + for cond in cond_list: #有一个条件被满足, 就认为当前字段不被满足了 + if len(re.findall(cond,string)) > 0: + current_match = False + if current_match == False: + match = False + return match #返回是否符合条件 + + +def get_color(value): # 根据得分率获得rgb颜色代码 + value = float(value) + if value>=0.5: + (r,g)=(1,2-2*value) + else: + (r,g)=(2*value,1) + return "{%.3f,%.3f,0}"%(r,g) #返回用大括号包围的rgb数值 + +def GenerateValueColorCode(matchobj): # 生成三位小数代表的颜色方框(黑色边框, 难度对应的底色)的LaTeX代码 + value = matchobj.group(1) + return "\t\\fcolorbox[rgb]{0,0,0}%s{%s}"%(get_color(value),value) #返回代码 + +def StudentsGetAfterContent(id,prodict,answered,spaceflag): #生成学生版讲义后的答案及空格, answered表示有无答案, spaceflag表示有无空格 + string = "" + if "ans" in prodict[id]: + if answered: + string += "答案: \\textcolor{%s}{%s}\n\n"%(("red",prodict[id]["ans"]) if prodict[id]["ans"] != "" else ("blue","暂无答案")) + if spaceflag: + if "space" in prodict[id]: + if prodict[id]["space"] != "": + string += "\\vspace*{%s}\n\n"%prodict[id]["space"] + return string #生成学生讲义后的答案及空格 + +def XeLaTeXCompile(filedir,filename): #在filedir目录中用XeLaTeX编译filename文件两次(能编译出正确的引用和页码) + flagsuc = True + for i in range(2): + if os.system("xelatex -interaction=batchmode -output-directory=%s %s"%(filedir,filename)) == 0: + print("第%d次编译成功."%(i+1)) + else: + flagsuc = False + return flagsuc # 若第二次编译成功则返回True, 否则返回False + + +def XeLaTeXTest(editedid,adict,objdict,misc,templatepath,outdir,outfile): #对adict中的题号字符串editedid进行编译测试, 返回成功True或失败False + latex_raw = ReadTextFile(templatepath) + if sys.platform == "darwin": #非win系统用默认字体 + latex_raw = re.sub(r"fontset[\s]*=[\s]*none","fontset = fandol",latex_raw) + latex_raw = re.sub(r"\\setCJKmainfont",r"% \\setCJKmainfont",latex_raw) + if misc["教师版"] == True: + latex_raw = latex_raw.replace(r"学号\blank{50} \ 姓名\blank{80}","上海市控江中学") + bodystring = "\\begin{enumerate}\n\n" + idlist = generate_number_set(editedid) + for id in idlist: + bodystring += generateLaTeXBodyContent(id,adict,objdict,misc) + bodystring += "\n\n\\end{enumerate}\n\n" + latex_data = StringSubstitute(r"<<[\s\S]*?待替换[\s\S]*?>>",latex_raw,("测试",bodystring)) #替换标题和bodystring + SaveTextFile(latex_data,os.path.join(outdir,outfile)) + succ = XeLaTeXCompile(outdir,outfile) + return succ + +def GenerateSectionBodyString2024(problems,sectiontitles,pro_dict,obj_dict,bk_dict,misc,consecutivenumbering= True): #生成学生版的.tex文件的主体内容 + bodystring = "" + count = 0 + for i in range(len(problems)): + if problems[i][0] in "0123456789": + idlist = generate_number_set(problems[i],pro_dict) + sectionstring = f"\\section{{{sectiontitles[i]}}}\n\\begin{{enumerate}}\n\\setcounter{{enumi}}{{{count if consecutivenumbering else 0}}}\n\n" + for id in idlist: + count += 1 + sectionstring += generateLaTeXBodyContent(id,pro_dict,obj_dict,misc) + sectionstring += "\\end{enumerate}\n\n" + bodystring += sectionstring + if problems[i][0] == "K": + idlist = problems[i].split(",") + sectionstring = f"\\section{{{sectiontitles[i]}}}\n\\begin{{enumerate}}\n\n" + for objid in idlist: + sectionstring += f"\\item {objid} \\ {(obj_dict[objid]['content'] if objid in obj_dict else '目标编号有误')}\n\n" + sectionstring += "\\end{enumerate}\n\n" + bodystring += sectionstring + if problems[i][0] == "B": + idlist = problems[i].split(",") + sectionstring = f"\\section{{{sectiontitles[i]}}}\n\\begin{{enumerate}}\n\n" + for bkid in idlist: + if bkid in bk_dict: + bk = bk_dict[bkid]["content"] + else: + bk = bkid + " \\ 基础知识编号有误" + sectionstring += f"\\item {(bk)}\n\n" + sectionstring += "\\end{enumerate}\n\n" + bodystring += sectionstring + return bodystring #返回主题内容字符串 + +# if not objlist == []: +# output += "\\section{课时目标}\n\n" +# output += "\\begin{enumerate}\n\n" +# for objid in objlist: +# output += "\\item %s \\ %s \n\n"%(objid,objdict[objid]["content"]) +# output += "\\end{enumerate}\n\n" #生成学习目标 +# if not bnlist == []: +# output += "\\section{双基梳理}\n\n" +# basic_body = "" +# for bnid in bnlist: +# basic_body += "\\item %s\n\n"%basicknowledgedict[bnid]["content"] +# output += "\\begin{enumerate}\n\n %s\n\n\\end{enumerate}\n\n"%basic_body #生成基础知识梳理 + + +def GenerateStudentBodyString(problems,sectiontitles,pro_dict,consecutivenumbering= True,answered= True,spaceflag=True): #生成学生版的.tex文件的主体内容 + bodystring = "" + if len(problems) == len(sectiontitles): + count = 0 + for i in range(len(problems)): + idlist = generate_number_set(problems[i],pro_dict) + sectionstring = "\\section{%s}\n\\begin{enumerate}\n\\setcounter{enumi}{%d}\n\n"%(sectiontitles[i],count if consecutivenumbering else 0) + for id in idlist: + count += 1 + aftercontent = StudentsGetAfterContent(id,pro_dict,answered,spaceflag) + sectionstring += "\\item {\\tiny(%s)} %s\n\n%s"%(id,pro_dict[id]["content"],aftercontent) + sectionstring += "\\end{enumerate}\n\n" + bodystring += sectionstring + else: + idstring = ",".join(problems) + idlist = generate_number_set(idstring,pro_dict) + sectionstring = "\\begin{enumerate}\n\n" + for id in idlist: + aftercontent = StudentsGetAfterContent(id,pro_dict,answered,spaceflag) + sectionstring += "\\item {\\tiny(%s)} %s\n\n%s"%(id,pro_dict[id]["content"],aftercontent) + sectionstring += "\\end{enumerate}\n\n" + bodystring += sectionstring + return bodystring #返回主题内容字符串 + + +def TeachersGetAfterContentColored(id,prodict,objdict,topandbottomusagestuple = (3,3), showobjs = True, showtags = True, showans = True, showsolution = True, showusages = True, showorigin = True, showremark = True): #生成教师版讲义后的答案及空格, topandbottomusagestuple表示保留得分率最高的使用记录与最低的使用记录的个数, 有负数表示不排列, 彩色背景 + string = "" + objs = GenerateObjTexCode(id,prodict,objdict) if showobjs else "" + tags = ("\\begin{tcolorbox}[colback = orange!10!white, colframe = orange!10!white, breakable]\n标签: %s\n\n\\end{tcolorbox}\n"%("; ".join(prodict[id]["tags"]))) if showtags else "" + ans = ("\\begin{tcolorbox}[colback = red!10!white, colframe = red!10!white, breakable]\n答案: %s\n\n\\end{tcolorbox}\n"%(prodict[id]["ans"] if prodict[id]["ans"] != "" else "暂无答案")) if showans else "" + solution = ("\\begin{tcolorbox}[colback = green!10!white, colframe = green!10!white, breakable]\n解答或提示: %s\n\n\\end{tcolorbox}\n"%(prodict[id]["solution"] if prodict[id]["solution"] != "" else "暂无解答")) if showsolution else "" + # solution = ("解答或提示: \\textcolor{magenta}{%s}\n\n"%(prodict[id]["solution"] if prodict[id]["solution"] != "" else "暂无解答")) if showsolution else "" + origin = ("\\begin{tcolorbox}[colback = yellow!30!white, colframe = yellow!30!white, breakable]\n来源: %s\n\n\\end{tcolorbox}\n"%prodict[id]["origin"]) if showorigin else "" + remark = ("\\begin{tcolorbox}[colback = cyan!30!white, colframe = cyan!30!white, breakable]\n备注: %s\n\n\\end{tcolorbox}\n"%(prodict[id]["remark"] if prodict[id]["remark"] != "" else "暂无备注")) if showremark else "" + usages = ("\\begin{tcolorbox}[colback = lime!10!white, colframe = lime!10!white, breakable]\n使用记录(%s):\n\n%s\n\n\\end{tcolorbox}\n"%(str(topandbottomusagestuple),GenerateUsageTexCode(id,prodict,topandbottomusagestuple))) if showusages else "" + string += objs + tags + ans + solution + usages + origin + remark + return string #生成教师版讲义后的答案及空格 + +def TeachersGetAfterContentPlain(id,prodict,objdict,topandbottomusagestuple = (3,3), showobjs = True, showtags = True, showans = True, showsolution = True, showusages = True, showorigin = True, showremark = True): #生成教师版讲义后的答案及空格, topandbottomusagestuple表示保留得分率最高的使用记录与最低的使用记录的个数, 有负数表示不排列 + string = "" + objs = ("目标:\n\n%s\n\n"%GenerateObjTexCode(id,prodict,objdict)) if showobjs else "" + tags = ("标签: \\textcolor[rgb]{0.5,0.6,0.8}{%s}\n\n"%("; ".join(prodict[id]["tags"])) if not prodict[id]["tags"] == [] else "标签: \n\n") if showtags else "" + ans = ("答案: \\textcolor{%s}{%s}\n\n"%(("red",prodict[id]["ans"]) if prodict[id]["ans"] != "" else ("blue","暂无答案"))) if showans else "" + solution = ("解答或提示: \\textcolor{magenta}{%s}\n\n"%(prodict[id]["solution"] if prodict[id]["solution"] != "" else "暂无解答")) if showsolution else "" + origin = ("来源: %s\n\n"%prodict[id]["origin"]) if showorigin else "" + remark = ("备注: \\textcolor[rgb]{0,0.5,0.2}{%s}\n\n"%(prodict[id]["remark"] if prodict[id]["remark"] != "" else "暂无备注")) if showremark else "" + usages = ("使用记录:\n\n%s\n\n"%GenerateUsageTexCode(id,prodict,topandbottomusagestuple)) if showusages else "" + string += objs + tags + ans + solution + usages + origin + remark + return string #生成教师版讲义后的答案及空格 + + +def GenerateObjTexCode(id,prodict,objdict): #生成目标代号对应的学习目标字符串(含蓝色编码) + # string = "" + # if prodict[id]["objs"] != []: + string = "\n\\begin{tcolorbox}[colback = blue!10!white, colframe = blue!10!white, breakable]" + for objid in prodict[id]["objs"]: + if objid.upper() == "KNONE": + string += "\n\n%s\t%s"%(objid,"无当前有效关联目标") + else: + string += "\n\n%s\t%s"%(objid,objdict[objid]["content"]) + if prodict[id]["objs"] == []: + string += "暂未关联\n" + string += "\n\n\\end{tcolorbox}\n" + return string #返回目标代码字符串 + +def ChooseUsage(usages,topandbottomusagestuple): #生成题号对应的题目的使用记录, topandbottomusagestuple表示保留得分率最高的使用记录与最低的使用记录的个数, 有负数表示不排列, 两数之和大于记录数则从高到低排列后全部展示 + top,bottom = topandbottomusagestuple + if top < 0 or bottom < 0: + return usages # 返回原本的全部使用记录 + elif top + bottom > len(usages): + return SortUsagesbyAverage(usages) # 返回排列后的使用记录 + else: + return (SortUsagesbyAverage(usages)[:top] + SortUsagesbyAverage(usages)[(len(usages)-bottom):]) # 返回排序后的最前面top个和最后面bottom个 + +def GenerateUsageTexCode(id,prodict,topandbottomusagestuple): #根据topandbottomusagestuple的要求生成题号为id的题目的缩减版的使用记录列表, topandbottomusagestuple表示保留得分率最高的使用记录与最低的使用记录的个数, 有负数表示不排列, 两数之和大于记录数则从高到低排列后全部展示 + rawusages = prodict[id]["usages"].copy() + usages = ChooseUsage(rawusages,topandbottomusagestuple) + usagecode = re.sub("\\t([\d]\.[\d]{0,10})",GenerateValueColorCode,"\n\n".join(usages)) + return usagecode #返回缩减后的使用记录列表 + +def generateLaTeXBodyContent(id,adict,objdict,misc): #根据id,读取的json内容adict,和字典misc来生成讲义 +#misc 样例 +#{ +# "教师版": True, #如果设置为True则除了 题后空间 之外都进行判断并处理, 否则只处理 题后空间 和 答案 +# "字段显示设置": { +# "题后空间": True, +# "课时目标": True, +# "题目标签": True, +# "答案": True, +# "解答与提示": True, +# "使用记录": (3,-1), +# "使用记录说明": "(a,b)表示显示最好的a个和最差b个, 有-2表示不显示, 无-2但有-1表示全部显示", +# "来源": True, +# "备注": True, +# "届别": [] +# } +# } + id = str(id).zfill(6) + if not "教师版" in misc or misc["教师版"] == False: + output = f"\n\\item {{\\tiny ({id})}} {adict[id]['content']}" + if "字段显示设置" in misc and "答案" in misc["字段显示设置"] and misc["字段显示设置"]["答案"] == True: + ans = adict[id]["ans"] if len(adict[id]["ans"]) > 0 else "暂无答案" + output += f"\n\n答案: \\textcolor{{{('red' if ans != '暂无答案' else 'blue')}}}{{{ans}}}\n\n" + if "字段显示设置" in misc and "题后空间" in misc["字段显示设置"] and misc["字段显示设置"]["题后空间"] == True: + space = f"\n\n\\vspace*{{{adict[id]['space']}}}\n\n" if len(adict[id]["space"]) > 0 else "" + output += space + else: + output = f"\n\\item ({id}) {adict[id]['content']}" + if "备注" in misc["字段显示设置"] and misc["字段显示设置"]["备注"] == True: + remark = adict[id]["remark"] if len(adict[id]["remark"]) > 0 else "暂无备注" + output += f"\n\n备注: \\textcolor[rgb]{{0,0.5,0.2}}{{{remark}}}\n\n" + if "课时目标" in misc["字段显示设置"] and misc["字段显示设置"]["课时目标"] == True: + objs = f"\n\n目标:\n\n{GenerateObjTexCode(id,adict,objdict)}\n\n" + output += objs + if "题目标签" in misc["字段显示设置"] and misc["字段显示设置"]["题目标签"] == True: + tags_raw = adict[id]['tags'] + if len(tags_raw) == 0: + tags = "暂无标签" + else: + tags = '; '.join(adict[id]['tags']) + output += f"\n\n标签: \\textcolor[rgb]{{0.5,0.6,0.8}}{{{tags}}}\n\n" + if "答案" in misc["字段显示设置"] and misc["字段显示设置"]["答案"] == True: + ans = adict[id]["ans"] if len(adict[id]["ans"]) > 0 else "暂无答案" + output += f"\n\n答案: \\textcolor{{{('red' if ans != '暂无答案' else 'blue')}}}{{{ans}}}\n\n" + if "解答与提示" in misc["字段显示设置"] and misc["字段显示设置"]["解答与提示"] == True: + solution = adict[id]["solution"] if len(adict[id]["solution"]) > 0 else "暂无解答或提示" + output += f"\n\n解答或提示: \\textcolor{{magenta}}{{{solution}}}\n\n" + if "使用记录" in misc["字段显示设置"] and type(misc["字段显示设置"]["使用记录"]) in (list,tuple) and not -2 in misc["字段显示设置"]["使用记录"]: + usages = f"\n\n使用记录:\n\n{GenerateUsageTexCode(id,adict,misc['字段显示设置']['使用记录'])}\n\n" + output += usages + if "来源" in misc["字段显示设置"] and misc["字段显示设置"]["来源"] == True: + origin = generate_origin(adict[id]["origin"]) if len(adict[id]["origin"]) > 0 else "未记录来源" + output += f"\n\n来源: {origin}\n\n" + return output + + +def GenerateTeacherBodyString(problems,sectiontitles,prodict,objdict,consecutivenumbering = True,topandbottomusagestuple = (3,3),sectionname = "section", showobjs = True, showtags = True, showans = True, showsolution = True, showusages = True, showorigin = True, showremark = True, colored = False): #生成教师版的.tex文件的主体内容, 各项是否显示为可选 + bodystring = "" + GetAfterContent = TeachersGetAfterContentPlain if not colored else TeachersGetAfterContentColored + if len(problems) == len(sectiontitles): + count = 0 + for i in range(len(problems)): + idlist = generate_number_set(problems[i],prodict) + sectionstring = "\\%s{%s}\n\\begin{enumerate}\n\\setcounter{enumi}{%d}\n\n"%(sectionname,sectiontitles[i],count if consecutivenumbering else 0) + for id in idlist: + count += 1 + aftercontent = GetAfterContent(id,prodict,objdict,topandbottomusagestuple = topandbottomusagestuple, showobjs = showobjs, showtags = showtags, showans = showans, showsolution = showsolution, showusages = showusages, showorigin = showorigin, showremark = showremark) + sectionstring += "\\item (%s) %s\n\n%s"%(id,prodict[id]["content"],aftercontent) + sectionstring += "\\end{enumerate}\n\n" + bodystring += sectionstring + else: + idstring = ",".join(problems) + idlist = generate_number_set(idstring,prodict) + sectionstring = "\\begin{enumerate}\n\n" + for id in idlist: + aftercontent = GetAfterContent(id,prodict,objdict,topandbottomusagestuple = topandbottomusagestuple, showobjs = showobjs, showtags = showtags, showans = showans, showsolution = showsolution, showusages = showusages, showorigin = showorigin, showremark = showremark) + sectionstring += "\\item (%s) %s\n\n%s"%(id,prodict[id]["content"],aftercontent) + sectionstring += "\\end{enumerate}\n\n" + bodystring += sectionstring + return bodystring #返回主体内容字符串 + +def GetValidTexFiles(path): #获取 有题号的.tex文件列表 及 有题号的.tex文件所在的路径列表 + texlist = [] + pathlist = [] + for root,folders,files in os.walk(path): + for file in files: + if file[-4:] == ".tex": + texdata = ReadTextFile(os.path.join(root,file)) + ids = re.findall(r"\((\d{6})\)",texdata) + if len(ids) > 0: + pathlist = pathlist + [root] + texlist = texlist + [os.path.join(root,file)] + texlist = sorted(list(set(texlist))) + pathlist = sorted(list(set(pathlist))) + return (texlist,pathlist) # 返回 有题号的.tex文件列表 与 所在路径列表 组成的二元组 + + +def generate_lessonid_list(lessonidstr,lessonsdict): #根据lessonidstr的条件(开头字母与数字)返回课时代码列表 + raw_criterion_list = lessonidstr.split(",") + criterion_list = [] + for cr in raw_criterion_list: #生成满足要求的课时代码的前若干位 + if not ":" in cr: + criterion_list.append(cr) + else: + criterion_list = criterion_list + ["K"+c[-4:] for c in generate_number_set(cr.upper().replace("K",""))] + + lessons_list = [] + for id in lessonsdict: #对每一课时作比对, 生成课时代码列表 + for cr in criterion_list: + if id.startswith(cr): + lessons_list.append(id) + break + return lessons_list # 返回课时代码列表 + + +def GenerateLessonPreparationDraft(notetitle, outputdir, adict, prodict, objdict, lessonsdict, topandbottomusagestuple = (3,3), showobjs = True, showtags = True, showans = True, showsolution = True, showusages = True, showorigin = True, showremark = True): #根据adict中课时与题号的对应生成每一课时的备课草稿 + output = "\\tableofcontents\n\\newpage\n\n" + + outputfilepath = os.path.join(outputdir,notetitle+".tex") + + + for lid in adict: + output += "\\section{%s \ %s}\n\n"%(lid,lessonsdict[lid]["name"]) + output += "\\subsection{课时目标}\n\n" + output += "\\begin{enumerate}\n\n" + for objid in objdict: + if objid.startswith(lid): + output += "\\item %s \\ %s \n\n"%(objid,objdict[objid]["content"]) + output += "\\end{enumerate}\n\n" + output += GenerateTeacherBodyString([adict[lid]],["参考题目资源"],prodict,objdict,sectionname = "subsection",topandbottomusagestuple= topandbottomusagestuple, showobjs = showobjs, showtags = showtags, showans = showans, showsolution = showsolution, showusages = showusages, showorigin = showorigin, showremark = showremark) + output += "\\newpage\n\n" + + + latex_raw = ReadTextFile("模板文件/讲义模板.txt") + latex_raw = latex_raw.replace(r"学号\blank{50} \ 姓名\blank{80}","上海市控江中学") #替换掉模板中的姓名学号 + + if sys.platform == "darwin": #非win系统用默认字体 + latex_raw = re.sub(r"fontset[\s]*=[\s]*none","fontset = fandol",latex_raw) + latex_raw = re.sub(r"\\setCJKmainfont",r"% \\setCJKmainfont",latex_raw) + + latex_data = StringSubstitute(r"<<[\s\S]*?待替换[\s\S]*?>>",latex_raw,(notetitle,output)) #替换标题和bodystring + SaveTextFile(latex_data,outputfilepath) #保存.tex文件 + + if XeLaTeXCompile(outputdir,notetitle+".tex"): + print("编译成功") + return 0 # 返回0 + else: + print("编译失败") + return latex_data # 返回有错误的latex源代码 + +def GenerateLessonPreparation(notetitle, outputdir, adict, prodict, objdict, basicknowledgedict, homeworkspaces = False): #根据adict生成每一课时的教案 + output = "\\tableofcontents\n\\newpage\n\n" + + outputfilepath = os.path.join(outputdir,notetitle+".tex") + + + for key in adict: + lessonid = key + lessonname = adict[key]["name"] + objlist = adict[key]["objects"] + bnlist = adict[key]["basicknowledges"] + eblist = adict[key]["examples_basic"] + ealist = adict[key]["examples_adv"] + worklist = adict[key]["work_inclass"] + homeworklist = adict[key]["homework"] + remarks = adict[key]["remarks"] + if not "复习" in lessonname: + output += "\\section{%s \ %s}\n\n"%(lessonid,lessonname) + + if not objlist == []: + output += "\\subsection{课时目标}\n\n" + output += "\\begin{enumerate}\n\n" + for objid in objlist: + output += "\\item %s \\ %s \n\n"%(objid,objdict[objid]["content"]) + output += "\\end{enumerate}\n\n" #生成学习目标 + if not bnlist == []: + output += "\\subsection{双基梳理}\n\n" + basic_body = "" + for bnid in bnlist: + basic_body += "\\item %s\n\n"%basicknowledgedict[bnid]["content"] + output += "\\begin{enumerate}\n\n %s\n\n\\end{enumerate}\n\n"%basic_body #生成基础知识梳理 + output += "\\subsection{知识体验}\n\n" + output += "\\subsubsection{必讲例题}\n\n" + output += GenerateStudentBodyString(eblist,[],prodict,consecutivenumbering=False,answered=False) + output += "\\subsubsection{选讲例题}\n\n" + output += GenerateStudentBodyString(ealist,[],prodict,consecutivenumbering=False,answered=False) + output += "\\subsection{巩固新知}\n\n" + output += GenerateStudentBodyString(worklist,[],prodict,consecutivenumbering=False,answered=False) + if not remarks == "": + output += "\\subsection{备注}\n\n" + output += remarks + "\n\n" + if homeworkspaces: + output += "\\newpage\n\n" + output += "\\subsection{课后作业}\n\n" + output += GenerateStudentBodyString(homeworklist,[],prodict,consecutivenumbering=False,answered=False,spaceflag=homeworkspaces) + output += "\\newpage\n\n" + else: + output += "\\section{%s \ %s}\n\n"%(lessonid,lessonname) + output += "\\subsection{复习题}\n\n" + output += GenerateStudentBodyString(homeworklist,[],prodict,consecutivenumbering=False,answered = False,spaceflag=homeworkspaces) + output += "\\newpage\n\n" + + latex_raw = ReadTextFile("模板文件/讲义模板.txt") + latex_raw = latex_raw.replace(r"学号\blank{50} \ 姓名\blank{80}","上海市控江中学") #替换掉模板中的姓名学号 + + if sys.platform == "darwin": #非win系统用默认字体 + latex_raw = re.sub(r"fontset[\s]*=[\s]*none","fontset = fandol",latex_raw) + latex_raw = re.sub(r"\\setCJKmainfont",r"% \\setCJKmainfont",latex_raw) + + latex_data = StringSubstitute(r"<<[\s\S]*?待替换[\s\S]*?>>",latex_raw,(notetitle,output)) #替换标题和bodystring + SaveTextFile(latex_data,outputfilepath) #保存.tex文件 + + if XeLaTeXCompile(outputdir,notetitle+".tex"): + print("编译成功") + return 0 # 返回0 + else: + print("编译失败") + return latex_data # 返回有错误的latex源代码 + + +def GenerateSingleLessonPreparation(lessonid, outputdir, adict, prodict, objdict, basicknowledgedict, homeworkspaces = False, filename = "default"): #根据adict生成每一课时的教案 + output = "" + notetitle = lessonid + r" \ " + adict[lessonid]["name"] + if filename == "default": + filename = lessonid + adict[lessonid]["name"]+".tex" + else: + filename = filename+".tex" + outputfilepath = os.path.join(outputdir,filename) + lessonname = adict[lessonid]["name"] + objlist = adict[lessonid]["objects"] + bnlist = adict[lessonid]["basicknowledges"] + eblist = adict[lessonid]["examples_basic"] + ealist = adict[lessonid]["examples_adv"] + worklist = adict[lessonid]["work_inclass"] + homeworklist = adict[lessonid]["homework"] + remarks = adict[lessonid]["remarks"] + + if not "复习" in lessonname: + if not objlist == []: + output += "\\section{课时目标}\n\n" + output += "\\begin{enumerate}\n\n" + for objid in objlist: + output += "\\item %s \\ %s \n\n"%(objid,objdict[objid]["content"]) + output += "\\end{enumerate}\n\n" #生成学习目标 + if not bnlist == []: + output += "\\section{双基梳理}\n\n" + basic_body = "" + for bnid in bnlist: + basic_body += "\\item %s\n\n"%basicknowledgedict[bnid]["content"] + output += "\\begin{enumerate}\n\n %s\n\n\\end{enumerate}\n\n"%basic_body #生成基础知识梳理 + + output += "\\section{知识体验}\n\n" + # output += "\\subsection{必讲例题}\n\n" + output += GenerateStudentBodyString(eblist,[],prodict,consecutivenumbering=False,answered=False) + # output += "\\subsection{选讲例题}\n\n" + # output += GenerateStudentBodyString(ealist,[],prodict,consecutivenumbering=False,answered=False) + output += "\\section{巩固新知}\n\n" + output += GenerateStudentBodyString(worklist,[],prodict,consecutivenumbering=False,answered=False) + if not remarks == "": + output += "\\section{备注}\n\n" + output += remarks + "\n\n" + if homeworkspaces: + output += "\\newpage\n\n" + output += "\\section{课后作业}\n\n" + output += GenerateStudentBodyString(homeworklist,[],prodict,consecutivenumbering=False,answered=False,spaceflag=homeworkspaces) + else: + output += "\\section{复习题}\n\n" + output += GenerateStudentBodyString(homeworklist,[],prodict,consecutivenumbering=False,answered = False,spaceflag=homeworkspaces) + + latex_raw = ReadTextFile("模板文件/讲义模板.txt") + latex_raw = latex_raw.replace(r"学号\blank{50} \ 姓名\blank{80}","上海市控江中学") #替换掉模板中的姓名学号 + + if sys.platform == "darwin": #非win系统用默认字体 + latex_raw = re.sub(r"fontset[\s]*=[\s]*none","fontset = fandol",latex_raw) + latex_raw = re.sub(r"\\setCJKmainfont",r"% \\setCJKmainfont",latex_raw) + + latex_data = StringSubstitute(r"<<[\s\S]*?待替换[\s\S]*?>>",latex_raw,(notetitle,output)) #替换标题和bodystring + SaveTextFile(latex_data,outputfilepath) #保存.tex文件 + + if XeLaTeXCompile(outputdir,filename): + print("编译成功") + return 0 # 返回0 + else: + print("编译失败") + return latex_data # 返回有错误的latex源代码 + + +def getlineindex(string,filepath): #返回字符串在文本文件中第一次出现的行数, 若未出现则返回1 + with open(filepath,"r",encoding = "u8") as f: + lines = f.readlines() + for l in lines: + if string in l: + return lines.index(l)+1 + return 1 + +def getCopy(): # 获取剪切板内容 + t = pyperclip.paste().replace("\r","") + return t + + +def setCopy(string): # 写入剪切板内容 + pyperclip.copy(string) + + # wc.OpenClipboard() + # wc.EmptyClipboard() + # wc.SetClipboardData(win32con.CF_UNICODETEXT, string) + # wc.CloseClipboard() + +def itemizeProblems(string): #将题号替换为\item + string_list = string.split("\n") + itemed_list = [] + for line in string_list: + if not "&" in line or "tabular" in line or "array" in line or "cases" in line: + itemed_list.append(re.sub(r"(?:(?:^|\n)+[例]*[\s]*[0-9]+[\s]*[\.