From 87f6884a9824becc88f1153e06acb9dc95274fc7 Mon Sep 17 00:00:00 2001 From: Karl Berry Date: Wed, 10 Aug 2022 20:38:07 +0000 Subject: bhcexam (10aug22) git-svn-id: svn://tug.org/texlive/trunk@64093 c570f23f-e606-0410-a88d-b1316a301751 --- Master/texmf-dist/doc/latex/bhcexam/Makefile | 88 --- Master/texmf-dist/doc/latex/bhcexam/README | 21 - Master/texmf-dist/doc/latex/bhcexam/test1.tex | 143 ---- Master/texmf-dist/doc/latex/bhcexam/test2.tex | 144 ---- Master/texmf-dist/doc/latex/bhcexam/test3.tex | 144 ---- Master/texmf-dist/doc/latex/bhcexam/test4.tex | 144 ---- Master/texmf-dist/doc/xelatex/bhcexam/README-zh.md | 52 ++ Master/texmf-dist/doc/xelatex/bhcexam/README.md | 28 + .../examples/To7VxKXpZaOWO5Qq9qzeZGtlwYTwJ5KF.jpg | Bin 0 -> 14219 bytes .../bhcexam/examples/example_student_paper.pdf | Bin 0 -> 131355 bytes .../bhcexam/examples/example_student_paper.tex | 551 +++++++++++++ .../bhcexam/examples/example_teacher_paper.pdf | Bin 0 -> 182637 bytes .../bhcexam/examples/example_teacher_paper.tex | 551 +++++++++++++ .../doc/xelatex/bhcexam/examples/logo.png | Bin 0 -> 29928 bytes .../doc/xelatex/bhcexam/examples/naive.pdf | Bin 0 -> 52124 bytes .../doc/xelatex/bhcexam/examples/naive.tex | 86 +++ .../doc/xelatex/bhcexam/examples/qrcode.png | Bin 0 -> 10383 bytes Master/texmf-dist/source/latex/bhcexam/BHCexam.dtx | 859 --------------------- Master/texmf-dist/source/latex/bhcexam/BHCexam.ins | 107 --- Master/texmf-dist/tex/latex/bhcexam/BHCexam.cfg | 46 -- Master/texmf-dist/tex/latex/bhcexam/BHCexam.cls | 318 -------- Master/texmf-dist/tex/xelatex/bhcexam/BHCexam.cls | 550 +++++++++++++ 22 files changed, 1818 insertions(+), 2014 deletions(-) delete mode 100644 Master/texmf-dist/doc/latex/bhcexam/Makefile delete mode 100644 Master/texmf-dist/doc/latex/bhcexam/README delete mode 100644 Master/texmf-dist/doc/latex/bhcexam/test1.tex delete mode 100644 Master/texmf-dist/doc/latex/bhcexam/test2.tex delete mode 100644 Master/texmf-dist/doc/latex/bhcexam/test3.tex delete mode 100644 Master/texmf-dist/doc/latex/bhcexam/test4.tex create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/README-zh.md create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/README.md create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/To7VxKXpZaOWO5Qq9qzeZGtlwYTwJ5KF.jpg create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/example_student_paper.pdf create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/example_student_paper.tex create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/example_teacher_paper.pdf create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/example_teacher_paper.tex create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/logo.png create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/naive.pdf create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/naive.tex create mode 100644 Master/texmf-dist/doc/xelatex/bhcexam/examples/qrcode.png delete mode 100644 Master/texmf-dist/source/latex/bhcexam/BHCexam.dtx delete mode 100644 Master/texmf-dist/source/latex/bhcexam/BHCexam.ins delete mode 100644 Master/texmf-dist/tex/latex/bhcexam/BHCexam.cfg delete mode 100644 Master/texmf-dist/tex/latex/bhcexam/BHCexam.cls create mode 100644 Master/texmf-dist/tex/xelatex/bhcexam/BHCexam.cls diff --git a/Master/texmf-dist/doc/latex/bhcexam/Makefile b/Master/texmf-dist/doc/latex/bhcexam/Makefile deleted file mode 100644 index 667c2424913..00000000000 --- a/Master/texmf-dist/doc/latex/bhcexam/Makefile +++ /dev/null @@ -1,88 +0,0 @@ -PACKAGE = BHCexam -######################################################################## -## LaTeX2e Makefile -## -## Update the following defines for your local configuration, -## -TEXMFDIR = ~/texmf/tex/latex/BHCexam -GZIP = gzip -XELATEX = xelatex -PDFLATEX = pdflatex -MAKEINDEX = makeindex -######################################################################## -## make [all] Generates the class(.cls) file, the configuration(.cfg) -## file and the documentation (.pdf). If you don't have -## the required MAKEINDEX (along with `gglo.ist' and -## `gind.ist'), then change the first dependency -## of "all" from "fullpdf" to "pdf" below. -## make [un]install Install or uninstall the class(.cls) file and -## the configuration(.cfg) file. -## make [very]clean Clean out various auxillary files. "veryclean" -## cleans out more stuff. -######################################################################## -## make [full]doc Generate the documentation. The "fulldoc" version -## adds the change log and the cross-references. -## make idx Generate the change log and the cross-references -## (for fulldoc -- requires MAKEINDEX). -## make cls Generate the class(.cls) file and the -## configuration(.cfg) file. - -######################################################################## -## make test Run test file(s) -## make src Builds a src distribution (.tar.gz) file. -## make distribtion Builds a distribution (.tar.gz) file. -######################################################################## - -all: veryclean cls fulldoc test clean - -install: cls - cp $(PACKAGE).{cls,cfg} $(TEXMFDIR) -uninstall: ; rm $(TEXMFDIR)/$(PACKAGE).{cls,cfg} -clean: ; -rm -f *.dvi *.log *.aux *.lof *.lot *.toc - -rm -f *.idx *.ind *.glo *.gls *.ilg *.out *~ -veryclean: ; -rm -f *.dvi *.log *.aux *.lof *.lot *.toc - -rm -f *.idx *.ind *.glo *.gls *.ilg *.out - -rm -f *.idx *.ind *.glo *.gls *.ilg *.out - -rm -f *.sty *.cls *.pdf *pk *.cfg *.tar *~ - - -doc: ; $(XELATEX) $(PACKAGE).dtx - -cls: ; $(XELATEX) $(PACKAGE).ins - -fulldoc: doc $(PACKAGE).gls $(PACKAGE).ind - $(XELATEX) $(PACKAGE).dtx - -src: ; mkdir $(PACKAGE) - cp -p README Makefile $(PACKAGE) - cp -p $(PACKAGE).dtx $(PACKAGE).ins $(PACKAGE) - cp -p test*.tex $(PACKAGE) - tar -cvf $(PACKAGE)-src.tar ./$(PACKAGE) - rm -rf $(PACKAGE) - $(GZIP) -9 $(PACKAGE)-src.tar - -distribution: veryclean cls fulldoc test clean - mkdir $(PACKAGE) - cp -p $(PACKAGE).cls $(PACKAGE).cfg $(PACKAGE) - cp -p *.tex $(PACKAGE) - cp -p *.pdf $(PACKAGE) - tar -cvf $(PACKAGE).tar ./$(PACKAGE) - rm -rf $(PACKAGE) - $(GZIP) -9 $(PACKAGE).tar - -$(PACKAGE).gls: doc - $(MAKEINDEX) -s gglo.ist -o $(PACKAGE).gls $(PACKAGE).glo - -$(PACKAGE).ind: doc - $(MAKEINDEX) -s gind.ist -o $(PACKAGE).ind $(PACKAGE).idx - -test: cls - $(XELATEX) test1.tex - $(XELATEX) test1.tex - $(XELATEX) test2.tex - $(XELATEX) test2.tex - $(XELATEX) test3.tex - $(XELATEX) test3.tex - $(XELATEX) test4.tex - $(XELATEX) test4.tex - diff --git a/Master/texmf-dist/doc/latex/bhcexam/README b/Master/texmf-dist/doc/latex/bhcexam/README deleted file mode 100644 index 73804a8a61e..00000000000 --- a/Master/texmf-dist/doc/latex/bhcexam/README +++ /dev/null @@ -1,21 +0,0 @@ -This is version 0.4 of the BHCexam document class, dated Oct 10, 2015. - -The BHCexam document class attempts to make it easy for even a LaTeX novice to prepare exams. - -To generate the document class files from .dtx file: -make cls; - -To install the document class files to ~/texmf -make install; - -To generate the user's guide document (with index) -make [full]doc; - -To generate test page -make test - --------------------------------------------------------------------- - -This work may be distributed and/or modified under the conditions of -the LaTeX Project Public License, either version 1.3 of this license -or (at your option) any later version. diff --git a/Master/texmf-dist/doc/latex/bhcexam/test1.tex b/Master/texmf-dist/doc/latex/bhcexam/test1.tex deleted file mode 100644 index 01fc0b2035a..00000000000 --- a/Master/texmf-dist/doc/latex/bhcexam/test1.tex +++ /dev/null @@ -1,143 +0,0 @@ -\documentclass[printbox,marginline,noindent,adobefonts]{BHCexam} -\begin{document} -\printmlol -\maketitle - -\begin{questions} -\tiankong -\question 已知~$\bm{a}=(k,-9)$、$\bm{b}=(-1,k)$, $\bm{a}$~与~$\bm{b}$~为平行向量, - 则~$k=$\stk{$\pm3$}. - -\question 若函数~$f(x)=x^{6m^2-5m-4}\,(m\in\mathbb{Z})$~的图像关于~$y$~轴对称, - 且~$f(2)a>0$), 若再添加~$m\text{g}$~糖~($m>0$), - - -\question 已知~$f(x)=1-\textbf{c}_8^1x+\textbf{c}_8^2x^2-\textbf{c}_8^3x^3+\cdots+\textbf{c}_8^8x^8$, - 则~$f\big(\dfrac{1}{2}+\dfrac{\sqrt{3}}{2}\textbf{i}\big)$~的值是\ltk{$-\dfrac{1}{2}-\dfrac{\sqrt{3}}{2}\textbf{i}$}. - -\question 自然数~$1,2,3,\ldots,10$~的方差记为~$\sigma^2$, - 其中的偶数~$2,4,6,8,10$~的方差记为~$\sigma_1^2$, - 则~$\sigma^2$~与~$\sigma_1^2$~的大小关系为~$\sigma^2$\stk{$>$}$\sigma_1^2$. - -\question 若~$\theta$~为三角形的一个内角, 且~$\sin\theta+\cos\theta=\dfrac{2}{3}$, - 则方程~$x^2\csc\theta-y^2\sec\theta=1$~表示的曲线的焦点坐标是\stk{$\big(\pm\dfrac{\sqrt{6}}{3},0\big)$}. - - -\question 高为~$h$~的棱锥被平行于棱锥底面的截得棱台侧面积是 - 原棱锥的侧面积的~$\dfrac{5}{9}$, - 则截得的棱台的体积与原棱锥的体积之比是\stk{$19:27$}. - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - - -\question 若~$\sqrt{\,\sin x}$~是有理数且~$x$~不是~$\dfrac{\pi}{6}$~的整数倍, - 则~$x$~可能取的值是\mtk{$\arcsin\dfrac{1}{4}$ 等}.(只要求写出一个) - -\question 马路上有编号~1~到~10~的~10~盏路灯, 为节约用电又不影响照明, - 可以关掉其中的~3~盏, 但又不能同时关掉相邻的两盏, 也不能关掉两端的路灯, - 满足条件的关灯方法有\stk{$20$}种. - - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - -\question 若~$\sqrt{\,\sin x}$~是有理数且~$x$~不是~$\dfrac{\pi}{6}$~的整数倍, - 则~$x$~可能取的值是\mtk{$\arcsin\dfrac{1}{4}$ 等}.(只要求写出一个) - -\question 马路上有编号~1~到~10~的~10~盏路灯, 为节约用电又不影响照明, - 可以关掉其中的~3~盏, 但又不能同时关掉相邻的两盏, 也不能关掉两端的路灯, - 满足条件的关灯方法有\stk{$20$}种. - - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - -\newpage - -\xuanze -\question 已知集合~$A=\{x\mid \abs{x-1}<3 \}$, -集合~$B=\{y| y=x^2+2x+1,x\in\mathbb{R}\}$, 则~$A\cap -\complement_U B$~为\stk{C}. -\twoch{$[\,0,4)$}{$(-\infty,-2\,]\cup[4,+\infty)$}{$(-2,0)$}{$(0,4)$} - -\question 若~$a$、$b$~是直线, $\alpha$、$\beta$~是平面, -则以下命题中真命题是\stk{D}.\\ -\fourch{若~$a$、$b$~异面, $a\subset\alpha$,$b\subset\beta$, 且~$a\perp b$, 则~$\alpha\perp\beta$}{若~$a\parallel b$, $a\subset\alpha$, $b\subset\beta$,则~$\alpha\parallel\beta$}{若~$a\parallel \alpha$, -$b\subset\beta$, 则~$a$、$b$ 异面}{若~$a\perp b$, $a\perp\alpha$,$b\perp\beta$, 则~$\alpha\perp\beta$} - -\question 已知集合~$A=\{x\mid \abs{x-1}<3 \}$, -集合~$B=\{y| y=x^2+2x+1,x\in\mathbb{R}\}$, 则~$A\cap -\complement_U B$~为\stk{C}. -\twoch{$[\,0,4)$}{$(-\infty,-2\,]\cup[4,+\infty)$}{$(-2,0)$}{$(0,4)$} - -\question 若~$a$、$b$~是直线, $\alpha$、$\beta$~是平面, -则以下命题中真命题是\stk{D}.\\ -\fourch{若~$a$、$b$~异面, $a\subset\alpha$,$b\subset\beta$, 且~$a\perp b$, 则~$\alpha\perp\beta$}{若~$a\parallel b$, $a\subset\alpha$, $b\subset\beta$,则~$\alpha\parallel\beta$}{若~$a\parallel \alpha$, -$b\subset\beta$, 则~$a$、$b$ 异面}{若~$a\perp b$, $a\perp\alpha$,$b\perp\beta$, 则~$\alpha\perp\beta$} - -\newpage -\jianda -\question 已知复数~$z$ 满足:$\abs{z}-z^*=\dfrac{10}{1-w\textbf{i}}$(其中~$z^*$ -是~$z$ 的共轭复数). -\begin{parts} -\part[7] 求复数~$z$; -\part[7] 若复数~$w=\cos\theta+\textbf{i}\sin\theta\,(\theta\in\mathbb{R})$, 求~$\abs{z-2}$ 的取值范围. -\end{parts} - -\begin{solution} -\begin{parts} -\part $z=3+4\textbf{i}$ -\part $\abs{z-w}\in[4,6]$ -\end{parts} -\end{solution} - -\question[14] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\newpage - -\question[16] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\newpage -\question 已知复数~$z$ 满足:$\abs{z}-z^*=\dfrac{10}{1-w\textbf{i}}$(其中~$z^*$ -是~$z$ 的共轭复数). -\begin{parts} -\part[8] 求复数~$z$; -\part[8] 若复数~$w=\cos\theta+\textbf{i}\sin\theta\,(\theta\in\mathbb{R})$, 求~$\abs{z-2}$ 的取值范围. -\end{parts} - -\begin{solution} -\begin{parts} -\part $z=3+4\textbf{i}$ -\part $\abs{z-w}\in[4,6]$ -\end{parts} -\end{solution} - -\newpage - -\question[18] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\end{questions} -\end{document} diff --git a/Master/texmf-dist/doc/latex/bhcexam/test2.tex b/Master/texmf-dist/doc/latex/bhcexam/test2.tex deleted file mode 100644 index 8dac567787b..00000000000 --- a/Master/texmf-dist/doc/latex/bhcexam/test2.tex +++ /dev/null @@ -1,144 +0,0 @@ -\documentclass[16kpaper]{BHCexam} -\begin{document} - -\maketitle -\mininotice - -\begin{questions} -\tiankong -\question 已知~$\bm{a}=(k,-9)$、$\bm{b}=(-1,k)$, $\bm{a}$~与~$\bm{b}$~为平行向量, - 则~$k=$\stk{$\pm3$}. - -\question 若函数~$f(x)=x^{6m^2-5m-4}\,(m\in\mathbb{Z})$~的图像关于~$y$~轴对称, - 且~$f(2)a>0$), 若再添加~$m\text{g}$~糖~($m>0$), - - -\question 已知~$f(x)=1-\textbf{c}_8^1x+\textbf{c}_8^2x^2-\textbf{c}_8^3x^3+\cdots+\textbf{c}_8^8x^8$, - 则~$f\big(\dfrac{1}{2}+\dfrac{\sqrt{3}}{2}\textbf{i}\big)$~的值是\ltk{$-\dfrac{1}{2}-\dfrac{\sqrt{3}}{2}\textbf{i}$}. - -\question 自然数~$1,2,3,\ldots,10$~的方差记为~$\sigma^2$, - 其中的偶数~$2,4,6,8,10$~的方差记为~$\sigma_1^2$, - 则~$\sigma^2$~与~$\sigma_1^2$~的大小关系为~$\sigma^2$\stk{$>$}$\sigma_1^2$. - -\question 若~$\theta$~为三角形的一个内角, 且~$\sin\theta+\cos\theta=\dfrac{2}{3}$, - 则方程~$x^2\csc\theta-y^2\sec\theta=1$~表示的曲线的焦点坐标是\stk{$\big(\pm\dfrac{\sqrt{6}}{3},0\big)$}. - - -\question 高为~$h$~的棱锥被平行于棱锥底面的截得棱台侧面积是 - 原棱锥的侧面积的~$\dfrac{5}{9}$, - 则截得的棱台的体积与原棱锥的体积之比是\stk{$19:27$}. - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - - -\question 若~$\sqrt{\,\sin x}$~是有理数且~$x$~不是~$\dfrac{\pi}{6}$~的整数倍, - 则~$x$~可能取的值是\mtk{$\arcsin\dfrac{1}{4}$ 等}.(只要求写出一个) - -\question 马路上有编号~1~到~10~的~10~盏路灯, 为节约用电又不影响照明, - 可以关掉其中的~3~盏, 但又不能同时关掉相邻的两盏, 也不能关掉两端的路灯, - 满足条件的关灯方法有\stk{$20$}种. - - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - -\question 若~$\sqrt{\,\sin x}$~是有理数且~$x$~不是~$\dfrac{\pi}{6}$~的整数倍, - 则~$x$~可能取的值是\mtk{$\arcsin\dfrac{1}{4}$ 等}.(只要求写出一个) - -\question 马路上有编号~1~到~10~的~10~盏路灯, 为节约用电又不影响照明, - 可以关掉其中的~3~盏, 但又不能同时关掉相邻的两盏, 也不能关掉两端的路灯, - 满足条件的关灯方法有\stk{$20$}种. - - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - -\newpage - -\xuanze -\question 已知集合~$A=\{x\mid \abs{x-1}<3 \}$, -集合~$B=\{y| y=x^2+2x+1,x\in\mathbb{R}\}$, 则~$A\cap -\complement_U B$~为\stk{C}. -\twoch{$[\,0,4)$}{$(-\infty,-2\,]\cup[4,+\infty)$}{$(-2,0)$}{$(0,4)$} - -\question 若~$a$、$b$~是直线, $\alpha$、$\beta$~是平面, -则以下命题中真命题是\stk{D}.\\ -\fourch{若~$a$、$b$~异面, $a\subset\alpha$,$b\subset\beta$, 且~$a\perp b$, 则~$\alpha\perp\beta$}{若~$a\parallel b$, $a\subset\alpha$, $b\subset\beta$,则~$\alpha\parallel\beta$}{若~$a\parallel \alpha$, -$b\subset\beta$, 则~$a$、$b$ 异面}{若~$a\perp b$, $a\perp\alpha$,$b\perp\beta$, 则~$\alpha\perp\beta$} - -\question 已知集合~$A=\{x\mid \abs{x-1}<3 \}$, -集合~$B=\{y| y=x^2+2x+1,x\in\mathbb{R}\}$, 则~$A\cap -\complement_U B$~为\stk{C}. -\twoch{$[\,0,4)$}{$(-\infty,-2\,]\cup[4,+\infty)$}{$(-2,0)$}{$(0,4)$} - -\question 若~$a$、$b$~是直线, $\alpha$、$\beta$~是平面, -则以下命题中真命题是\stk{D}.