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author | Karl Berry <karl@freefriends.org> | 2022-01-29 21:45:49 +0000 |
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committer | Karl Berry <karl@freefriends.org> | 2022-01-29 21:45:49 +0000 |
commit | e18df9905249ee6442dc1f4ca9626b8ebaf919e8 (patch) | |
tree | 4c9d22de94f91b4b68448cee5c4f6b66e2c81a05 /Master/texmf-dist/doc/latex/jmlr/sample-papers | |
parent | fc38dbc74190decb239e2a6631f2a943d6715165 (diff) |
jmlr (29jan22)
git-svn-id: svn://tug.org/texlive/trunk@61793 c570f23f-e606-0410-a88d-b1316a301751
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Guyon and A. Elisseeff", - journal = "JMLR", - volume = "3", - month = MAR, - pages = "1157-1182", - year = 2003 -} - -@techreport{guyon2007causalreport, - author = {I. Guyon and C. Aliferis and A. Elisseeff}, - title = {Causal Feature Selection}, - institution = {Clopinet}, - year = 2007, - type = {Technical Report }, - source = {\url{http://clopinet.com/isabelle/Papers/causalFS.pdf}} -} - diff --git a/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlr-sample.pdf b/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlr-sample.pdf Binary files differdeleted file mode 100644 index 31d153a4b61..00000000000 --- a/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlr-sample.pdf +++ /dev/null diff --git a/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlr-sample.tex b/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlr-sample.tex deleted file mode 100644 index 4dda4f434ee..00000000000 --- a/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlr-sample.tex +++ /dev/null @@ -1,837 +0,0 @@ - % use the "wcp" class option for workshop and conference - % proceedings - %\documentclass[gray]{jmlr} % test grayscale version - \documentclass[tablecaption=bottom]{jmlr}% journal article - %\documentclass[tablecaption=bottom,wcp]{jmlr} % W&CP article - - % The following packages will be automatically loaded: - % amsmath, amssymb, natbib, graphicx, url, algorithm2e - - %\usepackage{rotating}% for sideways figures and tables - %\usepackage{longtable}% for long tables - - % The booktabs package is used by this sample document - % (it provides \toprule, \midrule and \bottomrule). - % Remove the next line if you don't require it. -\usepackage{booktabs} - % The siunitx package is used by this sample document - % to align numbers in a column by their decimal point. - % Remove the next line if you don't require it. -\usepackage[load-configurations=version-1]{siunitx} % newer version - %\usepackage{siunitx} - - % The following command is just for this sample document: -\newcommand{\cs}[1]{\texttt{\char`\\#1}}% remove this in your real article - - % Define an unnumbered theorem just for this sample document for - % illustrative purposes: -\theorembodyfont{\upshape} -\theoremheaderfont{\scshape} -\theorempostheader{:} -\theoremsep{\newline} -\newtheorem*{note}{Note} - - % change the arguments, as appropriate, in the following: -\jmlrvolume{1} -\jmlryear{2010} -\jmlrsubmitted{submission date} -\jmlrpublished{publication date} -\jmlrworkshop{workshop title} % W&CP title - - % The optional argument of \title is used in the header -\title[Short Title]{Full Title of Article\titlebreak This Title Has -A Line Break} - - % Anything in the title that should appear in the main title but - % not in the article's header or the volume's table of - % contents should be placed inside \titletag{} - - %\title{Title of the Article\titletag{\thanks{Some footnote}}} - - - % Use \Name{Author Name} to specify the name. - % If the surname contains spaces, enclose the surname - % in braces, e.g. \Name{John {Smith Jones}} similarly - % if the name has a "von" part, e.g \Name{Jane {de Winter}}. - % If the first letter in the forenames is a diacritic - % enclose the diacritic in braces, e.g. \Name{{\'E}louise Smith} - - % \thanks must come after \Name{...