、\s]+|\[[\s]*例[\s]*[0-9]*[\s]*\][\s]*)","\\n\\\\item ",line)) + else: + itemed_list.append(line) + string = "\n".join(itemed_list) + return string + +def RefinePunctuations(raw_string): + puctuationsfulltosemi = {" ": " ","。": ". ",".": ". ",",": ", ",":": ": ",";": "; ","(": "(",")": ")","?": "? ","“": "``","”": "''", "【": "[", "】": "]", "!": "!"} + string = raw_string.strip() + for s in puctuationsfulltosemi: + string = re.sub(s,puctuationsfulltosemi[s],string) #将部分全角标记替换为半角 + return string + +def RefineMathpix(raw_string): # 进一步修改mathpix得到的字符串 + puctuationsfulltosemi = {" ": " ","。": ". ",".": ". ",",": ", ",":": ": ",";": "; ","(": "(",")": ")","?": "? ","“": "``","”": "''", "【": "[", "】": "]"} + replacestrings = {r"\\overparen": r"\\overset\\frown", "eqslant": "eq", r"\\vec": r"\\overrightarrow ", r"\\bar": r"\\overline", r"\\lim": r"\\displaystyle\\lim", r"\\sum":r"\\displaystyle\\sum", r"\\prod":r"\\displaystyle\\prod", r"\\mid":"|", r"\^\{\\prime\}":"'",r"e\^":r"\\mathrm{e}^",r"/\s*/":r"\\parallel "} + wrongrecog = {"雉":"锥","[粗秿]圆":"椭圆","投郑":"投掷","抛郑":"抛掷","范目":"范围","揷":"插","末见":"未见","末成":"未成","针角":"钝角","幕函数":"幂函数","末知":"未知","阀值":"阈值","祖[桓晅]":"祖暅","图象":"图像","末使用":"未使用","末来":"未来","竟赛":"竞赛"} + string = raw_string + string = re.sub(r"\\left([\.\(\[|])",lambda matchobj: "" if matchobj.group(1) == "." else matchobj.group(1),string) #删去括号前的\left标记 + string = re.sub(r"\\right([\.\)\]|])",lambda matchobj: "" if matchobj.group(1) == "." else matchobj.group(1),string) #删去括号前的\right标记\ + string = re.sub(r"\\left\\\{","\\{",string) #删去大括号前的\left标记 + string = re.sub(r"\\right\\\}","\\}",string) #删去大括号前的\right标记 + string = string.replace("\\left\\langle","\\langle").replace("\\right\\rangle","\\rangle") + for s in puctuationsfulltosemi: + string = re.sub(s,puctuationsfulltosemi[s],string) #将部分全角标记替换为半角 + for s in replacestrings: + string = re.sub(s,replacestrings[s],string) #修改部分LaTeX命令成为惯用的 + for s in wrongrecog: + string = re.sub(s,wrongrecog[s],string) #修改mathpix识别的一些常见错别字 + string = RipTestPaperDesc(string) + string = re.sub(r"[\s]*(``|''|\}|\{) *",lambda matchobj: matchobj.group(1),string) #去除符号前后的空格 + string = itemizeProblems(string) #将题号替换为\item + string = re.sub(r"\$\$","$",string) #行间公式替换为行内公式 + string = re.sub(r"\$\s+\$"," ",string) #删除多余的$符号 + string = re.sub(r"([,.:;?!])\$",lambda x:x.group(1)+" $",string) #标点和$符号分开 + string = re.sub(r"\\left\\lvert\\,","|",string) #替换|的错误代码 + string = re.sub(r"\\frac",r"\\dfrac",string) #替换frac为dfrac + string = re.sub(r"\n(?:A\.|\(A\))([\s\S]*?)(?:B\.|\(B\))([\s\S]*?)(?:C\.|\(C\))([\s\S]*?)(?:D\.|\(D\))([\s\S]*?)\n",lambda matchobj: "\n\\fourch{%s}{%s}{%s}{%s}\n"%(matchobj.group(1).strip(),matchobj.group(2).strip(),matchobj.group(3).strip(),matchobj.group(4).strip()),string+"\n\n") # 选择题的选择支处理 + string = re.sub(r"[\.;](\}\{|\}\n)",lambda matchobj: matchobj.group(1),string) #去除选择题选项最末尾的句号或分号 + string = re.sub(r"\n\s+","\n",string) #删除多余的回车 + string = re.sub(r"\\q+uad","",string) #删除\quad,\qquad等 + string = re.sub(r"\$\\q+uad\$","",string)#删除两边有$的\quad,\qquad等 + string = re.sub(r"~","",string) #删除~ + string = re.sub(r"\s*\([\s]{,10}\)",r"\\bracket{20}",string) + string = re.sub(r"\s*\\bracket\{20\}\s*\n",r"\\bracket{20}.\n",string)#行末无内容括号的处理 + for i in range(2): + string = re.sub(r"(\^|_)\{([0-9a-zA-Z])\}",lambda matchobj: matchobj.group(1)+matchobj.group(2),string) #删除一些无用的大括号 + for i in range(2): + string = re.sub(r"([0-9A-Z])\s+([0-9A-Z])",lambda matchobj: matchobj.group(1)+matchobj.group(2),string) #合并一些公式中的无效空格 + for i in range(2): + string = re.sub(r"([\u4e00-\u9fa5])\s+([\u4e00-\u9fa5])",lambda matchobj: matchobj.group(1)+matchobj.group(2),string) #合并一些文本中的无效空格 + string = re.sub(r"([CP])(_[^_\^]{,5}\^)",lambda x:r"\mathrm{"+x.group(1)+"}"+x.group(2),string) #处理排列数和组合数字母的正体 + string = re.sub(r"([\^_])\{([-]{0,1})\\dfrac",lambda matchobj: matchobj.group(1) + "{" + matchobj.group(2) + "\\frac",string) + string = re.sub(r"ldots",r"cdots",string) #将ldots替换为cdots + string = re.sub(r"\\text\s*\{,\s*当\s*\}",", ",string) + string = re.sub(r"[\\{]*\\(begin|end)\{array\}(?:\{[rcl]*\}){0,1}",lambda matchobj: "\\" + matchobj.group(1) + "{cases}",string) #将分段函数的array环境改为cases环境 + string = re.sub(r"([\u4e00-\u9fa5\$])[\s]*\n\\item",lambda matchobj: matchobj.group(1)+"\\blank{50}.\n\\item",string) #给中文或公式结尾的题目最后一行加上填空的空格. + string = re.sub(r"(是|为|(?:=\$))\s*([,.;\n])",lambda matchobj: matchobj.group(1) + "\\blank{50}" + ("." if matchobj.group(2) == "\n" else "") + matchobj.group(2),string) #给行中的题目需要的地方加上空格 + string = re.sub(r"(有|为|(?:确定))([种条个])",lambda matchobj: matchobj.group(1) + "\\blank{50}" + matchobj.group(2),string) #给行中的题目需要的地方加上空格 + if not "\\bracket" in string: + string = re.sub(r"([\u4e00-\u9fa5\$])(?:\\bracket\{20\})*[\.]*[\s]*\n\\fourch",lambda matchobj: matchobj.group(1)+"\\bracket{20}.\n\\fourch",string) #给中文或公式结尾的题目最后一行加上选择题的括号. + string = re.sub(r"\\bracket\{(\d*)\}\$",lambda matchobj: "$"+"\\bracket{"+matchobj.group(1)+"}",string)#交换出现在$之前的括号与$的位置 + string = re.sub(r"(%[^\n]*)\\blank\{50\}\.",lambda matchobj:matchobj.group(1),string) #注释行不加\blank{50} + string = re.sub(r"\\blank\{50\}\.\s*\n\\fourch",r"\\bracket{20}."+"\n"+r"\\fourch",string) #选择题前的空格改为括号 + string = re.sub(r"[\\\\]*\n(\(\d{1,2}\))(?:(?!\n)\s)*",lambda matchobj: "\\\\\n"+matchobj.group(1)+" ",string) #新一行的小题号回车前加上换行符 + string = re.sub(r"\(([^\(\)]*(?:\\in|=|\\ge|\\le|\\ne|>|<|\\parallel|\\perp)[^\(\)]*)\)\$",lambda matchobj: "$($" + matchobj.group(1) + "$)",string) #公式最后的范围陈述的括号放到公式环境外 + string = re.sub(r"\$\$\(","(",string) #删去上一步造成的多余双$ + string = re.sub(r"\(\s\$","($",string) #删去首个括号内公式前的空格 + string = re.sub(r"\(\\begin\{cases\}",r"\\begin{pmatrix}",string) #修改错误的\begin{cases}) + string = re.sub(r"\\end\{cases\}\)",r"\\end{pmatrix}",string) #修改错误的(\end{cases} + string = SplitMathComma(string) #判断数学环境中的","是否需要用$ $分离, 如果需要则执行分离 + string = MergeMathComma(string) #判断非数学环境中的","是否需要合并在一个数学环境中, 如果需要则执行合并 + string = RefineCasesEnv(string) #美化cases环境 + string = RefineChineseComma(string) #改顿号 + string = RefineInterval(string) #改错误的dollars符号和括号的顺序 + string = string.replace("$$"," ") + string = re.sub(r"\s+\\blank\{50\}",r"\\blank{50}",string) + string = re.sub(r"\s+\\bracket\{20\}",r"\\bracket{20}",string) + + + return string + +def RefineInterval(string): + newstring = string + matches = re.finditer(r"\+\\infty\$\)",newstring) #先处理右括号 + poslist = [(match.start(),match.end()) for match in matches] + poslist.reverse() #从后往前逐一更改 + for s,e in poslist: + leftdollar = newstring[:s].rfind("$") + leftbracket = leftdollar-1 + lb = newstring[leftbracket] + if lb in ["[","("]: #如果上一个$前面是括号, 就交换这一对相应的$符号和括号 + print("$"+lb+newstring[leftbracket+2:e-2] + ")$") + newstring = newstring[:leftbracket] + "$"+lb+newstring[leftbracket+2:e-2] + ")$" + newstring[e:] + matches = re.finditer(r"\(\$-\\infty",newstring) + poslist = [(match.start(),match.end()) for match in matches] + poslist.reverse() #从后往前逐一更改 + for s,e in poslist: + # print(s,e) + rightdollar = newstring[e:].find("$")+e + rightbracket = rightdollar+1 + rb = newstring[rightbracket] + if rb in ["]",")"]: + print("$("+newstring[s+2:rightbracket-1]+rb+"$") + newstring = newstring[:s]+"$("+newstring[s+2:rightbracket-1]+rb+"$"+newstring[rightbracket+1:] + newstring = newstring.replace("($-\\infty$, $+\\infty$)","$(-\\infty, +\\infty)$") + return newstring + +def RefineChineseComma(string): #顿号如果在数学环境中, 则在两侧加上$符号 + CommaPositions = [match.start() for match in re.finditer("、",string)] + CommaPositions.reverse() + for pos in CommaPositions: + if string[:pos].count("$") % 2 == 1: + string = string[:pos].rstrip() + "$、$" + string[(pos+1):].lstrip() + return string + +def SplitMathComma(string): #判断数学环境中的","是否需要用$ $分离, 如果需要则执行分离 + UnsplittedPairs = [(r"[\(\[]",r"[\)\]]"),(r"\{",r"\}"),(r"\\begin\{cases\}",r"\\end\{cases\}")] + lmatter,rmatter = (string,"") + while "," in lmatter: + pos = lmatter.rfind(",") + if lmatter[:pos].count("$") % 2 == 1: + stringtemp = lmatter+rmatter + start = stringtemp[:pos].rfind("$") + end = stringtemp[pos:].find("$")+pos #寻找,两侧的数学环境 stringtemp[start:end+1] + locallmatter = stringtemp[start+1:pos] + localrmatter = stringtemp[pos+1:end] + tosplit = True + for p1,p2 in UnsplittedPairs: + p1l = SubstringOccurence(p1,locallmatter) + p1r = SubstringOccurence(p1,localrmatter) + p2l = SubstringOccurence(p2,locallmatter) + p2r = SubstringOccurence(p2,localrmatter) + if len(p1l)>0 and len(p2l) == 0: + tosplit = False + if len(p2r)>0 and len(p1r) == 0: + tosplit = False + if len(p1l)*len(p2l)>0: + if p1l[-1]>p2l[-1]: + tosplit = False + if len(p1r)*len(p2r)>0: + if p1r[0]>p2r[0]: + tosplit = False + if len(SubstringOccurence(r"(?:=|\\ge|\\le|\\ne|\\in|>|<|\\parallel|\\perp)",locallmatter))*len(SubstringOccurence(r"(?:=|\\ge|\\le|\\ne|\\in|>|<|\\parallel|\\perp)",localrmatter)) == 0: + tosplit = False + if tosplit: + rmatter = ", $"+lmatter[pos+1:].lstrip()+rmatter.lstrip() + lmatter = lmatter[:pos]+"$" + else: + rmatter = lmatter[pos-1:]+rmatter + lmatter = lmatter[:pos-1] + else: + rmatter = lmatter[pos-1:]+rmatter + lmatter = lmatter[:pos-1] + return lmatter+rmatter + +def MergeMathComma(string): #判断非数学环境中的","是否需要合并在一个数学环境中, 如果需要则执行合并 + UnsplittedPairs = [(r"[\(\[]",r"[\)\]]"),(r"\{",r"\}"),(r"\\begin\{cases\}",r"\\end\{cases\}")] + lmatter,rmatter = (string,"") + while not [item for item in re.finditer(r"\$,\s*\$",lmatter)] == []: + CommaPos = [(item.start(),item.end()) for item in re.finditer(r"\$,\s*\$",lmatter)] + ThePos = CommaPos[-1] + tempstring = lmatter+rmatter + lpos = tempstring[:ThePos[0]].rfind("$") + rpos = tempstring[ThePos[1]+1:].find("$") + ThePos[1] + 1 + locallmatter = tempstring[lpos+1:ThePos[0]] + localrmatter = tempstring[ThePos[1]:rpos] + tomerge = False + for p1,p2 in UnsplittedPairs: + if len(SubstringOccurence(p1,locallmatter))-len(SubstringOccurence(p2,locallmatter)) == 1 and len(SubstringOccurence(p2,localrmatter))-len(SubstringOccurence(p1,localrmatter)) == 1: + tomerge = True + if tomerge: + rmatter = ", "+lmatter[ThePos[1]:]+rmatter + lmatter = lmatter[:ThePos[0]] + else: + rmatter = lmatter[ThePos[0]:]+rmatter + lmatter = lmatter[:ThePos[0]] + return lmatter+rmatter + +def ReverseMatchBrackets(string):#从最后开始寻找第一组匹配的括号, 返回左括号位置与右括号位置组成的数对 + if not ")" in string: + return -1 + else: + endpos = string.rfind(")") + lmatter = string[:endpos] + startpos = -1 + for i in range(len(lmatter)-1,-1,-1): + templmatter = lmatter[i:] + if templmatter.count("(")-templmatter.count(")") == 1: + startpos = i + break + return (startpos,endpos) + +def RefineCasesEnv(string): # 美化cases环境 + CasesPos = [(item.start(1),item.end(1)) for item in re.finditer(r"\\begin\{cases\}(.*?)\\end\{cases\}",string, re.DOTALL)] #找到所有的cases环境 + CasesPos.reverse() + for start,end in CasesPos: + lmatter = string[:start] + rmatter = string[end:] + content = string[start:end] + lines = [item.strip() for item in content.split(r"\\")] + newlist = [] + for line in lines: + newline = line + if line[-1] == ")": + lbracket,rbracket = ReverseMatchBrackets(line) + if re.findall(r"(?:=|<|>|\\ge|\\le|\\in)",line[lbracket:rbracket]) != []: + newline = line[:lbracket] + ", " + line[lbracket+1:rbracket] + "," #用逗号代替表示范围的括号 + newline = re.sub(r",",",&",newline) + newlist.append(newline) + newcontent = r"\\".join(newlist) + newcontent = re.sub(r",[\s]*&[\s]*\\",r",\\",newcontent) + newcontent = re.sub(r",[\s]*&[\s]*$",",",newcontent) #给逗号添加&分栏符, 并去除无效的& + string = lmatter + newcontent + rmatter + string = re.sub(r"&[,\s]&","& ",string) + return string #返回处理后的字符串 + +def RipTestPaperDesc(string): + string = re.sub(r"[一二三四五六][、\.\s]+(?:(?:填空)|(?:选择)|(?:解答))题","",string) #去除没有标分数的填空选择解答题描述 + string = re.sub(r"\(本[大]*题满分[^\)]*\d+\s*分\)","",string) #去除带括号的分数描述 + string = re.sub(r"本[大]*题[^\n]*?步骤\.{0,1}","",string) #去除解答题需要写出步骤提示 + string = re.sub(r"\({0,1}本[大]*题共有[^\n]*\d+\s*分\.{0,1}\){0,1}","",string) #去除解答题单题分数提示 + string = re.sub(r"每题有[^\n]*涂黑\.{0,1}","",string) #去除选择题提示 + string = re.sub(r"考生[^\n]*结果\.*","",string) #去除作答提示 + return string + +def SubstringOccurence(regex,string): #生成regex在string中出现的所有位置 + poslist = [item.start() for item in re.finditer(regex,string)] + return poslist + +def select_grade_from_pro_dict(prodict,grades): + if len(grades) == 0: + return prodict + else: + gradelist = [] + for g in grades: + if not "届" in g: + gradelist.append(g+"届") + else: + gradelist.append(g) + adict = prodict.copy() + for id in prodict: + raw_usages = prodict[id]["usages"].copy() + new_usages = [] + for u in raw_usages: + for g in gradelist: + if g in u: + new_usages.append(u) + adict[id]["usages"] = new_usages.copy() + return adict + +def GenerateSingleLessonNote2024(id,notesdict,pro_dict,obj_dict,bk_dict,templatepath,outputfilepath,misc,consecutivenumbering = False): #20231215版讲义生成 + notetitle = id + r" \ " + notesdict["notes"][id]["name"] + structure = notesdict["structures"][id[0].upper()]["structure"] + note_contents = notesdict["notes"][id] + output = "" + sections_list = [] + problems_list = [] + for key in structure: + if not len(note_contents[key]) == 0: + sections_list.append(key) + problems_list.append(",".join(note_contents[key])) + rawoutput = GenerateSectionBodyString2024(problems=problems_list,sectiontitles=sections_list,pro_dict=pro_dict,obj_dict=obj_dict,bk_dict=bk_dict,misc=misc,consecutivenumbering= consecutivenumbering) + # rawoutput = GenerateStudentBodyString(problems=problems_list,sectiontitles=sections_list,pro_dict=metadict,consecutivenumbering= consecutivenumbering, answered= answered, spaceflag = True) + paragraphs = [p for p in rawoutput.split("\\section") if not p.strip() == ""] + for item in paragraphs: + sectionkey, content = re.findall(r"\{([\S]*)\}\n([\S\s]*)$",item)[0] + if not len(paragraphs) == 1: + output += "\\section{" + structure[sectionkey]["name"] + "}\n\n" + # if not structure[sectionkey]["spaceflag"] or answered: + # content = re.sub(r"\\vspace[\*]?\{[\S]*\}","\n",content) + output += content + "\n\n" + + latex_raw = ReadTextFile(templatepath) + latex_raw = latex_raw.replace(r"学号\blank{50} \ 姓名\blank{80}","上海市控江中学") #替换掉模板中的姓名学号 + + if sys.platform == "darwin": #非win系统用默认字体 + latex_raw = re.sub(r"fontset[\s]*=[\s]*none","fontset = fandol",latex_raw) + latex_raw = re.sub(r"\\setCJKmainfont",r"% \\setCJKmainfont",latex_raw) + + latex_data = StringSubstitute(r"<<[\s\S]*?待替换[\s\S]*?