我正在尝试让下表跨越多个页面或列。我尝试使用 longtable 代替 table,但最终导致其他问题。有人知道如何解决这个问题吗?谢谢。
\begin{table}[!ht]
\centering\captionsetup{justification = centering}
\begin{tabular}{|c c c c c c|}
\hline
\#Nodes & Partition Type & Time & Cut & Energy & Modularity \\ [0.5ex]
\hline\hline
\multirow{8}{*}{9} & \rowcolor{yellow} kernighan-lin & 473.26 $\mu$s & -11 & 17 & 0.170 \\
& girvan-newman \rowcolor{yellow} & 2.01 ms & -7 & 20 & 0.180 \\
& \rowcolor{cyan} ideal cut & 46.04 ms & -11 & 19 & 0.186 \\
& \rowcolor{cyan} ideal energy & 46.04 ms & -7 & 20 & 0.180 \\
& \rowcolor{cyan} ideal modularity & 46.04 ms & -11 & 19 & 0.186 \\
& \rowcolor{pink} SNN \#0 & 1.46 ns & -7 & 15 & 0.125 \\
& \rowcolor{pink} SNN \#1 & 1.46 ns & -11 & 16 & 0.186 \\
& \rowcolor{pink} SNN \#2 & 1.46 ns & -11 & 17 & 0.170 \\ \hline
\multirow{8}{*}{18} & \rowcolor{yellow} kernighan-lin & 715.02 $\mu$s & -60 & 83 & 0.284 \\
& \rowcolor{yellow} girvan-newman & 29.86 ms & -64 & 89 & 0.306 \\
& \rowcolor{cyan} ideal cut & 72.48 s & -64 & 89 & 0.305 \\
& \rowcolor{cyan} ideal energy & 72.48 s & 32 & 101 & 0.149 \\
& \rowcolor{cyan} ideal modularity & 72.48 s & -64 & 89 & 0.305 \\
& \rowcolor{pink} SNN \#0 & 5.83 ns & -32 & 67 & 0.245 \\
& \rowcolor{pink} SNN \#1 & 5.83 ns & -32 & 73 & 0.183 \\
& \rowcolor{pink} SNN \#2 & 5.83 ns & -36 & 73 & 0.208 \\
& \rowcolor{pink} SNN \#3 & 5.83 ns & -44 & 74 & 0.247 \\ \hline
\multirow{5}{*}{20} & \rowcolor{yellow} kernighan-lin & 979.42 $\mu$s & -74 & 85 & 0.203 \\
& \rowcolor{yellow} girvan-newman & 44.43 ms & -82 & 85 & 0.224 \\
& \rowcolor{pink} SNN \#0 & 7.20 ns & -42 & 67 & 0.170 \\
& \rowcolor{pink} SNN \#1 & 7.20 ns & -46 & 70 & 0.160 \\
& \rowcolor{pink} SNN \#2 & 7.20 ns & -58 & 74 & 0.184 \\ \hline
\multirow{9}{*}{22} & \rowcolor{yellow} metis & 1.64 ms & -92 & 91 & 0.177 \\
& \rowcolor{yellow} kernighan-lin & 1.61 ms & -92 & 89 & 0.177 \\
& \rowcolor{yellow} girvan-newman & 84.34 ms & 180 & 101 & -0.00296 \\
& \rowcolor{cyan} ideal cut & 2.09 ks & -92 & 93 & 0.178 \\
& \rowcolor{cyan} ideal energy & 2.09 ks & -36 & 101 & 0.124 \\
& \rowcolor{cyan} ideal modularity & 2.09 ks & -92 & 93 & 0.178 \\
& \rowcolor{pink} SNN \#0 & 8.71 ns & -76 & 81 & 0.152, \\
& \rowcolor{pink} SNN \#1 & 8.71 ns & -76 & 81 & 0.152 \\
& \rowcolor{pink} SNN \#2 & 8.71 ns & -88 & 88 & 0.169 \\ \hline
\multirow{8}{*}{24} & \rowcolor{yellow} kernighan-lin & 1.32 ms & -104 & 108 & 0.173 \\
& \rowcolor{yellow} girvan_newman & 156.77 ms & -104 & 104 & 0.178 \\
& \rowcolor{cyan} ideal cut & 8.58 ks & -108 & 108 & 0.18 \\
& \rowcolor{cyan} ideal energy & 8.58 ks & -44 & 126 & 0.133 \\
& \rowcolor{cyan} ideal modularity & 8.58 ks & -108 & 108 & 0.18 \\
& \rowcolor{pink} SNN \#0 & 10.37 ns & -96 & 100 & 0.166 \\
& \rowcolor{pink} SNN \#1 & 10.37 ns & -96 & 100 & 0.166 \\