\\ -\fourch{若~$a$、$b$~异面, $a\subset\alpha$,$b\subset\beta$, 且~$a\perp b$, 则~$\alpha\perp\beta$}{若~$a\parallel b$, $a\subset\alpha$, $b\subset\beta$,则~$\alpha\parallel\beta$}{若~$a\parallel \alpha$, -$b\subset\beta$, 则~$a$、$b$ 异面}{若~$a\perp b$, $a\perp\alpha$,$b\perp\beta$, 则~$\alpha\perp\beta$} - -\newpage -\jianda -\question 已知复数~$z$ 满足:$\abs{z}-z^*=\dfrac{10}{1-w\textbf{i}}$(其中~$z^*$ -是~$z$ 的共轭复数). -\begin{parts} -\part[7] 求复数~$z$; -\part[7] 若复数~$w=\cos\theta+\textbf{i}\sin\theta\,(\theta\in\mathbb{R})$, 求~$\abs{z-2}$ 的取值范围. -\end{parts} - -\begin{solution} -\begin{parts} -\part $z=3+4\textbf{i}$ -\part $\abs{z-w}\in[4,6]$ -\end{parts} -\end{solution} - -\question[14] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\newpage - -\question[16] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\newpage -\question 已知复数~$z$ 满足:$\abs{z}-z^*=\dfrac{10}{1-w\textbf{i}}$(其中~$z^*$ -是~$z$ 的共轭复数). -\begin{parts} -\part[8] 求复数~$z$; -\part[8] 若复数~$w=\cos\theta+\textbf{i}\sin\theta\,(\theta\in\mathbb{R})$, 求~$\abs{z-2}$ 的取值范围. -\end{parts} - -\begin{solution} -\begin{parts} -\part $z=3+4\textbf{i}$ -\part $\abs{z-w}\in[4,6]$ -\end{parts} -\end{solution} - -\newpage - -\question[18] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\end{questions} -\end{document} diff --git a/Master/texmf-dist/doc/latex/bhcexam/test3.tex b/Master/texmf-dist/doc/latex/bhcexam/test3.tex deleted file mode 100644 index 0748babf7a5..00000000000 --- a/Master/texmf-dist/doc/latex/bhcexam/test3.tex +++ /dev/null @@ -1,144 +0,0 @@ -\documentclass[answers]{BHCexam} -\begin{document} - -\maketitle -\mininotice - -\begin{questions} -\tiankong -\question 已知~$\bm{a}=(k,-9)$、$\bm{b}=(-1,k)$, $\bm{a}$~与~$\bm{b}$~为平行向量, - 则~$k=$\stk{$\pm3$}. - -\question 若函数~$f(x)=x^{6m^2-5m-4}\,(m\in\mathbb{Z})$~的图像关于~$y$~轴对称, - 且~$f(2)a>0$), 若再添加~$m\text{g}$~糖~($m>0$), - - -\question 已知~$f(x)=1-\textbf{c}_8^1x+\textbf{c}_8^2x^2-\textbf{c}_8^3x^3+\cdots+\textbf{c}_8^8x^8$, - 则~$f\big(\dfrac{1}{2}+\dfrac{\sqrt{3}}{2}\textbf{i}\big)$~的值是\ltk{$-\dfrac{1}{2}-\dfrac{\sqrt{3}}{2}\textbf{i}$}. - -\question 自然数~$1,2,3,\ldots,10$~的方差记为~$\sigma^2$, - 其中的偶数~$2,4,6,8,10$~的方差记为~$\sigma_1^2$, - 则~$\sigma^2$~与~$\sigma_1^2$~的大小关系为~$\sigma^2$\stk{$>$}$\sigma_1^2$. - -\question 若~$\theta$~为三角形的一个内角, 且~$\sin\theta+\cos\theta=\dfrac{2}{3}$, - 则方程~$x^2\csc\theta-y^2\sec\theta=1$~表示的曲线的焦点坐标是\stk{$\big(\pm\dfrac{\sqrt{6}}{3},0\big)$}. - - -\question 高为~$h$~的棱锥被平行于棱锥底面的截得棱台侧面积是 - 原棱锥的侧面积的~$\dfrac{5}{9}$, - 则截得的棱台的体积与原棱锥的体积之比是\stk{$19:27$}. - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - - -\question 若~$\sqrt{\,\sin x}$~是有理数且~$x$~不是~$\dfrac{\pi}{6}$~的整数倍, - 则~$x$~可能取的值是\mtk{$\arcsin\dfrac{1}{4}$ 等}.(只要求写出一个) - -\question 马路上有编号~1~到~10~的~10~盏路灯, 为节约用电又不影响照明, - 可以关掉其中的~3~盏, 但又不能同时关掉相邻的两盏, 也不能关掉两端的路灯, - 满足条件的关灯方法有\stk{$20$}种. - - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - -\question 若~$\sqrt{\,\sin x}$~是有理数且~$x$~不是~$\dfrac{\pi}{6}$~的整数倍, - 则~$x$~可能取的值是\mtk{$\arcsin\dfrac{1}{4}$ 等}.(只要求写出一个) - -\question 马路上有编号~1~到~10~的~10~盏路灯, 为节约用电又不影响照明, - 可以关掉其中的~3~盏, 但又不能同时关掉相邻的两盏, 也不能关掉两端的路灯, - 满足条件的关灯方法有\stk{$20$}种. - - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - -\newpage - -\xuanze -\question 已知集合~$A=\{x\mid {x-1}<3 \}$, -集合~$B=\{y| y=x^2+2x+1,x\in\mathbb{R}\}$, 则~$A\cap -\complement_U B$~为\stk{C}. -\twoch{$[\,0,4)$}{$(-\infty,-2\,]\cup[4,+\infty)$}{$(-2,0)$}{$(0,4)$} - -\question 若~$a$、$b$~是直线, $\alpha$、$\beta$~是平面, -则以下命题中真命题是\stk{D}.\\ -\fourch{若~$a$、$b$~异面, $a\subset\alpha$,$b\subset\beta$, 且~$a\perp b$, 则~$\alpha\perp\beta$}{若~$a\parallel b$, $a\subset\alpha$, $b\subset\beta$,则~$\alpha\parallel\beta$}{若~$a\parallel \alpha$, -$b\subset\beta$, 则~$a$、$b$ 异面}{若~$a\perp b$, $a\perp\alpha$,$b\perp\beta$, 则~$\alpha\perp\beta$} - -\question 已知集合~$A=\{x\mid {x-1}<3 \}$, -集合~$B=\{y| y=x^2+2x+1,x\in\mathbb{R}\}$, 则~$A\cap -\complement_U B$~为\stk{C}. -\twoch{$[\,0,4)$}{$(-\infty,-2\,]\cup[4,+\infty)$}{$(-2,0)$}{$(0,4)$} - -\question 若~$a$、$b$~是直线, $\alpha$、$\beta$~是平面, -则以下命题中真命题是\stk{D}.\\ -\fourch{若~$a$、$b$~异面, $a\subset\alpha$,$b\subset\beta$, 且~$a\perp b$, 则~$\alpha\perp\beta$}{若~$a\parallel b$, $a\subset\alpha$, $b\subset\beta$,则~$\alpha\parallel\beta$}{若~$a\parallel \alpha$, -$b\subset\beta$, 则~$a$、$b$ 异面}{若~$a\perp b$, $a\perp\alpha$,$b\perp\beta$, 则~$\alpha\perp\beta$} - -\newpage -\jianda -\question 已知复数~$z$ 满足:${z}-z^*=\dfrac{10}{1-w\textbf{i}}$(其中~$z^*$ -是~$z$ 的共轭复数). -\begin{parts} -\part[7] 求复数~$z$; -\part[7] 若复数~$w=\cos\theta+\textbf{i}\sin\theta\,(\theta\in\mathbb{R})$, 求~${z-2}$ 的取值范围. -\end{parts} - -\begin{solution} -\begin{parts} -\part $z=3+4\textbf{i}$ -\part ${z-w}\in[4,6]$ -\end{parts} -\end{solution} - -\question[14] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\newpage - -\question[16] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\newpage -\question 已知复数~$z$ 满足:${z}-z^*=\dfrac{10}{1-w\textbf{i}}$(其中~$z^*$ -是~$z$ 的共轭复数). -\begin{parts} -\part[8] 求复数~$z$; -\part[8] 若复数~$w=\cos\theta+\textbf{i}\sin\theta\,(\theta\in\mathbb{R})$, 求~${z-2}$ 的取值范围. -\end{parts} - -\begin{solution} -\begin{parts} -\part $z=3+4\textbf{i}$ -\part ${z-w}\in[4,6]$ -\end{parts} -\end{solution} - -\newpage - -\question[18] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\end{questions} -\end{document} diff --git a/Master/texmf-dist/doc/latex/bhcexam/test4.tex b/Master/texmf-dist/doc/latex/bhcexam/test4.tex deleted file mode 100644 index 17a5ef8f9bf..00000000000 --- a/Master/texmf-dist/doc/latex/bhcexam/test4.tex +++ /dev/null @@ -1,144 +0,0 @@ -\documentclass[UTF8,printbox]{BHCexam} -\begin{document} - -\maketitle -\notice - -\begin{questions} -\tiankong -\question 已知~$\bm{a}=(k,-9)$、$\bm{b}=(-1,k)$, $\bm{a}$~与~$\bm{b}$~为平行向量, - 则~$k=$\stk{$\pm3$}. - -\question 若函数~$f(x)=x^{6m^2-5m-4}\,(m\in\mathbb{Z})$~的图像关于~$y$~轴对称, - 且~$f(2)a>0$), 若再添加~$m\text{g}$~糖~($m>0$), - - -\question 已知~$f(x)=1-\textbf{c}_8^1x+\textbf{c}_8^2x^2-\textbf{c}_8^3x^3+\cdots+\textbf{c}_8^8x^8$, - 则~$f\big(\dfrac{1}{2}+\dfrac{\sqrt{3}}{2}\textbf{i}\big)$~的值是\ltk{$-\dfrac{1}{2}-\dfrac{\sqrt{3}}{2}\textbf{i}$}. - -\question 自然数~$1,2,3,\ldots,10$~的方差记为~$\sigma^2$, - 其中的偶数~$2,4,6,8,10$~的方差记为~$\sigma_1^2$, - 则~$\sigma^2$~与~$\sigma_1^2$~的大小关系为~$\sigma^2$\stk{$>$}$\sigma_1^2$. - -\question 若~$\theta$~为三角形的一个内角, 且~$\sin\theta+\cos\theta=\dfrac{2}{3}$, - 则方程~$x^2\csc\theta-y^2\sec\theta=1$~表示的曲线的焦点坐标是\stk{$\big(\pm\dfrac{\sqrt{6}}{3},0\big)$}. - - -\question 高为~$h$~的棱锥被平行于棱锥底面的截得棱台侧面积是 - 原棱锥的侧面积的~$\dfrac{5}{9}$, - 则截得的棱台的体积与原棱锥的体积之比是\stk{$19:27$}. - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - - -\question 若~$\sqrt{\,\sin x}$~是有理数且~$x$~不是~$\dfrac{\pi}{6}$~的整数倍, - 则~$x$~可能取的值是\mtk{$\arcsin\dfrac{1}{4}$ 等}.(只要求写出一个) - -\question 马路上有编号~1~到~10~的~10~盏路灯, 为节约用电又不影响照明, - 可以关掉其中的~3~盏, 但又不能同时关掉相邻的两盏, 也不能关掉两端的路灯, - 满足条件的关灯方法有\stk{$20$}种. - - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - -\question 若~$\sqrt{\,\sin x}$~是有理数且~$x$~不是~$\dfrac{\pi}{6}$~的整数倍, - 则~$x$~可能取的值是\mtk{$\arcsin\dfrac{1}{4}$ 等}.(只要求写出一个) - -\question 马路上有编号~1~到~10~的~10~盏路灯, 为节约用电又不影响照明, - 可以关掉其中的~3~盏, 但又不能同时关掉相邻的两盏, 也不能关掉两端的路灯, - 满足条件的关灯方法有\stk{$20$}种. - - -\question 以椭圆~$\dfrac{x^2}{169}+\dfrac{y^2}{144}=1$~的右焦点为圆心, - 且与双曲线~$\dfrac{x^2}{9}-\dfrac{y^2}{16}=1$~的渐近线相切的圆方程是\mtk{$(x-5)^2+y^2=16$}. - -\newpage - -\xuanze -\question 已知集合~$A=\{x\mid \abs{x-1}<3 \}$, -集合~$B=\{y| y=x^2+2x+1,x\in\mathbb{R}\}$, 则~$A\cap -\complement_U B$~为\stk{C}. -\twoch{$[\,0,4)$}{$(-\infty,-2\,]\cup[4,+\infty)$}{$(-2,0)$}{$(0,4)$} - -\question 若~$a$、$b$~是直线, $\alpha$、$\beta$~是平面, -则以下命题中真命题是\stk{D}.\\ -\fourch{若~$a$、$b$~异面, $a\subset\alpha$,$b\subset\beta$, 且~$a\perp b$, 则~$\alpha\perp\beta$}{若~$a\parallel b$, $a\subset\alpha$, $b\subset\beta$,则~$\alpha\parallel\beta$}{若~$a\parallel \alpha$, -$b\subset\beta$, 则~$a$、$b$ 异面}{若~$a\perp b$, $a\perp\alpha$,$b\perp\beta$, 则~$\alpha\perp\beta$} - -\question 已知集合~$A=\{x\mid \abs{x-1}<3 \}$, -集合~$B=\{y| y=x^2+2x+1,x\in\mathbb{R}\}$, 则~$A\cap -\complement_U B$~为\stk{C}. -\twoch{$[\,0,4)$}{$(-\infty,-2\,]\cup[4,+\infty)$}{$(-2,0)$}{$(0,4)$} - -\question 若~$a$、$b$~是直线, $\alpha$、$\beta$~是平面, -则以下命题中真命题是\stk{D}.\\ -\fourch{若~$a$、$b$~异面, $a\subset\alpha$,$b\subset\beta$, 且~$a\perp b$, 则~$\alpha\perp\beta$}{若~$a\parallel b$, $a\subset\alpha$, $b\subset\beta$,则~$\alpha\parallel\beta$}{若~$a\parallel \alpha$, -$b\subset\beta$, 则~$a$、$b$ 异面}{若~$a\perp b$, $a\perp\alpha$,$b\perp\beta$, 则~$\alpha\perp\beta$} - -\newpage -\jianda -\question 已知复数~$z$ 满足:$\abs{z}-z^*=\dfrac{10}{1-w\textbf{i}}$(其中~$z^*$ -是~$z$ 的共轭复数). -\begin{parts} -\part[7] 求复数~$z$; -\part[7] 若复数~$w=\cos\theta+\textbf{i}\sin\theta\,(\theta\in\mathbb{R})$, 求~$\abs{z-2}$ 的取值范围. -\end{parts} - -\begin{solution} -\begin{parts} -\part $z=3+4\textbf{i}$ -\part $\abs{z-w}\in[4,6]$ -\end{parts} -\end{solution} - -\question[14] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\newpage - -\question[16] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\newpage -\question 已知复数~$z$ 满足:$\abs{z}-z^*=\dfrac{10}{1-w\textbf{i}}$(其中~$z^*$ -是~$z$ 的共轭复数). -\begin{parts} -\part[8] 求复数~$z$; -\part[8] 若复数~$w=\cos\theta+\textbf{i}\sin\theta\,(\theta\in\mathbb{R})$, 求~$\abs{z-2}$ 的取值范围. -\end{parts} - -\begin{solution} -\begin{parts} -\part $z=3+4\textbf{i}$ -\part $\abs{z-w}\in[4,6]$ -\end{parts} -\end{solution} - -\newpage - -\question[18] 函数~$f(x)=4\sin\dfrac{\pi}{12}x\cdot\sin - \left(\dfrac{\pi}{2}+\dfrac{\pi}{12}x\right),x\in[a,a+1]$, - 其中常数~$a\in[0,5]$, 求函数~$f(x)$ 的最大值~$g(a)$. - -\begin{solution} -略 -\end{solution} - -\end{questions} -\end{document} diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/README-zh.md b/Master/texmf-dist/doc/xelatex/bhcexam/README-zh.md new file mode 100644 index 00000000000..1d626ec24bf --- /dev/null +++ b/Master/texmf-dist/doc/xelatex/bhcexam/README-zh.md @@ -0,0 +1,52 @@ +# BHCexam + +[English](./README.md) + +BHCexam 是一款为中国数学老师设计的试卷排版文档类,目前已被 [橘子数学开源题库社区](https://www.mathcrowd.cn) 选用为默认文档类导出试卷pdf文件. + +你可以使用该文档类实现: + +* 将内容与样式分离 +* 使用一个参数生成教师版和学生版试卷; +* 排版3-6个选项的选择题,可根据选项的长度自适应对齐; +* 排版填空题,可根据答案的长度自适应设置横线长度; +* 排版简答题,并以列表形式展示小问,并控制是否展示小问、缩进; +* 对试题分组,对组内试题以列表呈现,并控制是否展示分值、留空、是否重新开始编号; +* 更多 (见 [BHCexam 文档](http://docs.mathcrowd.cn/advances/bhcexam.html) ) + +## 版本历史 + +* **version 1.7** (2022.8) + * 针对TeXLive 2022, 修正`ctex`的字号、字体设置. +* **version 1.6** (2021.8) + * 不再使用`stix`数学字体 + * `ctex` 设置 `punct = kaiming` +* **version 1.5** (2020.6) + * `questions` 环境新增 `r` 选项,重置题组的编号; + * 在 `master` 分支中清理历史版本; + * 新增 `fandol` 宏包选项以支持 `fandol` 字体; +* **version 1.4** (2020.5) + * 支持`subquestion`环境的嵌套; + * `\parallel` 命令重定义; +* **version 1.3** (2020.3) + * 新增 `\sixchoices` , `\threechoices` 命令,以支持对3个和6个选项,并保持智能断行同及选项对齐. +* **version 1.2** (2020.3) + * 支持苹果字体 + * 使用 `stix` 数学字体 + * 支持在选择题最后显示右对齐括号 +* **version 1.1** (2020.1) + * 新增对A3双栏版式的支持 + * 新增列表样式的试题 +* **version 1.0** (2019.5) + * 弃用 `exam` 而改用 `article` 为基宏包类 + +## 贡献者 + +* Bao Hongchang - @mathedu4all, charles@mathcrowd.cn +* CamuseCao - @ CamuseCao, camusecao@gmail.com + +------ + +This work may be distributed and/or modified under the conditions of +the LaTeX Project Public License, either version 1.3 of this license +or (at your option) any later version. diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/README.md b/Master/texmf-dist/doc/xelatex/bhcexam/README.md new file mode 100644 index 00000000000..e5553323735 --- /dev/null +++ b/Master/texmf-dist/doc/xelatex/bhcexam/README.md @@ -0,0 +1,28 @@ +# BHCexam + +[中文版](./README-zh.md) + +BHCexam is an exam class designed for mathematics teacher in China. + +Now it is used by [mathcrowd.cn](www.mathcrowd.cn) ( an opensource math exam database) as the default class to export exam papers in pdf. + +Using bhcexam you can + +* separate the format and the content very well; +* export both teacher paper and student paper; +* typeset multiple choice questions with 3-6 options keeping adaptively neat alignment; +* typeset cloze questions with an adaptively underline; +* typeset questions with subquestions in list; +* group questions  in list to control whether to show score, leave spacing, initialize question number; +* and more (see [BHCexam Documentation](http://docs.mathcrowd.cn/advances/bhcexam.html)). + +## Authors and Contributors + +* Bao Hongchang +* CamuseCao + +------ + +This work may be distributed and/or modified under the conditions of +the LaTeX Project Public License, either version 1.3 of this license +or (at your option) any later version. diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/To7VxKXpZaOWO5Qq9qzeZGtlwYTwJ5KF.jpg b/Master/texmf-dist/doc/xelatex/bhcexam/examples/To7VxKXpZaOWO5Qq9qzeZGtlwYTwJ5KF.jpg new file mode 100644 index 00000000000..6d3adabeb65 Binary files /dev/null and b/Master/texmf-dist/doc/xelatex/bhcexam/examples/To7VxKXpZaOWO5Qq9qzeZGtlwYTwJ5KF.jpg differ diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_student_paper.pdf b/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_student_paper.pdf new file mode 100644 index 00000000000..d6080b26ef3 Binary files /dev/null and b/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_student_paper.pdf differ diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_student_paper.tex b/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_student_paper.tex new file mode 100644 index 00000000000..2d398fcd6d8 --- /dev/null +++ b/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_student_paper.tex @@ -0,0 +1,551 @@ +\documentclass[list, windows]{BHCexam} +\pagestyle{fancy} +\fancyfoot[C]{\kaishu \small 第 \thepage 页 共 \pageref{lastpage} 页} +\fancyhead[L]{\includegraphics[width=2cm]{qrcode.png}} +\fancyhead[R]{\raisebox{0.5\height}{\includegraphics[height=1cm]{logo.png}}} +\begin{document} +\title{上海某高中 2017-2018 学年度第一学期} +\subtitle{高一数学期中试卷} +\notice{满分150分,120分钟完成,允许使用计算器,答案一律写在答题纸上} +\author{微信关注公众号:橘子数学} +\date{2017.11} +\maketitle +\begin{groups} +\group{填空}{第1-6题每题4分,第7-12题每题5分.