如何将旋转后的两表格放在同一页

2020-10-27 15:46发布

## 编译环境 操作系统 * [10 ] Windows 7/8/10 * [ ] macOS * [ ] Linux `若需勾选,请把[ ]改成[x]` Tex发行版 * [2019 ] TexL...

## 编译环境 操作系统 * [10 ] Windows 7/8/10 * [ ] macOS * [ ] Linux `若需勾选,请把[ ]改成[x]` Tex发行版 * [2019 ] TexLive `年份` * [ ] MikTeX `版本号` * [ ] CTeX `若需勾选,请把[ ]改成[x]` ## 我的问题 如何将旋转后的两个表格放到同一页中? ``` \documentclass{article} \usepackage{geometry} \geometry{left=1in,right=1in,top=1in,bottom=1in} \renewcommand{\baselinestretch}{2.0} \usepackage[pdftex]{graphicx}\usepackage{xcolor} \usepackage{setspace} \usepackage{rotating} \usepackage{float} \begin{document} This paragraph are used to test the width of pages. The question is that why two table are not listed in the same page while there are sufficient blank. \begin{sidewaystable}[] \setlength{\abovecaptionskip}{0pt} \setlength{\belowcaptionskip}{10pt} \caption{Results 1} \label{Table1} %\[2mm] \centering \begin{tabular}{lccccccc} \hline Parameter & $\epsilon=0.2 $ & $\epsilon=0.4 $ & $\epsilon=0.6 $ & $\epsilon=0.8 $ & $\epsilon=1 $ & $\epsilon=2 $ & $\epsilon=3 $ \\ \hline $C=0.3$ & (1.5250,11.7501) & (1.5250,11.7501) & (1.5250,11.7501) & (1.5243,11.7574) & (1.8463,6.3090) & (1.8388,6.3194) & (1.7228,8.8904) \\ $C=0.4$ & (1.5759,10.9927) & (1.5253,11.7461) & (1.5250,11.749) & (1.6935,9.3009) & (1.8460,6.3092) & (1.8388,6.3194) & (1.7788,8.0317) \\ $C=0.7$ & (1.7011,8.7172) & (1.7471,8.0070) & (1.7931,7.2965) & (1.8532,6.3053) & (1.8451,6.3101) & (1.8384,6.3200) & (1.7788,8.0317) \\ $C=1$ & (1.7012,8.7172) & (1.7471,8.0069) & (1.8415,6.3149) & (1.8522,6.3051) & (1.8851,5.8759) & (1.8500,6.1850) & (1.7788,8.0317) \\ $C=2$ & (1.8163,6.4367) & (1.8308,6.3363) & (1.8426,6.3133) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=3$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=4$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=5$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=10$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=20$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=50$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=100$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.185) & (1.8049,7.4512) \\ \hline \end{tabular} \end{sidewaystable} \begin{sidewaystable}[] \setlength{\abovecaptionskip}{0pt} \setlength{\belowcaptionskip}{10pt} \caption{Results 2} \label{Table2} %\[2mm] \centering \begin{tabular}{lccccccc} \hline Parameter & $\epsilon=0.2 $ & $\epsilon=0.4 $ & $\epsilon=0.6 $ & $\epsilon=0.8 $ & $\epsilon=1 $ & $\epsilon=2 $ & $\epsilon=3 $ \\ \hline $C=0.3$ & (1.5250,11.7501) & (1.5250,11.7501) & (1.5250,11.7501) & (1.5243,11.7574) & (1.8463,6.3090) & (1.8388,6.3194) & (1.7228,8.8904) \\ $C=0.4$ & (1.5759,10.9927) & (1.5253,11.7461) & (1.5250,11.749) & (1.6935,9.3009) & (1.8460,6.3092) & (1.8388,6.3194) & (1.7788,8.0317) \\ $C=0.7$ & (1.7011,8.7172) & (1.7471,8.0070) & (1.7931,7.2965) & (1.8532,6.3053) & (1.8451,6.3101) & (1.8384,6.3200) & (1.7788,8.0317) \\ $C=1$ & (1.7012,8.7172) & (1.7471,8.0069) & (1.8415,6.3149) & (1.8522,6.3051) & (1.8851,5.8759) & (1.8500,6.1850) & (1.7788,8.0317) \\ $C=2$ & (1.8163,6.4367) & (1.8308,6.3363) & (1.8426,6.3133) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=3$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=4$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=5$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=10$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=20$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=50$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=100$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.185) & (1.8049,7.4512) \\ \hline \end{tabular} \end{sidewaystable} \end{document} ```
1条回答