& \rowcolor{pink} SNN \#2 & 10.37 ns & -100 & 103 & 0.172 \\ \hline
\multirow{9}{*}{24} & \rowcolor{yellow} metis & 1.36 ms & -120 & 153 & 0.306 \\
& \rowcolor{yellow} kernighan-lin & 15.03 ms & -120 & 153 & 0.306 \\
& \rowcolor{yellow} girvan-newman & 113.37 ms & -104 & 142 & 0.272 \\
& \rowcolor{cyan} ideal cut & 11.05 ks & -120 & 150 & 0.306 \\
& \rowcolor{cyan} ideal energy & 11.05 ks & 76 & 178 & 0.125 \\
& \rowcolor{cyan} ideal modularity & 11.05 ks & -120 & 150 & 0.306 \\
& \rowcolor{pink} SNN \#0 & 1.44 ns & -84 & 160 & 0.234 \\
& \rowcolor{pink} SNN \#1 & 1.44 ns & -104 & 163 & 0.287 \\
& \rowcolor{pink} SNN \#2 & 1.44 ns & -116 & 157 & 0.3 \\ \hline
\multirow{10}{*}{25} & \rowcolor{yellow} kernighan-lin & 56.65 ms & -131 & 121 & 0.202 \\
& \rowcolor{yellow} girvan-newman & 547.38 ms & -135 & 120 & 0.209 \\
& \rowcolor{cyan} ideal cut & 19.97 ks & -135 & 120 & 0.209 \\
& \rowcolor{cyan} ideal energy & 19.97 ks & -59 & 138 & 0.147 \\
& \rowcolor{cyan} ideal modularity & 19.97 ks & -135 & 120 & 0.209 \\
& \rowcolor{pink} SNN \#0 & 11.25 ns & -107 & 106 & 0.184 \\
& \rowcolor{pink} SNN \#1 & 11.25 ns & -103 & 106 & 0.177 \\
& \rowcolor{pink} SNN \#2 & 11.25 ns & -107 & 106 & 0.184 \\
& \rowcolor{pink} SNN \#3 & 11.25 ns & -87 & 103 & 0.155 \\
& \rowcolor{pink} SNN \#4 & 11.25 ns & -107 & 106 & 0.184 \\ \hline
\multirow{6}{*}{35} & \rowcolor{yellow} kernighan-lin & 1.66 ms & -233 & 324 & 0.294 \\
& \rowcolor{yellow} girvan-newman & 584.88 ms & -185 & 364 & 0.274 \\
& \rowcolor{pink} SNN \#0 & 22.05 ns & -157 & 269 & 0.269 \\
& \rowcolor{pink} SNN \#1 & 22.05 ns & -93 & 251 & 0.218 \\
& \rowcolor{pink} SNN \#2 & 22.05 ns & -117 & 252 & 0.255 \\
& \rowcolor{pink} SNN \#3 & 22.05 ns & -105 & 250 & 0.241 \\ \hline
\multirow{5}{*}{50} & \rowcolor{yellow} kernighan-lin & 2.02 ms & -356 & 770 & 0.348 \\
& \rowcolor{yellow} girvan-newman & 776.80 ms & -8 & 556 & 0.269 \\
& \rowcolor{pink} SNN \#0 & 45.00 ns & 92 & 522 & 0.240 \\
& \rowcolor{pink} SNN \#1 & 45.00 ns & 108 & 520 & 0.225 \\
& \rowcolor{pink} SNN \#2 & 45.00 ns & 68 & 545 & 0.200 \\ \hline
\multirow{5}{*}{50} & \rowcolor{yellow} metis & 2.93 ms & -488 & 676 & 0.286 \\
& \rowcolor{yellow} kernighan-lin & 2.65 ms & -480 & 669 & 0.286 \\
& \rowcolor{yellow} girvan-newman & 3.15 s & -424 & 604 & 0.273 \\
& \rowcolor{pink} SNN \#0 & 45.00 ns & -400 & 592 & 0.266 \\
& \rowcolor{pink} SNN \#1 & 45.00 ns & -444 & 611 & 0.282 \\ \hline
\end{tabular}
\caption{Results from simulations.}
\label{tab:results}
\end{table}
答案1
由于tabular环境不能跨越超过一页,我建议您尝试使用longtable。
我认为这不是一个好主意,\multirow因为数字经常出现在蓝色区域,很难被发现(和读取)。
我还将加载booktabs包并使用\addlinespace而不是\hline在行组之间创建偏移量。
最后但同样重要的一点是,考虑将最后三列的数字与其(隐式或显式)小数点对齐,以使其更易于阅读。
最后说一句:我不能说我理解这种华丽的配色方案。你的读者应该知道这些颜色代表什么吗?