} + +\begin{questions}[p] +\begin{minipage}{\linewidth} +\question [4] 已知集合$U=\{1,2,3,4\}$,集合$A=\{1,2\}$,$B=\{2,3\}$,则$(A\cap\complement_UB) \cup (\complement_UA\cap B)=$\key{$\{1,3\}$}. + +\end{minipage} +\begin{solution}{4cm} +\method +$A\cap\complement_UB=\{1\}$, $B\cap\complement_UA=\{3\}$. + +$(A\cap\complement_UB) \cup (\complement_UA\cap B)=\{1,3\}$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 设集合$M=\{x|0\lt x\leqslant{}3\}$,$N=\{x|0\lt x\leqslant{}2\}$,那么 “ $a\in{M}$ ” 是 “ $a\in{N}$ ” 的\key{必要非充分}条件. + +\end{minipage} +\begin{solution}{4cm} +\method +由$N \subsetneqq M$,可知 “ $a\in{M}$ ” 是 “ $a\in{N}$ ” 的必要非充分条件. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 函数$f(x)=\sqrt{x+1}+\dfrac{1}{2-x}$的定义域为\key{$[-1,2)\cup{}(2,+\infty)$}. + +\end{minipage} +\begin{solution}{4cm} +\method +根据题意:$\left\{\begin{array}{l}{x+1\geqslant{}0}\\{2-x\neq{}0}\end{array}\right.$ + +解得:$x\geqslant{}-1$且$x\neq{}2$ + +定义域是:$[-1,2)\cup{}(2,+\infty)$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 已知集合$A=\{x \big| |x-a| \lt 1,x\in\symbf{R}\}$, +$B=\{x\Big|\dfrac{2x-a}{x+1} \lt 1,x\in\symbf{R}\}$, +且$A\cap B=\varnothing$, + 则实数$a$的取值范围是\key{$a \in (-\infty,-2]$}. + +\end{minipage} +\begin{solution}{4cm} +\method +$A=(a-1,a+1)$, + +由$\dfrac{2x-a}{x+1} \lt 1$化简得$\dfrac{x-a-1}{x+1} \lt 0$. + +若$a+1 \gt -1$,不满足$A \cap B=\varnothing$. + +若$a+1 \le -1$,满足$A \cap B=\varnothing$. + +故$a\in(-\infty,-2]$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 已知$y=f(x), y=g(x)$是两个定义在$\symbf{R}$上的二次函数,其$x, y$的取值如下表所示: +\[\begin{array}{|c|c|c|c|c|} +\hline +x & 1 & 2 & 3 & 4 \\ +\hline +f(x) & -3 & -4 & -3 & 0\\ +\hline +g(x) & 0 & 1 & 0 & -3\\ +\hline +\end{array}\] +则不等式$f(g(x))\ge0$的解集为\key{$(-\infty,1]\cup[3,+\infty)$.}. + +\end{minipage} +\begin{solution}{4cm} +\method +由表格可得$y=f(x)$图像开口向上且关于$x=2$对称,其零点为$x=4$和$x=0$. + +故不等式$f(g(x))\ge0$, 即$g(x)\in(-\infty,0]\cup[4,+\infty)$. + +又$y=g(x)$的图像开口向下且关于$x=2$对称,其最大值为$1$. + +故$g(x)\in(-\infty,0]$,解得$x\in(-\infty,1]\cup[3,+\infty)$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 关于$x$的不等式$2kx^2+kx+\frac{3}{8} \lt 0$的解集不为空集,则$k$的取值范围为\key{$k \in (-\infty,0)\cup(3,+\infty)$}. + +\end{minipage} +\begin{solution}{4cm} +\method +若$k \lt 0 $, 二次函数$y=2kx^2+kx+\frac{3}{8}$图像开口向下,解集恒不为空集. 满足. + +若$k=0$, 不等式解集为$\varnothing$,不满足. + +若$k \gt 0$,二次函数$y=2kx^2+kx+\frac{3}{8}$图像开口向上,要求$\Delta=k^2-4 \cdot (2k) \cdot \frac{3}{8}=k^2-3k \gt 0$,解得$k\in(3,+\infty)$. + +综上所属,$k \in (-\infty,0)\cup(3,+\infty)$ + +\end{solution} +\vfill +\newpage +\begin{minipage}{\linewidth} +\question [5] 已知本张试卷的出卷人在公元$x^2$年时年龄为$x-8$岁,则出卷人的出生年份是\key{$1989$}.(假设出生当年的年龄为$1$岁) + +\end{minipage} +\begin{solution}{4cm} +\method +设出卷人的出生年份是$y$. + +则有$x^2-y+1=x-8$. + +化简得$y=x^2-x+9$. + +由生活常识, + +$1952 \lt x^2-x+9 \lt 2000$, $x\in\symbf{N}$. + +解得$x=45$, 故$y=1989$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 若对任意$x\in\symbf{R}$,不等式$|x|\geqslant{}ax$恒成立,则实数$a$的取值范围是\key{$a \in [-1,1]$}. + +\end{minipage} +\begin{solution}{4cm} +\method +若$x \gt 0$,得$x \ge ax$, 解得$a \le 1$. + +若$x = 0$,得$0 \ge 0$成立. + +若$x \lt 0$,得$-x \ge ax$,解得$a \ge -1$. + +综上所述,$a \in [-1,1]$. +\method +画出$y=|x|$与$y=ax$的图像, + +要使$y=ax$的图像恒在$y=|x|$下方, + +则$a\in[-1,1]$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 设常数$a\gt \ 0$,若$9x+\dfrac{a^2}{x}\geqslant{}a+1$对一切正实数$x$成立,则$a$的取值范围为\key{$\left[\dfrac{1}{5}, + \infty \right)$}. + +\end{minipage} +\begin{solution}{4cm} +\method +$\forall x\in{R}^{+},9x+\dfrac{a^2}{x}\geqslant{}2\sqrt{9x\cdot{}\dfrac{a^2}{x}}=6a$, + +$\therefore{}6a\geqslant{}a+1$, + +$\therefore{}a\geqslant{}\dfrac{1}{5}$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 设函数$f(x)=\begin{cases}x^2+2x+2,x\leqslant{}0\\-x^2,x\gt \ 0\end{cases}$,若$f(f(a))=2$,则$a=$\key{}. + +\end{minipage} +\begin{solution}{4cm} +\method +若$a\leqslant{}0$, +则$f(a)=a^2+2a+2=(a+1)^2+1 \gt 0$, +而$f(f(a))=-(a^2+2a+2)^2=2$无解,舍去; + +若$a\gt \ 0$, +则$f(a)=-a^2\lt 0$, +故$f(f(a))=(-a^2)^2+2(-a^2)+2=2$, +解得$a=\sqrt{2}$. + +综上所述, $a=\sqrt{2}$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 若二次函数$y=f(x)$对一切$x\in \text{R}$恒有${{x}^{2}}-2x+4\le f(x)\le 2{{x}^{2}}-4x+5$成立,且$f(5)=27$,则$f(11)=$\key{$153$}. + +\end{minipage} +\begin{solution}{4cm} +\method +画出不等式两边的两个二次函数图像,如图,可得未知的二次函数$y=f(x)$开口向上,以$(1,3)$为顶点,故可设函数解析式为$f(x)=a(x-1)^2+3$,将$f(5)=27$代入可得$a=\frac{3}{2}$,则$f(x)=\frac{3}{2}(x-1)^2+3$,故$f(11)=153$. +\begin{center} +\includegraphics[height=8cm]{./To7VxKXpZaOWO5Qq9qzeZGtlwYTwJ5KF.jpg}\\ +第11题 +\vspace{0.5cm} +\end{center} + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 已知$f(x)=(a^2-5)x^2+2x+2$. 若不等式$f(x) \gt x$的解集为$A$. 已知$(0,1)\subseteq A$,则$a$的取值范围为\key{$a \in (-\infty,-\sqrt{2}]\cup[\sqrt{2},+\infty)$}. + +\end{minipage} +\begin{solution}{4cm} +\method +由题意得,$(a^2-5)x^2+x+2 \gt 0$在$(0,1)$上恒成立. + +即$a^2-5 \gt -\frac{2}{x^2}-\frac{1}{x}$在$(0,1)$上恒成立. + +设$f(x)=-\frac{2}{x^2}-\frac{1}{x}=-2(\frac{1}{x}+\frac{1}{4})^2+\frac{1}{8}$, + +又$\frac{1}{x}\in(1,+\infty)$, 故$f(x) \lt -3$. + +即$a^2-5 \ge -3$, 解得$a \in (-\infty,-\sqrt{2}]\cup[\sqrt{2},+\infty)$. + +\end{solution} +\end{questions} + +\group{选择}{第13-16题每题5分.} + +\begin{questions}[p] +\begin{minipage}{\linewidth} +\question [5] 设$P,Q$为两个非空实数集,定义集合$P+Q=\{a+b|a\in{P},b\in{Q}\}$.若$P=\{0,2,5\}$,$Q=\{1,2,6\}$,则$P+Q$中元素的个数是\key{B}. +\fourchoices{$9$}{$8$}{$7$}{$6$} +\end{minipage} +\begin{solution}{4cm} +\method +$\because P=\{0,2,5\}$,$Q=\{1,2,6\}$, + +$\therefore P+Q=\{1,2,3,4,6,7,8,11\}$. + +故选B + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 不等式$(1+x)(1-|x|)\gt \ 0$的解集是\key{D}. +\fourchoices{$\{x|0\leqslant{}x\lt 1\}$}{$\{x|x\lt 0$且$x\neq{}-1\}$}{$\{x|-1\lt x\lt 1\}$}{$\{x|x\lt 1$且$x\neq{}-1\}$} +\end{minipage} +\begin{solution}{4cm} +\method +求不等式$(1+x)(1-|x|)\gt \ 0$的解集,则分两种情况讨论: + +情况$1:\left\{\begin{array}{l}{1+x\gt \ 0\;\;}\\{1-|x|\gt \ 0}\end{array}\right.$ + +即$\left\{\begin{array}{l}{x\gt \ -1}\\{-1\lt x\lt 1}\end{array}\right.$ +则$-1\lt x\lt 1$. + +情况$2:\left\{\begin{array}{l}{1+x\lt 0}\\{1-|x|\lt 0}\end{array}\right.$ + +即$\left\{\begin{array}{l}{x\lt -1}\\{x\gt 1\text{或}x\lt -1}\end{array}\right.$ +则$x\lt -1$. + +两种情况取并集得$\{x|x\lt 1$且$x\neq{}-1\}$. + +故选D. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 已知三个不等式:$ab\gt \ 0$,$bc-ad\gt \ 0$,$\dfrac{c}{a}-\dfrac{d}{b}\gt \ 0$(其中$a,b,c,d$均为实数),用其中两个不等式作为条件,余下的一个不等式作为结论组成一个命题,可组成的正确命题的个数是\key{D}. +\fourchoices{$0$}{$1$}{$2$}{$3$} +\end{minipage} +\begin{solution}{4cm} +\method +$\begin{cases}ab\gt \ 0, &\cdots(1)\\ +bc-ad\gt \ 0,&\cdots(2) +\end{cases}$ + +$(2)\div(1)$得$\dfrac{bc-ad}{ab}=\dfrac{c}{a}-\dfrac{d}{b}\gt \ 0$. + +$\begin{cases} +ab\gt \ 0,&\cdots(1)\\ +\dfrac{c}{a}-\dfrac{d}{b}\gt \ 0,&\cdots(3) +\end{cases}$ + +$(1)\times{}(3)$得$ab(\dfrac{c}{a}-\dfrac{d}{b})=bc-ad\gt \ 0$. + +$\begin{cases}bc-ad\gt \ 0,&\cdots(2)\\ +\dfrac{c}{a}-\dfrac{d}{b}\gt \ 0,&\cdots(3) +\end{cases}$ + +用反证法,显然$ab\neq{}0$, + +设$ab\lt 0$,$(2)$式同除$ab$得$\dfrac{c}{a}-\dfrac{d}{b}\lt 0$,矛盾, + +故$ab\gt \ 0$. +故选D. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 设$a\gt \ 0$,$b\gt \ 0$,则以下不等式中不恒成立的是\key{B}. +\fourchoices{$(a+b)(\dfrac{1}{a}+\dfrac{1}{b})\geqslant{}4$}{$a^{3}+b^{3}\geqslant{}2ab^{2}$}{$a^{2}+b^{2}+2\geqslant{}2a+2b$}{$\sqrt{|{a-b}|}\geqslant{}\sqrt{a}-\sqrt{b}$} +\end{minipage} +\begin{solution}{4cm} +\method +$a\gt \ 0$,$b\gt \ 0$, + +$(a+b)(\dfrac{1}{a}+\dfrac{1}{b})\geqslant{}2\sqrt{ab}\cdot{}2\sqrt{\dfrac{1}{ab}}\geqslant{}4$, + +故A恒成立; + +$a^{3}+b^{3}\geqslant{}2ab^{2}$, + +取$a=\dfrac{1}{2}$,$b=\dfrac{2}{3}$,则B不成立; + +$a^{2}+b^{2}+2-(2a+2b)=(a-1)^{2}+(b-1)^{2}\geqslant{}0$, + +故C恒成立; + +若$a\lt b$,则$\sqrt{|{a-b}|}\geqslant{}\sqrt{a}-\sqrt{b}$恒成立, + +若$a\geqslant{}b$,则${(\sqrt{|{a-b}|})^2}-{(\sqrt{a}-\sqrt{b})^2}=2\sqrt{ab}\geqslant{}0$, + +故$\sqrt{|{a-b}|}\geqslant{}\sqrt{a}-\sqrt{b}$, +即D恒成立. + +\end{solution} +\end{questions} +\group{简答}{第17-19题每题14分,第20题16分,第21题18分.} + +\begin{questions}[stp] +\begin{minipage}{\linewidth} +\question [14] 已知$\triangle ABC$为直角三角形, 记其两条直角边长分别为$a,b\in\symbf{R}^+$, 记面积为$S$, 周长为$C$. 若三角形面积为定值,其周长是否有最值,最大值还是最小值,何时取到,为多少(结果用$S$表示)? + +\end{minipage} +\begin{solution}{6cm} +\method +$C=a+b+\sqrt{a^2+b^2}$, +\score{2}{2}由$\sqrt{a^2+b^2} \ge \sqrt{2ab}$,$a+b \ge 2\sqrt{ab}$, + +得$C \ge 2\sqrt{ab}+\sqrt{2ab}$ +\score{6}{8}由$S=\frac{1}{2}ab$, + +得$C \ge (2+2\sqrt{2})\sqrt{S}$, +\score{4}{12}当且仅当$a=b=\sqrt{2S}$时取到最小值. +\score{2}{14} +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [14] 已知$a\in\textbf{R}$,若关于$x$的方程$x^2+x+|a-\dfrac{1}{4}|+|a|=0$有实根,求$a$的取值范围. + +\end{minipage} +\begin{solution}{6cm} +\method +方程即$|a-\frac{1}{4}|+|a|=-x^2-x\in[0,\frac{1}{4}]$, + +即解不等式$|a-\frac{1}{4}|+|a| \le \frac{1}{4}$. + +当$a\le 0$,化简得$\frac{1}{4}-2a \le \frac{1}{4}$,解得$a=0$; + +当$0 \lt a\le \frac{1}{4}$, 化简得$\frac{1}{4} \le \frac{1}{4}$,解得$a\in(0,\frac{1}{4}]$; + +当$a \gt \frac{1}{4}$, 化简得$2a-\frac{1}{4}\le\frac{1}{4}$,无解. + +综上所述,$a\in [0,\frac{1}{4}]$ +\score{14}{14} +\end{solution} +\vfill +\newpage +\begin{minipage}{\linewidth} +\question [14] 先阅读下列不等式的证法,再解决后面的问题: +\[ +\text{证明:} (a_1b_1+a_2b_2)^2 \le (a_1^2+a_2^2)(b_1^2+b_2^2)\] + +证: 令$A=\sqrt{a_1^2+a_2^2}$, $B=\sqrt{b_1^2+b_2^2}$ + +\[ +\begin{array}{rl} +\frac{a_1b_1+a_2b_2}{\sqrt{a_1^2+a_2^2}\sqrt{b_1^2+b_2^2}}& =\frac{a_1b_1}{AB}+\frac{a_2b_2}{AB}\\ +& = \frac{a_1}{A}\cdot\frac{b_1}{B}+\frac{a_2}{A}\cdot\frac{b_2}{B} \\ +& \le \frac{1}{2}(\frac{a_1^2}{A^2}+\frac{b_1^2}{B^2})+ \frac{1}{2}(\frac{a_2^2}{A^2}+\frac{b_2^2}{B^2})\\ +& =\frac{1}{2}(\frac{a_1^2+a_2^2}{A^2}+\frac{b_1^2+b_2^2}{B^2})\\ +& =1 +\end{array} +\] +故$ (a_1b_1+a_2b_2)^2 \le (a_1^2+a_2^2)(b_1^2+b_2^2)$. +\begin{subquestions} + \subquestion 若$x_1,y_1,x_2,y_2\in\symbf{R^+}$,利用上述结论,证明:\[ +(x_1+x_2)(y_1+y_2) \ge (\sqrt{x_1y_1}+\sqrt{x_2y_2})^2 +\] + \subquestion 若$x_1,y_1,x_2,y_2,z_1,z_2\in\symbf{R^+}$,模仿上述证法并结合(1)的证法,证明:\[ +(x_1+x_2)(y_1+y_2)(z_1+z_2) \ge (\sqrt[3]{x_1y_1z_1}+\sqrt[3]{x_2y_2z_2})^3 +\] +(提示:若$a,b,c\in\symbf{R^+}$,有$\frac{a^3+b^3+c^3}{3}\ge abc$,) +\end{subquestions} +\end{minipage} +\begin{solution}{3cm} +\method +(1)设$a_1=\sqrt{x_1}$,$a_2=\sqrt{x_2}$,$b_1=\sqrt{y_1}$,$b_2=\sqrt{y_2}$. + +由\[ (a_1b_1+a_2b_2)^2 \le (a_1^2+a_2^2)(b_1^2+b_2^2)\] + +得\[ (\sqrt{x_1}\sqrt{y_1}+\sqrt{x_2}\sqrt{y_2})^2 \le [((\sqrt{x_1})^2+(\sqrt{x_2})^2)((\sqrt{y_1})^2+(\sqrt{y_2})^2)]\] + +即\[ +(x_1+x_2)(y_1+y_2) \ge (\sqrt{x_1y_1}+\sqrt{x_2y_2})^2 +\] +\score{6}{6}(2) 设$a_1=\sqrt[3]{x_1}, b_1=\sqrt[3]{y_1}, c_1=\sqrt[3]{z_1}$, $a_2=\sqrt[3]{x_2}, b_2=\sqrt[3]{y_2}, c_2=\sqrt[3]{z_2}$. + +要证 +\[ +(x_1+x_2)(y_1+y_2)(z_1+z_2) \ge (\sqrt[3]{x_1y_1z_1}+\sqrt[3]{x_2y_2z_2})^3 +\] + +即证 +\[ +(a_1b_1c_1+a_2b_2c_2)^3 \le (a_1^3+a_2^3)(b_1^3+b_2^3)(c_1^3+c_2^3) +\] + +(不换元,直接证不扣分) +\score{2}{8}令$A=\sqrt[3]{a_1^3+a_2^3}$,$B=\sqrt[3]{b_1^3+b_2^3}$, $C=\sqrt[3]{c_1^3+c_2^3}$. + +\[ +\begin{array}{rl} +& \frac{a_1b_1c_1+a_2b_2c_2}{\sqrt[3]{a_1^3+a_2^3}\sqrt[3]{b_1^3+b_2^3}\sqrt[3]{c_1^3+c_2^3}}\\ += & \frac{a_1b_1c_1}{ABC}+\frac{a_2b_2c_2}{ABC}\\ += & \frac{a_1}{A}\cdot\frac{b_1}{B}\cdot\frac{c_1}{C}+\frac{a_2}{A}\cdot\frac{b_2}{B}\cdot\frac{c_2}{C}\\ +\le & \frac{1}{3}(\frac{a_1^3}{A^3}+\frac{b_1^3}{B^3}+\frac{c_1^3}{C^3})+ \frac{1}{3}(\frac{a_2^3}{A^3}+\frac{b_2^3}{B^3}+\frac{c_2^3}{C^3})\\ += & \frac{1}{3}(\frac{a_1^3+a_2^3}{A^3}+\frac{b_1^3+b_2^3}{B^3}++\frac{c_1^3+c_2^3}{C^3})\\ += & 1 +\end{array} +\] + +故\[(a_1b_1c_1+a_2b_2c_2)^3 \le (a_1^3+a_2^3)(b_1^3+b_2^3)(c_1^3+c_2^3)\] + +得证. +\score{6}{14} +\end{solution} +\vfill +\newpage +\begin{minipage}{\linewidth} +\question [16] 公元2222年,有一种高危传染疾病在全球范围内蔓延,被感染者的潜伏期可以长达10年,期间会有约$0.05\%$的概率传染给他人,一旦发病三天内即死亡。某城市总人口约200万人,专家分析其中约有$1000$名感染者,为了防止疾病继续扩散,疾病预防控制中心现决定对全市人口进行血液检测以筛选出被感染者。由于检测试剂十分昂贵且数量有限,需要将血样混合后一起检测以节约试剂。已知感染者的检测结果为阳性, 未被感染者则为阴性. 阳性血样与阴性血样混合后的检测结果为阳性, 同为阴性或阳性的血样混合后结果不发生改变. +\begin{subquestions} + \subquestion 若对全市人口进行平均分组,同一分组的血样将被混合到一起检测,若发现结果为阳性,则再在该分组内逐个检测排查. 设每个组$x$个人,那么最坏情况下,需要进行约多少次检测可以找到所有的被感染者? 在当前方案下,若要使检测的次数尽可能少,每个分组的最优人数是? + \subquestion 在(1)的检测方案中,对于检测结果为阳性的组采取逐一检测排查的方法并不是很好,或可将这些组的血样再进行一次分组混合血样检测,然后再进行逐一排查。仍然考虑最坏的情况,请问两次要如何分组,使检测总次数尽可能少? + \subquestion 在(2)的检测方案中,进行了两次分组混合血样检测。仍然考虑最坏情况,若再进行若干次分组混合血样检测,是否会使检测次数更少?请给出最优的检测方案. +\end{subquestions} +\end{minipage} +\begin{solution}{6cm} +\method +设需要进行$y$次检测. 由每个组$x$个人,则有$\frac{2000000}{x}$个小组, 最坏情况是1000人被分配到了不同的组. + +\[ +y=\begin{cases} +\frac{2\cdot 10^6}{x}+2\cdot 10^6, & x \ge 2000 \\ +\frac{2\cdot 10^6}{x}+1000\cdot x, & x \lt 2000 \\ +\end{cases} +\] + +(题目要求近似计算,可以不考虑整除,考虑整除不扣分) +\score{2}{2}分组数小于1000的情况比逐个检测还要多,可以不用考虑, + +$y=\frac{2\times 10^6}{x}+1000\cdot x \ge 2\sqrt{2\cdot 10^9}$. + +当$x=\sqrt{2\times10^3}\approx45$人,检测次数最少. + +(结果为44-45都给分) +\score{2}{4}(2) 设第二次分组每个组$w$人. + +\[ +\begin{array}{rl} +y & = \frac{2\times10^6}{x}+\frac{1000x}{w}+1000w\\ +& \ge 3\sqrt[3]{2\times10^{12}}\\ +\end{array} +\] + +当$\frac{2\times10^6}{x}=\frac{1000x}{w}=1000w$时, +即$x=2000^\frac{2}{3}\approx159$,$w=2000^\frac{1}{3}\approx13$, +检测次数最少. + +所以第一次分组159人一组,第二次分组13人一组. + +(也可以用两次基本不等式求得,允许$10\%$的误差.) +\score{6}{10}(3) 若进行$k$次分组,设第$i$次分组时每组人数为$x_i$. 则总的检测次数为: +\[ +\begin{array}{rl} +y=&\dfrac{2\times10^6}{x_1}+\dfrac{1000x_1}{x_2}+\cdots\\ +&+\dfrac{1000x_{k-1}}{x_k}+1000x_k\\ +\ge & (k+1)\sqrt[k+1]{2\times10^{3k+2}} +\end{array} +\] + +利用计算器可得, + +1次分组, $y \ge 2\sqrt{2\cdot 10^9}\approx8.94\times10^4$; + +2次分组, $y \ge 3\sqrt[3]{2\cdot 10^{12}}\approx3.78\times10^4$; + +3次分组, $y \ge 4\sqrt[4]{2\cdot 10^{15}}\approx2.68\times10^4$; + +4次分组, $y \ge 5\sqrt[5]{2\cdot 10^{18}}\approx2.29\times10^4$; + +5次分组, $y \ge 6\sqrt[6]{2\cdot 10^{21}}\approx2.13\times10^4$; + +6次分组, $y \ge 7\sqrt[7]{2\cdot 10^{24}}\approx2.073\times10^4$; + +7次分组, $y \ge 8\sqrt[8]{2\cdot 10^{27}}\approx2.068\times10^4$; + +8次分组, $y \ge 9\sqrt[9]{2\cdot 10^{30}}\approx2.094\times10^4$; + +9次分组, $y \ge 10\sqrt[10]{2\cdot 10^{33}}\approx2.138\times10^4$; + +可见进行7次分组混合血样检测最优. + +其中第k次分组时$(2000)^{\frac{8-k}{8}}$人一组. +\score{6}{16} +\end{solution} +\vfill +\newpage +\begin{minipage}{\linewidth} +\question [18] 已知函数$f(x)=a{{x}^{2}}-\frac{1}{2}x+c$($a$、$c\in R$),满足$f(1)=0$,且$f(x)\ge 0$在$x\in R$时恒成立. +\begin{subquestions} + \subquestion 求$a$、$c$的值; + \subquestion 若$h(x)=\frac{3}{4}{{x}^{2}}-bx+\frac{b}{2}-\frac{1}{4}$,解不等式$f(x)+h(x) \lt 0$; + \subquestion 是否存在实数$m$,使函数$g(x)=f(x)-mx$在区间$[m,m+2]$上有最小值$-5$?