次のような問題があります。セルを値によって色分けしたいのですが、nSHD の値は (0,1) にあり、値が小さいほど良いので、0 に近い値は緑色、大きい値は黄色にしたいのです。一方、TPR も値は (0,1) にあり、値が大きいほど良いので、その逆 (1 に近い値は緑色、小さい値は黄色) にしたいのです。問題は、線と色を組み合わせることができないことです。私は次のように始めました。
\documentclass{article}
\usepackage{array}
\newcolumntype{?}{!{\vrule width 1.2pt}}
\usepackage{collcell}
\usepackage[dvipsnames,table]{xcolor}
\usepackage{multirow}
\usepackage{multicol}
\usepackage{pgf} % for calculating the values for gradient
%======================================
% Color set related!
\definecolor{high}{HTML}{00994d} % the color for the highest number in your data set
\definecolor{low}{HTML}{fff51b} % the color for the lowest number in your data set
\newcommand*{\opacity}{70}% here you can change the opacity of the background color!
%======================================
% Data set related!
\newcommand*{\minval}{0}% define the minimum value on your data set
\newcommand*{\maxval}{0.25}% define the maximum value in your data set!
\newcommand*{\minvall}{0.75}% define the minimum value on your data set
\newcommand*{\maxvall}{1.0}% define the maximum value in your data set!
%======================================
% gradient function!
\newcommand{\grhigh}[1]{
% The values are calculated linearly between \minval and \maxval
\ifdimcomp{#1pt}{>}{\maxvall pt}{#1}{
\ifdimcomp{#1pt}{<}{\minvall pt}{#1}{
\pgfmathparse{int(round(100*(#1/(\maxvall-\minvall))-(\minvall*(100/(\maxvall-\minvall)))))}
\xdef\tempa{\pgfmathresult}
\cellcolor{high!\tempa!low!\opacity} #1
}}
}
\newcommand{\grlow}[1]{
% The values are calculated linearly between \minval and \maxval
\ifdimcomp{#1pt}{>}{\maxval pt}{#1}{
\ifdimcomp{#1pt}{<}{\minval pt}{#1}{
\pgfmathparse{int(round(100*(#1/(\maxval-\minval))-(\minval*(100/(\maxval-\minval)))))}
\xdef\tempa{\pgfmathresult}
\cellcolor{low!\tempa!high!\opacity} #1
}}
}
\begin{document}
\renewcommand{\arraystretch}{1.6}
\begin{table}[!htbp]
\centering
\resizebox{\columnwidth}{!}{%
\begin{tabular}{|c|c|c|c|c|c?c|c|c|c?c|c|c|c|}
\hline
\multicolumn{2}{|c|}{$r$} &
\multicolumn{4}{c?}{$10\%$} &
\multicolumn{4}{c?}{$30\%$} &
\multicolumn{4}{c|}{$50\%$} \\
\hline
\multicolumn{2}{|c|}{$n$} & 50 & 100 & 250 & 500 & 50 & 100 & 250 & 500 & 50 & 100 & 250 & 500 \\
\hline
\multirow{2}{*}{$d=10$} & nSHD & \grlow{0.19} & \grlow{0.11} & \grlow{0.04} & \grlow{0.03} & \grlow{0.13} & \grlow{0.1} & \grlow{0.03} & \grlow{0.03} & \grlow{0.18} & \grlow{0.15} & \grlow{0.09} & \grlow{0.08} \\ \cline{2-14}
& TPR & \grhigh{0.88} & \grhigh{0.94} & \grhigh{0.97} & \grhigh{0.99} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{1.0} & \grhigh{0.91} & \grhigh{0.93} & \grhigh{0.95} & \grhigh{0.94} \\
\hline
\multirow{2}{*}{$d=20$} & nSHD & \grlow{0.11} & \grlow{0.06} & \grlow{0.03} & \grlow{0.02} & \grlow{0.13} & \grlow{0.09} & \grlow{0.06} & \grlow{0.04} & \grlow{0.18} & \grlow{0.14} & \grlow{0.1} & \grlow{0.08} \\ \cline{2-14}