\documentclass{article} % or some other suitable document class
\usepackage{longtable,siunitx,booktabs}
\usepackage[table]{xcolor}
\begin{document}
\begin{longtable}{ ll c
S[table-format=-2.0]
S[table-format= 3.0]
S[table-format=-1.5,group-digits=false]}
% headers and footers
\caption{Results from simulations.} \label{tab:results} \\
\toprule
\# Nodes & Partition Type & Time & {Cut} & {Energy} & {Modularity} \\[0.25ex]
\hline
\endfirsthead
\multicolumn{6}{l}{Table \thetable, continued} \\[1ex]
\toprule
\# Nodes & Partition Type & Time & {Cut} & {Energy} & {Modularity} \\[0.25ex]
\hline
\endhead
\multicolumn{6}{r@{}}{\footnotesize(continued on following page)} \\
\endfoot
\hline
\endlastfoot
% body of table
\rowcolor{yellow} \textbf{9}
& kernighan-lin & 473.26 \textmu s & -11 & 17 & 0.170 \\
\rowcolor{yellow} & girvan-newman & 2.01 ms & -7 & 20 & 0.180 \\
\rowcolor{cyan} & ideal cut & 46.04 ms & -11 & 19 & 0.186 \\
\rowcolor{cyan} & ideal energy & 46.04 ms & -7 & 20 & 0.180 \\
\rowcolor{cyan} & ideal modularity & 46.04 ms & -11 & 19 & 0.186 \\
\rowcolor{pink} & SNN \#0 & 1.46 ns & -7 & 15 & 0.125 \\
\rowcolor{pink} & SNN \#1 & 1.46 ns & -11 & 16 & 0.186 \\
\rowcolor{pink} & SNN \#2 & 1.46 ns & -11 & 17 & 0.170 \\
\addlinespace
\rowcolor{yellow} \textbf{18}
& kernighan-lin & 715.02 \textmu s & -60 & 83 & 0.284 \\
\rowcolor{yellow} & girvan-newman & 29.86 ms & -64 & 89 & 0.306 \\
\rowcolor{cyan} & ideal cut & 72.48 s & -64 & 89 & 0.305 \\
\rowcolor{cyan} & ideal energy & 72.48 s & 32 & 101 & 0.149 \\
\rowcolor{cyan} & ideal modularity & 72.48 s & -64 & 89 & 0.305 \\
\rowcolor{pink} & SNN \#0 & 5.83 ns & -32 & 67 & 0.245 \\
\rowcolor{pink} & SNN \#1 & 5.83 ns & -32 & 73 & 0.183 \\
\rowcolor{pink} & SNN \#2 & 5.83 ns & -36 & 73 & 0.208 \\
\rowcolor{pink} & SNN \#3 & 5.83 ns & -44 & 74 & 0.247 \\
\addlinespace
\rowcolor{yellow} \textbf{20}
& kernighan-lin & 979.42 \textmu s & -74 & 85 & 0.203 \\
\rowcolor{yellow} & girvan-newman & 44.43 ms & -82 & 85 & 0.224 \\
\rowcolor{pink} & SNN \#0 & 7.20 ns & -42 & 67 & 0.170 \\
\rowcolor{pink} & SNN \#1 & 7.20 ns & -46 & 70 & 0.160 \\
\rowcolor{pink} & SNN \#2 & 7.20 ns & -58 & 74 & 0.184 \\
\addlinespace
\rowcolor{yellow} \textbf{22}
& metis & 1.64 ms & -92 & 91 & 0.177 \\
\rowcolor{yellow} & kernighan-lin & 1.61 ms & -92 & 89 & 0.177 \\
\rowcolor{yellow} & girvan-newman & 84.34 ms & 180 & 101 & -0.00296 \\
\rowcolor{cyan} & ideal cut & 2.09 ks & -92 & 93 & 0.178 \\
\rowcolor{cyan} & ideal energy & 2.09 ks & -36 & 101 & 0.124 \\
\rowcolor{cyan} & ideal modularity & 2.09 ks & -92 & 93 & 0.178 \\