若存在,请求出$m$的值;若不存在,请说明理由. +\end{subquestions} +\end{minipage} +\begin{solution}{6cm} +\method +由$f(1)=0$,得$a+c=\frac{1}{2}$, +\score{1}{1}因为$f(x)\ge 0$在$x\in R$时恒成立,所以$a \gt 0$且△$=\frac{1}{4}-4ac\le 0$,$ac\ge \frac{1}{16}$, +\score{1}{2}即$a\left( \frac{1}{2}-a \right)\ge \frac{1}{16}$,${{a}^{2}}-\frac{1}{2}a+\frac{1}{16}\le 0$,${{\left( a-\frac{1}{4} \right)}^{2}}\le 0$,所以$a=c=\frac{1}{4}$. +\score{2}{4}(2) 由(1)得$f(x)=\frac{1}{4}{{x}^{2}}-\frac{1}{2}x+\frac{1}{4}$,由$f(x)+h(x) \lt 0$,得 +${{x}^{2}}-\left( b+\frac{1}{2} \right)x+\frac{b}{2} \lt 0$,即$(x-b)\left( x-\frac{1}{2} \right) \lt 0$, +\score{3}{7}所以,当$b \lt \frac{1}{2}$时,原不等式解集为$(b,\frac{1}{2})$; +当$b \gt \frac{1}{2}$时,原不等式解集为$(\frac{1}{2},b)$; +当$b=\frac{1}{2}$时,原不等式解集为空集 . +\score{3}{10}(3) $g(x)=\frac{1}{4}{{x}^{2}}-\left( \frac{1}{2}+m \right)x+\frac{1}{4}$, +\score{1}{11}$g(x)$的图像是开口向上的抛物线,对称轴为直线$x=2m+1$. +假设存在实数$m$,使函数$g(x)$在区间$[m,m+2]$上有最小值$-5$. +\ding{192} 当$2m+1 \lt m$,即$m \lt -1$时,函数$g(x)$在区间$[m,m+2]$上是增函数,所以$g(m)=-5$,即$\frac{1}{4}{{m}^{2}}-\left( \frac{1}{2}+m \right)m+\frac{1}{4}=-5$,解得$m=-3$或$m=\frac{7}{3}$, +因为$m \lt -1$,所以$m=-3$; +\score{2}{13}\ding{193}当$m\le 2m+1\le m+2$,即$-1\le m\le 1$时,函数$g(x)$的最小值为$g(2m+1)=-5$,即 +$\frac{1}{4}{{(2m+1)}^{2}}-\left( \frac{1}{2}+m \right)(2m+1)+\frac{1}{4}=-5$,解得$m=-\frac{1}{2}-\frac{\sqrt{21}}{2}$或$m=-\frac{1}{2}+\frac{\sqrt{21}}{2}$,均舍去; +\score{2}{15}\ding{194}当$2m+1 \gt m+2$,即$m \gt 1$时,$g(x)$在区间$[m,m+2]$上是减函数,所以$g(m+2)=-5$,即$\frac{1}{4}{{(m+2)}^{2}}-\left( \frac{1}{2}+m \right)(m+2)+\frac{1}{4}=-5$,解得$m=-1-2\sqrt{2}$或$m=-1+2\sqrt{2}$,因$m \gt 1$,所以$m=-1+2\sqrt{2}$. +\score{2}{17}综上,存在实数$m$,$m=-3$或$m=-1+2\sqrt{2}$时,函数$g(x)$在区间$[m,m+2]$上有最小值$-5$. +\score{1}{18} +\end{solution} +\end{questions} +\end{groups} +\label{lastpage} +\end{document} diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_teacher_paper.pdf b/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_teacher_paper.pdf new file mode 100644 index 00000000000..3730708cf76 Binary files /dev/null and b/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_teacher_paper.pdf differ diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_teacher_paper.tex b/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_teacher_paper.tex new file mode 100644 index 00000000000..8ca2db858a7 --- /dev/null +++ b/Master/texmf-dist/doc/xelatex/bhcexam/examples/example_teacher_paper.tex @@ -0,0 +1,551 @@ +\documentclass[list, windows, answers]{BHCexam} +\pagestyle{fancy} +\fancyfoot[C]{\kaishu \small 第 \thepage 页 共 \pageref{lastpage} 页} +\fancyhead[L]{\includegraphics[width=2cm]{qrcode.png}} +\fancyhead[R]{\raisebox{0.5\height}{\includegraphics[height=1cm]{logo.png}}} +\begin{document} +\title{上海某高中 2017-2018 学年度第一学期} +\subtitle{高一数学期中试卷} +\notice{满分150分,120分钟完成,允许使用计算器,答案一律写在答题纸上} +\author{微信关注公众号:橘子数学} +\date{2017.11} +\maketitle +\begin{groups} +\group{填空}{第1-6题每题4分,第7-12题每题5分.} + +\begin{questions}[p] +\begin{minipage}{\linewidth} +\question [4] 已知集合$U=\{1,2,3,4\}$,集合$A=\{1,2\}$,$B=\{2,3\}$,则$(A\cap\complement_UB) \cup (\complement_UA\cap B)=$\key{$\{1,3\}$}. + +\end{minipage} +\begin{solution}{4cm} +\method +$A\cap\complement_UB=\{1\}$, $B\cap\complement_UA=\{3\}$. + +$(A\cap\complement_UB) \cup (\complement_UA\cap B)=\{1,3\}$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 设集合$M=\{x|0\lt x\leqslant{}3\}$,$N=\{x|0\lt x\leqslant{}2\}$,那么 “ $a\in{M}$ ” 是 “ $a\in{N}$ ” 的\key{必要非充分}条件. + +\end{minipage} +\begin{solution}{4cm} +\method +由$N \subsetneqq M$,可知 “ $a\in{M}$ ” 是 “ $a\in{N}$ ” 的必要非充分条件. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 函数$f(x)=\sqrt{x+1}+\dfrac{1}{2-x}$的定义域为\key{$[-1,2)\cup{}(2,+\infty)$}. + +\end{minipage} +\begin{solution}{4cm} +\method +根据题意:$\left\{\begin{array}{l}{x+1\geqslant{}0}\\{2-x\neq{}0}\end{array}\right.$ + +解得:$x\geqslant{}-1$且$x\neq{}2$ + +定义域是:$[-1,2)\cup{}(2,+\infty)$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 已知集合$A=\{x \big| |x-a| \lt 1,x\in\symbf{R}\}$, +$B=\{x\Big|\dfrac{2x-a}{x+1} \lt 1,x\in\symbf{R}\}$, +且$A\cap B=\varnothing$, + 则实数$a$的取值范围是\key{$a \in (-\infty,-2]$}. + +\end{minipage} +\begin{solution}{4cm} +\method +$A=(a-1,a+1)$, + +由$\dfrac{2x-a}{x+1} \lt 1$化简得$\dfrac{x-a-1}{x+1} \lt 0$. + +若$a+1 \gt -1$,不满足$A \cap B=\varnothing$. + +若$a+1 \le -1$,满足$A \cap B=\varnothing$. + +故$a\in(-\infty,-2]$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 已知$y=f(x), y=g(x)$是两个定义在$\symbf{R}$上的二次函数,其$x, y$的取值如下表所示: +\[\begin{array}{|c|c|c|c|c|} +\hline +x & 1 & 2 & 3 & 4 \\ +\hline +f(x) & -3 & -4 & -3 & 0\\ +\hline +g(x) & 0 & 1 & 0 & -3\\ +\hline +\end{array}\] +则不等式$f(g(x))\ge0$的解集为\key{$(-\infty,1]\cup[3,+\infty)$.}. + +\end{minipage} +\begin{solution}{4cm} +\method +由表格可得$y=f(x)$图像开口向上且关于$x=2$对称,其零点为$x=4$和$x=0$. + +故不等式$f(g(x))\ge0$, 即$g(x)\in(-\infty,0]\cup[4,+\infty)$. + +又$y=g(x)$的图像开口向下且关于$x=2$对称,其最大值为$1$. + +故$g(x)\in(-\infty,0]$,解得$x\in(-\infty,1]\cup[3,+\infty)$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [4] 关于$x$的不等式$2kx^2+kx+\frac{3}{8} \lt 0$的解集不为空集,则$k$的取值范围为\key{$k \in (-\infty,0)\cup(3,+\infty)$}. + +\end{minipage} +\begin{solution}{4cm} +\method +若$k \lt 0 $, 二次函数$y=2kx^2+kx+\frac{3}{8}$图像开口向下,解集恒不为空集. 满足. + +若$k=0$, 不等式解集为$\varnothing$,不满足. + +若$k \gt 0$,二次函数$y=2kx^2+kx+\frac{3}{8}$图像开口向上,要求$\Delta=k^2-4 \cdot (2k) \cdot \frac{3}{8}=k^2-3k \gt 0$,解得$k\in(3,+\infty)$. + +综上所属,$k \in (-\infty,0)\cup(3,+\infty)$ + +\end{solution} +\vfill +\newpage +\begin{minipage}{\linewidth} +\question [5] 已知本张试卷的出卷人在公元$x^2$年时年龄为$x-8$岁,则出卷人的出生年份是\key{$1989$}.(假设出生当年的年龄为$1$岁) + +\end{minipage} +\begin{solution}{4cm} +\method +设出卷人的出生年份是$y$. + +则有$x^2-y+1=x-8$. + +化简得$y=x^2-x+9$. + +由生活常识, + +$1952 \lt x^2-x+9 \lt 2000$, $x\in\symbf{N}$. + +解得$x=45$, 故$y=1989$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 若对任意$x\in\symbf{R}$,不等式$|x|\geqslant{}ax$恒成立,则实数$a$的取值范围是\key{$a \in [-1,1]$}. + +\end{minipage} +\begin{solution}{4cm} +\method +若$x \gt 0$,得$x \ge ax$, 解得$a \le 1$. + +若$x = 0$,得$0 \ge 0$成立. + +若$x \lt 0$,得$-x \ge ax$,解得$a \ge -1$. + +综上所述,$a \in [-1,1]$. +\method +画出$y=|x|$与$y=ax$的图像, + +要使$y=ax$的图像恒在$y=|x|$下方, + +则$a\in[-1,1]$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 设常数$a\gt \ 0$,若$9x+\dfrac{a^2}{x}\geqslant{}a+1$对一切正实数$x$成立,则$a$的取值范围为\key{$\left[\dfrac{1}{5}, + \infty \right)$}. + +\end{minipage} +\begin{solution}{4cm} +\method +$\forall x\in{R}^{+},9x+\dfrac{a^2}{x}\geqslant{}2\sqrt{9x\cdot{}\dfrac{a^2}{x}}=6a$, + +$\therefore{}6a\geqslant{}a+1$, + +$\therefore{}a\geqslant{}\dfrac{1}{5}$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 设函数$f(x)=\begin{cases}x^2+2x+2,x\leqslant{}0\\-x^2,x\gt \ 0\end{cases}$,若$f(f(a))=2$,则$a=$\key{}. + +\end{minipage} +\begin{solution}{4cm} +\method +若$a\leqslant{}0$, +则$f(a)=a^2+2a+2=(a+1)^2+1 \gt 0$, +而$f(f(a))=-(a^2+2a+2)^2=2$无解,舍去; + +若$a\gt \ 0$, +则$f(a)=-a^2\lt 0$, +故$f(f(a))=(-a^2)^2+2(-a^2)+2=2$, +解得$a=\sqrt{2}$. + +综上所述, $a=\sqrt{2}$. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 若二次函数$y=f(x)$对一切$x\in \text{R}$恒有${{x}^{2}}-2x+4\le f(x)\le 2{{x}^{2}}-4x+5$成立,且$f(5)=27$,则$f(11)=$\key{$153$}. + +\end{minipage} +\begin{solution}{4cm} +\method +画出不等式两边的两个二次函数图像,如图,可得未知的二次函数$y=f(x)$开口向上,以$(1,3)$为顶点,故可设函数解析式为$f(x)=a(x-1)^2+3$,将$f(5)=27$代入可得$a=\frac{3}{2}$,则$f(x)=\frac{3}{2}(x-1)^2+3$,故$f(11)=153$. +\begin{center} +\includegraphics[height=8cm]{./To7VxKXpZaOWO5Qq9qzeZGtlwYTwJ5KF.jpg}\\ +第11题 +\vspace{0.5cm} +\end{center} + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 已知$f(x)=(a^2-5)x^2+2x+2$. 若不等式$f(x) \gt x$的解集为$A$. 已知$(0,1)\subseteq A$,则$a$的取值范围为\key{$a \in (-\infty,-\sqrt{2}]\cup[\sqrt{2},+\infty)$}. + +\end{minipage} +\begin{solution}{4cm} +\method +由题意得,$(a^2-5)x^2+x+2 \gt 0$在$(0,1)$上恒成立. + +即$a^2-5 \gt -\frac{2}{x^2}-\frac{1}{x}$在$(0,1)$上恒成立. + +设$f(x)=-\frac{2}{x^2}-\frac{1}{x}=-2(\frac{1}{x}+\frac{1}{4})^2+\frac{1}{8}$, + +又$\frac{1}{x}\in(1,+\infty)$, 故$f(x) \lt -3$. + +即$a^2-5 \ge -3$, 解得$a \in (-\infty,-\sqrt{2}]\cup[\sqrt{2},+\infty)$. + +\end{solution} +\end{questions} + +\group{选择}{第13-16题每题5分.} + +\begin{questions}[p] +\begin{minipage}{\linewidth} +\question [5] 设$P,Q$为两个非空实数集,定义集合$P+Q=\{a+b|a\in{P},b\in{Q}\}$.若$P=\{0,2,5\}$,$Q=\{1,2,6\}$,则$P+Q$中元素的个数是\key{B}. +\fourchoices{$9$}{$8$}{$7$}{$6$} +\end{minipage} +\begin{solution}{4cm} +\method +$\because P=\{0,2,5\}$,$Q=\{1,2,6\}$, + +$\therefore P+Q=\{1,2,3,4,6,7,8,11\}$. + +故选B + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 不等式$(1+x)(1-|x|)\gt \ 0$的解集是\key{D}. +\fourchoices{$\{x|0\leqslant{}x\lt 1\}$}{$\{x|x\lt 0$且$x\neq{}-1\}$}{$\{x|-1\lt x\lt 1\}$}{$\{x|x\lt 1$且$x\neq{}-1\}$} +\end{minipage} +\begin{solution}{4cm} +\method +求不等式$(1+x)(1-|x|)\gt \ 0$的解集,则分两种情况讨论: + +情况$1:\left\{\begin{array}{l}{1+x\gt \ 0\;\;}\\{1-|x|\gt \ 0}\end{array}\right.$ + +即$\left\{\begin{array}{l}{x\gt \ -1}\\{-1\lt x\lt 1}\end{array}\right.$ +则$-1\lt x\lt 1$. + +情况$2:\left\{\begin{array}{l}{1+x\lt 0}\\{1-|x|\lt 0}\end{array}\right.$ + +即$\left\{\begin{array}{l}{x\lt -1}\\{x\gt 1\text{或}x\lt -1}\end{array}\right.$ +则$x\lt -1$. + +两种情况取并集得$\{x|x\lt 1$且$x\neq{}-1\}$. + +故选D. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 已知三个不等式:$ab\gt \ 0$,$bc-ad\gt \ 0$,$\dfrac{c}{a}-\dfrac{d}{b}\gt \ 0$(其中$a,b,c,d$均为实数),用其中两个不等式作为条件,余下的一个不等式作为结论组成一个命题,可组成的正确命题的个数是\key{D}. +\fourchoices{$0$}{$1$}{$2$}{$3$} +\end{minipage} +\begin{solution}{4cm} +\method +$\begin{cases}ab\gt \ 0, &\cdots(1)\\ +bc-ad\gt \ 0,&\cdots(2) +\end{cases}$ + +$(2)\div(1)$得$\dfrac{bc-ad}{ab}=\dfrac{c}{a}-\dfrac{d}{b}\gt \ 0$. + +$\begin{cases} +ab\gt \ 0,&\cdots(1)\\ +\dfrac{c}{a}-\dfrac{d}{b}\gt \ 0,&\cdots(3) +\end{cases}$ + +$(1)\times{}(3)$得$ab(\dfrac{c}{a}-\dfrac{d}{b})=bc-ad\gt \ 0$. + +$\begin{cases}bc-ad\gt \ 0,&\cdots(2)\\ +\dfrac{c}{a}-\dfrac{d}{b}\gt \ 0,&\cdots(3) +\end{cases}$ + +用反证法,显然$ab\neq{}0$, + +设$ab\lt 0$,$(2)$式同除$ab$得$\dfrac{c}{a}-\dfrac{d}{b}\lt 0$,矛盾, + +故$ab\gt \ 0$. +故选D. + +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [5] 设$a\gt \ 0$,$b\gt \ 0$,则以下不等式中不恒成立的是\key{B}. +\fourchoices{$(a+b)(\dfrac{1}{a}+\dfrac{1}{b})\geqslant{}4$}{$a^{3}+b^{3}\geqslant{}2ab^{2}$}{$a^{2}+b^{2}+2\geqslant{}2a+2b$}{$\sqrt{|{a-b}|}\geqslant{}\sqrt{a}-\sqrt{b}$} +\end{minipage} +\begin{solution}{4cm} +\method +$a\gt \ 0$,$b\gt \ 0$, + +$(a+b)(\dfrac{1}{a}+\dfrac{1}{b})\geqslant{}2\sqrt{ab}\cdot{}2\sqrt{\dfrac{1}{ab}}\geqslant{}4$, + +故A恒成立; + +$a^{3}+b^{3}\geqslant{}2ab^{2}$, + +取$a=\dfrac{1}{2}$,$b=\dfrac{2}{3}$,则B不成立; + +$a^{2}+b^{2}+2-(2a+2b)=(a-1)^{2}+(b-1)^{2}\geqslant{}0$, + +故C恒成立; + +若$a\lt b$,则$\sqrt{|{a-b}|}\geqslant{}\sqrt{a}-\sqrt{b}$恒成立, + +若$a\geqslant{}b$,则${(\sqrt{|{a-b}|})^2}-{(\sqrt{a}-\sqrt{b})^2}=2\sqrt{ab}\geqslant{}0$, + +故$\sqrt{|{a-b}|}\geqslant{}\sqrt{a}-\sqrt{b}$, +即D恒成立. + +\end{solution} +\end{questions} +\group{简答}{第17-19题每题14分,第20题16分,第21题18分.} + +\begin{questions}[stp] +\begin{minipage}{\linewidth} +\question [14] 已知$\triangle ABC$为直角三角形, 记其两条直角边长分别为$a,b\in\symbf{R}^+$, 记面积为$S$, 周长为$C$. 若三角形面积为定值,其周长是否有最值,最大值还是最小值,何时取到,为多少(结果用$S$表示)? + +\end{minipage} +\begin{solution}{6cm} +\method +$C=a+b+\sqrt{a^2+b^2}$, +\score{2}{2}由$\sqrt{a^2+b^2} \ge \sqrt{2ab}$,$a+b \ge 2\sqrt{ab}$, + +得$C \ge 2\sqrt{ab}+\sqrt{2ab}$ +\score{6}{8}由$S=\frac{1}{2}ab$, + +得$C \ge (2+2\sqrt{2})\sqrt{S}$, +\score{4}{12}当且仅当$a=b=\sqrt{2S}$时取到最小值. +\score{2}{14} +\end{solution} +\vfill +\begin{minipage}{\linewidth} +\question [14] 已知$a\in\textbf{R}$,若关于$x$的方程$x^2+x+|a-\dfrac{1}{4}|+|a|=0$有实根,求$a$的取值范围. + +\end{minipage} +\begin{solution}{6cm} +\method +方程即$|a-\frac{1}{4}|+|a|=-x^2-x\in[0,\frac{1}{4}]$, + +即解不等式$|a-\frac{1}{4}|+|a| \le \frac{1}{4}$. + +当$a\le 0$,化简得$\frac{1}{4}-2a \le \frac{1}{4}$,解得$a=0$; + +当$0 \lt a\le \frac{1}{4}$, 化简得$\frac{1}{4} \le \frac{1}{4}$,解得$a\in(0,\frac{1}{4}]$; + +当$a \gt \frac{1}{4}$, 化简得$2a-\frac{1}{4}\le\frac{1}{4}$,无解. + +综上所述,$a\in [0,\frac{1}{4}]$ +\score{14}{14} +\end{solution} +\vfill +\newpage +\begin{minipage}{\linewidth} +\question [14] 先阅读下列不等式的证法,再解决后面的问题: +\[ +\text{证明:} (a_1b_1+a_2b_2)^2 \le (a_1^2+a_2^2)(b_1^2+b_2^2)\] + +证: 令$A=\sqrt{a_1^2+a_2^2}$, $B=\sqrt{b_1^2+b_2^2}$ + +\[ +\begin{array}{rl} +\frac{a_1b_1+a_2b_2}{\sqrt{a_1^2+a_2^2}\sqrt{b_1^2+b_2^2}}& =\frac{a_1b_1}{AB}+\frac{a_2b_2}{AB}\\ +& = \frac{a_1}{A}\cdot\frac{b_1}{B}+\frac{a_2}{A}\cdot\frac{b_2}{B} \\ +& \le \frac{1}{2}(\frac{a_1^2}{A^2}+\frac{b_1^2}{B^2})+ \frac{1}{2}(\frac{a_2^2}{A^2}+\frac{b_2^2}{B^2})\\ +& =\frac{1}{2}(\frac{a_1^2+a_2^2}{A^2}+\frac{b_1^2+b_2^2}{B^2})\\ +& =1 +\end{array} +\] +故$ (a_1b_1+a_2b_2)^2 \le (a_1^2+a_2^2)(b_1^2+b_2^2)$. +\begin{subquestions} + \subquestion 若$x_1,y_1,x_2,y_2\in\symbf{R^+}$,利用上述结论,证明:\[ +(x_1+x_2)(y_1+y_2) \ge (\sqrt{x_1y_1}+\sqrt{x_2y_2})^2 +\] + \subquestion 若$x_1,y_1,x_2,y_2,z_1,z_2\in\symbf{R^+}$,模仿上述证法并结合(1)的证法,证明:\[ +(x_1+x_2)(y_1+y_2)(z_1+z_2) \ge (\sqrt[3]{x_1y_1z_1}+\sqrt[3]{x_2y_2z_2})^3 +\] +(提示:若$a,b,c\in\symbf{R^+}$,有$\frac{a^3+b^3+c^3}{3}\ge abc$,) +\end{subquestions} +\end{minipage} +\begin{solution}{3cm} +\method +(1)设$a_1=\sqrt{x_1}$,$a_2=\sqrt{x_2}$,$b_1=\sqrt{y_1}$,$b_2=\sqrt{y_2}$. + +由\[ (a_1b_1+a_2b_2)^2 \le (a_1^2+a_2^2)(b_1^2+b_2^2)\] + +得\[ (\sqrt{x_1}\sqrt{y_1}+\sqrt{x_2}\sqrt{y_2})^2 \le [((\sqrt{x_1})^2+(\sqrt{x_2})^2)((\sqrt{y_1})^2+(\sqrt{y_2})^2)]\] + +即\[ +(x_1+x_2)(y_1+y_2) \ge (\sqrt{x_1y_1}+\sqrt{x_2y_2})^2 +\] +\score{6}{6}(2) 设$a_1=\sqrt[3]{x_1}, b_1=\sqrt[3]{y_1}, c_1=\sqrt[3]{z_1}$, $a_2=\sqrt[3]{x_2}, b_2=\sqrt[3]{y_2}, c_2=\sqrt[3]{z_2}$. + +要证 +\[ +(x_1+x_2)(y_1+y_2)(z_1+z_2) \ge (\sqrt[3]{x_1y_1z_1}+\sqrt[3]{x_2y_2z_2})^3 +\] + +即证 +\[ +(a_1b_1c_1+a_2b_2c_2)^3 \le (a_1^3+a_2^3)(b_1^3+b_2^3)(c_1^3+c_2^3) +\] + +(不换元,直接证不扣分) +\score{2}{8}令$A=\sqrt[3]{a_1^3+a_2^3}$,$B=\sqrt[3]{b_1^3+b_2^3}$, $C=\sqrt[3]{c_1^3+c_2^3}$. + +\[ +\begin{array}{rl} +& \frac{a_1b_1c_1+a_2b_2c_2}{\sqrt[3]{a_1^3+a_2^3}\sqrt[3]{b_1^3+b_2^3}\sqrt[3]{c_1^3+c_2^3}}\\ += & \frac{a_1b_1c_1}{ABC}+\frac{a_2b_2c_2}{ABC}\\ += & \frac{a_1}{A}\cdot\frac{b_1}{B}\cdot\frac{c_1}{C}+\frac{a_2}{A}\cdot\frac{b_2}{B}\cdot\frac{c_2}{C}\\ +\le & \frac{1}{3}(\frac{a_1^3}{A^3}+\frac{b_1^3}{B^3}+\frac{c_1^3}{C^3})+ \frac{1}{3}(\frac{a_2^3}{A^3}+\frac{b_2^3}{B^3}+\frac{c_2^3}{C^3})\\ += & \frac{1}{3}(\frac{a_1^3+a_2^3}{A^3}+\frac{b_1^3+b_2^3}{B^3}++\frac{c_1^3+c_2^3}{C^3})\\ += & 1 +\end{array} +\] + +故\[(a_1b_1c_1+a_2b_2c_2)^3 \le (a_1^3+a_2^3)(b_1^3+b_2^3)(c_1^3+c_2^3)\] + +得证. +\score{6}{14} +\end{solution} +\vfill +\newpage +\begin{minipage}{\linewidth} +\question [16] 公元2222年,有一种高危传染疾病在全球范围内蔓延,被感染者的潜伏期可以长达10年,期间会有约$0.05\%$的概率传染给他人,一旦发病三天内即死亡。