>>",latex_raw,(notetitle,output)) #替换标题和bodystring + SaveTextFile(latex_data,outputfilepath) #保存.tex文件 + + if misc["编译单个文件"] == True: + outputdir,filename = os.path.split(outputfilepath) + print(f"{filename}编译中...") + if XeLaTeXCompile(outputdir,filename): + print("编译成功") + else: + print("编译失败") + return latex_data # 返回有错误的latex源代码 + +def GenerateSingleLessonNote(id,notesdict,metadict,templatepath,outputfilepath,consecutivenumbering = False, answered = False): #20231215版讲义生成 + notetitle = id + r" \ " + notesdict["notes"][id]["name"] + structure = notesdict["structures"][id[0].upper()]["structure"] + note_contents = notesdict["notes"][id] + output = "" + sections_list = [] + problems_list = [] + for key in structure: + if not len(note_contents[key]) == 0: + sections_list.append(key) + problems_list.append(",".join(note_contents[key])) + rawoutput = GenerateStudentBodyString(problems=problems_list,sectiontitles=sections_list,pro_dict=metadict,consecutivenumbering= consecutivenumbering, answered= answered, spaceflag = True) + paragraphs = [p for p in rawoutput.split("\\section") if not p.strip() == ""] + for item in paragraphs: + sectionkey, content = re.findall(r"\{([\S]*)\}\n([\S\s]*)$",item)[0] + if not len(paragraphs) == 1: + output += "\\section{" + structure[sectionkey]["name"] + "}\n\n" + if not structure[sectionkey]["spaceflag"] or answered: + content = re.sub(r"\\vspace[\*]?\{[\S]*\}","\n",content) + output += content + "\n\n" + + latex_raw = ReadTextFile(templatepath) + latex_raw = latex_raw.replace(r"学号\blank{50} \ 姓名\blank{80}","上海市控江中学") #替换掉模板中的姓名学号 + + if sys.platform == "darwin": #非win系统用默认字体 + latex_raw = re.sub(r"fontset[\s]*=[\s]*none","fontset = fandol",latex_raw) + latex_raw = re.sub(r"\\setCJKmainfont",r"% \\setCJKmainfont",latex_raw) + + latex_data = StringSubstitute(r"<<[\s\S]*?待替换[\s\S]*?>>",latex_raw,(notetitle,output)) #替换标题和bodystring + SaveTextFile(latex_data,outputfilepath) #保存.tex文件 + + outputdir,filename = os.path.split(outputfilepath) + print(f"{filename}编译中...") + if XeLaTeXCompile(outputdir,filename): + print("编译成功") + return latex_data # 返回0 + else: + print("编译失败") + return latex_data # 返回有错误的latex源代码 + + +def getUnit(n): # 返回0-9的数字对应的单元名 + unitlist = ["暂无对应","第一单元","第二单元","第三单元","第四单元","第五单元","第六单元","第七单元","第八单元","第九单元"] + if 0<=n<=9: + return unitlist[n] + +def getUnitNumber(string): + unitlist = ["暂无对应","第一单元","第二单元","第三单元","第四单元","第五单元","第六单元","第七单元","第八单元","第九单元"] + if string in unitlist[1:]: + return unitlist.index(string) + +def ExtractProblemIDs(paperdict,pro_dict):#从备课组材料的每一张讲义的dict(paperdict)中提取题号 + output = [] + for key in paperdict.keys(): + if type(paperdict[key]) == list: + suslist = paperdict[key] + flag = True + for id in suslist: + if not id in pro_dict: + flag = False + break + if flag: + for id in suslist: + output.append(id) + return(output) + + +def ParseZipname(zipfilename): #小闲平台的zip文件中获得试卷编号, 返回试卷编号字符串 + xiaoxianpid = re.findall(r"^[可选_]*(\d*?)_",os.path.split(zipfilename)[1]) + return xiaoxianpid[0] + +def FindFile(dir,filename): #在指定目录及子目录下寻找特定文件名的文件, 返回文件所在的路径列表 + pathlist = [] + for path,m,filenames in os.walk(dir): + if filename in filenames: + pathlist.append(path) + return pathlist + +def FindPaper(xiaoxianpid, answersheetpath): #根据小闲的试卷编号和答题纸对应json的根目录寻找题库的试卷编号,届别,题号, 返回(题库试卷编号,届别,题号列表), 如果未找到则返回False + answersheetpathlist = FindFile(answersheetpath,"答题纸对应.json") + foundpid = False + for dir in answersheetpathlist: + filepath = os.path.join(dir,"答题纸对应.json") + anssheetjson = load_dict(filepath) + if xiaoxianpid in anssheetjson: + foundpid = True + grade = "20"+re.findall(r"\d{2}届",dir)[0] + pid = anssheetjson[xiaoxianpid]["id"] + notesjson = load_dict(os.path.join(dir,"校本材料.json")) + if not "idlist" in anssheetjson[xiaoxianpid]: + idlist = [] + for part in anssheetjson[xiaoxianpid]["parts"]: + idlist += notesjson["notes"][pid][part].copy() + else: + idlist = anssheetjson[xiaoxianpid]["idlist"] + if "marks" in anssheetjson[xiaoxianpid]: + marks = anssheetjson[xiaoxianpid]["marks"] + else: + marks = [] + if "exclude" in anssheetjson[xiaoxianpid]: + excludejson = anssheetjson[xiaoxianpid]["exclude"] + else: + excludejson = {} + break + if foundpid: + return(pid,grade,idlist,marks,excludejson) + else: + return False + +def CheckPaperType(filepath,filename): #根据filepath(通常是小闲的zip解压出的目录)和filename(通常是"小题分_按学号(数学).xlsx")检测试卷类型, 未找到该文件则返回False, 找到文件且是日常试卷返回"日常卷", 找到文件且不是日常试卷返回"考试卷" + statsfilepathlist = FindFile(filepath,filename) + if statsfilepathlist == []: + return False + else: + dir = statsfilepathlist[0] + dfcurrent = pd.read_excel(os.path.join(dir,filename)) + if re.findall(r"第\d*步",str(dfcurrent.loc[1,:])) == []: + return "日常卷" + else: + return "考试卷" + +def generateColIndexandMarks(filepath,statsfilename,paperinfo): #根据filepath(是一个有statsfilename的文件夹列表)中第一个路径中的数据文件, statsfilename数据文件名, 及paperinfo(FindPaper返回的结果)寻找excel文件中有效的列的位置和相应的满分分数 + dir = filepath[0] + dfcurrent = pd.read_excel(os.path.join(dir,statsfilename)) + validcols = [] + for i in range(len(dfcurrent.columns)): + colname = str(dfcurrent.iloc[1,i]) + if ("单选" in colname or "填空" in colname or "主观" in colname or "步" in colname) and re.findall("[ABCD]",colname) == []: + validcols.append(i) + for col in range(len(validcols)-1,-1,-1): + colname = str(dfcurrent.iloc[1,validcols[col]]) + if "主观" in colname: + colname_main = re.findall(r"^([\d\.]*)[\($]",colname[2:])[0] + t = [dfcurrent.iloc[1,c] for c in validcols[col+1:]] + t = str(t) + if colname_main in t: + validcols.pop(col) + if paperinfo[3] == []: + marks = [1] * len(validcols) + else: + marks = paperinfo[3] + if len(marks) == len(validcols): + return (validcols,marks) + else: + return False + + +def CheckValidity(classpath,gradename,threshold): #根据文件夹classpath, 年级名gradename和提交比例threshold, 检测提交人数是否不小于threshold, 返回(班级名, 提交是否有效) + classname_raw = re.findall(r"(高[一二三])(\d*?)班",classpath)[0] + classname = gradename + classname_raw[0] + classname_raw[1].zfill(2) + "班" + df = pd.read_excel(os.path.join(os.path.split(classpath)[0],"学科总体分析.xlsx")) + totalstudents = df.loc[2,df.columns[1]] + validstudents = df.loc[2,df.columns[2]] + classvalidflag = False + if threshold * totalstudents < validstudents: + print(f"{classname} 有效, 共 {totalstudents} 人, 提交 {validstudents} 人") + classvalidflag = True + else: + print(f"!!! {classname} 无效, 共 {totalstudents} 人, 提交 {validstudents} 人") + return (classname,classvalidflag) + +def generateIDtoUsageCorrespondence(idlist,validcols,names): #根据idlist(题库ID列表), validcols(有效列位置列表), names(题目名称列表)自动生成一个字典, 键值为题库ID, 内容为该题对应的列位置列表 + corr_dict = {} + for i in range(len(idlist)): + ind = i+1 + collist = [] + for j in range(len(validcols)): + n = names[j] + if not "步" in n: + name = re.findall(r"^([^\(]*)",n)[0] + else: + name = re.findall(r"^([^第]*)",n)[0] + if ind == getindex(name): + collist.append(j) + corr_dict[idlist[i]] = collist + return corr_dict + +def CalculateUsages(statsfilepathlist,statsfilename,gradename,threshold,marks,correspondence_dict,validcols,date,exclude = {}): #根据统计数据所在的路径,文件名,年级,阈值,分数列表和题号列数(0-len(validcols))对应字典,以及原excel文件中的有效列位置validcols, 日期date, 生成usages的metadata.txt文件的内容, 如果有正确率大于1的则返回False + output = "usages\n\n\n" + validflag = True + marks = [int(mark) for mark in marks] + for dir in statsfilepathlist: + classname, valid = CheckValidity(dir,gradename,threshold) + if valid: + dfcurrent = pd.read_excel(os.path.join(dir,statsfilename)) + means = dfcurrent.iloc[2:-2,validcols].mean()/marks + if max(means)>1: + print("满分数据有误!!!") + validflag = False + else: + means_out = [f"{t:.3f}" for t in means] + for id in correspondence_dict: + cols = correspondence_dict[id] + if not len(cols) == 0 and not (id in exclude and classname[-3:] in generate_classid(exclude[id])): + diffs = "\t".join([means_out[u] for u in cols]) + usages = f"{date}\t{classname}\t{diffs}" + output += f"{id}\n{usages}\n\n\n" + if validflag: + return output + else: + return False + + +def getindex(string,pos = 2): + para = string.split(".") + return int(para[pos-1]) + +def generateListOfIDandContent(string): #根据标准的讲义LaTeX源码字符串(可能含答案)生成一个list, 每一项是一个(id,id后内容)的tuple + return re.findall(r"\((\d{6})\)([\s\S]*?)