\rowcolor{pink} & SNN \#0 & 8.71 ns & -76 & 81 & 0.152 \\
\rowcolor{pink} & SNN \#1 & 8.71 ns & -76 & 81 & 0.152 \\
\rowcolor{pink} & SNN \#2 & 8.71 ns & -88 & 88 & 0.169 \\
\addlinespace
\rowcolor{yellow} \textbf{24}
& kernighan-lin & 1.32 ms & -104 & 108 & 0.173 \\
\rowcolor{yellow} & girvan-newman & 156.77 ms & -104 & 104 & 0.178 \\
\rowcolor{cyan} & ideal cut & 8.58 ks & -108 & 108 & 0.18 \\
\rowcolor{cyan} & ideal energy & 8.58 ks & -44 & 126 & 0.133 \\
\rowcolor{cyan} & ideal modularity & 8.58 ks & -108 & 108 & 0.18 \\
\rowcolor{pink} & SNN \#0 & 10.37 ns & -96 & 100 & 0.166 \\
\rowcolor{pink} & SNN \#1 & 10.37 ns & -96 & 100 & 0.166 \\
\rowcolor{pink} & SNN \#2 & 10.37 ns & -100 & 103 & 0.172 \\
%\addlinespace
\rowcolor{yellow} \textbf{24}
& metis & 1.36 ms & -120 & 153 & 0.306 \\* % no page break at this line
\rowcolor{yellow} & kernighan-lin & 15.03 ms & -120 & 153 & 0.306 \\
\rowcolor{yellow} & girvan-newman & 113.37 ms & -104 & 142 & 0.272 \\
\rowcolor{cyan} & ideal cut & 11.05 ks & -120 & 150 & 0.306 \\
\rowcolor{cyan} & ideal energy & 11.05 ks & 76 & 178 & 0.125 \\
\rowcolor{cyan} & ideal modularity & 11.05 ks & -120 & 150 & 0.306 \\
\rowcolor{pink} & SNN \#0 & 1.44 ns & -84 & 160 & 0.234 \\
\rowcolor{pink} & SNN \#1 & 1.44 ns & -104 & 163 & 0.287 \\
\rowcolor{pink} & SNN \#2 & 1.44 ns & -116 & 157 & 0.3 \\
\addlinespace
\rowcolor{yellow} \textbf{25}
& kernighan-lin & 56.65 ms & -131 & 121 & 0.202 \\
\rowcolor{yellow} & girvan-newman & 547.38 ms & -135 & 120 & 0.209 \\
\rowcolor{cyan} & ideal cut & 19.97 ks & -135 & 120 & 0.209 \\
\rowcolor{cyan} & ideal energy & 19.97 ks & -59 & 138 & 0.147 \\
\rowcolor{cyan} & ideal modularity & 19.97 ks & -135 & 120 & 0.209 \\
\rowcolor{pink} & SNN \#0 & 11.25 ns & -107 & 106 & 0.184 \\
\rowcolor{pink} & SNN \#1 & 11.25 ns & -103 & 106 & 0.177 \\
\rowcolor{pink} & SNN \#2 & 11.25 ns & -107 & 106 & 0.184 \\
\rowcolor{pink} & SNN \#3 & 11.25 ns & -87 & 103 & 0.155 \\
\rowcolor{pink} & SNN \#4 & 11.25 ns & -107 & 106 & 0.184 \\
\addlinespace
\rowcolor{yellow} \textbf{35}
& kernighan-lin & 1.66 ms & -233 & 324 & 0.294 \\
\rowcolor{yellow} & girvan-newman & 584.88 ms & -185 & 364 & 0.274 \\
\rowcolor{pink} & SNN \#0 & 22.05 ns & -157 & 269 & 0.269 \\
\rowcolor{pink} & SNN \#1 & 22.05 ns & -93 & 251 & 0.218 \\
\rowcolor{pink} & SNN \#2 & 22.05 ns & -117 & 252 & 0.255 \\
\rowcolor{pink} & SNN \#3 & 22.05 ns & -105 & 250 & 0.241 \\
\addlinespace
\rowcolor{yellow} \textbf{50}
& kernighan-lin & 2.02 ms & -356 & 770 & 0.348 \\
\rowcolor{yellow} & girvan-newman & 776.80 ms & -8 & 556 & 0.269 \\