某城市总人口约200万人,专家分析其中约有$1000$名感染者,为了防止疾病继续扩散,疾病预防控制中心现决定对全市人口进行血液检测以筛选出被感染者。由于检测试剂十分昂贵且数量有限,需要将血样混合后一起检测以节约试剂。已知感染者的检测结果为阳性, 未被感染者则为阴性. 阳性血样与阴性血样混合后的检测结果为阳性, 同为阴性或阳性的血样混合后结果不发生改变. +\begin{subquestions} + \subquestion 若对全市人口进行平均分组,同一分组的血样将被混合到一起检测,若发现结果为阳性,则再在该分组内逐个检测排查. 设每个组$x$个人,那么最坏情况下,需要进行约多少次检测可以找到所有的被感染者? 在当前方案下,若要使检测的次数尽可能少,每个分组的最优人数是? + \subquestion 在(1)的检测方案中,对于检测结果为阳性的组采取逐一检测排查的方法并不是很好,或可将这些组的血样再进行一次分组混合血样检测,然后再进行逐一排查。仍然考虑最坏的情况,请问两次要如何分组,使检测总次数尽可能少? + \subquestion 在(2)的检测方案中,进行了两次分组混合血样检测。仍然考虑最坏情况,若再进行若干次分组混合血样检测,是否会使检测次数更少?请给出最优的检测方案. +\end{subquestions} +\end{minipage} +\begin{solution}{6cm} +\method +设需要进行$y$次检测. 由每个组$x$个人,则有$\frac{2000000}{x}$个小组, 最坏情况是1000人被分配到了不同的组. + +\[ +y=\begin{cases} +\frac{2\cdot 10^6}{x}+2\cdot 10^6, & x \ge 2000 \\ +\frac{2\cdot 10^6}{x}+1000\cdot x, & x \lt 2000 \\ +\end{cases} +\] + +(题目要求近似计算,可以不考虑整除,考虑整除不扣分) +\score{2}{2}分组数小于1000的情况比逐个检测还要多,可以不用考虑, + +$y=\frac{2\times 10^6}{x}+1000\cdot x \ge 2\sqrt{2\cdot 10^9}$. + +当$x=\sqrt{2\times10^3}\approx45$人,检测次数最少. + +(结果为44-45都给分) +\score{2}{4}(2) 设第二次分组每个组$w$人. + +\[ +\begin{array}{rl} +y & = \frac{2\times10^6}{x}+\frac{1000x}{w}+1000w\\ +& \ge 3\sqrt[3]{2\times10^{12}}\\ +\end{array} +\] + +当$\frac{2\times10^6}{x}=\frac{1000x}{w}=1000w$时, +即$x=2000^\frac{2}{3}\approx159$,$w=2000^\frac{1}{3}\approx13$, +检测次数最少. + +所以第一次分组159人一组,第二次分组13人一组. + +(也可以用两次基本不等式求得,允许$10\%$的误差.) +\score{6}{10}(3) 若进行$k$次分组,设第$i$次分组时每组人数为$x_i$. 则总的检测次数为: +\[ +\begin{array}{rl} +y=&\dfrac{2\times10^6}{x_1}+\dfrac{1000x_1}{x_2}+\cdots\\ +&+\dfrac{1000x_{k-1}}{x_k}+1000x_k\\ +\ge & (k+1)\sqrt[k+1]{2\times10^{3k+2}} +\end{array} +\] + +利用计算器可得, + +1次分组, $y \ge 2\sqrt{2\cdot 10^9}\approx8.94\times10^4$; + +2次分组, $y \ge 3\sqrt[3]{2\cdot 10^{12}}\approx3.78\times10^4$; + +3次分组, $y \ge 4\sqrt[4]{2\cdot 10^{15}}\approx2.68\times10^4$; + +4次分组, $y \ge 5\sqrt[5]{2\cdot 10^{18}}\approx2.29\times10^4$; + +5次分组, $y \ge 6\sqrt[6]{2\cdot 10^{21}}\approx2.13\times10^4$; + +6次分组, $y \ge 7\sqrt[7]{2\cdot 10^{24}}\approx2.073\times10^4$; + +7次分组, $y \ge 8\sqrt[8]{2\cdot 10^{27}}\approx2.068\times10^4$; + +8次分组, $y \ge 9\sqrt[9]{2\cdot 10^{30}}\approx2.094\times10^4$; + +9次分组, $y \ge 10\sqrt[10]{2\cdot 10^{33}}\approx2.138\times10^4$; + +可见进行7次分组混合血样检测最优. + +其中第k次分组时$(2000)^{\frac{8-k}{8}}$人一组. +\score{6}{16} +\end{solution} +\vfill +\newpage +\begin{minipage}{\linewidth} +\question [18] 已知函数$f(x)=a{{x}^{2}}-\frac{1}{2}x+c$($a$、$c\in R$),满足$f(1)=0$,且$f(x)\ge 0$在$x\in R$时恒成立. +\begin{subquestions} + \subquestion 求$a$、$c$的值; + \subquestion 若$h(x)=\frac{3}{4}{{x}^{2}}-bx+\frac{b}{2}-\frac{1}{4}$,解不等式$f(x)+h(x) \lt 0$; + \subquestion 是否存在实数$m$,使函数$g(x)=f(x)-mx$在区间$[m,m+2]$上有最小值$-5$?若存在,请求出$m$的值;若不存在,请说明理由. +\end{subquestions} +\end{minipage} +\begin{solution}{6cm} +\method +由$f(1)=0$,得$a+c=\frac{1}{2}$, +\score{1}{1}因为$f(x)\ge 0$在$x\in R$时恒成立,所以$a \gt 0$且△$=\frac{1}{4}-4ac\le 0$,$ac\ge \frac{1}{16}$, +\score{1}{2}即$a\left( \frac{1}{2}-a \right)\ge \frac{1}{16}$,${{a}^{2}}-\frac{1}{2}a+\frac{1}{16}\le 0$,${{\left( a-\frac{1}{4} \right)}^{2}}\le 0$,所以$a=c=\frac{1}{4}$. +\score{2}{4}(2) 由(1)得$f(x)=\frac{1}{4}{{x}^{2}}-\frac{1}{2}x+\frac{1}{4}$,由$f(x)+h(x) \lt 0$,得 +${{x}^{2}}-\left( b+\frac{1}{2} \right)x+\frac{b}{2} \lt 0$,即$(x-b)\left( x-\frac{1}{2} \right) \lt 0$, +\score{3}{7}所以,当$b \lt \frac{1}{2}$时,原不等式解集为$(b,\frac{1}{2})$; +当$b \gt \frac{1}{2}$时,原不等式解集为$(\frac{1}{2},b)$; +当$b=\frac{1}{2}$时,原不等式解集为空集 . +\score{3}{10}(3) $g(x)=\frac{1}{4}{{x}^{2}}-\left( \frac{1}{2}+m \right)x+\frac{1}{4}$, +\score{1}{11}$g(x)$的图像是开口向上的抛物线,对称轴为直线$x=2m+1$. +假设存在实数$m$,使函数$g(x)$在区间$[m,m+2]$上有最小值$-5$. +\ding{192} 当$2m+1 \lt m$,即$m \lt -1$时,函数$g(x)$在区间$[m,m+2]$上是增函数,所以$g(m)=-5$,即$\frac{1}{4}{{m}^{2}}-\left( \frac{1}{2}+m \right)m+\frac{1}{4}=-5$,解得$m=-3$或$m=\frac{7}{3}$, +因为$m \lt -1$,所以$m=-3$; +\score{2}{13}\ding{193}当$m\le 2m+1\le m+2$,即$-1\le m\le 1$时,函数$g(x)$的最小值为$g(2m+1)=-5$,即 +$\frac{1}{4}{{(2m+1)}^{2}}-\left( \frac{1}{2}+m \right)(2m+1)+\frac{1}{4}=-5$,解得$m=-\frac{1}{2}-\frac{\sqrt{21}}{2}$或$m=-\frac{1}{2}+\frac{\sqrt{21}}{2}$,均舍去; +\score{2}{15}\ding{194}当$2m+1 \gt m+2$,即$m \gt 1$时,$g(x)$在区间$[m,m+2]$上是减函数,所以$g(m+2)=-5$,即$\frac{1}{4}{{(m+2)}^{2}}-\left( \frac{1}{2}+m \right)(m+2)+\frac{1}{4}=-5$,解得$m=-1-2\sqrt{2}$或$m=-1+2\sqrt{2}$,因$m \gt 1$,所以$m=-1+2\sqrt{2}$. +\score{2}{17}综上,存在实数$m$,$m=-3$或$m=-1+2\sqrt{2}$时,函数$g(x)$在区间$[m,m+2]$上有最小值$-5$. +\score{1}{18} +\end{solution} +\end{questions} +\end{groups} +\label{lastpage} +\end{document} diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/logo.png b/Master/texmf-dist/doc/xelatex/bhcexam/examples/logo.png new file mode 100644 index 00000000000..ccbb38ad131 Binary files /dev/null and b/Master/texmf-dist/doc/xelatex/bhcexam/examples/logo.png differ diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/naive.pdf b/Master/texmf-dist/doc/xelatex/bhcexam/examples/naive.pdf new file mode 100644 index 00000000000..e6846ff3b02 Binary files /dev/null and b/Master/texmf-dist/doc/xelatex/bhcexam/examples/naive.pdf differ diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/naive.tex b/Master/texmf-dist/doc/xelatex/bhcexam/examples/naive.tex new file mode 100644 index 00000000000..369d23ee6eb --- /dev/null +++ b/Master/texmf-dist/doc/xelatex/bhcexam/examples/naive.tex @@ -0,0 +1,86 @@ +% 使用 BHCexam 文档类,并传递选项 +\documentclass[answers]{BHCexam} +\usepackage{hyperref} + +\begin{document} + +% 第一行主标题 +\title{BHCexam试卷排版宏包} + +% 第二行主标题 +\subtitle{样例} + +% 考试说明 +\notice{满分100分, 10分钟完成.} + +% 命题人信息 +\author{微信关注公众号:橘子数学} + +% 考试日期 +\date{2019.12.1} + +% 生成试卷头 +\maketitle + +\begin{groups} + +% 第一个题组,显示分值,不预留空间 +\group{填空}{本题组共1小题,共30.0分} +\begin{questions}[s] + +% 填空题,两个空 +\question[30] 橘子数学的网址是\key{www.mathcrowd.cn}, 微信服务号\key{橘子数学}. +\question[30] 橘子数学趣味挑战的网址是\key{qa.mathcrowd.cn},微信订阅号是\key{试题工坊}, \key{橘子数学题库}. + +\end{questions} + +% 第二个题组,显示分值,不预留空间 +\group{选择}{本题组共2小题,共40.0分} +\begin{questions}[ps] + +% 选择题,四个选项 +\question[30] 以下哪一项不是橘子数学社区的宗旨\key{C}. +\fourchoices{开放}{高效}{无视版权}{合作} + +% 解答,4cm 参数被忽略 +\begin{solution}{4cm} +\method 橘子数学社区的宗旨是开放、高效、合作、变革. +\method 见 \url{http://docs.mathcrowd.cn/zh_CN/latest/community/principles.html} +\end{solution} + +% 选择题,五个选项 +\question[40] 以下数学公式显示有明显瑕疵的是\key{D}. +\fivechoices{$\sin A$}{$2+3\mathrm{i}$}{$x^2$}{$\ln x$}{$\mathrm{e}^{\mathrm{i}\theta}$} + +\begin{solution}{4cm} +\methodonly D 中正确的公式显示效果为$\ln{x}$. +\end{solution} +\end{questions} + +% 第三个题组,显示分值,预留空间 +\group{主观题}{本题组共1小题,共30.0分} +\begin{questions}[st] +% 简答题,两个小问 +\question[30] 请回答以下问题: +\begin{subquestions} + \subquestion 你觉得有必要创建这样一个试题社区吗? 为什么? + \subquestion 你对社区的建设有什么建议. +\end{subquestions} + +% 解答,学生版会预留8cm的答题空间. +\begin{solution}{4cm} + \methodonly 欢迎加入用户群组发言讨论. + +telegram 交流群组: https://t.me/mathcrowd + +QQ 群: 319701002 + +Github项目页: \url{https://github.com/mathedu4all/bhcexam} + +\score{30}{30} + +\end{solution} +\end{questions} + +\end{groups} +\end{document} diff --git a/Master/texmf-dist/doc/xelatex/bhcexam/examples/qrcode.png b/Master/texmf-dist/doc/xelatex/bhcexam/examples/qrcode.png new file mode 100644 index 00000000000..b15dd4d96bf Binary files /dev/null and b/Master/texmf-dist/doc/xelatex/bhcexam/examples/qrcode.png differ diff --git a/Master/texmf-dist/source/latex/bhcexam/BHCexam.dtx 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The latest version of this license is in -% http://www.latex-project.org/lppl.txt -% and version 1.2 or later is part of all distributions of LaTeX -% version 1999/12/01 or later. -% -%<*!(cfg|fd)> -% \fi -% -%% \CharacterTable -%% {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z -%% Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z -%% Digits \0\1\2\3\4\5\6\7\8\9 -%% Exclamation \! Double quote \" Hash (number) \# -%% Dollar \$ Percent \% Ampersand \& -%% Acute accent \' Left paren \( Right paren \) -%% Asterisk \* Plus \+ Comma \, -%% Minus \- Point \. Solidus \/ -%% Colon \: Semicolon \; Less than \< -%% Equals \= Greater than \> Question mark \? -%% Commercial at \@ Left bracket \[ Backslash \\ -%% Right bracket \] Circumflex \^ Underscore \_ -%% Grave accent \` Left brace \{ Vertical bar \| -%% Right brace \} Tilde \~} -%% -% -% \CheckSum{0} -% -% \iffalse meta-comment -% -% -%<*driver> -\ProvidesFile{BHCexam.dtx} -% -% -%\NeedsTeXFormat{LaTeX2e}[1995/12/01] -%\ProvidesClass{BHCexam} -%\ProvidesFile{BHCexam.cfg} - [2015/10/10 v0.4 BHCexam -% document class] -% configuration file] -% -%<*driver> - bundle source file] -% -% -%<*driver> -\documentclass[a4paper]{ltxdoc} -\usepackage{ctex} -\usepackage{hyperref} -\usepackage{amsmath,amssymb} - \topmargin 0.5 true cm - \oddsidemargin 1 true cm - \evensidemargin 1 true cm - \textheight 21 true cm - \textwidth 14 true cm -\EnableCrossrefs - %\DisableCrossrefs % Say \DisableCrossrefs if index is ready -\CodelineIndex -\RecordChanges % Gather update information - %\OnlyDescription % comment out for implementation details - %\OldMakeindex % use if your MakeIndex is pre-v2.9 -\hypersetup{colorlinks,linkcolor=blue,citecolor=blue} -\begin{document} - \DocInput{BHCexam.dtx} -\end{document} -% -% -% \fi -% -% -% \changes{v0.0}{2011/07/22}{Initial version} -% \changes{v0.1}{2011/07/23}{version 0.1} -% \changes{v0.2}{2011/07/27}{version 0.2} -% \changes{v0.3}{2014/02/18}{version 0.3} -% \changes{v0.3}{2015/10/10}{version 0.4} -% -% -% \DoNotIndex{\begin,\end,\begingroup,\endgroup} -% \DoNotIndex{\ifx,\ifdim,\ifnum,\ifcase,\else,\or,\fi} -% \DoNotIndex{\let,\def,\xdef,\newcommand,\renewcommand} -% \DoNotIndex{\expandafter,\csname,\endcsname,\relax,\protect} -% \DoNotIndex{\Huge,\huge,\LARGE,\Large,\large,\normalsize} -% \DoNotIndex{\small,\footnotesize,\scriptsize,\tiny} -% \DoNotIndex{\normalfont,\bfseries,\slshape,\interlinepenalty} -% \DoNotIndex{\hfil,\par,\vskip,\vspace,\quad} -% \DoNotIndex{\centering,\raggedright} -% \DoNotIndex{\c@secnumdepth,\@startsection,\@setfontsize} -% \DoNotIndex{\ ,\@plus,\@minus,\p@,\z@,\@m,\@M,\@ne,\m@ne} -% \DoNotIndex{\@@par} -% -% -% \GetFileInfo{BHCexam.dtx} -% -% -% \MakeShortVerb{\|} -% \setcounter{StandardModuleDepth}{1} -% -% -% \newcommand{\ctex}{\texttt{ctex}} -% \newcommand{\BHCexam}{\texttt{BHCexam}} -% \newcommand{\exam}{\texttt{exam}} -% \newcommand{\colin}{\texttt{colinexam}} -% -% -% \setlength{\parskip}{0.75ex plus .2ex minus .5ex} -% \renewcommand{\baselinestretch}{1.2} -% -% \makeatletter -% \def\parg#1{\mbox{$\langle${\it #1\/}$\rangle$}} -% \def\@smarg#1{{\tt\string{}\parg{#1}{\tt\string}}} -% \def\@marg#1{{\tt\string{}{\rm #1}{\tt\string}}} -% \def\marg{\@ifstar\@smarg\@marg} -% \def\@soarg#1{{\tt[}\parg{#1}{\tt]}} -% \def\@oarg#1{{\tt[}{\rm #1}{\tt]}} -% \def\oarg{\@ifstar\@soarg\@oarg} -% \makeatother -% -% -% \title{\bf \BHCexam~宏包说明\thanks -% {这是鲍宏昌发布的第一个~\LaTeX~宏包。本文件版本号为~\fileversion{},最后修改日期~\filedate{}。}} -% \author{\it 鲍宏昌\thanks{charley792@gmail.com}} -% \date{\small 打印日期:~\today} -% \maketitle -% -% \begin{abstract} -% \BHCexam~宏包提供了一个中学试卷排版的~\LaTeX{}~文档类。 -% -% \BHCexam~主要文件包括~\texttt{BHCexam.cls}~文档类和配置文件 -% ~\texttt{BHCexam.cfg}。 -% -% \BHCexam~宏包由鲍宏昌制作并负责维护。 -% \end{abstract} -% -% \tableofcontents -% \newpage -% -% \section{简介} -% -% 本宏包以~\exam~为底层文档类,部分源代码来自于盖鹤麟开发的 -% ~\colin。不知道什么原因盖鹤麟自2004年就一直没有发布更新, -% ~\colin~仍然使用CCT实现中文支持,而缺乏对~XeTeX~的支持。2011年7月, -% 鲍宏昌在~\colin~的基础上改用~\ctex~实现中文支持,采用UTF8编码同时 -% 支持~XeLaTeX~和~pdfTeX~进行编译,并使用~\texttt{doc}~和 -% ~\texttt{docstrip}~工具编写了这个文档,增加了一些新的功能, -% 并把新的宏包命名为~\BHCexam。 -% -% 本宏包延续了~\colin~和~\exam~的特点,能让一个刚刚接触 -% ~\LaTeX~的初学者,也能轻松用它来排版试卷。希望~\BHCexam~能提高中学 -% 教师的工作效率,并把注意力放在试卷的内容上。 -% -% \BHCexam~由两个主要文件构成:文档类~\texttt{BHCexam.cls}~和配置文件 -% ~\texttt{BHCexam.cfg}~。后者定义了一些常用的参数。 -% -% {\kaishu -% 这两个文件可以通过用~XeLaTeX~编译~\texttt{BHCexam.ins}~文件来得到, -% 而这份说明文档可以通过用~XeLaTeX~编译~\texttt{BHCexam.dtx}~文件来得到。 -% 编译说明文档需要~\ctex{}~宏包,为了生成正确的索引和版本记录, -% 需要使用如下命令} -% \begin{verbatim} -% makeindex -s gind.ist -o BHCexam.ind BHCexam.idx -% makeindex -s gglo.ist -o BHCexam.gls BHCexam.glo -% \end{verbatim} -% -% \section{一个简单的例子} -% -% 用~\BHCexam~要排版一张基本的试卷其实很简单。如果你准备对试卷的排版进行 -% 更细致的设置,那么请参考~\exam~的文档。 -% -% \subsection{\texttt{documentclass} 命令} -% \label{sec:BasicDocumentclass} -% -% 要使用~\BHCexam~文档类,你的\verb"\documentclass" 命令应该是 -% \begin{verbatim} -% \documentclass{BHCexam} -% \end{verbatim} -% 如果,你想使用小四字体作为缺省字体大小,那么添加选项\verb"cs4size" -% \begin{verbatim} -% \documentclass[cs4size]{BHCexam} -% \end{verbatim} -% 更多的选项,请参考\ref{sec:Options}。 -% -% \subsection{打印标题和考试须知} -% \DescribeMacro{\maketitle} -% \DescribeMacro{\notice} -% 在试卷上打印标题和考试须知 -% \begin{verbatim} -% \maketitle -% \notice -% \end{verbatim} -% 关于标题和考试须知中变量的设置,请参考\ref{sec:Variable}。 -% -% \subsection{题目} -% \label{sec:Example} -% \DescribeMacro{\question} -% \DescribeMacro{\stk} -% \DescribeMacro{\onech} -% \DescribeMacro{\part} -% 在\verb"questions"环境中用\verb"\question"输入题目。 -% 在\verb"parts"环境中用\verb"\part"输入大题的小问。 -% 用\verb"\stk"、\verb"\mtk" -% 和\verb"\ltk"输入填空题的答案。 -% 用\verb"\onech"、\verb"\twoch" -% 和\verb"\fourch"输入选择题的选项。 -% 在\verb"questions"环境中用\verb"\tiankong"、\verb"\xuanze" -% 和\verb"\jianda"分别显示填空题、选择题、简答题的提示语。 -% \begin{verbatim} -% \begin{questions} -% \tiankong -% \question 这是第1道填空题\stk{答案,不显示答案时显示段横线} -% \question 这是第2道填空题\mtk{答案,不显示答案时显示段横线} -% \question 这是第2道填空题\ltk{答案,不显示答案时显示段横线} -% \xuanze -% \question 问题3是一道选择题,四个选项显示在一行 -% \onech{选项1}{选项2}{选项3}{选项4} -% \question 问题3是一道选择题,四个选项显示在两行 -% \twoch{选项1}{选项2}{选项3}{选项4} -% \question 问题3是一道选择题,四个选项显示在四行 -% \fourch{选项1}{选项2}{选项3}{选项4} -% \jianda -% \question 问题4是一道简答题 -% \begin{parts} -% \part 第1小问 -% \part 第2小问 -% \end{parts} -% \end{questions} -% \end{verbatim} -% 关于填空题、选择题、简答题的提示语中几个变量的设置,请参考\ref{sec:Variable}。 -% 关于题目的更多内容,请参考\ref{sec:Environment}。 -% -% \section{使用帮助} -% -% \subsection{选项} -% \label{sec:Options} -% -% \changes{v0.2}{2011/07/27}{增加UTF8选项以支持pdflatex} -% \changes{v0.4}{2015/10/10}{取消UTF8选项放弃支持pdflatex} - -% 宏包的选项用于改变一些缺省的设置。虽然缺省的设置基本能过满足一般用户的 -% 使用需要,但用户也可以根据自己的情况,使用这些选项。 -% -% \begin{description} -% \item[cs4size] 使用小四字号为缺省字体大小。 -% \item[c5size] 使用五号字为缺省字体大小(缺省选项)。 -% \item[answers] 在每一个问题后附上答案。 -% \item[marginline] 放置装订线。 -% \item[16kpaper] 使用16开纸张(缺省使用A4纸张)。 -% \item[noindent] 没有缩进。 -% \item[printbox] 显示评分框。 -% \end{description} -% -% \subsection{变量} -% \label{sec:Variable} -% \changes{v0.2}{2011/07/27}{试卷中改用英文标点符号} -% 本宏包在题量和分值等方面均以高考试卷为模板, -% 默认的变量值可以在\texttt{BHCexam.cfg}中设置,当然 -% 你也可以在使用相关命令之前使用以下命令进行更改。\\\\ -% \DescribeMacro{\biaoti} -% 设置标题信息。 -% \begin{quote} -% |\biaoti|\marg*{TEXT} -% \end{quote} -% \DescribeMacro{\fubiaoti} -% 设置副标题,他会显示在标题下方。 -% \begin{quote} -% |\kemu|\marg*{TEXT} -% \end{quote} -% \DescribeMacro{\xinxi} -% 设置总分和考试时间信息,\parg{num1}为总分,\parg{num2}为考试时间。 -% \begin{quote} -% |\xinxi|\marg*{num1}\marg*{num2} -% \end{quote} -% \DescribeMacro{\settk} -% 设置填空题的总分、题量和小分信息,\parg{num1}为总分,\parg{num2}为题量, -% \parg{num3}为小分。 -% \begin{quote} -% |\settk|\marg*{num1}\marg*{num2}\marg*{num3} -% \end{quote} -% \DescribeMacro{\setxz} -% 设置选择题的总分、题量和小分信息,\parg{num1}为总分,\parg{num2}为题量, -% \parg{num3}为小分。 -% \begin{quote} -% |\setxz|\marg*{num1}\marg*{num2}\marg*{num3} -% \end{quote} -% \DescribeMacro{\setjd} -% 设置简答题的总分、题量和小分信息,\parg{num1}为总分,\parg{num2}为题量。 -% \begin{quote} -% |\setjd|\marg*{num1}\marg*{num2}\marg*{num3} -% \end{quote} - -% \subsection{环境} -% \label{sec:Environment} -% 经常使用的环境有\verb"questions"环境、\verb"parts"环境, -% 关于它们的简单介绍,请参考\ref{sec:Example},这里做一点补充说明, -% 更详细的介绍,请参考~\exam~文档。\\\\ -% 在排版简答题时需要用\verb"\part"命令输入各小问的分值,宏包会自动算出总分并显示在该简答题的第一行。 -% 当该道简答题没有小问时,则要用\verb"\question"命令输入该问题的分值。 -% -% \begin{verbatim} -% ... -% \jianda -% \question 这是一道简答题 -% \begin{parts}[ -% \part[3] 第1小问3分。 -% \part[3] 第2小问3分。 -% \part[3] 第3小问4分。 -% \end{parts} -% \question[12] 这是一道没有小问的简答题,这道题有12分 -% ... -% \end{verbatim} -% 在\verb"\question"后新建\verb"solution"环境,在其中输入该问题的解答, -% 在不显示答案的情况下,该问题后会预留答题空间。 -% \begin{verbatim} -% ... -% \jianda -% \question 这是一道简答题 -% \begin{solution} -% 这是解答,不显示答案的情况下则这个问题后预留答题空间。 -% \end{solution} -% ... -% \end{verbatim} -% -% \subsection{常用命令} -% -% \DescribeMacro{\newpage} -% 每道问题的间距是弹性设置的,你只要在想换页的地方输入\verb"\newpage"命令, -% 则上一页的各问题间距会自动调整到最美观的效果。\\ -% \DescribeMacro{\mininotice} -% 在一行内输出精简的考试注意事项。\\ -% \DescribeMacro{\printmalol} -% 在当前页为正面时,在左边插入装订线(仅在使用marginline选项时有效)。\\ -% \DescribeMacro{\printmalol} -% 在当前页为反面时,在左边插入装订线(仅在使用marginline选项时有效)。\\ -% -% \StopEventually{} -% -% \section{源代码说明} -% -% \subsection{选项} -% -% -% 处理~\BHCexam~文档类的选项 -% -% \begin{macro}{\@sixteenkpaper} -% 16k纸张大小设置,缺省选项为a4paper -% \begin{macrocode} -%<*cls> -\newif\if@sixteenkpaper \@sixteenkpaperfalse -\DeclareOption{16kpaper}{\@sixteenkpapertrue} -% -% \end{macrocode} -% \end{macro} -% -% \begin{macro}{\@marginline} -% 是否有装订线 -% \begin{macrocode} -%<*cls> -\newif\if@marginline \@marginlinefalse -\DeclareOption{marginline}{\@marginlinetrue} -% -% \end{macrocode} -% \end{macro} -% -% 不缩进,缺省为缩进 -% \begin{macrocode} -%<*cls> -\newif\if@noindent \@noindentfalse -\DeclareOption{noindent}{\@noindenttrue} -% -% \end{macrocode} -% -% 显示答案的方式,缺省不显示答案 -% \begin{macrocode} -%\DeclareOption{answers}{\PassOptionsToClass{\CurrentOption}{exam}} -% \end{macrocode} - -% \begin{macro}{\@printbox} -% 显示计分框,缺省为不显示。 -% \begin{macrocode} -%<*cls> -\newif\if@printbox \@printboxfalse -\DeclareOption{printbox}{\@printboxtrue} -% -% \end{macrocode} -% \end{macro} -% -% 把没有定义的选项传递给缺省的文档类 -% \begin{macrocode} -%\DeclareOption*{\PassOptionsToClass{\CurrentOption}{exam}} -% \end{macrocode} -% -% 处理选项 -% \begin{macrocode} -%\ProcessOptions -% \end{macrocode} -% -% 装入缺省的文档类 -% \begin{macrocode} -%\LoadClass[addpoints]{exam} -% \end{macrocode} -% -% 导入ctex类的实现 -% \changes{v0.4}{2015/10/10}{修正ctex宏包实现} -% \begin{macrocode} -%<*cls> -\RequirePackage{ctex} -% -% \end{macrocode} -% \subsection{宏包} -% -% \begin{macro}{\RequirePackage} -% 我们需要使用的一些宏包 -% \begin{macrocode} -%<*cls> -\RequirePackage{ifpdf,ifxetex} -\RequirePackage{amsmath,amssymb,amsthm,bm,bbding,pifont,dsfont} -\RequirePackage{mathtools} -\RequirePackage{paralist,cases,tabularx} -\RequirePackage{pstricks,pst-plot,xcolor,graphicx} -% -% \end{macrocode} -% -% 用geometry宏包进行页面设置 -% \changes{v0.2}{2011/07/27}{改用geometry宏包实现纸张设置} -% \changes{v0.3}{2014/02/18}{修正了纸张的尺寸} -% \begin{macrocode} -%<*cls> -\if@marginline -\marginparwidth = 2cm -\if@sixteenkpaper -\RequirePackage[papersize={184mm,260mm},hmargin={3cm,2cm}, -vmargin={2cm,2cm},marginparsep=0.5cm,hoffset=0cm,voffset=0cm, -footnotesep=0.5cm,headsep=0.5cm,twoside]{geometry} -\else -\RequirePackage[paper=a4paper,hmargin={3cm,2cm},vmargin={2cm,2cm}, -marginparsep=0.5cm,hoffset=0cm,voffset=0cm,footnotesep=0.5cm, -headsep=0.5cm,twoside]{geometry} -\fi -\else -\if@sixteenkpaper -\RequirePackage[papersize={184mm,260mm},hmargin={2cm,2cm}, -vmargin={2cm,2cm},marginparsep=0.5cm,hoffset=0cm,voffset=0cm, -footnotesep=0.5cm,headsep=0.5cm]{geometry} -\else -\RequirePackage[papersize={210mm,297mm},hmargin={2cm,2cm},vmargin={2cm,2cm}, -marginparsep=0.5cm,hoffset=0cm,voffset=0cm,footnotesep=0.5cm, -headsep=0.5cm]{geometry} -\fi -\fi -% -% \end{macrocode} -%\end{macro} -% -% \subsection{自定义设置} -%行距、页眉、页脚 -% \begin{macrocode} -%<*cls> -\renewcommand{\baselinestretch}{1.5} -\pagestyle{headandfoot} -\header{}{}{} -\footer{}{\small \quad 第~\thepage~页(共~\numpages~页)}{} -% -% \end{macrocode} -% -% 分值显示 -% \begin{macrocode} -%<*cls> -\pointname{分} -\pointformat{\kaishu (\thepoints)} -% -% \end{macrocode} -% -% 问题的显示 -% \begin{macrocode} -%<*cls> -\renewcommand{\questionshook}{ - \settowidth{\leftmargin}{22.\hskip\labelsep} - \if@noindent \setlength\leftmargin{0pt} \fi -} -\renewcommand{\thepartno}{\arabic{partno}} -\renewcommand{\partlabel}{(\thepartno)} -\renewcommand{\partshook}{ - \settowidth{\leftmargin}{(3).\hskip\labelsep} - \if@noindent \setlength\leftmargin{0pt} \fi -} -% -% \end{macrocode} -% -% 解答的显示 -% \begin{macrocode} -%<*cls> -\newif\if@cancelspace \@cancelspacetrue -\renewcommand{\solutiontitle}{\noindent 解:\noindent} -\renewenvironment{solution}% - {% - \ifprintanswers - %\unskip - \begingroup - \Solution@Emphasis - \begin{TheSolution}% - \else - \if@cancelspace - %\unskip - \else - \par - \penalty 0 - \vfill% - \if@printbox \if@houpinfen \houpinfen \fi \fi - \fi - \setbox\z@\vbox\bgroup - \fi - }{% - \ifprintanswers - \end{TheSolution}% - \endgroup - \else - \egroup - \fi - }% -% -% \end{macrocode} -% -% \subsection{新的命令和环境} -% -% \begin{macro}{\printmlor} -% \begin{macro}{\printmlol} -% \changes{v0.1}{2011/07/23}{支持在首页插入装订线} -% \changes{v0.2}{2011/07/27}{手动在指定页插入左(右)装订线} -% 装订线 -% \begin{macrocode} -%<*cls> -\if@marginline -\newsavebox{\zdxl} -\sbox{\zdxl}{ -\begin{minipage}{0.7\paperheight} -\begin{center} -\heiti 班级\underline{\hspace{15ex}} \quad -姓名 \underline{\hspace{15ex}} \quad -学号 \underline{\hspace{15ex}} \quad \\ -\vspace{3ex} -\dotfill 装 \dotfill 订 \dotfill 线 \dotfill -\end{center} -\end{minipage} -} -\newsavebox{\zdxr} -\sbox{\zdxr}{ -\begin{minipage}{0.7\paperheight} -\begin{center} -\heiti \hfill 请 \hfill 不 \hfill 要 \hfill 在 \hfill - 装 \hfill 订 \hfill 线 \hfill 内 \hfill 答 \hfill 题 \hfill \\ -\vspace{3ex} -\dotfill 装 \dotfill 订 \dotfill 线 \dotfill -\end{center} -\end{minipage} -} -\newcommand{\printmlol}{ -\marginpar{\rotatebox{90}{\usebox{\zdxl}}} -} -\newcommand{\printmlor}{ -\marginpar{\rotatebox{-90}{\usebox{\zdxr}}} -} -\reversemarginpar -\fi -% -% \end{macrocode} -% \end{macro} -% \end{macro} -% -% \begin{macro}{\biaoti} -% \begin{macro}{\fubiaoti} -% 标题 -% \begin{macrocode} -%<*cls> -\newcommand\biaoti[1]{\def\@biaoti{#1}} -\newcommand\fubiaoti[1]{\def\@fubiaoti{#1}} -\renewcommand\maketitle{ - \begin{center}{\heiti \Large{\@biaoti}}\end{center} - \begin{center}{\heiti \Large{\@fubiaoti}}\end{center} -} -% -% \end{macrocode} -% \end{macro} -% \end{macro} -% -% \begin{macro}{\mininotice} -% \begin{macro}{\xinxi} -% 一行内显示考试时间和考试总分 -% \begin{macrocode} -%<*cls> -\newcommand\xinxi[2]{ - \def\@zongfen{#1} - \def\@shijian{#2} -} -\newcommand\mininotice{ - \begin{center}{ - \kaishu (本试卷满分~\@zongfen~分, 考试时间~\@shijian~分钟)} - \end{center} -} -% -% \end{macrocode} -% \end{macro} -% \end{macro} -% -% \begin{macro}{\notice} -% 注意事项 -% \begin{macrocode} -%<*cls> -\newcommand{\notice}{ - \heiti 注意事项: \songti - \begin{enumerate} - \item 答卷前, 考生务必将姓名、高考准考证号、校验码等填写清楚. - \item 本试卷共~\numquestions{}~道试题, 满分~\@zongfen~分,考试时间~\@shijian~分钟. - \end{enumerate} -} -% -% \end{macrocode} -%\end{macro} -% -% \begin{macro}{\pingfen} -% 前评分框 -% \begin{macrocode} -%<*cls> -\newlength\@boxwidth -\setlength\@boxwidth{0ex} -\if@printbox \setlength\@boxwidth{18ex} \fi -\newcommand\pinfen{ - \heiti - \begin{minipage}{\@boxwidth} - \begin{tabular}{|c|c|} - \hline - 得分 & 评卷人\\ - \hline - & \\ - \hline - \end{tabular} - \end{minipage} -} -% -% \end{macrocode} -% \end{macro} -% -% \begin{macro}{\houpinfen} -% 后评分框 -% \begin{macrocode} -%<*cls> -\newcommand{\houpinfen}{ - \hfill - \begin{tabular}{|l|l|} - \hline - 得分 & \hspace*{1.5cm}\\ - \hline - \end{tabular} - \bigskip -} -% -% \end{macrocode} -% \end{macro} -% -% -% 一些参数及变量 -% \begin{macrocode} -%<*cfg> -\def\@biaoti{2011年全国普通高等学校招生统一考试(上海卷)} -\def\@fubiaoti{数学(理科)} -\def\@zongfen{150} -\def\@shijian{120} -\def\@tiankong@zongfen{56} -\def\@tiankong@tishu{14} -\def\@tiankong@fen{4} -\def\@xuanze@zongfen{16} -\def\@xuanze@tishu{4} -\def\@xuanze@fen{4} -\def\@jianda@zongfen{78} -\def\@jianda@tishu{5} -% -%<*cls> -\newcounter{@dati} -\newif\if@houpinfen \@houpinfenfalse -% -% \end{macrocode} -% -% 填空题提示语 -% \begin{macro}{\tiankong} -% \begin{macrocode} -%<*cls> -\newcommand\settk[3]{ - \def\@tiankong@zongfen{#1} - \def\@tiankong@tishu{#2} - \def\@tiankong@fen{#3} -} -\newcommand\tiankong{ - \@houpinfenfalse - \stepcounter{@dati} - \fullwidth{ - \if@printbox \pinfen \fi - \begin{minipage}{\textwidth-\@boxwidth} - \heiti \chinese{@dati}. 填空题:本大题共~\@tiankong@tishu~题,满分~\@tiankong@zongfen~分. 请在横线上方填写最终的、最准确的、最完整的结果. 每题填写正确得~\@tiankong@fen~分,否则一律得0分. - \end{minipage} - } -} -% -% \end{macrocode} -% \end{macro} -% -% \begin{macro}{\stk} -% \begin{macro}{\mtk} -% \begin{macro}{\ltk} -% \changes{v0.3}{2014/02/18}{设置三种长度的横线,并支持在横线上输出答案} -% 填空题横线 -% \begin{macrocode} -%<*cls> -\newcommand{\stk}[1]{ - \ifprintanswers - \underline{~#1~} - \else - \underline{~\hspace{1cm}~} - \fi} -\newcommand{\mtk}[1]{ - \ifprintanswers - \underline{~#1~} - \else - \underline{~\hspace{2cm}~} - \fi} -\newcommand{\ltk}[1]{ - \ifprintanswers - \underline{~#1~} - \else - \underline{~\hspace{3cm}~} - \fi} -% -% \end{macrocode} -% \end{macro} -% \end{macro} -% \end{macro} -% -% 选择题提示语 -% \begin{macro}{\xuanze} -% \begin{macrocode} -%<*cls> -\newcommand\setxz[3]{ - \def\@xuanze@zongfen{#1} - \def\@xuanze@tishu{#2} - \def\@xuanze@fen{#3} -} -\newcommand\xuanze{ - \@houpinfenfalse - \stepcounter{@dati} - \fullwidth{ - \if@printbox \pinfen \fi - \begin{minipage}{\textwidth-\@boxwidth} - \heiti \chinese{@dati}. 选择题:本大题共~\@xuanze@tishu~题,满分~\@xuanze@zongfen~分. 请选择你认为最正确的答案(每小题有且只有一个)写在括号内. 每题填写正确得~\@xuanze@fen~分,否则得0分. - \end{minipage} - } -} -% -% \end{macrocode} -% \end{macro} -% -% \begin{macro}{\onech} -% \begin{macro}{\twoch} -% \begin{macro}{\fourch} -% \changes{v0.3}{2014/02/18}{分一行、两行、四行显示选项} -% 选择题的选项 -% \begin{macrocode} -%<*cls> -\newcommand{\onech}[4]{ -\renewcommand\arraystretch{1.4} -\begin{tabularx}{\linewidth}{XXXX} -\setlength\tabcolsep{0pt} -(A) #1 & (B) #2 & (C) #3 & (D) #4 \\ -\end{tabularx} -\unskip \unskip} -\newcommand{\twoch}[4]{ -\renewcommand\arraystretch{1.4} -\begin{tabularx}{\linewidth}{XX} -\setlength\tabcolsep{0pt} -(A) #1 & (B) #2 \\ -(C) #3 & (D) #4 -\end{tabularx} -\unskip \unskip} -\newcommand{\fourch}[4]{ -\renewcommand\arraystretch{1.4} -\begin{tabularx}{\linewidth}{X} -\setlength\tabcolsep{0pt} -(A) #1 \\ -(B) #2 \\ -(C) #3 \\ -(D) #4 \\ -\end{tabularx} -\unskip \unskip} -% -% \end{macrocode} -% \end{macro} -% \end{macro} -% \end{macro} -% -% 简答题提示语 -% \begin{macro}{\jianda} -% \begin{macrocode} -%<*cls> -\newcommand\setjd[2]{ - \def\@jianda@zongfen{#1} - \def\@jianda@tishu{#2} -} -\newcommand\jianda{ - \@cancelspacefalse - \@houpinfentrue - \stepcounter{@dati} - \fullwidth{ - \if@printbox \pinfen \fi - \begin{minipage}{\textwidth-\@boxwidth} - \heiti \chinese{@dati}. 简答题:本大题共~\@jianda@tishu~题,满分~\@jianda@zongfen~分. 