& TPR & \grhigh{0.94} & \grhigh{0.98} & \grhigh{1.0} & \grhigh{1.0} & \grhigh{0.93} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{0.86} & \grhigh{0.92} & \grhigh{0.94} & \grhigh{0.96} \\
\hline
\multirow{2}{*}{$d=30$} & nSHD & \grlow{0.1} & \grlow{0.06} & \grlow{0.03} & \grlow{0.02} & \grlow{0.12} & \grlow{0.08} & \grlow{0.05} & \grlow{0.03} & \grlow{0.15} & \grlow{0.12} & \grlow{0.09} & \grlow{0.07} \\ \cline{2-14}
& TPR & \grhigh{0.96} & \grhigh{0.97} & \grhigh{0.99} & \grhigh{1.0} & \grhigh{0.93} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{0.89} & \grhigh{0.9} & \grhigh{0.95} & \grhigh{0.96} \\
\hline
\end{tabular}
}
\vspace*{2mm}
\caption{Some Caption.}
\end{table}
\end{document}
これは色についてはうまく機能しましたが、線は適切に描画されません。たとえば、Adobe で開くと次のようになります。
垂直線と水平線が正しく描画されていないことがわかります。そこで、StackExchange で検索したところ、次のような同様の質問が見つかりました。
2 つの回避策が提案されました。1 つ目は、動作しないパッケージ nicematrix を使用し、次にテーブルを 2 回描画することです。1 回は色付き、もう 1 回は色なしです。この回答に基づいて、次のことを試しました。
\documentclass{article}
\usepackage{array}
\newcolumntype{?}{!{\vrule width 1.2pt}}
\usepackage{collcell}
\usepackage[dvipsnames,table]{xcolor}
\usepackage{multirow}
\usepackage{multicol}
\usepackage{pgf} % for calculating the values for gradient
%======================================
% Color set related!
\definecolor{high}{HTML}{00994d} % the color for the highest number in your data set
\definecolor{low}{HTML}{fff51b} % the color for the lowest number in your data set
\newcommand*{\opacity}{70}% here you can change the opacity of the background color!
%======================================
% Data set related!
\newcommand*{\minval}{0}% define the minimum value on your data set
\newcommand*{\maxval}{0.25}% define the maximum value in your data set!
\newcommand*{\minvall}{0.75}% define the minimum value on your data set
\newcommand*{\maxvall}{1.0}% define the maximum value in your data set!
%======================================
% gradient function!
\newcommand{\grhigh}[1]{
% The values are calculated linearly between \minval and \maxval
\ifdimcomp{#1pt}{>}{\maxvall pt}{#1}{
\ifdimcomp{#1pt}{<}{\minvall pt}{#1}{
\pgfmathparse{int(round(100*(#1/(\maxvall-\minvall))-(\minvall*(100/(\maxvall-\minvall)))))}
\xdef\tempa{\pgfmathresult}
\cellcolor{high!\tempa!low!\opacity} #1
}}
}
\newcommand{\grlow}[1]{
% The values are calculated linearly between \minval and \maxval
\ifdimcomp{#1pt}{>}{\maxval pt}{#1}{
\ifdimcomp{#1pt}{<}{\minval pt}{#1}{
\pgfmathparse{int(round(100*(#1/(\maxval-\minval))-(\minval*(100/(\maxval-\minval)))))}
\xdef\tempa{\pgfmathresult}
\cellcolor{low!\tempa!high!\opacity} #1
}}
}
\begin{document}
\renewcommand{\arraystretch}{1.6}
\begin{table}[!htbp]
\centering
\resizebox{\columnwidth}{!}{%