(?:(?:\\item)|(?:\\end\{enumerate\}))",string) + +def CountEffectiveBraces(string): #在string中统计有效的(LaTeX的\{和\}不算作有效)的大括号的个数, 返回(左大括号个数, 右大括号个数) + string_ref = re.sub(r"\\[\{\}]"," ",string) + return (string_ref.count("{"),string_ref.count("}")) + +def generateAnswerTex(content,anspreamble = "答案: \\textcolor{red}{"): #在从anspreamble开始的字符串后找到答案字符串(anspreamble中的字符不算) + startpos = content.index(anspreamble) + len(anspreamble) - 1 + endpos = startpos + 1 + l,r = CountEffectiveBraces(content[startpos:endpos]) + while not l == r: + endpos += 1 + l,r = CountEffectiveBraces(content[startpos:endpos]) + return content[startpos+1:endpos-1].strip() + +def generateAnswerList(string,anspreamble = "答案: \\textcolor{red}{"): #从LaTeX源代码string中分析题号与对应的答案 + alist = generateListOfIDandContent(string) + anslist = [] + for a in alist: + id,content = a + if anspreamble in content: + anslist.append((id,generateAnswerTex(content,anspreamble))) + return anslist + + +def unUnitted(adict): #返回adict中未赋单元的id列表 + return [id for id in adict if not "单元" in "".join(adict[id]["tags"]) and not "暂无" in "".join(adict[id]["tags"])] + + +def AutoAssignTagNotoLaTeX(newlist,adict): #根据题库中已有的单元挂钩和字符串相似比对, 给newlist中的每一个ID在可能的情况下自动适配单元号码, 可能有误, 需人工审核, 返回(LaTeX代码的body(从\begin{enumerate}到\end{enumerate}的部分),题号和单元号码的对应)组成的二元tuple + output = "\\begin{enumerate}\n\n" + tagrecord = "" + treateddict = treat_dict(adict) + for id in newlist: + samelist = adict[id]["same"] + relatedlist = adict[id]["related"] + if not samelist == []: + unittags = [i for i in adict[samelist[0]]["tags"] if "单元" in i] + elif not relatedlist == []: + unittags = [i for i in adict[relatedlist[0]]["tags"] if "单元" in i] + else: + simgroup = stringmaxsim(treateddict[id]["content"],treateddict,10) + unittags_raw = {} + for g in simgroup: + rid,sim = g + if not rid == id and sim > 0.75: + for t in [i for i in adict[rid]["tags"] if "单元" in i]: + if t in unittags_raw: + unittags_raw[t] += 1 + else: + unittags_raw[t] = 1 + if len(unittags_raw) == 0: + unittags = [] + else: + unittags = [max(unittags_raw, key = lambda x: unittags_raw[x])] + tagnumbers = "" + for u in unittags: + tagnumbers += str(getUnitNumber(u)) + output += f"\\item ({id})[{tagnumbers}] {adict[id]['content']}\n\n" + tagrecord += f"{id}\t{tagnumbers}\n" + output += "\\end{enumerate}\n\n" + return (output,tagrecord) + + +def UnitRectoMetadataText(data): #把data中的单元对应变为metadata.txt中的单元对应文本 + lines = [l for l in data.split("\n") if l.strip() != ""] + output = "tags\n\n" + for l in lines: + id,unitno = l.split("\t") + units = "" + if not len(unitno.strip()) == 0: + for n in unitno: + units += f"{getUnit(int(n))}\n" + output += f"{id.zfill(6)}\n" + output += f"{units}\n\n" + return output + +def gitdiff(commitid1,commitid2,fileinrepo="题库0.3/Problems.json",tempfilepath = "临时文件/temp.json"): # 根据两个git 的commit id 比较某一个json文件的不同, 返回一个tuple, 第一项是新增key的变化, 第二项是同一个key下哪些字段变化了 + os.system(f"git show {commitid1}:{fileinrepo} > {tempfilepath}") + json1 = load_dict("临时文件/temp.json") + os.system(f"git show {commitid2}:{fileinrepo} > {tempfilepath}") + json2 = load_dict("临时文件/temp.json") + os.remove("临时文件/temp.json") + + diff_list = [] + new_or_deleted_list = [id for id in json1.keys() if not id in json2.keys()] + [id for id in json2.keys() if not id in json1.keys()] + for id in [i for i in json1.keys() if i in json2.keys()]: + current_diff = [] + for field in json1[id]: + if not json1[id][field] == json2[id][field]: + current_diff.append(field) + if not current_diff == []: + diff_list.append((id,current_diff.copy())) + return (new_or_deleted_list,diff_list) + + +def CheckUsagesValidity(data): #检查使用记录数据是否合理(没有超过1的), 若有则返回1, 合理则返回0 + diffs = re.findall(r"\s(\d+\.\d{3})[\s\n$]",data) + for d in diffs: + if float(d)>1: + print(f"有{d}, 数据有问题") + return 1 + return 0 + +def pairingbraces(string_raw,leftbracepos): #根据字符串中的左括号的位置寻找配对的右括号 + types = {"(":"()","[":"[]","{":"{}"} + braces = "".join([types[i] for i in types]) + string = string_raw + for i in braces: + string = string.replace("\\"+i," ") #去除LaTeX的括号 + if not string[leftbracepos] in ("(","[","{"): + print("位置上的字符不是左括号") + return -1 #位置上不是括号, 返回-1 + else: + braces = types[string[leftbracepos]] + lbrace = braces[0] + rbrace = braces[1] + count = 1 + currentpos = leftbracepos + 1 + while not currentpos == len(string): + if string[currentpos] == lbrace: + count += 1 + elif string[currentpos] == rbrace: + count -= 1 + if count == 0: + return currentpos # 返回配对的右括号位置 + currentpos += 1 + return -1 #未找到配对括号 + +def InMathEnv(string,pos): #判断string的pos位置上的字符是否在math环境中 + string = string.repalce("\$"," ") + if not string[pos] == "$" and string[:pos].count("$") % 2 == 1: + return True + else: + return False + + +def MaskingMathEnv(string_raw): #把string_raw中数学环境中的符号都转为$后以新字符串的形式返回 + string_raw = string_raw.replace(r"\$"," ") + countdollars = 0 + string = "" + for i in range(len(string_raw)): + if string_raw[i] == "$": + countdollars = 1 - countdollars + if countdollars == 0: + string += string_raw[i] + else: + string += "$" + return string + +def MultiplechoicetoBlankFilling(string_raw): #把多选题的题干和选项转为填空题 + firstchoicepos = re.search(r"(?:(?:four)|(?:two)|(?:one))ch",string_raw).span()[1] + headstring = string_raw[:firstchoicepos] + headstring = re.sub(r"\\bracket\{[\d]*\}",r"\\blank{50}",headstring) + headstring = re.sub(r"\n\\(?:(?:four)|(?:two)|(?:one))ch",r"\\\\\n",headstring) + string = string_raw[firstchoicepos:] + choices = [] + while "{" in string: + endpos = pairingbraces(string,0) + choices.append(string[1:endpos]) + string = string[endpos+1:] + output = "" + for i in range(len(choices)): + output += f"\\textcircled{{{i+1}}} {choices[i]}; " + output = headstring + output[:-2]+"." + return output + +def ExtractIDList(filepath): #从文件获取题目序号和ID的对应, 返回一个列表, 列表中的每个tuple都是(文件中的题目序号(int),六位题号(string)) + if filepath[-4:] == ".pdf": + data = parsePDF(filepath) + idlist = re.findall(r"(\d+)\.[\s\n]*\((\d{6})\)",data) + else: + data = ReadTextFile(filepath) + enumerateBlocks = [item.strip() for item in re.findall(r"\\begin\{enumerate\}([\s\S]*?)\\end\{enumerate\}",data)] + for i in range(len(enumerateBlocks)): + if not enumerateBlocks[i].startswith("\\setcounter"): + enumerateBlocks[i] = "\\setcounter{enumi}{0}\n\n" + enumerateBlocks[i] + idlist = [] + for item in enumerateBlocks: + enumilist = [i.span() for i in re.finditer(r"\\setcounter\{enumi\}\{(\d+)\}",item)] + enumilist.append((len(item),len(item))) + for i in range(len(enumilist)-1): + indstring = item[enumilist[i][0]:enumilist[i][1]] + ind = int(re.findall(r"\d+",indstring)[0]) + bodylist = re.findall(r"\((\d{6})\)",item[enumilist[i][1]:enumilist[i+1][0]]) + for id in bodylist: + ind += 1 + idlist.append((str(ind),id)) + idlist = [(int(id[0]),id[1]) for id in idlist] + return idlist + +def ExportIDList(filepath): #从.tex或.pdf文件获取题目序号和ID的对应(每一行每个题号分别对应第1,2,3...