请在题后空处写出必要的推理计算过程. - \end{minipage} - } -} -% -% \end{macrocode} -% \end{macro} -% -% 数学运算符号、单位 -% \begin{macrocode} -%<*cls> -\delimitershortfall-1sp -\newcommand\abs[1]{\left|#1\right|} -\renewcommand{\geq}{\geqslant} -\renewcommand{\ge}{\geqslant} -\renewcommand{\leq}{\leqslant} -\renewcommand{\le}{\leqslant} -%<\cls> -% \end{macrocode} -% -% 读取配置文件 -% \begin{macrocode} -%<*cls> -\AtEndOfPackage{\makeatletter\input{BHCexam.cfg}\makeatother} -% -% \end{macrocode} -% -% - -% \Finale -% -% \setcounter{IndexColumns}{2} -% \IndexPrologue{\section*{索引}} -% -% \GlossaryPrologue{\section*{版本更新}} -% -% \PrintIndex \PrintChanges -\endinput - -\EnableCrossrefs diff --git a/Master/texmf-dist/source/latex/bhcexam/BHCexam.ins b/Master/texmf-dist/source/latex/bhcexam/BHCexam.ins deleted file mode 100644 index 16f98285391..00000000000 --- a/Master/texmf-dist/source/latex/bhcexam/BHCexam.ins +++ /dev/null @@ -1,107 +0,0 @@ -%% -%% This file will generate fast loadable files and documentation -%% driver files from the doc files in this package when run through -%% LaTeX or TeX. It works with Docstrip versions after April 1998. -%% -%% Copyright (C) 2011 by Charles Bao -%% -%% This file is part of the BHCexam package project. -%% --------------------------------------------------- -%% -%% It may be distributed under the conditions of the LaTeX Project Public -%% License, either version 1.2 of this license or (at your option) any -%% later version. The latest version of this license is in -%% http://www.latex-project.org/lppl.txt -%% and version 1.2 or later is part of all distributions of LaTeX -%% version 1999/12/01 or later. -%% -%% In particular, NO PERMISSION is granted to modify the contents of this -%% file since it contains the legal notices that are placed in the files -%% it generates. -%% -%% -%% -%% -%% --------------- start of docstrip commands ------------------ -%% - -\input docstrip - -\preamble - -This is a generated file. - -Copyright (C) 2011 by Charles Bao - -This file was generated from file(s) of the BHCexam package project. ----------------------------------------------------------------------- - -It may be distributed and/or modified under the -conditions of the LaTeX Project Public License, either version 1.2 -of this license or (at your option) any later version. -The latest version of this license is in - http://www.latex-project.org/lppl.txt -and version 1.2 or later is part of all distributions of LaTeX -version 1999/12/01 or later. - -This file may only be distributed together with a copy of original -source files. You may however distribute original source files -without such generated files. Copying of this file is authorized -only if either: -(1) you make absolutely no changes to your copy, including name; OR -(2) if you do make changes, you first rename it to some other name. - -To produce the documentation run the original source files ending -with `.dtx' through LaTeX. - -\endpreamble - -\declarepreamble\cfgpreamble - -This is a generated file. - -Copyright (C) 2014 by Charles Bao - -This file was generated from file(s) of the BHCexam package project. ----------------------------------------------------------------------- - -It may be distributed and/or modified under the -conditions of the LaTeX Project Public License, either version 1.2 -of this license or (at your option) any later version. -The latest version of this license is in - http://www.latex-project.org/lppl.txt -and version 1.2 or later is part of all distributions of LaTeX -version 1999/12/01 or later. - -This is the configuration file of the BHCexam package with LaTeX2e. - -\endpreamble - -\askonceonly -\keepsilent -\usedir{tex/latex/BHCexam} - -\generate{\file{BHCexam.cls}{\from{BHCexam.dtx}{cls}} - \usepreamble\cfgpreamble - \file{BHCexam.cfg}{\from{BHCexam.dtx}{cfg}} - } - -\ifToplevel{ -\Msg{***********************************************************} -\Msg{*} -\Msg{* To finish the installation you have to move the following} -\Msg{* files into a directory searched by TeX:} -\Msg{*} -\Msg{* The recommended directory is TEXMF/tex/latex/BHCexam} -\Msg{*} -\Msg{* \space\space BHCexam.cls} -\Msg{* \space\space BHCexam.cfg} -\Msg{*} -\Msg{* To produce the documentation run the files ending with} -\Msg{* `.dtx' through LaTeX.} -\Msg{*} -\Msg{* Happy TeXing} -\Msg{***********************************************************} -} - -\endbatchfile diff --git a/Master/texmf-dist/tex/latex/bhcexam/BHCexam.cfg b/Master/texmf-dist/tex/latex/bhcexam/BHCexam.cfg deleted file mode 100644 index 7b9fc9689d6..00000000000 --- a/Master/texmf-dist/tex/latex/bhcexam/BHCexam.cfg +++ /dev/null @@ -1,46 +0,0 @@ -%% -%% This is file `BHCexam.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% BHCexam.dtx (with options: `cfg') -%% -%% This is a generated file. -%% -%% Copyright (C) 2014 by Charles Bao -%% -%% This file was generated from file(s) of the BHCexam package project. -%% ---------------------------------------------------------------------- -%% -%% It may be distributed and/or modified under the -%% conditions of the LaTeX Project Public License, either version 1.2 -%% of this license or (at your option) any later version. -%% The latest version of this license is in -%% http://www.latex-project.org/lppl.txt -%% and version 1.2 or later is part of all distributions of LaTeX -%% version 1999/12/01 or later. -%% -%% This is the configuration file of the BHCexam package with LaTeX2e. -%% -\ProvidesFile{BHCexam.cfg} - [2015/10/10 v0.4 BHCexam - configuration file] - - - -\def\@biaoti{2011年全国普通高等学校招生统一考试(上海卷)} -\def\@fubiaoti{数学(理科)} -\def\@zongfen{150} -\def\@shijian{120} -\def\@tiankong@zongfen{56} -\def\@tiankong@tishu{14} -\def\@tiankong@fen{4} -\def\@xuanze@zongfen{16} -\def\@xuanze@tishu{4} -\def\@xuanze@fen{4} -\def\@jianda@zongfen{78} -\def\@jianda@tishu{5} -\endinput -%% -%% End of file `BHCexam.cfg'. diff --git a/Master/texmf-dist/tex/latex/bhcexam/BHCexam.cls b/Master/texmf-dist/tex/latex/bhcexam/BHCexam.cls deleted file mode 100644 index c1c426da49a..00000000000 --- a/Master/texmf-dist/tex/latex/bhcexam/BHCexam.cls +++ /dev/null @@ -1,318 +0,0 @@ -%% -%% This is file `BHCexam.cls', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% BHCexam.dtx (with options: `cls') -%% -%% This is a generated file. -%% -%% Copyright (C) 2011 by Charles Bao -%% -%% This file was generated from file(s) of the BHCexam package project. -%% ---------------------------------------------------------------------- -%% -%% It may be distributed and/or modified under the -%% conditions of the LaTeX Project Public License, either version 1.2 -%% of this license or (at your option) any later version. -%% The latest version of this license is in -%% http://www.latex-project.org/lppl.txt -%% and version 1.2 or later is part of all distributions of LaTeX -%% version 1999/12/01 or later. -%% -%% This file may only be distributed together with a copy of original -%% source files. You may however distribute original source files -%% without such generated files. Copying of this file is authorized -%% only if either: -%% (1) you make absolutely no changes to your copy, including name; OR -%% (2) if you do make changes, you first rename it to some other name. -%% -%% To produce the documentation run the original source files ending -%% with `.dtx' through LaTeX. -%% -%% \CharacterTable -%% {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z -%% Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z -%% Digits \0\1\2\3\4\5\6\7\8\9 -%% Exclamation \! Double quote \" Hash (number) \# -%% Dollar \$ Percent \% Ampersand \& -%% Acute accent \' Left paren \( Right paren \) -%% Asterisk \* Plus \+ Comma \, -%% Minus \- Point \. Solidus \/ -%% Colon \: Semicolon \; Less than \< -%% Equals \= Greater than \> Question mark \? -%% Commercial at \@ Left bracket \[ Backslash \\ -%% Right bracket \] Circumflex \^ Underscore \_ -%% Grave accent \` Left brace \{ Vertical bar \| -%% Right brace \} Tilde \~} -%% -\NeedsTeXFormat{LaTeX2e}[1995/12/01] -\ProvidesClass{BHCexam} - [2015/10/10 v0.4 BHCexam - document class] - - -\newif\if@sixteenkpaper \@sixteenkpaperfalse -\DeclareOption{16kpaper}{\@sixteenkpapertrue} -\newif\if@marginline \@marginlinefalse -\DeclareOption{marginline}{\@marginlinetrue} -\newif\if@noindent \@noindentfalse -\DeclareOption{noindent}{\@noindenttrue} -\DeclareOption{answers}{\PassOptionsToClass{\CurrentOption}{exam}} - -\newif\if@printbox \@printboxfalse -\DeclareOption{printbox}{\@printboxtrue} -\DeclareOption*{\PassOptionsToClass{\CurrentOption}{exam}} -\ProcessOptions -\LoadClass[addpoints]{exam} -\RequirePackage{ctex} -\RequirePackage{ifpdf,ifxetex} -\RequirePackage{amsmath,amssymb,amsthm,bm,bbding,pifont,dsfont} -\RequirePackage{mathtools} -\RequirePackage{paralist,cases,tabularx} -\RequirePackage{pstricks,pst-plot,xcolor,graphicx} -\if@marginline -\marginparwidth = 2cm -\if@sixteenkpaper -\RequirePackage[papersize={184mm,260mm},hmargin={3cm,2cm}, -vmargin={2cm,2cm},marginparsep=0.5cm,hoffset=0cm,voffset=0cm, -footnotesep=0.5cm,headsep=0.5cm,twoside]{geometry} -\else -\RequirePackage[paper=a4paper,hmargin={3cm,2cm},vmargin={2cm,2cm}, -marginparsep=0.5cm,hoffset=0cm,voffset=0cm,footnotesep=0.5cm, -headsep=0.5cm,twoside]{geometry} -\fi -\else -\if@sixteenkpaper -\RequirePackage[papersize={184mm,260mm},hmargin={2cm,2cm}, -vmargin={2cm,2cm},marginparsep=0.5cm,hoffset=0cm,voffset=0cm, -footnotesep=0.5cm,headsep=0.5cm]{geometry} -\else -\RequirePackage[papersize={210mm,297mm},hmargin={2cm,2cm},vmargin={2cm,2cm}, -marginparsep=0.5cm,hoffset=0cm,voffset=0cm,footnotesep=0.5cm, -headsep=0.5cm]{geometry} -\fi -\fi -\renewcommand{\baselinestretch}{1.5} -\pagestyle{headandfoot} -\header{}{}{} -\footer{}{\small \quad 第~\thepage~页(共~\numpages~页)}{} -\pointname{分} -\pointformat{\kaishu (\thepoints)} -\renewcommand{\questionshook}{ - \settowidth{\leftmargin}{22.\hskip\labelsep} - \if@noindent \setlength\leftmargin{0pt} \fi -} -\renewcommand{\thepartno}{\arabic{partno}} -\renewcommand{\partlabel}{(\thepartno)} -\renewcommand{\partshook}{ - \settowidth{\leftmargin}{(3).\hskip\labelsep} - \if@noindent \setlength\leftmargin{0pt} \fi -} -\newif\if@cancelspace \@cancelspacetrue -\renewcommand{\solutiontitle}{\noindent 解:\noindent} -\renewenvironment{solution}% - {% - \ifprintanswers - \begingroup - \Solution@Emphasis - \begin{TheSolution}% - \else - \if@cancelspace - %\unskip - \else - \par - \penalty 0 - \vfill% - \if@printbox \if@houpinfen \houpinfen \fi \fi - \fi - \setbox\z@\vbox\bgroup - \fi - }{% - \ifprintanswers - \end{TheSolution}% - \endgroup - \else - \egroup - \fi - }% -\if@marginline -\newsavebox{\zdxl} -\sbox{\zdxl}{ -\begin{minipage}{0.7\paperheight} -\begin{center} -\heiti 班级\underline{\hspace{15ex}} \quad -姓名 \underline{\hspace{15ex}} \quad -学号 \underline{\hspace{15ex}} \quad \\ -\vspace{3ex} -\dotfill 装 \dotfill 订 \dotfill 线 \dotfill -\end{center} -\end{minipage} -} -\newsavebox{\zdxr} -\sbox{\zdxr}{ -\begin{minipage}{0.7\paperheight} -\begin{center} -\heiti \hfill 请 \hfill 不 \hfill 要 \hfill 在 \hfill - 装 \hfill 订 \hfill 线 \hfill 内 \hfill 答 \hfill 题 \hfill \\ -\vspace{3ex} -\dotfill 装 \dotfill 订 \dotfill 线 \dotfill -\end{center} -\end{minipage} -} -\newcommand{\printmlol}{ -\marginpar{\rotatebox{90}{\usebox{\zdxl}}} -} -\newcommand{\printmlor}{ -\marginpar{\rotatebox{-90}{\usebox{\zdxr}}} -} -\reversemarginpar -\fi -\newcommand\biaoti[1]{\def\@biaoti{#1}} -\newcommand\fubiaoti[1]{\def\@fubiaoti{#1}} -\renewcommand\maketitle{ - \begin{center}{\heiti \Large{\@biaoti}}\end{center} - \begin{center}{\heiti \Large{\@fubiaoti}}\end{center} -} -\newcommand\xinxi[2]{ - \def\@zongfen{#1} - \def\@shijian{#2} -} -\newcommand\mininotice{ - \begin{center}{ - \kaishu (本试卷满分~\@zongfen~分, 考试时间~\@shijian~分钟)} - \end{center} -} -\newcommand{\notice}{ - \heiti 注意事项: \songti - \begin{enumerate} - \item 答卷前, 考生务必将姓名、高考准考证号、校验码等填写清楚. - \item 本试卷共~\numquestions{}~道试题, 满分~\@zongfen~分,考试时间~\@shijian~分钟. - \end{enumerate} -} -\newlength\@boxwidth -\setlength\@boxwidth{0ex} -\if@printbox \setlength\@boxwidth{18ex} \fi -\newcommand\pinfen{ - \heiti - \begin{minipage}{\@boxwidth} - \begin{tabular}{|c|c|} - \hline - 得分 & 评卷人\\ - \hline - & \\ - \hline - \end{tabular} - \end{minipage} -} -\newcommand{\houpinfen}{ - \hfill - \begin{tabular}{|l|l|} - \hline - 得分 & \hspace*{1.5cm}\\ - \hline - \end{tabular} - \bigskip -} -\newcounter{@dati} -\newif\if@houpinfen \@houpinfenfalse -\newcommand\settk[3]{ - \def\@tiankong@zongfen{#1} - \def\@tiankong@tishu{#2} - \def\@tiankong@fen{#3} -} -\newcommand\tiankong{ - \@houpinfenfalse - \stepcounter{@dati} - \fullwidth{ - \if@printbox \pinfen \fi - \begin{minipage}{\textwidth-\@boxwidth} - \heiti \chinese{@dati}. 填空题:本大题共~\@tiankong@tishu~题,满分~\@tiankong@zongfen~分. 请在横线上方填写最终的、最准确的、最完整的结果. 每题填写正确得~\@tiankong@fen~分,否则一律得0分. - \end{minipage} - } -} -\newcommand{\stk}[1]{ - \ifprintanswers - \underline{~#1~} - \else - \underline{~\hspace{1cm}~} - \fi} -\newcommand{\mtk}[1]{ - \ifprintanswers - \underline{~#1~} - \else - \underline{~\hspace{2cm}~} - \fi} -\newcommand{\ltk}[1]{ - \ifprintanswers - \underline{~#1~} - \else - \underline{~\hspace{3cm}~} - \fi} -\newcommand\setxz[3]{ - \def\@xuanze@zongfen{#1} - \def\@xuanze@tishu{#2} - \def\@xuanze@fen{#3} -} -\newcommand\xuanze{ - \@houpinfenfalse - \stepcounter{@dati} - \fullwidth{ - \if@printbox \pinfen \fi - \begin{minipage}{\textwidth-\@boxwidth} - \heiti \chinese{@dati}. 选择题:本大题共~\@xuanze@tishu~题,满分~\@xuanze@zongfen~分. 请选择你认为最正确的答案(每小题有且只有一个)写在括号内. 每题填写正确得~\@xuanze@fen~分,否则得0分. - \end{minipage} - } -} -\newcommand{\onech}[4]{ -\renewcommand\arraystretch{1.4} -\begin{tabularx}{\linewidth}{XXXX} -\setlength\tabcolsep{0pt} -(A) #1 & (B) #2 & (C) #3 & (D) #4 \\ -\end{tabularx} -\unskip \unskip} -\newcommand{\twoch}[4]{ -\renewcommand\arraystretch{1.4} -\begin{tabularx}{\linewidth}{XX} -\setlength\tabcolsep{0pt} -(A) #1 & (B) #2 \\ -(C) #3 & (D) #4 -\end{tabularx} -\unskip \unskip} -\newcommand{\fourch}[4]{ -\renewcommand\arraystretch{1.4} -\begin{tabularx}{\linewidth}{X} -\setlength\tabcolsep{0pt} -(A) #1 \\ -(B) #2 \\ -(C) #3 \\ -(D) #4 \\ -\end{tabularx} -\unskip \unskip} -\newcommand\setjd[2]{ - \def\@jianda@zongfen{#1} - \def\@jianda@tishu{#2} -} -\newcommand\jianda{ - \@cancelspacefalse - \@houpinfentrue - \stepcounter{@dati} - \fullwidth{ - \if@printbox \pinfen \fi - \begin{minipage}{\textwidth-\@boxwidth} - \heiti \chinese{@dati}. 