\rowcolor{pink} & SNN \#0 & 45.00 ns & 92 & 522 & 0.240 \\
\rowcolor{pink} & SNN \#1 & 45.00 ns & 108 & 520 & 0.225 \\
\rowcolor{pink} & SNN \#2 & 45.00 ns & 68 & 545 & 0.200 \\
\addlinespace
\rowcolor{yellow} \textbf{50}
& metis & 2.93 ms & -488 & 676 & 0.286 \\
\rowcolor{yellow} & kernighan-lin & 2.65 ms & -480 & 669 & 0.286 \\
\rowcolor{yellow} & girvan-newman & 3.15 s & -424 & 604 & 0.273 \\
\rowcolor{pink} & SNN \#0 & 45.00 ns & -400 & 592 & 0.266 \\
\rowcolor{pink} & SNN \#1 & 45.00 ns & -444 & 611 & 0.282 \\
\end{longtable}
\end{document}
答案2
长表格不应插入table浮动中。这可防止表格跨越多页。
表格设计稍微改变了一点(“时间”列被两列替换:S和s,用于tabularray包含booktabs和siunitx库的包(加载相同名称的包),表格行以异常结束\\*,允许在页面之间拆分表格:
\documentclass{article} % or some other suitable document class
%---------------- show page layout. don't use in a real document!
\usepackage{showframe}
\renewcommand\ShowFrameLinethickness{0.15pt}
\renewcommand*\ShowFrameColor{\color{red}}
%---------------------------------------------------------------%
\usepackage{xcolor}
\usepackage{tabularray}
\UseTblrLibrary{booktabs, siunitx}
\SetTblrStyle{contfoot}{font=\footnotesize\sffamily\itshape}
\NewColumnType{u}[1][]{Q[si={#1},l,cmd=\TblrUnit]}
\begin{document}
\begin{longtblr}[
caption = {Results from simulations.},
label = {tab:results}
]{colspec = {l l
Q[si={table-format= 3.2{\,},
table-number-alignment=right}] @{}
u % <--- for typing units, left aligned
S[table-format=-2.0]
S[table-format= 3.0]
S[table-format=-1.5,group-digits=false]
},
cell{2-Z}{1} = {font=\bfseries},
row{1} = {guard},
rowsep = 0.25pt,
rowhead = 1,
}
% table body
\toprule
\# Nodes
& Partition Type
& \SetCell[c=2]{c} Time
& & Cut
& Energy
& Modularity \\
\midrule
% body of table
\SetRow{bg=yellow}
9 & kernighan-lin & 473.26 & \micro\second & -11 & 17 & 0.170 \\*
\SetRow{bg=yellow}
& girvan-newman & 2.01 & \milli\second & -7 & 20 & 0.180 \\*
\SetRow{bg=cyan}
& ideal cut & 46.04 & \milli\second & -11 & 19 & 0.186 \\*
\SetRow{bg=cyan}
& ideal energy & 46.04 & \milli\second & -7 & 20 & 0.180 \\*
\SetRow{bg=cyan}
& ideal modularity & 46.04 & \milli\second & -11 & 19 & 0.186 \\*
\SetRow{bg=pink}
& SNN \#0 & 1.46 & \nano\second & -7 & 15 & 0.125 \\*
\SetRow{bg=pink}
& SNN \#1 & 1.46 & \nano\second & -11 & 16 & 0.186 \\*
\SetRow{bg=pink}
& SNN \#2 & 1.46 & \nano\second & -11 & 17 & 0.170 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow}
18 & kernighan-lin & 715.02 & \micro\second & -60 & 83 & 0.284 \\*
\SetRow{bg=yellow}
& girvan-newman & 29.86 & \milli\second & -64 & 89 & 0.306 \\*
\SetRow{bg=cyan}
& ideal cut & 72.48 & \second & -64 & 89 & 0.305 \\*