\def\tmp{
\begin{tabular}{|c|c|c|c|c|c?c|c|c|c?c|c|c|c|}
\hline
\multicolumn{2}{|c|}{$r$} &
\multicolumn{4}{c?}{$10\%$} &
\multicolumn{4}{c?}{$30\%$} &
\multicolumn{4}{c|}{$50\%$} \\
\hline
\multicolumn{2}{|c|}{$n$} & 50 & 100 & 250 & 500 & 50 & 100 & 250 & 500 & 50 & 100 & 250 & 500 \\
\hline
\multirow{2}{*}{$d=10$} & nSHD & \grlow{0.19} & \grlow{0.11} & \grlow{0.04} & \grlow{0.03} & \grlow{0.13} & \grlow{0.1} & \grlow{0.03} & \grlow{0.03} & \grlow{0.18} & \grlow{0.15} & \grlow{0.09} & \grlow{0.08} \\ \cline{2-14}
& TPR & \grhigh{0.88} & \grhigh{0.94} & \grhigh{0.97} & \grhigh{0.99} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{1.0} & \grhigh{0.91} & \grhigh{0.93} & \grhigh{0.95} & \grhigh{0.94} \\
\hline
\multirow{2}{*}{$d=20$} & nSHD & \grlow{0.11} & \grlow{0.06} & \grlow{0.03} & \grlow{0.02} & \grlow{0.13} & \grlow{0.09} & \grlow{0.06} & \grlow{0.04} & \grlow{0.18} & \grlow{0.14} & \grlow{0.1} & \grlow{0.08} \\ \cline{2-14}
& TPR & \grhigh{0.94} & \grhigh{0.98} & \grhigh{1.0} & \grhigh{1.0} & \grhigh{0.93} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{0.86} & \grhigh{0.92} & \grhigh{0.94} & \grhigh{0.96} \\
\hline
\multirow{2}{*}{$d=30$} & nSHD & \grlow{0.1} & \grlow{0.06} & \grlow{0.03} & \grlow{0.02} & \grlow{0.12} & \grlow{0.08} & \grlow{0.05} & \grlow{0.03} & \grlow{0.15} & \grlow{0.12} & \grlow{0.09} & \grlow{0.07} \\ \cline{2-14}
& TPR & \grhigh{0.96} & \grhigh{0.97} & \grhigh{0.99} & \grhigh{1.0} & \grhigh{0.93} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{0.89} & \grhigh{0.9} & \grhigh{0.95} & \grhigh{0.96} \\
\hline
\end{tabular}
}
\leavevmode
\rlap{\tmp}%
\begingroup
\renewcommand*{\cellcolor}[1]{}%
\tmp
\endgroup
}
\vspace*{2mm}
\caption{Some Caption.}
\end{table}
\end{document}
表を 2 回描画すると、数字も線も非常に太くなることがわかります。この問題の解決策を持っている人はいますか?
答え1
tabularrayこれは、線がセルの色で覆われるという問題がないパッケージを使用したアプローチです。
\documentclass{article}
\usepackage[margin=2cm]{geometry}
\usepackage{tabularray}
\UseTblrLibrary{functional}
\usepackage{pgf} % for calculating the values for gradient
%======================================
% Color set related!
\definecolor{high}{HTML}{00994d} % the color for the highest number in your data set
\definecolor{low}{HTML}{fff51b} % the color for the lowest number in your data set
\pgfmathtruncatemacro{\opacity}{70} % here you can change the opacity of the background color!
%======================================
% Data set related!
\pgfmathsetmacro{\minval}{0}% define the minimum value on your data set
\pgfmathsetmacro{\maxval}{0.25}% define the maximum value in your data set!
\pgfmathsetmacro{\minvall}{0.75}% define the minimum value on your data set
\pgfmathsetmacro{\maxvall}{1.0}% define the maximum value in your data set!
%======================================
% gradient function!
