From 2842c443cecd4af3afcd0ffc9c1a3ed46458f00c Mon Sep 17 00:00:00 2001 From: Tianyi Pu <912396513@qq.com> Date: Mon, 4 Sep 2023 22:20:32 +0100 Subject: [PATCH 1/4] update --- chapters/comblogic.tex | 0 chapters/latexreference.tex | 63 +++++++++++++++++++++++++++++++++ chapters/peopleandcommunity.tex | 8 +++++ labels used.txt | 2 +- main.tex | 2 +- 5 files changed, 73 insertions(+), 2 deletions(-) create mode 100644 chapters/comblogic.tex create mode 100644 chapters/latexreference.tex create mode 100644 chapters/peopleandcommunity.tex diff --git a/chapters/comblogic.tex b/chapters/comblogic.tex new file mode 100644 index 00000000..e69de29b diff --git a/chapters/latexreference.tex b/chapters/latexreference.tex new file mode 100644 index 00000000..c28587c8 --- /dev/null +++ b/chapters/latexreference.tex @@ -0,0 +1,63 @@ +\chapter{文档开发引导} + +本文档使用\LaTeX 编写,在TeXLive 2022环境下编译。为了便于开发,文档导言区定义了一些命令与变量,本附录即为这些功能的文档。 + +\section{三种排版主题} + +本文档支持三种排版主题。优先保证电子版外观。 + +\begin{itemize} + \item 打印版的文本内容最多。打印版不能用文本搜索功能,所以添加了索引;打印版不能点击超链接,所以链接均为明文。打印版的排版是针对双面打印的,页边距较宽,奇偶页边距不同。打印版通过编译\trvar{TerrariaWiringTutorial\_printed.tex}生成。 + \item 电子版用于在电子屏幕上浏览。电子版的超链接地址全部隐藏用于节省空间,网站logo尽量采用小图标,页边距较窄,上下页边距极窄,便于电脑/手机浏览。电子版通过编译\trvar{TerrariaWiringTutorial\_onscreen.tex}生成。 + \item 夜间模式是暗色主题的电子版,用于在低亮度环境下浏览。夜间模式通过编译\trvar{TerrariaWiringTutorial\_nightmode.tex}生成。 +\end{itemize} + +\section{格式标准} + +\subsection{插图} +插图使用\lstinline{adjustbox}宏包的\lstinline{\adjincludegraphics} + +\section{预设颜色} + +预设颜色定义在\trvar{preambles/skin.tex}中。 + +\begin{longtable}{|c|c|} + \hline + 名称 & 描述 \\\hline + \endhead + \textcolor{bilibiliblue}{bilibiliblue} & 哔哩哔哩蓝 \\\hline + \textcolor{youkudeeppink}{youkudeeppink} & 优酷logo最深的粉色 \\\hline + \textcolor{terrariaforumback}{terrariaforumback} & 泰拉瑞亚官方论坛背景 \\\hline + \textcolor{terrariaforumtext}{terrariaforumtext} & 泰拉瑞亚官方论坛文本 \\\hline + \textcolor{bbstrback}{bbstrback} & 泰拉瑞亚中文论坛背景 \\\hline + \textcolor{bbstrtext}{bbstrtext} & 泰拉瑞亚中文论坛文本 \\\hline + \makecell{ + \textcolor{redwiredarkborder}{redwiredarkborder}\\ + \textcolor{redwirelightborder}{redwirelightborder}\\ + \textcolor{redwirelight}{redwirelight}\\ + \textcolor{redwiremiddle}{redwiremiddle}\\ + \textcolor{redwiredark}{redwiredark} + } & 红色电线配色 \\\hline + \makecell{ + \textcolor{bluewiredarkborder}{bluewiredarkborder}\\ + \textcolor{bluewirelightborder}{bluewirelightborder}\\ + \textcolor{bluewirelight}{bluewirelight}\\ + \textcolor{bluewiremiddle}{bluewiremiddle}\\ + \textcolor{bluewiredark}{bluewiredark} + } & 蓝色电线配色 \\\hline + \makecell{ + \textcolor{greenwiredarkborder}{greenwiredarkborder}\\ + \textcolor{greenwirelightborder}{greenwirelightborder}\\ + \textcolor{greenwirelight}{greenwirelight}\\ + \textcolor{greenwiremiddle}{greenwiremiddle}\\ + \textcolor{greenwiredark}{greenwiredark} + } & 绿色电线配色 \\\hline + \makecell{ + \textcolor{yellowwiredarkborder}{yellowwiredarkborder}\\ + \textcolor{yellowwirelightborder}{yellowwirelightborder}\\ + \textcolor{yellowwirelight}{yellowwirelight}\\ + \textcolor{yellowwiremiddle}{yellowwiremiddle}\\ + \textcolor{yellowwiredark}{yellowwiredark} + } & 黄色电线配色 \\\hline + \textcolor{thmcolback}{thmcolback} & 定理类环境背景\\\hline +\end{longtable} \ No newline at end of file diff --git a/chapters/peopleandcommunity.tex b/chapters/peopleandcommunity.tex new file mode 100644 index 00000000..3f58fc1b --- /dev/null +++ b/chapters/peopleandcommunity.tex @@ -0,0 +1,8 @@ +\chapter{重要的玩家与社区} + +\begin{longtable}{|c|c|c|c|c|c|} +\hline +代号 & \adjustimage{height=12pt, align=c}{figure/tmec.png} & \adjustimage{height=12pt, align=c}{figure/discordcommunity.png} & \adjustimage{height=12pt, align=c}{figure/bbstr.png} & \adjustimage{height=12pt, align=c}{figure/qqcommunity.png} & \adjustimage{height=12pt, align=c}{figure/tiebacommunity.jpg}\\\hline +\endhead +putianyi888 & \href{https://forums.terraria.org/index.php?members/121300}{\small\sffamily putianyi888} & \vipbox{figure/putianyi888.jpg}{putianyi888}{} & \href{}{} +\end{longtable} \ No newline at end of file diff --git a/labels used.txt b/labels used.txt index 5e1c3a01..46ea6ca3 100644 --- a/labels used.txt +++ b/labels used.txt @@ -16,7 +16,7 @@ fig1, fig2, fig3, fig4, fig5, fig6, fig7, fig8, fig9, fig10, fig51, fig52, fig53, fig54, fig55, fig56, fig57, fig58, fig59, fig60, fig61, fig62, fig63, fig64, fig65, fig66, fig67, fig68, fig69, fig70, fig71, fig72, fig73, fig74, fig75, fig76, fig77, fig78, fig79, fig80, - fig81, fig82, + fig81, fig82, fig83 tab1, tab2, tab3, tab4, tab5, tab6, tab7, tab8, tab9, tab10, tab11, tab12, tab13, tab14, tab15, tab16, tab17, tab18 tab1406, diff --git a/main.tex b/main.tex index 9332e03a..697319be 100644 --- a/main.tex +++ b/main.tex @@ -70,4 +70,4 @@ \include{chapters/cooldown} \include{chapters/knowledge} \include{chapters/chapter6} - +%\include{chapters/latexreference} From 79f850ed30164bb340c9705f7b24da9b29c3a534 Mon Sep 17 00:00:00 2001 From: Tianyi Pu <912396513@qq.com> Date: Thu, 28 Dec 2023 09:33:03 +0000 Subject: [PATCH 2/4] update --- chapters/comblogic.tex | 195 +++++++++++++++++++++++++++++++++++++++++ main.tex | 1 + preambles/envs.tex | 10 +++ preambles/temps.tex | 9 +- 4 files changed, 213 insertions(+), 2 deletions(-) diff --git a/chapters/comblogic.tex b/chapters/comblogic.tex index e69de29b..579f19cd 100644 --- a/chapters/comblogic.tex +++ b/chapters/comblogic.tex @@ -0,0 +1,195 @@ +\chapter{代数理论} + +目前代数理论可以用于解决组合逻辑与推广递次的电路压缩问题。