\SetRow{bg=cyan}
& ideal energy & 72.48 & \second & 32 & 101 & 0.149 \\*
\SetRow{bg=cyan}
& ideal modularity & 72.48 & \second & -64 & 89 & 0.305 \\*
\SetRow{bg=pink}
& SNN \#0 & 5.83 & \nano\second & -32 & 67 & 0.245 \\*
\SetRow{bg=pink}
& SNN \#1 & 5.83 & \nano\second & -32 & 73 & 0.183 \\*
\SetRow{bg=pink}
& SNN \#2 & 5.83 & \nano\second & -36 & 73 & 0.208 \\*
\SetRow{bg=pink}
& SNN \#3 & 5.83 & \nano\second & -44 & 74 & 0.247 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow} \
20 & kernighan-lin & 979.42 & \second & -74 & 85 & 0.203 \\*
\SetRow{bg=yellow}
& girvan-newman & 44.43 & \milli\second & -82 & 85 & 0.224 \\*
\SetRow{bg=pink}
& SNN \#0 & 7.20 & \nano\second & -42 & 67 & 0.170 \\*
\SetRow{bg=pink}
& SNN \#1 & 7.20 & \nano\second & -46 & 70 & 0.160 \\*
\SetRow{bg=pink}
& SNN \#2 & 7.20 & \nano\second & -58 & 74 & 0.184 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow}
22 & metis & 1.64 & \milli\second & -92 & 91 & 0.177 \\*
\SetRow{bg=yellow}
& kernighan-lin & 1.61 & \milli\second & -92 & 89 & 0.177 \\*
\SetRow{bg=yellow}
& girvan-newman & 84.34 & \milli\second & 180 & 101 & -0.00296 \\*
\SetRow{bg=cyan}
& ideal cut & 2.09 & \kilo\second & -92 & 93 & 0.178 \\*
\SetRow{bg=cyan}
& ideal energy & 2.09 & \kilo\second & -36 & 101 & 0.124 \\*
\SetRow{bg=cyan}
& ideal modularity & 2.09 & \kilo\second & -92 & 93 & 0.178 \\*
\SetRow{bg=pink}
& SNN \#0 & 8.71 & \nano\second & -76 & 81 & 0.152 \\*
\SetRow{bg=pink}
& SNN \#1 & 8.71 & \nano\second & -76 & 81 & 0.152 \\*
\SetRow{bg=pink}
& SNN \#2 & 8.71 & \nano\second & -88 & 88 & 0.169 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow}
24 & kernighan-lin & 1.32 & \milli\second & -104 & 108 & 0.173 \\*
\SetRow{bg=yellow}
& girvan-newman & 156.77 & \milli\second & -104 & 104 & 0.178 \\*
\SetRow{bg=cyan}
& ideal cut & 8.58 & \kilo\second & -108 & 108 & 0.18 \\*
\SetRow{bg=cyan}
& ideal energy & 8.58 & \kilo\second & -44 & 126 & 0.133 \\*
\SetRow{bg=cyan}
& ideal modularity & 8.58 & \kilo\second & -108 & 108 & 0.18 \\*
\SetRow{bg=pink}
& SNN \#0 & 10.37 & \nano\second & -96 & 100 & 0.166 \\*
\SetRow{bg=pink}
& SNN \#1 & 10.37 & \nano\second & -96 & 100 & 0.166 \\*
\SetRow{bg=pink}
& SNN \#2 & 10.37 & \nano\second & -100 & 103 & 0.172 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow}
24 & metis & 1.36 & \milli\second & -120 & 153 & 0.306 \\*
\SetRow{bg=yellow}
& kernighan-lin & 15.03 & \milli\second & -120 & 153 & 0.306 \\*
\SetRow{bg=yellow}
& girvan-newman & 113.37 & \milli\second & -104 & 142 & 0.272 \\*
\SetRow{bg=cyan}
& ideal cut & 11.05 & \kilo\second & -120 & 150 & 0.306 \\*