\IgnoreSpacesOn
\prgNewFunction \grhighlowColor {} {
\intStepOneInline {3} {\arabic{rowcount}} {
\intSet \lTmpaInt { \intMathMod {##1} {2} }
\intCompareTF {\lTmpaInt} = {1} {
\intStepOneInline {3} {\arabic{colcount}} {
\tlSet \lTmpbTl {\cellGetText {##1} {####1}}
\fpCompareTF {\lTmpbTl} > {\maxval} { } {
\fpCompareTF {\lTmpbTl} < {\minval} { } {
\pgfmathparse{int(round(100*(\lTmpbTl/(\maxval-\minval))-(\minval*(100/(\maxval-\minval)))))}
\cellSetStyle {##1} {####1} {bg=low!\pgfmathresult!high!\opacity}
}
}
}
} {
\intStepOneInline {3} {\arabic{colcount}} {
\tlSet \lTmpbTl {\cellGetText {##1} {####1}}
\fpCompareTF {\lTmpbTl} > {\maxvall} { } {
\fpCompareTF {\lTmpbTl} < {\minvall} { } {
\pgfmathparse{int(round(100*(\lTmpbTl/(\maxvall-\minvall))-(\minvall*(100/(\maxvall-\minvall)))))}
\cellSetStyle {##1} {####1} {bg=high!\pgfmathresult!low!\opacity}
}
}
}
}
}
}
\IgnoreSpacesOff
\begin{document}
\begin{table}\footnotesize
\begin{tblr}{
colspec = { *{2}{c} *{12}{X[c]} },
hlines,
vlines,
vline{7,11} = {1.2pt},
process=\grhighlowColor
}
\SetCell[c=2]{} $r$ & &
\SetCell[c=4]{} $10\%$ & & & &
\SetCell[c=4]{} $30\%$ & & & &
\SetCell[c=4]{} $50\%$ & & & \\
\SetCell[c=2]{} $n$ & & 50 & 100 & 250 & 500 & 50 & 100 & 250 & 500 & 50 & 100 & 250 & 500 \\
\SetCell[r=2]{} $d=10$ & nSHD & 0.19 & 0.11 & 0.04 & 0.03 & 0.13 & 0.1 & 0.03 & 0.03 & 0.18 & 0.15 & 0.09 & 0.08 \\
& TPR & 0.88 & 0.94 & 0.97 & 0.99 & 0.96 & 0.98 & 0.99 & 1.0 & 0.91 & 0.93 & 0.95 & 0.94 \\
\SetCell[r=2]{} $d=20$ & nSHD & 0.11 & 0.06 & 0.03 & 0.02 & 0.13 & 0.09 & 0.06 & 0.04 & 0.18 & 0.14 & 0.1 & 0.08 \\
& TPR & 0.94 & 0.98 & 1.0 & 1.0 & 0.93 & 0.96 & 0.98 & 0.99 & 0.86 & 0.92 & 0.94 & 0.96 \\
\SetCell[r=2]{} $d=30$ & nSHD & 0.1 & 0.06 & 0.03 & 0.02 & 0.12 & 0.08 & 0.05 & 0.03 & 0.15 & 0.12 & 0.09 & 0.07 \\
& TPR & 0.96 & 0.97 & 0.99 & 1.0 & 0.93 & 0.96 & 0.98 & 0.99 & 0.89 & 0.9 & 0.95 & 0.96 \\
\end{tblr}
\vspace*{2mm}
\caption{Some Caption.}
\end{table}
\end{document}
答え2
{NiceTabular}ので完璧な出力を得るには、 は標準 LaTeX のコマンドであり、 によって再定義されていない をnicematrix使用しないでください。ただし、のコマンドを使用する場合は、を使用する必要はありません。水平線と垂直線はブロック内に描画されないためです...\clinenicematrix\cline\Blocknicematrix
\documentclass{article}
\usepackage{collcell}
\usepackage[dvipsnames,table]{xcolor}
\usepackage{nicematrix,tikz}
\usepackage{pgf} % for calculating the values for gradient
%======================================
% Color set related!
\definecolor{high}{HTML}{00994d} % the color for the highest number in your data set
\definecolor{low}{HTML}{fff51b} % the color for the lowest number in your data set
\newcommand*{\opacity}{70}% here you can change the opacity of the background color!
%======================================
% Data set related!
\newcommand*{\minval}{0}% define the minimum value on your data set
\newcommand*{\maxval}{0.25}% define the maximum value in your data set!