简答题:本大题共~\@jianda@tishu~题,满分~\@jianda@zongfen~分. 请在题后空处写出必要的推理计算过程. - \end{minipage} - } -} -\delimitershortfall-1sp -\newcommand\abs[1]{\left|#1\right|} -\renewcommand{\geq}{\geqslant} -\renewcommand{\ge}{\geqslant} -\renewcommand{\leq}{\leqslant} -\renewcommand{\le}{\leqslant} -\AtEndOfPackage{\makeatletter\input{BHCexam.cfg}\makeatother} - -\endinput -%% -%% End of file `BHCexam.cls'. diff --git a/Master/texmf-dist/tex/xelatex/bhcexam/BHCexam.cls b/Master/texmf-dist/tex/xelatex/bhcexam/BHCexam.cls new file mode 100644 index 00000000000..1648653a505 --- /dev/null +++ b/Master/texmf-dist/tex/xelatex/bhcexam/BHCexam.cls @@ -0,0 +1,550 @@ +% BHCexam.cls +% +% An exam class designed for mathematics teacher in China. +% Since 2016, it was used by mathcrowd.cn ( an opensource math exam database) as the default class to export exam papers. +% + +%% BHCexam.cls +%% Copyright (c) 2011-2022 BAO HONG CHANG +% +% This work may be distributed and/or modified under the +% conditions of the LaTeX Project Public License, either version 1.3 +% of this license or (at your option) any later version. +% The latest version of this license is in +% http://www.latex-project.org/lppl.txt +% and version 1.3 or later is part of all distributions of LaTeX +% version 2003/12/01 or later. +% +% This work has the LPPL maintenance status "author-maintained". +% +% This work consists of the files BHCexam.cls. +% Documation on https://docs.mathcrowd.cn/advances/bhcexam.html +% Support on https://github.com/mathedu4all/bhcexam/issues +% + +%%% BAO HONG CHANG +%%% Mathcrowd Inc. +%%% Shanghai +%%% charles@mathcrowd.cn + +% The newest version of this documentclass should always be available +% from my web page: https://github.com/mathedu4all/bhcexam + +\def\fileversion{1.7} +\def\filedate{2022/07/29} + +\NeedsTeXFormat{LaTeX2e} +\ProvidesClass{BHCexam}[\filedate\space Version \fileversion\space by + BAO HONG CHANG] + + % ***************** + % ** 宏包选项 ** + % ***************** + + + % 文档类支持以下宏包选项: + + % answers 显示解析 + % adobe 使用adobe字体 + % ubuntu 使用ubuntu字体 + % windows 使用windows字体 + % fandol 使用fandol字体,随texlive默认安装 + % mac 使用mac字体 + % list 以列表项目格式显示试题 + % twocolumn 使用A3纸张并分栏 + + +\newif\if@printanswers \@printanswersfalse +\DeclareOption{answers}{\@printanswerstrue} + +\newcommand\@fontset{windows} +\DeclareOption{adobe}{\renewcommand\@fontset{adobe}} +\DeclareOption{ubuntu}{\renewcommand\@fontset{ubuntu}} +\DeclareOption{mac}{\renewcommand\@fontset{mac}} +\DeclareOption{windows}{\renewcommand\@fontset{windows}} +\DeclareOption{fandol}{\renewcommand\@fontset{fandol}} + +\newif\if@twocolumn \@twocolumnfalse +\DeclareOption{twocolumn}{\@twocolumntrue} + +\newif\if@list \@listfalse +\DeclareOption{list}{\@listtrue} + + +\DeclareOption*{\PassOptionsToClass{\CurrentOption}{article}} +\ProcessOptions\relax +\LoadClass{article} + +\RequirePackage[fontset = \@fontset, punct=kaiming]{ctex} +\ctexset{linestretch = 4, autoindent = 0pt} + + +% ***************************** +% ** 加载其他宏包 ** +% ***************************** + +\RequirePackage{tabularx, ifthen} % 排选项用 +\RequirePackage{xcolor,graphicx,caption} % 彩色、图片、图释 +\RequirePackage{geometry,fancyhdr} % 纸张、边距、页眉、页脚 +\RequirePackage{etoolbox} +\RequirePackage{amsmath,amsmath,amssymb} % ams数学相关 +\RequirePackage{unicode-math} +\RequirePackage{pifont} % 带圈数字\ding +\RequirePackage{bbding} % 图案 +\RequirePackage{romannum} % 罗马数字 +\RequirePackage{enumitem} + + + +% ***************** +% ** 页面设置 ** +% ***************** + + +\AtBeginDocument{ + \pagenumbering{arabic} % 使用阿拉伯数字页码 + \renewcommand{\parallel}{\mathrel{\mathpalette\new@parallel\relax}} % 重定义平行符号 + \newcommand{\new@parallel}[2]{% + \begingroup + \sbox\z@{高度}% get the height of an uppercase letter + \resizebox{!}{\ht\z@}{\raisebox{\depth}{$\m@th#1/\mkern-10mu/$}}% + \endgroup + } +} + + +% +% 双栏显示 +% +\if@twocolumn +\geometry{a3paper,landscape, twocolumn,columnsep=40mm,left=50mm,right=30mm,top=35mm,bottom=25mm,headheight=20mm} +\else +\geometry{a4paper,left=30mm,right=30mm,top=35mm,bottom=25mm, headheight=20mm} +\fi + +% +% 图释 +% +\captionsetup[figure]{font=small,belowskip=0pt} + + + +% ***************** +% ** 试卷头 ** +% ***************** + + + +\gdef\@subtitle{} +\gdef\@notice{} +\gdef\@author{} +\gdef\@date{} + + + +\renewcommand{\headrulewidth}{0pt} +\renewcommand{\title}[1]{\gdef\@title{#1}} +\newcommand{\subtitle}[1]{\gdef\@subtitle{#1}} +\newcommand{\notice}[1]{\def\@notice{#1}} +\renewcommand{\author}[1]{\gdef\@author{#1}} +\renewcommand{\date}[1]{\gdef\@date{#1}} + +\renewcommand\maketitle{\begingroup + \renewcommand{\baselinestretch}{2} + \newpage + \begin{center} + \heiti \Large + \@title \par + \ifdefempty{\@subtitle}{}{ + \@subtitle \par + } + + \ifdefempty{\@author}{}{ + \songti \normalsize + \@author \par + } + + \ifdefempty{\@notice}{}{ + \setlength{\fboxsep}{1em} + \vspace{0.5\baselineskip} + \fbox{ + \parbox{0.5\linewidth}{ + \kaishu \normalsize + \@notice \par + } + } + \vspace{0.5\baselineskip} + } + + + \end{center} + \renewcommand{\baselinestretch}{1} + \ifdefempty{\@date}{}{ + \begin{flushright} + \songti \small + \@date \par + \end{flushright} + } + \songti \normalsize +\endgroup} + +\renewcommand\arraystretch{1.5} +\renewcommand{\baselinestretch}{1.5} + +% *************************** +% ** 试题、解答环境定义 ** +% *************************** + +\newcounter{Group} +\newcounter{Question} +\newcounter{Example} +\newcounter{Exercise} +\newcounter{Method}[Question] + +\newif\if@showscore +\@showscorefalse +\newif\if@showskip +\@showskipfalse +\newif\if@showparen +\@showparenfalse +\newif\if@resetcounter +\@resetcounterfalse +\newlength{\myvertspace} + + +% 定义题组环境 +\newenvironment{groups}{ + \if@list + \list{\heiti\chinese{Group}.}{\usecounter{Group}} + \else + \par \begingroup \par + \fi +}{ + \if@list + \endlist + \else + \par \endgroup \par + \fi +} + +% 定义新增题组命令 +\newcommand{\group}[2]{ + \if@list + \item \heiti{#1} \quad \kaishu \small #2 \songti \normalsize \par + \else + \stepcounter{Group} + \par \heiti{\par \chinese{Group} 、#1} \quad \small{\kaishu #2} \songti \normalsize \par + \fi + +} + +% 定义试题环境 +\newenvironment{questions}[1][]{ + \@tfor \@opt :=#1\do + {\if\@opt s\global\@showscoretrue\fi + \if\@opt t\global\@showskiptrue\fi + \if\@opt p\global\@showparentrue\fi + \if\@opt r\global\@resetcountertrue\fi} + \if@resetcounter + \setcounter{Question}{0} + \fi + \if@list + \list{\arabic{Question}.}{\setlength{\leftmargin}{0pt}} + \else + \par \begingroup \par + \fi +}{ + \if@list + \endlist + \else + \par \endgroup \par + \fi + + \global\@showscorefalse + \global\@showskipfalse + \global\@showparenfalse +} + +% 定义新增试题命令 +\newcommand{\question}[1][0]{ + \stepcounter{Question} + \if@list + \item \if@showscore \kaishu ( #1 分) \songti \fi + \else + \vspace{2mm} + + \arabic{Question}. + \if@showscore \kaishu ( #1 分) \songti \fi + \fi +} + +% 定义新增例题命令 +\newcommand{\example}[1][0]{ + \stepcounter{Example} + \if@list + \item[例题\arabic{Example}. ] + \if@showscore \kaishu ( #1 分) \songti \fi + \else + \vspace{2mm} + \par 例题\arabic{Example}. + \if@showscore \kaishu ( #1 分) \songti \fi + \fi +} + +% 定义新增习题命令 +\newcommand{\exercise}[1][0]{ + \stepcounter{Exercise} + \if@list + \item[习题\arabic{Exercise}. ] + \if@showscore \kaishu ( #1 分) \songti \fi + \else + \vspace{2mm} + \par 习题\arabic{Exercise}. + \if@showscore \kaishu ( #1 分) \songti \fi + \fi +} + +% 定义小问环境 +\newlist{subquestions}{enumerate}{2} +\setlist[subquestions,1]{label=(\arabic*)} +\setlist[subquestions,2]{label=(\roman*)} + +% 定义新增小问命令 +\newcommand{\subquestion}{\item} + +\newenvironment{solution}[1]{ + \setlength{\myvertspace}{#1} + \par \if@printanswers \par \color{red} \begingroup \else \if@showskip \vspace*{\myvertspace} \fi \setbox\z@\vbox\bgroup\fi \songti +}{ + \par \if@printanswers \endgroup \color{black} \else \egroup \fi \par +} + +\newcommand{\hint}{ + \par \fbox{\heiti{提示}} \par \songti +} +\newcommand{\method}{ + \stepcounter{Method} + \vspace{2mm} + \par \fbox{\heiti{解法\chinese{Method}}} \par \songti +} + +\newcommand{\methodonly}{ + \par \fbox{\heiti{解答}} \par \songti +} + +\newcommand{\score}[2]{ + \par + \dotfill 本步骤 #1 分, 累计 #2 分 + \par} + +\makeatletter +\newcommand{\build}[2]{\leavevmode + \count@=\z@ \toks@={}% + \loop\ifnum\count@<\numexpr#1\relax + \toks@=\expandafter{\the\toks@#2}% + \advance\count@\@ne + \repeat + \the\toks@} +\makeatletter + +\newlength{\keylength} +\newcommand{\key}[1]{ + \if@printanswers + \underline{~~#1~~} + \else + \settowidth{\keylength}{~~#1~~} + \build{13}{\hskip1sp\kern-1sp\hbox to 0.1\keylength{\hrulefill}} + \fi} + +\newlength{\choicelengtha} +\newlength{\choicelengthb} +\newlength{\choicelengthc} +\newlength{\choicelengthd} +\newlength{\choicelengthe} +\newlength{\maxlength} + +% 三个选项 +\newcommand{\threechoices}[3]{ + \if@showparen \dotfill (\qquad) \fi + \par + \settowidth{\choicelengtha}{A.~#1~~~} + \settowidth{\choicelengthb}{B.~#2~~~} + \settowidth{\choicelengthc}{C.~#3~~~} + + \ifthenelse{\lengthtest{\choicelengtha>\choicelengthb}}{\setlength{\maxlength}{\choicelengtha}}{\setlength{\maxlength}{\choicelengthb}} + \ifthenelse{\lengthtest{\choicelengthc>\maxlength}}{\setlength{\maxlength}{\choicelengthc}}{} + \ifthenelse{\lengthtest{\maxlength>0.4\linewidth}} + { + \begin{tabularx}{\linewidth}{X} + \setlength\tabcolsep{0pt} + A.~#1~~~\\ + B.~#2~~~\\ + C.~#3~~~\\ + \end{tabularx} + }% + { + \ifthenelse{\lengthtest{\maxlength>0.2\linewidth}} + { + \begin{tabularx}{\linewidth}{XX} + \setlength\tabcolsep{0pt} + A.~#1~~~ & B.~#2~~~\\ + C.~#3~~~ & \\ + \end{tabularx} + }% + { + \begin{tabularx}{\linewidth}{XXXX} + \setlength\tabcolsep{0pt} + A.~#1~~~ & B.~#2~~~ & C.~#3~~~ &\\ + \end{tabularx} + } + } + \unskip \unskip +} + +% 四个选项 +\newcommand{\fourchoices}[4]{ + \if@showparen \dotfill (\qquad) \fi + \par + \settowidth{\choicelengtha}{A.~#1~~~} + \settowidth{\choicelengthb}{B.~#2~~~} + \settowidth{\choicelengthc}{C.~#3~~~} + \settowidth{\choicelengthd}{D.~#4~~~} + \ifthenelse{\lengthtest{\choicelengtha>\choicelengthb}}{\setlength{\maxlength}{\choicelengtha}}{\setlength{\maxlength}{\choicelengthb}} + \ifthenelse{\lengthtest{\choicelengthc>\maxlength}}{\setlength{\maxlength}{\choicelengthc}}{} + \ifthenelse{\lengthtest{\choicelengthd>\maxlength}}{\setlength{\maxlength}{\choicelengthd}}{} + \ifthenelse{\lengthtest{\maxlength>0.4\linewidth}} + { + \begin{tabularx}{\linewidth}{X} + \setlength\tabcolsep{0pt} + A.~#1~~~\\ + B.~#2~~~\\ + C.~#3~~~\\ + D.~#4~~~\\ + \end{tabularx} + }% + { + \ifthenelse{\lengthtest{\maxlength>0.2\linewidth}} + { + \begin{tabularx}{\linewidth}{XX} + \setlength\tabcolsep{0pt} + A.~#1~~~ & B.~#2~~~\\ + C.~#3~~~ & D.~#4~~~\\ + \end{tabularx} + }% + { + \begin{tabularx}{\linewidth}{XXXX} + \setlength\tabcolsep{0pt} + A.~#1~~~ & B.~#2~~~ & C.~#3~~~ & D.~#4~~~\\ + \end{tabularx} + }% + } + \unskip \unskip +} + +% 五个选项 +\newcommand{\fivechoices}[5]{ + \if@showparen \hfill \dotfill (\quad) \fi + \par + \settowidth{\choicelengtha}{A.~#1~~~} + \settowidth{\choicelengthb}{B.~#2~~~} + \settowidth{\choicelengthc}{C.~#3~~~} + \settowidth{\choicelengthd}{D.~#4~~~} + \settowidth{\choicelengthe}{E.~#5~~~} + \ifthenelse{\lengthtest{\choicelengtha>\choicelengthb}}{\setlength{\maxlength}{\choicelengtha}}{\setlength{\maxlength}{\choicelengthb}} + \ifthenelse{\lengthtest{\choicelengthc>\maxlength}}{\setlength{\maxlength}{\choicelengthc}}{} + \ifthenelse{\lengthtest{\choicelengthd>\maxlength}}{\setlength{\maxlength}{\choicelengthd}}{} + \ifthenelse{\lengthtest{\choicelengthe>\maxlength}}{\setlength{\maxlength}{\choicelengthe}}{} + \ifthenelse{\lengthtest{\maxlength>0.4\linewidth}}{ + \begin{tabularx}{\linewidth}{X} + \setlength\tabcolsep{0pt} + A.~#1~~~\\ + B.~#2~~~\\ + C.~#3~~~\\ + D.~#4~~~\\ + E.~#5~~~\\ + \end{tabularx} + }% + { + \ifthenelse{\lengthtest{\maxlength>0.2\linewidth}} + { + \begin{tabularx}{\linewidth}{XX} + \setlength\tabcolsep{0pt} + A.~#1~~~ & B.~#2~~~\\ + C.~#3~~~ & D.~#4~~~\\ + E.~#5~~~ & \\ + \end{tabularx} + }% + { + \begin{tabularx}{\linewidth}{XXXX} + \setlength\tabcolsep{0pt} + A.~#1~~~ & B.~#2~~~ & C.~#3~~~ & D.~#4~~~ \\ + E.~#5~~~ & & & \\ + \end{tabularx} + } + }% + \unskip \unskip +} + +% 六个选项 +\newcommand{\sixchoices}[6]{ + \if@showparen \hfill \dotfill (\quad) \fi + \par + \settowidth{\choicelengtha}{A.~#1~~~} + \settowidth{\choicelengthb}{B.~#2~~~} + \settowidth{\choicelengthc}{C.~#3~~~} + \settowidth{\choicelengthd}{D.~#4~~~} + \settowidth{\choicelengthe}{D.~#5~~~} + \ifthenelse{\lengthtest{\choicelengtha>\choicelengthb}}{\setlength{\maxlength}{\choicelengtha}}{\setlength{\maxlength}{\choicelengthb}} + \ifthenelse{\lengthtest{\choicelengthc>\maxlength}}{\setlength{\maxlength}{\choicelengthc}}{} + \ifthenelse{\lengthtest{\choicelengthd>\maxlength}}{\setlength{\maxlength}{\choicelengthd}}{} \ifthenelse{\lengthtest{\choicelengthe>\maxlength}}{\setlength{\maxlength}{\choicelengthe}}{} + + \ifthenelse{\lengthtest{\maxlength>0.4\linewidth}} + { + \begin{tabularx}{\linewidth}{X} + \setlength\tabcolsep{0pt} + A.~#1~~~\\ + B.~#2~~~\\ + C.~#3~~~\\ + D.~#4~~~\\ + E.~#5~~~\\ + F.~#6~~~\\ + \end{tabularx} + }% + { + \ifthenelse{\lengthtest{\maxlength>0.2\linewidth}} + { + \begin{tabularx}{\linewidth}{XX} + \setlength\tabcolsep{0pt} + A.~#1~~~ & B.~#2~~~\\ + C.~#3~~~ & D.~#4~~~\\ + E.~#5~~~ & F.~#6~~~\\ + \end{tabularx} + }% + { + \begin{tabularx}{\linewidth}{XXXX} + \setlength\tabcolsep{0pt} + A.~#1~~~ & B.~#2~~~ & C.~#3~~~ & D.~#4~~~ \\ + E.~#2~~~ & F.~#6~~~ & & \\ + \end{tabularx} + }% + } + \unskip \unskip +} + + +% *************************** +% ** CUSTOMIZED COMMAND ** +% *************************** + +\newcommand\abs[1]{\left|#1\right|} +\newcommand{\gt}{>} +\newcommand{\lt}{<} +\renewcommand{\geq}{\geqslant} +\renewcommand{\ge}{\geqslant} +\renewcommand{\leq}{\leqslant} +\renewcommand{\le}{\leqslant} +\renewenvironment{split}{\begin{aligned}}{\end{aligned}} + + + +\endinput -- cgit v1.2.3