本章内容面向有线性代数基础的读者。没有线性代数基础的读者需要预先学习向量、矩阵、线性方程组、行列式、秩的运算。群论基础对于本章内容的理解有帮助但是没有必要。 + +\section{域$\mathbb{Z}_2$简介} +把整数分成奇数和偶数,则有如下运算规律: +\begin{center} +\begin{tabular}{|c|cc|} + \hline + $+$&偶&奇\\\hline + 偶&偶&奇\\ + 奇&奇&偶\\\hline +\end{tabular} +\begin{tabular}{|c|cc|} + \hline + $\times$&偶&奇\\\hline + 偶&偶&偶\\ + 奇&偶&奇\\\hline +\end{tabular} +\end{center} + +$\mathbb{Z}_2=\{0,1\}$表示整数除以2所得余数的集合,则0代表偶数,1代表奇数,0和1之间的加法和乘法运算遵守上述奇偶的运算规律,即 +\begin{center} +\begin{tabular}{|c|cc|} + \hline + $+$&0&1\\\hline + 0&0&1\\ + 1&1&0\\\hline +\end{tabular} +\begin{tabular}{|c|cc|} + \hline + $\times$&0&1\\\hline + 0&0&0\\ + 1&0&1\\\hline +\end{tabular} +\end{center} + +另外,定义除法为乘法的逆运算,即$0\div 1=0$、$1\div 1=1$,除数不能为0。定义减法为加法的逆运算,由于$\mathbb{Z}_2$中恰好有$1=-1$,减法和加法的运算规则完全一样。 + +加法和乘法满足交换律和结合律,乘法对加法满足分配律。 + +$\mathbb{Z}_2$上的乘法和加法可以很好地描述泰拉瑞亚电路逻辑,如\autoref{fig83}所示。把多根线接到同一个输出上,相当于做加法;与逻辑相当于多个输入做乘法。 + +\begin{figure}[!htp] + \centering + \subfloat[]{ + \label{i350:351:2} + \adjincludegraphics{images/350.png}% + \quad% + \adjincludegraphics{images/351.png} + }% + \subfloat[]{ + \label{i352:353:2} + \adjincludegraphics{images/352.png}% + \quad% + \adjincludegraphics{images/353.png} + }% + \caption{ + \protect\subref{i350:351:2}加法:$B=A+C$; + \protect\subref{i352:353:2}乘法:$C=AB$。 + }\label{fig83} +\end{figure} + +\section{$\mathbb{Z}_2$上的线性代数} +通过定义$\mathbb{Z}_2$上的加减乘除就可以导出$\mathbb{Z}_2$上的线性代数,基本理论也和实/复数域上线性代数没有什么区别。唯一需要注意的是,$\mathbb{Z}_2$上的多项式环结构不同于实/复数域,所以相应的特征值理论有区别,这个区别将在后续小节中细说。本小节将侧重于解释为什么我们需要用到$\mathbb{Z}_2$上的线性代数。 + +$\mathbb{Z}_2$上的向量和矩阵在电路中有实际意义,因为接线的本质就是矩阵。 + +%\begin{example}{}{} +% 一个逻辑门上的普通逻辑灯状态可以排列成一个向量,亮对应$\mathbb{Z}_2$中的1,灭对应$\mathbb{Z}_2$中的0。 +%\end{example} +\begin{example}{}{} + 一个七段线显示器的状态可以表示成一个$\mathbb{Z}_2$上的7维向量。考虑如图所示的七段线显示结构,七个输入并不直接对应七段线。输入的状态表示为$\mathbf{x}=(x_1,\dots,x_7)$,七段线状态表示为$\mathbf{y}=(y_1,\dots,y_7)$。 + + \begin{center} + \begin{tikzpicture}[scale=0.5] + \draw[rounded corners, fill] (0,0) rectangle node[white] {$y_7$} (3,1); + \draw[rounded corners, fill] (0,1) rectangle node[white] {$y_5$} (-1,4); + \draw[rounded corners, fill] (3,1) rectangle node[white] {$y_6$} (4,4); + \draw[rounded corners, fill] (0,4) rectangle node[white] {$y_4$} (3,5); + \draw[rounded corners, fill] (0,5) rectangle node[white] {$y_2$} (-1,8); + \draw[rounded corners, fill] (3,5) rectangle node[white] {$y_3$} (4,8); + \draw[rounded corners, fill] (0,8) rectangle node[white] {$y_1$} (3,9); + + \draw[red, ultra thick] (-0.25,3.75) -- (-0.25,0.75) -- (3.25,0.75) -- (3.25,3.75) -- (10,3.75) node[thmcoltext, anchor=west] {$x_5$}; + \draw[cyan, ultra thick] (0.25,0.5) -- (3.5,0.5) -- (3.5,3.5) -- (3.5,3.0) -- (10,3.0) node[thmcoltext, anchor=west] {$x_6$}; + \draw[green, ultra thick] (3.75,1.25) -- (3.75,3.5) -- (3.75,2.25) -- (10,2.25) node[thmcoltext, anchor=west] {$x_7$}; + + \draw[red, ultra thick] (-0.25,5.25) -- (-0.25,8.25) -- (3.25,8.25) -- (3.25,5.25) -- (10,5.25) node[thmcoltext, anchor=west] {$x_3$}; + \draw[cyan, ultra thick] (0.25,8.5) -- (3.5,8.5) -- (3.5,5.5) -- (3.5,6) -- (10,6) node[thmcoltext, anchor=west] {$x_2$}; + \draw[green, ultra thick] (3.75,7.75) -- (3.75,5.5) -- (3.75,6.75) -- (10,6.75) node[thmcoltext, anchor=west] {$x_1$}; + + \draw[brown, ultra thick] (-0.5,1.25) -- (-0.5,7.75); + \draw[brown, ultra thick] (-0.5,4.5) -- (10,4.5) node[thmcoltext, anchor=west] {$x_4$}; + \end{tikzpicture} + \end{center} + + 七个输入和七段线的对应关系可以用一个矩阵表示: + + \[\begin{array}{c|ccccccc} + & y_1 & y_2 & y_3 & y_4 & y_5 & y_6 & y_7 \\\hline + x_1 & & & 1 & & & & \\ + x_2 & 1 & & 1 & & & & \\ + x_3 & 1 & 1 & 1 & & & & \\ + x_4 & & 1 & & 1 & 1 & & \\ + x_5 & & & & & 1 & 1 & 1 \\ + x_6 & & & & & & 1 & 1 \\ + x_7 & & & & & & 1 & \\\hline + \end{array}\] + + %表格中每行表示一个输入覆盖的段,可以理解为一个7维行向量;每列表示经过一个分段的输入,可以理解为一个7维列向量。去掉表头,这个表格就是一个$\mathbb{Z}_2$上的$7\times 7$\myind{矩阵},记为$\mathbf{A}$。 + + %一个分段的值等于经过它的输入的和,例如$y_3=x_1+x_2+x_3$。这可以写成$y_3=1x_1+1x_2+1x_3+0x_4+0x_5+0x_6+0x_7$,即$y_3$是输入$\mathbf{x}$和矩阵中对应列向量的\myind{向量积}: + + %\[ + % y_3=\mathbf{x}(1,1,1,0,0,0,0)^\top, + %\] + 记这个矩阵为$\mathbf{A}^\top$,七段线的初始状态为$\mathbf{b}$,则分段与输入的关系可以表示为$\mathbf{y}=\mathbf{A}\mathbf{x}+\mathbf{b}$. + +\end{example} + +一般的组合逻辑可以看作集合。 +\begin{definition}{}{} + $n$输入的组合逻辑和$\mathbb{Z}_2^n$的子集存在一一对应关系。设某逻辑为$n$元函数$f$,则相应的集合为$f^{-1}(1)=\{\mathbf{v}\in\mathbb{Z}_2^n:f(\mathbf{v})=1\}$,这个集合称为$f$的\emph{特征集}。一个组合逻辑的输入数称为该逻辑的\emph{维数},特征集的秩称为该逻辑的\emph{秩}。 +\end{definition} +\begin{example}{}{} + $n$维异或逻辑的特征集是$\mathbb{Z}_2^n$的标准基。 +\end{example} +\begin{theorem}{TNoName \& putianyi888}{} + 假设某$n$维组合逻辑可以用单异或门实现,则该异或门的最优灯数不超过$n+1$。 +\end{theorem} +\begin{proof} + 用$V=\mathbb{Z}_2^n$表示输入空间,$U=\mathbb{Z}_2^m$表示灯的状态空间。