\newcommand*{\minvall}{0.75}% define the minimum value on your data set
\newcommand*{\maxvall}{1.0}% define the maximum value in your data set!
%======================================
% gradient function!
\newcommand{\grhigh}[1]{
% The values are calculated linearly between \minval and \maxval
\ifdimcomp{#1pt}{>}{\maxvall pt}{#1}{
\ifdimcomp{#1pt}{<}{\minvall pt}{#1}{
\pgfmathparse{int(round(100*(#1/(\maxvall-\minvall))-(\minvall*(100/(\maxvall-\minvall)))))}
\xdef\tempa{\pgfmathresult}
\cellcolor{high!\tempa!low!\opacity} #1
}}
}
\newcommand{\grlow}[1]{
% The values are calculated linearly between \minval and \maxval
\ifdimcomp{#1pt}{>}{\maxval pt}{#1}{
\ifdimcomp{#1pt}{<}{\minval pt}{#1}{
\pgfmathparse{int(round(100*(#1/(\maxval-\minval))-(\minval*(100/(\maxval-\minval)))))}
\xdef\tempa{\pgfmathresult}
\cellcolor{low!\tempa!high!\opacity} #1
}}
}
\begin{document}
\renewcommand{\arraystretch}{1.6}
\NiceMatrixOptions
{
custom-line =
{
letter = ? ,
total-width = 1.2 pt ,
tikz = { line width = 1.2 pt }
}
}
\begin{table}[!htbp]
\centering
\resizebox{\columnwidth}{!}{%
\begin{NiceTabular}{|c|c|c|c|c|c?c|c|c|c?c|c|c|c|}[hlines]
\Block{1-2}{$r$} &&
\Block{1-4}{$10\%$} &&&&
\Block{1-4}{$30\%$} &&&&
\Block{1-4}{$50\%$} \\
\Block{1-2}{$n$} && 50 & 100 & 250 & 500 & 50 & 100 & 250 & 500 & 50 & 100 & 250 & 500 \\
\Block{2-1}{$d=10$} & nSHD & \grlow{0.19} & \grlow{0.11} & \grlow{0.04} & \grlow{0.03} & \grlow{0.13} & \grlow{0.1} & \grlow{0.03} & \grlow{0.03} & \grlow{0.18} & \grlow{0.15} & \grlow{0.09} & \grlow{0.08} \\
& TPR & \grhigh{0.88} & \grhigh{0.94} & \grhigh{0.97} & \grhigh{0.99} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{1.0} & \grhigh{0.91} & \grhigh{0.93} & \grhigh{0.95} & \grhigh{0.94} \\
\Block{2-1}{$d=20$} & nSHD & \grlow{0.11} & \grlow{0.06} & \grlow{0.03} & \grlow{0.02} & \grlow{0.13} & \grlow{0.09} & \grlow{0.06} & \grlow{0.04} & \grlow{0.18} & \grlow{0.14} & \grlow{0.1} & \grlow{0.08} \\
& TPR & \grhigh{0.94} & \grhigh{0.98} & \grhigh{1.0} & \grhigh{1.0} & \grhigh{0.93} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{0.86} & \grhigh{0.92} & \grhigh{0.94} & \grhigh{0.96} \\
\Block{2-1}{$d=30$} & nSHD & \grlow{0.1} & \grlow{0.06} & \grlow{0.03} & \grlow{0.02} & \grlow{0.12} & \grlow{0.08} & \grlow{0.05} & \grlow{0.03} & \grlow{0.15} & \grlow{0.12} & \grlow{0.09} & \grlow{0.07} \\
& TPR & \grhigh{0.96} & \grhigh{0.97} & \grhigh{0.99} & \grhigh{1.0} & \grhigh{0.93} & \grhigh{0.96} & \grhigh{0.98} & \grhigh{0.99} & \grhigh{0.89} & \grhigh{0.9} & \grhigh{0.95} & \grhigh{0.96} \\
\end{NiceTabular}
}
\vspace*{2mm}
\caption{Some Caption.}
\end{table}
\end{document}
いつものようにnicematrix、複数のコンパイルが必要です。