\SetRow{bg=cyan}
& ideal energy & 11.05 & \kilo\second & 76 & 178 & 0.125 \\*
\SetRow{bg=cyan}
& ideal modularity & 11.05 & \kilo\second & -120 & 150 & 0.306 \\*
\SetRow{bg=pink}
& SNN \#0 & 1.44 & \nano\second & -84 & 160 & 0.234 \\*
\SetRow{bg=pink}
& SNN \#1 & 1.44 & \nano\second & -104 & 163 & 0.287 \\*
\SetRow{bg=pink}
& SNN \#2 & 1.44 & \nano\second & -116 & 157 & 0.3 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow}
25 & kernighan-lin & 56.65 & \milli\second & -131 & 121 & 0.202 \\*
\SetRow{bg=yellow}
& girvan-newman & 547.38 & \milli\second & -135 & 120 & 0.209 \\*
\SetRow{bg=cyan}
& ideal cut & 19.97 & \kilo\second & -135 & 120 & 0.209 \\*
\SetRow{bg=cyan}
& ideal energy & 19.97 & \kilo\second & -59 & 138 & 0.147 \\*
\SetRow{bg=cyan}
& ideal modularity & 19.97 & \kilo\second & -135 & 120 & 0.209 \\*
\SetRow{bg=pink}
& SNN \#0 & 11.25 & \nano\second & -107 & 106 & 0.184 \\*
\SetRow{bg=pink}
& SNN \#1 & 11.25 & \nano\second & -103 & 106 & 0.177 \\*
\SetRow{bg=pink}
& SNN \#2 & 11.25 & \nano\second & -107 & 106 & 0.184 \\*
\SetRow{bg=pink}
& SNN \#3 & 11.25 & \nano\second & -87 & 103 & 0.155 \\*
\SetRow{bg=pink}
& SNN \#4 & 11.25 & \nano\second & -107 & 106 & 0.184 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow}
35 & kernighan-lin & 1.66 & \milli\second & -233 & 324 & 0.294 \\*
\SetRow{bg=yellow}
& girvan-newman & 584.88 & \milli\second & -185 & 364 & 0.274 \\*
\SetRow{bg=pink}
& SNN \#0 & 22.05 & \nano\second & -157 & 269 & 0.269 \\*
\SetRow{bg=pink}
& SNN \#1 & 22.05 & \nano\second & -93 & 251 & 0.218 \\*
\SetRow{bg=pink}
& SNN \#2 & 22.05 & \nano\second & -117 & 252 & 0.255 \\*
\SetRow{bg=pink}
& SNN \#3 & 22.05 & \nano\second & -105 & 250 & 0.241 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow}
50 & kernighan-lin & 2.02 & \milli\second & -356 & 770 & 0.348 \\*
\SetRow{bg=yellow}
& girvan-newman & 776.80 & \milli\second & -8 & 556 & 0.269 \\*
\SetRow{bg=pink}
& SNN \#0 & 45.00 & \nano\second & 92 & 522 & 0.240 \\*
\SetRow{bg=pink}
& SNN \#1 & 45.00 & \nano\second & 108 & 520 & 0.225 \\*
\SetRow{bg=pink}
& SNN \#2 & 45.00 & \nano\second & 68 & 545 & 0.200 \\
\midrule[3pt, fg=white]
\SetRow{bg=yellow}
50 & metis & 2.93 & \milli\second & -488 & 676 & 0.286 \\
\SetRow{bg=yellow}
& kernighan-lin & 2.65 & \milli\second & -480 & 669 & 0.286 \\
\SetRow{bg=yellow}
& girvan-newman & 3.15 & \second & -424 & 604 & 0.273 \\
\SetRow{bg=pink}
& SNN \#0 & 45.00 & \nano\second & -400 & 592 & 0.266 \\
\SetRow{bg=pink}
& SNN \#1 & 45.00 & \nano\second & -444 & 611 & 0.282 \\
\end{longtblr}
\end{document}