zhaochongbin
2020-10-27 15:56
放在同一个 `sidewaystable` 环境里就好了 ```tex \documentclass{article} \usepackage{geometry} \geometry{left=1in,right=1in,top=1in,bottom=1in} \renewcommand{\baselinestretch}{2.0} \usepackage[pdftex]{graphicx}\usepackage{xcolor} \usepackage{setspace} \usepackage{rotating} \usepackage{float} \begin{document} This paragraph are used to test the width of pages. The question is that why two table are not listed in the same page while there are sufficient blank. \begin{sidewaystable}[] \setlength{\abovecaptionskip}{0pt} \setlength{\belowcaptionskip}{10pt} \caption{Results 1} \label{Table1} %\[2mm] \centering \begin{tabular}{lccccccc} \hline Parameter & $\epsilon=0.2 $ & $\epsilon=0.4 $ & $\epsilon=0.6 $ & $\epsilon=0.8 $ & $\epsilon=1 $ & $\epsilon=2 $ & $\epsilon=3 $ \\ \hline $C=0.3$ & (1.5250,11.7501) & (1.5250,11.7501) & (1.5250,11.7501) & (1.5243,11.7574) & (1.8463,6.3090) & (1.8388,6.3194) & (1.7228,8.8904) \\ $C=0.4$ & (1.5759,10.9927) & (1.5253,11.7461) & (1.5250,11.749) & (1.6935,9.3009) & (1.8460,6.3092) & (1.8388,6.3194) & (1.7788,8.0317) \\ $C=0.7$ & (1.7011,8.7172) & (1.7471,8.0070) & (1.7931,7.2965) & (1.8532,6.3053) & (1.8451,6.3101) & (1.8384,6.3200) & (1.7788,8.0317) \\ $C=1$ & (1.7012,8.7172) & (1.7471,8.0069) & (1.8415,6.3149) & (1.8522,6.3051) & (1.8851,5.8759) & (1.8500,6.1850) & (1.7788,8.0317) \\ $C=2$ & (1.8163,6.4367) & (1.8308,6.3363) & (1.8426,6.3133) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=3$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=4$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=5$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=10$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=20$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=50$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=100$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.185) & (1.8049,7.4512) \\ \hline \end{tabular} \setlength{\abovecaptionskip}{0pt} \setlength{\belowcaptionskip}{10pt} \caption{Results 2} \label{Table2} %\[2mm] \centering \begin{tabular}{lccccccc} \hline Parameter & $\epsilon=0.2 $ & $\epsilon=0.4 $ & $\epsilon=0.6 $ & $\epsilon=0.8 $ & $\epsilon=1 $ & $\epsilon=2 $ & $\epsilon=3 $ \\ \hline $C=0.3$ & (1.5250,11.7501) & (1.5250,11.7501) & (1.5250,11.7501) & (1.5243,11.7574) & (1.8463,6.3090) & (1.8388,6.3194) & (1.7228,8.8904) \\ $C=0.4$ & (1.5759,10.9927) & (1.5253,11.7461) & (1.5250,11.749) & (1.6935,9.3009) & (1.8460,6.3092) & (1.8388,6.3194) & (1.7788,8.0317) \\ $C=0.7$ & (1.7011,8.7172) & (1.7471,8.0070) & (1.7931,7.2965) & (1.8532,6.3053) & (1.8451,6.3101) & (1.8384,6.3200) & (1.7788,8.0317) \\ $C=1$ & (1.7012,8.7172) & (1.7471,8.0069) & (1.8415,6.3149) & (1.8522,6.3051) & (1.8851,5.8759) & (1.8500,6.1850) & (1.7788,8.0317) \\ $C=2$ & (1.8163,6.4367) & (1.8308,6.3363) & (1.8426,6.3133) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=3$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=4$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=5$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=10$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=20$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=50$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.1850) & (1.8049,7.4512) \\ $C=100$ & (1.8163,6.4367) & (1.8435,6.0980) & (1.8707,5.7592) & (1.8980,5.4204) & (1.9252,5.0816) & (1.8500,6.185) & (1.8049,7.4512) \\ \hline \end{tabular} \end{sidewaystable} \end{document} ```