题, 空缺的题号的ID用999999表示), 返回题号字符串 + idlist = ExtractIDList(filepath) + output = "" + currentoutput = [] + for i in range(len(idlist)): + item = idlist[i] + if i == 0: + currentind = item[0] + currentoutput +=["999999"]*(item[0]-1) + currentoutput.append(item[1]) + elif item[0] >= currentind + 1: + currentoutput+=(["999999"]*(item[0]-currentind-1)) + currentind = item[0] + currentoutput.append(item[1]) + else: + output += ",".join(currentoutput)+"\n\n" + currentoutput = [] + currentind = item[0] + currentoutput +=["999999"]*(item[0]-1) + currentoutput.append(item[1]) + output += ",".join(currentoutput)+"\n\n" + return output + +def makedir(dirpath): #递归创建文件夹 + dirpath = dirpath.strip().replace("\\","/") + dirlist_raw = dirpath.split("/") + if ":" in dirlist_raw[0]: + dirlist_raw[1] = dirlist_raw[0] + "/" + dirlist_raw[1] + dirlist = dirlist_raw[1:].copy() + else: + dirlist = dirlist_raw.copy() + for i in range(len(dirlist)): + if not i == 0: + dirlist[i] = dirlist[i-1] + "/" + dirlist[i] + for dpath in dirlist: + try: + os.mkdir(dpath) + except: + pass + return dirlist + + +def TitleIDStringtoTupleList(raw_string): #将类json的标题与题号对应变为(标题,题号字符串)的tuple之后组成list + corresponding_list = [] + raw_string = RefinePunctuations(raw_string).replace("{","").replace("}","") + raw_list = [re.sub(r"(?:(?:\s)|(?:,\s*$))","",t) for t in raw_string.split("\n") if not t.strip() == ""] + for raw_item in raw_list: + item = raw_item.replace('"','').replace(";","") + sep = item.find(":") + title = item[:sep] + content = item[sep+1:] + corresponding_list.append((title,content)) + return corresponding_list + +def TitleIDTupleListtoString(correspoinding_list): #将(标题,题号字符串)的tuple组成的list转化为更方便阅读的字符串, 前面有编号 + output_string = "" + count = 0 + for corresp in correspoinding_list: + count += 1 + output_string += f"{count}. {corresp[0]}: {corresp[1]}\n" + return output_string + +def startfile(filepath): #跨平台打开文件或文件夹 + isfile = os.path.isfile(filepath) + osname = sys.platform + if osname == "win32": + if not isfile: + ret = subprocess.Popen(["explorer",filepath]) + if isfile: + ret = subprocess.Popen(["start",filepath], shell=True) + elif osname == "darwin": + ret = subprocess.Popen(["open",filepath]) + elif osname == "linux": + ret = subprocess.Popen(["xdg-open",filepath]) + return ret + + +def PaintRedAnswers(string,prodict): #将prodict中已有的答案标红色 + output = string + IDandContentList = generateListOfIDandContent(output) + for id,content in IDandContentList: + raw_string = id+")"+content + # u = output.index(raw_string) + if "textcolor{blue}" in raw_string: + new_ans = generateAnswerTex(content,anspreamble="\\textcolor{blue}{") + raw_ans = prodict[id]["ans"] + if new_ans == raw_ans: + sub_string = raw_string.replace("textcolor{blue}","textcolor{red}") + output = output.replace(raw_string,sub_string) + elif raw_ans == "" and new_ans != "暂无答案": + print(f"{id} 已有答案, 请运行提取答案控件以获取新录入的答案") + elif new_ans != "暂无答案": + print(f"{id} 新答案 {new_ans} 和原答案 {raw_ans} 有所不同, 请仔细检查") + return output + + +def usagelistdifference(lista,listb): #比较两个usage数组的最大差别(绝对值), 数组长度不一致则返回1 + if len(lista) != len(listb): + return 1 + else: + maxdiff = 0 + for i in range(len(lista)): + maxdiff = max(abs(float(lista[i])-float(listb[i])),maxdiff) + return maxdiff + + +def RefineExclude(excludejson): #将excludejson的key变为6位题号 + newjson = {} + for key in excludejson: + newjson[key.zfill(6)] = excludejson[key] + return newjson + + +def ChooseIDsByUsageInterval(startdate,enddate,interval,classregex,prodict): #返回根据条件选出的题号字典及对应小题, 需要留意的记录长度不一的题号, 以及所有使用过的题号 + used_problems = [] + for id in prodict: + currentproblem = prodict[id] + currentusages = [parseUsage(u) for u in currentproblem["usages"] if startdate <= parseUsage(u)["date"] <= enddate and re.findall(classregex,parseUsage(u)["classid"])!=[]] + if not currentusages == []: + used_problems.append((id,currentusages)) + cautionids = [] #使用记录长度不一的题目id + chosenproblems = {} #使用记录的平均值在thresholds中的题目id(键值为题号id, 内容为小题号, 内容为空表示没有小题) + for item in used_problems: + id,usages = item + subproblems = [u["subproblems"] for u in usages] + if max(subproblems) != min(subproblems): + cautionids.append(id) + print(f"!!! 题号 {id} 的使用记录中小题数目不全相同, 请检查") + else: + for i in range(subproblems[0]): + difflist = [u["difficulties"][i] for u in usages] + diffmean = np.mean(difflist) + if interval[0] <= diffmean <= interval[1]: + if subproblems[0] == 1: + chosenproblems[id] = [] + elif not id in chosenproblems: + chosenproblems[id] = [i+1] + else: + chosenproblems[id].append(i+1) + return (chosenproblems,cautionids,used_problems) #返回根据条件选出的题号字典及对应小题, 需要留意的记录长度不一的题号, 以及所有使用过的题号 + + +if __name__ == "__main__": + print("数据库工具, import用.") \ No newline at end of file diff --git a/工具v3/寻找空闲题号.py b/工具v3/寻找空闲题号.py new file mode 100644 index 00000000..fe465073 --- /dev/null +++ b/工具v3/寻找空闲题号.py @@ -0,0 +1,27 @@ +from PySide6.QtWidgets import QWidget, QApplication, QFileDialog +from Ui_寻找空闲题号 import Ui_Form +from database_tools_2 import * + + +class MyWindow(QWidget,Ui_Form): + def __init__(self): + super().__init__() + self.setupUi(self) + self.ShowAvailable() + + + + def ShowAvailable(self): + self.label_Available.setText(spareIDs("wwylss.synology.me","13306","root","Wwy@0018705")) + + + + + + +if __name__ == '__main__': + app = QApplication([]) + windows = MyWindow() + windows.show() + app.exec() + diff --git a/工具v3/寻找空闲题号.ui b/工具v3/寻找空闲题号.ui new file mode 100644 index 00000000..2770ae08 --- /dev/null +++ b/工具v3/寻找空闲题号.ui @@ -0,0 +1,38 @@ + + + Form + + + + 0 + 0 + 400 + 229 + + + + 寻找空闲题号 + + + + + 20 + 10 + 361 + 201 + + + + QFrame::StyledPanel + + + TextLabel + + + Qt::AlignLeading|Qt::AlignLeft|Qt::AlignTop + + + + + + diff --git a/工具v3/工具面板.py b/工具v3/工具面板.py new file mode 100644 index 00000000..8d7f1ceb --- /dev/null +++ b/工具v3/工具面板.py @@ -0,0 +1,67 @@ +from PySide6.QtWidgets import QMainWindow, QApplication, QFileDialog, QWidget +from Ui_Qt面板 import * +from subprocess import call +from database_tools_2 import * +import os + + +def run_command(name,openfilelist): + # configjson = load_dict("文本文件/config.json") + for f in openfilelist: + # if not f in configjson: + os.system("code -w "+f) + # else: + # lineindex = getlineindex(f'"{f}"',"文本文件/config.json") + # os.system(f"code -w -g 文本文件/config.json:{lineindex}") + call(["python",name+".py"]) + + + + +class MyWindow(QMainWindow,Ui_MainWindow): + def __init__(self): + super().__init__() + self.setupUi(self) + self.bind() + + def bind(self): + makedir("临时文件") + self.action_kxth.triggered.connect(lambda: run_command("寻找空闲题号",[]))#已完成 + self.action_xtbd.triggered.connect(lambda: run_command("新题比对",[]))#已完成 + self.action_plsl.triggered.connect(lambda: run_command("批量收录题目",[]))#已完成 + self.action_tjgl.triggered.connect(lambda: run_command("添加关联题目",[]))#已完成 + self.action_tjzd.triggered.connect(lambda: run_command("修改metadata",["文本文件/metadata.txt"]))#已完成 + self.action_bjtm.triggered.connect(lambda: run_command("编辑题目信息",[]))#已完成 + self.action_xxdr.triggered.connect(lambda: run_command("获取小闲平台使用数据new",[]))#已完成 + self.action_sddr.triggered.connect(lambda: run_command("手动统计结果导入",["临时文件/手动统计结果.txt"]))#已完成 + self.action_tkdr.triggered.connect(lambda: run_command("统考数据导入",[]))#已完成 + self.action_dygg.triggered.connect(lambda: run_command("单元挂钩",[]))#已完成 + self.action_tqda.triggered.connect(lambda: run_command("文件或文本框提取答案",[]))#已完成 + self.action_hbsy.triggered.connect(lambda: run_command("合并使用记录并排序",[]))#已完成 + self.action_tjjc.triggered.connect(lambda: run_command("新增基础知识梳理",[]))#已完成 + self.action_sxth.triggered.connect(lambda: run_command("关键字筛选题号",[]))#已完成 + self.action_xtby.triggered.connect(lambda: run_command("指定题号编译pdf",[]))#已完成 + self.action_sctp.triggered.connect(lambda: run_command("单一题号转为图片",[]))#已完成 + self.action_hqth.triggered.connect(lambda: run_command("获取题号",[]))#已完成 + self.action_jglr.triggered.connect(lambda: run_command("讲义结构与内容录入",[]))#已完成 + self.action_dtdy.triggered.connect(lambda: run_command("答题纸对应",[]))#已完成 + self.action_jysc.triggered.connect(lambda: run_command("系列讲义生成",[]))#已完成 + self.action_wbzh.triggered.connect(lambda: run_command("文本转换处理",[]))#已完成 + self.action_hist.triggered.connect(lambda: run_command("生成直方图代码",[]))#已完成 + self.action_xzth.triggered.connect(lambda: run_command("根据正确率选择题号",[]))#已完成 + + + + + + + + + + +if __name__ == '__main__': + app = QApplication([]) + windows = MyWindow() + windows.show() + app.exec() +