用矩阵$\boldsymbol{L}\in\mathbb{Z}_2^{m\times n}$表示接线,向量$\boldsymbol{b}\in U$表示灯的初始状态,则$L:V\to U, \boldsymbol{v}\mapsto \boldsymbol{L}\boldsymbol{v}+\boldsymbol{b}$表示从输入到灯的状态的映射。设某$n$维逻辑为$f:V\to\mathbb{Z}_2$,实现该逻辑的异或门为$g:U\to \mathbb{Z}_2^n$。假设$m>n+1$。 + + 先考虑齐次情况$\boldsymbol{b}=\boldsymbol{0}$。由于$\dim(V)=n$,$L(V)$是$U$的一个$n'\le n$维线性子空间。因为$m>n+1\ge n'+1$,取$U/L(V)$的一组基$\boldsymbol{A}=(\boldsymbol{\alpha}_1,\dots,\boldsymbol{\alpha}_{m-n'})$。由于$g$是异或逻辑,$g^{-1}(1)$是$U$的标准基,且$L(f^{-1}(1))=g^{-1}(1)\cap L(V)$。记$L(f^{-1}(1))$为$\boldsymbol{B}=(\boldsymbol{\beta}_1,\dots,\boldsymbol{\beta}_r)$,取$L(V)/\spanspace(L(f^{-1}))$的一组基$\boldsymbol{C}=(\boldsymbol{\gamma}_1,\dots,\boldsymbol{\gamma}_{n'-r})$。显然$(\boldsymbol{B}|\boldsymbol{C}|\boldsymbol{A})$是$U$的一组基。 + + 构造$U$的另一组基$\boldsymbol{F}=(\boldsymbol{B}|\boldsymbol{C}+\boldsymbol{\alpha}_1|\boldsymbol{A})$,其中$\boldsymbol{C}+\boldsymbol{\alpha}_1$表示将$\boldsymbol{\alpha}_1$加到$\boldsymbol{C}$的每一列上。记$F^{-1}:\boldsymbol{v}\mapsto\boldsymbol{F}^{-1}\boldsymbol{v}$是将$\boldsymbol{F}$映到标准基的线性映射。考虑复合映射$F^{-1}L$,有 + \begin{enumerate} + \item 当$\boldsymbol{v}\in f^{-1}(1)$时,$L(\boldsymbol{v})\in\boldsymbol{B}$,从而$F^{-1}L(\boldsymbol{v})$是一个标准基向量。 + \item 当$\boldsymbol{v}\in V\backslash f^{-1}(1)$时,$L(\boldsymbol{v})\notin\boldsymbol{F}$,从而$F^{-1}L(\boldsymbol{v})$不是一个标准基向量。 + \item 当$\boldsymbol{v}\in V$时,$L(\boldsymbol{v})\in\spanspace(\boldsymbol{B}|\boldsymbol{C})\subseteq\spanspace(\boldsymbol{B}|\boldsymbol{C}+\boldsymbol{\alpha}_1|\boldsymbol{\alpha}_1)$,从而$F^{-1}L(\boldsymbol{v})$的后$(m-n'-1)$个分量为0。 + \end{enumerate} + 综上三条性质,接线$F^{-1}L$与$L$对于异或门是等价逻辑,且在接线$F^{-1}L$的情况下,异或门的后$(m-n'-1)$个灯恒灭,所以这些灯可以去掉,剩下$(n'+1)$个灯。 + + 对于非齐次情况$\boldsymbol{b}\ne\boldsymbol{0}$,如果$\boldsymbol{b}\in \boldsymbol{L}V$,那么$L(V)=\boldsymbol{L}V$,退化为齐次情况。如果$L(V)\cap g^{-1}(1)=\emptyset$,则$f(V)=\{0\}$,退化为平凡逻辑。 + + 一般地,取$\boldsymbol{b}'\in L(V)\cap g^{-1}(1)$,那么$L(V)=\boldsymbol{L}V+\boldsymbol{b}'$。 +\end{proof} + +\section{$\mathbb{Z}_2$上的多项式} + + +% \section{向量与矩阵} +% $\mathbb{Z}_2$上的向量即为一组有序的$\mathbb{Z}_2$元素。向量组成向量空间。 + + + + + +% \begin{definition}{}{} +% $\mathbb{Z}_2^n=\{(x_1,\dots,x_n): x_k\in\mathbb{Z}_2\}$是$\mathbb{Z}_2$上的$n$维向量空间。$\mathbb{Z}_2^n$中的元素是$\mathbb{Z}_2$上的$n$维向量。 +% \end{definition} + +% 向量的加减法定义为对应元素加减: +% \[ + % (x_1,\dots,x_n) + (y_1,\dots,y_n) = (x_1+y_1,\dots,x_n+y_n). +% \] + +% 数字乘向量定义为用数字乘向量中的每个元素: +% \[ + % \lambda(x_1,\dots,x_n) = (\lambda x_1,\dots,\lambda x_n). +% \] +% 由于$\mathbb{Z}_2$中仅有0和1两个数字,所以向量的数乘可以列举为 +% \[ + % 1\mathbf{x}=\mathbf{x},\qquad 0\mathbf{x}=\mathbf{0}, +% \] +% 其中粗体小写字母表示向量,$\mathbf{0}$表示零向量,即向量中所有元素都是0。 + + + +% $\mathbb{Z}_2$元素也可以有序地组成矩阵。矩阵组成矩阵空间。 +% \begin{definition} +% $\mathbb{Z}_2^{m\times n}=\left\{\begin{pmatrix} + % x_{11}&x_{12}&\cdots&x_{1n}\\ + % x_{21}&x_{22}&\cdots&x_{2n}\\ + % \vdots&\vdots&\ddots&\vdots\\ + % x_{m1}&x_{m2}&\cdots&x_{mn} +% \end{pmatrix}: x_{jk}\in\mathbb{Z}_2\right\}$是$\mathbb{Z}_2$上的$m\times n$维矩阵空间。$\mathbb{Z}_2^{m\times n}$中的元素是$\mathbb{Z}_2$上的$m\times n$维矩阵。 +% \end{definition} + +% 矩阵也可以看作向量的向量。一个$m\times n$维矩阵既可以理解为由$m$个$n$维行向量组成的列向量也可以理解为由$n$个$m$维列向量组成的行向量。$n$维行向量也可以看作$1\times n$维矩阵,$m$维列向量也可以看作$m\times 1$维矩阵。 + +% 按照向量加减法与数乘的定义,矩阵加减法也定义成对应元素加减,矩阵数乘也定义成用数字乘矩阵中的每个元素。 + +% 矩阵一般用粗体大写字母表示。零矩阵用$\mathbf{O}$表示。 \ No newline at end of file diff --git a/main.tex b/main.tex index 697319be..70d9f4a7 100644 --- a/main.tex +++ b/main.tex @@ -62,6 +62,7 @@ \include{chapters/Sources} %\include{chapters/chapter8} \include{chapters/chapter5} +\include{chapters/comblogic} %\include{chapters/Farm} \appendix diff --git a/preambles/envs.tex b/preambles/envs.tex index ec5ec059..4dc5b3f6 100644 --- a/preambles/envs.tex +++ b/preambles/envs.tex @@ -46,6 +46,16 @@ fonttitle=\bfseries, blueframe }{} +\newtcbtheorem{definition}{定义}{ + breakable, + colframe=greencolframe, colback=thmcolback, coltext=thmcoltext, + skin=enhanced, + parbox=false, + sharp corners=all, + before title={\noindent}, + fonttitle=\bfseries, + greenframe +}{} \newtcbtheorem{problem}{思考题}{ breakable, colframe=yellowcolframe, colback=thmcolback, coltext=thmcoltext, diff --git a/preambles/temps.tex b/preambles/temps.tex index a10fc283..7bc84ea2 100644 --- a/preambles/temps.tex +++ b/preambles/temps.tex @@ -2,6 +2,11 @@ \usepackage{tcolorbox} \usepackage{calc} +\usepackage{amsbsy} + +% 数学符号 +\DeclareMathOperator{\rank}{rank} +\DeclareMathOperator{\spanspace}{span} % 网址链接 \if\rendermode1 @@ -9,7 +14,7 @@ \NewDocumentCommand{\bilibili}{O{video}m}{\href{https://www.bilibili.com/#1/#2}{\includegraphics[align=c, height=9pt]{figure/bilibiliicon.pdf}}} \newcommand{\youtube}[1]{\href{https://youtu.be/#1}{\includegraphics[align=c, height=9pt]{figure/youtubeicon.pdf}}} - \NewDocumentCommand{\trforum}{O{threads}m}{\href{https://forums.terraria.org/index.php?/#1/#2}{\includegraphics[align=c, height=9pt]{figure/terrariaforum.png}}} + \NewDocumentCommand{\trforum}{O{threads}m}{\href{https://forums.terraria.org/index.php?#1/#2}{\includegraphics[align=c, height=9pt]{figure/terrariaforum.png}}} \newcommand{\tieba}[1]{\href{https://tieba.baidu.com/p/#1}{\includegraphics[align=c, height=9pt]{figure/tieba.png}}} \NewDocumentCommand{\bbstr}{O{t}m}{\href{https://www.bbstr.net/#1/#2}{\includegraphics[align=c, height=9pt]{figure/bbstr.png}}} \NewDocumentCommand{\github}{m}{\href{https://github.com/#1}{\includegraphics[align=c, height=9pt]{figure/githubicon.pdf}}} @@ -29,7 +34,7 @@ \NewDocumentCommand{\bilibili}{O{video}m}{\href{https://www.bilibili.com/#1/#2}{\includegraphics[align=c, height=9pt]{figure/bilibiliicon.pdf}}} \newcommand{\youtube}[1]{\href{https://youtu.be/#1}{\includegraphics[align=c, height=9pt]{figure/youtubeicon.pdf}}} - \NewDocumentCommand{\trforum}{O{threads}m}{\href{https://forums.terraria.org/index.php?/#1/#2}{\includegraphics[align=c, height=9pt]{figure/terrariaforum.png}}} + \NewDocumentCommand{\trforum}{O{threads}m}{\href{https://forums.terraria.org/index.php?#1/#2}{\includegraphics[align=c, height=9pt]{figure/terrariaforum.png}}} \newcommand{\tieba}[1]{\href{https://tieba.baidu.com/p/#1}{\includegraphics[align=c, height=9pt]{figure/tieba.png}}} \NewDocumentCommand{\bbstr}{O{t}m}{\href{https://www.bbstr.net/#1/#2}{\includegraphics[align=c, height=9pt]{figure/bbstr.png}}} \NewDocumentCommand{\github}{m}{\href{https://github.com/#1}{\includegraphics[align=c, height=9pt]{figure/githubiconnight.png}}} From 65cd45cdd07397fd383d1624c5abdd28d3776cd6 Mon Sep 17 00:00:00 2001 From: Tianyi Pu <912396513@qq.com> Date: Thu, 28 Dec 2023 09:34:19 +0000 Subject: [PATCH 3/4] Update main.tex --- main.tex | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/main.tex b/main.tex index 70d9f4a7..354a5b4e 100644 --- a/main.tex +++ b/main.tex @@ -62,7 +62,7 @@ \include{chapters/Sources} %\include{chapters/chapter8} \include{chapters/chapter5} -\include{chapters/comblogic} +%\include{chapters/comblogic} %\include{chapters/Farm} \appendix From 030f2feadfbde505a02ee6c68b6dabfcec004cd6 Mon Sep 17 00:00:00 2001 From: Tianyi Pu <44583944+putianyi889@users.noreply.github.com> Date: Thu, 28 Dec 2023 12:22:47 +0000 Subject: [PATCH 4/4] Update latex.yml --- .github/workflows/latex.yml | 5 +++++ 1 file changed, 5 insertions(+) diff --git a/.github/workflows/latex.yml b/.github/workflows/latex.yml index 843a5b14..f9a55a9e 100644 --- a/.github/workflows/latex.yml +++ b/.github/workflows/latex.yml @@ -20,3 +20,8 @@ jobs: with: root_file: TerrariaWiringTutorial_printed.tex latexmk_use_xelatex: true + - name: Compile Night Mode + uses: xu-cheng/latex-action@v2 + with: + root_file: TerrariaWiringTutorial_nightmode.tex + latexmk_use_xelatex: true