} not inside the argument for - % example \Name{John Smith}\nametag{\thanks{A note}} NOT \Name{John - % Smith\thanks{A note}} - - % Anything in the name that should appear in the title but not in the - % article's header or footer or in the volume's - % table of contents should be placed inside \nametag{} - - % Two authors with the same address - \author{\Name{Author Name1\nametag{\thanks{A note}}} \Email{abc@sample.com}\and - \Name{Author Name2} \Email{xyz@sample.com}\\ - \addr Address} - - % Three or more authors with the same address: - % \author{\Name{Author Name1} \Email{an1@sample.com}\\ - % \Name{Author Name2} \Email{an2@sample.com}\\ - % \Name{Author Name3} \Email{an3@sample.com}\\ - % \Name{Author Name4} \Email{an4@sample.com}\\ - % \Name{Author Name5} \Email{an5@sample.com}\\ - % \Name{Author Name6} \Email{an6@sample.com}\\ - % \Name{Author Name7} \Email{an7@sample.com}\\ - % \Name{Author Name8} \Email{an8@sample.com}\\ - % \Name{Author Name9} \Email{an9@sample.com}\\ - % \Name{Author Name10} \Email{an10@sample.com}\\ - % \Name{Author Name11} \Email{an11@sample.com}\\ - % \Name{Author Name12} \Email{an12@sample.com}\\ - % \Name{Author Name13} \Email{an13@sample.com}\\ - % \Name{Author Name14} \Email{an14@sample.com}\\ - % \addr Address} - - - % Authors with different addresses: - % \author{\Name{Author Name1} \Email{abc@sample.com}\\ - % \addr Address 1 - % \AND - % \Name{Author Name2} \Email{xyz@sample.com}\\ - % \addr Address 2 - %} - -\editor{Editor's name} - %\editors{Editor One and Editor Two}% for multiple editors - -\begin{document} - -\maketitle - -\begin{abstract} -This is the abstract for this article. -\end{abstract} -\begin{keywords} -List of keywords -\end{keywords} - -\section{Introduction} -\label{sec:intro} - -This is a sample article that uses the \textsf{jmlr} class with -the \texttt{wcp} class option. Please follow the guidelines in -this sample document as it can help to reduce complications when -combining the articles into a book. Please avoid using obsolete -commands, such as \verb|\rm|, and obsolete packages, such as -\textsf{epsfig}.\footnote{See -\url{http://www.ctan.org/pkg/l2tabu}} Some packages that are known -to cause problems for the production editing process are checked for -by the \textsf{jmlr} class and will generate an error. - -Please also ensure that your document will compile with PDF\LaTeX. -If you have an error message that's puzzling you, first check for it -at the UK TUG FAQ -\url{https://texfaq.org/FAQ-man-latex}. If -that doesn't help, create a minimal working example (see -\url{https://www.dickimaw-books.com/latex/minexample/}) and post -to somewhere like \TeX\ on StackExchange -(\url{https://tex.stackexchange.com/}) or the \LaTeX\ Community Forum -(\url{https://latex.org/forum/}). - -\begin{note} -This is an numbered theorem-like environment that was defined in -this document's preamble. -\end{note} - -\subsection{Sub-sections} - -Sub-sections are produced using \verb|\subsection|. - -\subsubsection{Sub-sub-sections} - -Sub-sub-sections are produced using \verb|\subsubsection|. - -\paragraph{Sub-sub-sub-sections} - -Sub-sub-sub-sections are produced using \verb|\paragraph|. -These are unnumbered with a running head. - -\subparagraph{Sub-sub-sub-sub-sections} - -Sub-sub-sub-sub-sections are produced using \verb|\subparagraph|. -These are unnumbered with a running head. - -\section{Cross-Referencing} - -Always use \verb|\label| and \verb|\ref| (or one of the commands -described below) when cross-referencing. For example, the next -section is Section~\ref{sec:math} but you can also refer to it using -\sectionref{sec:math}. The \textsf{jmlr} class -provides some convenient cross-referencing commands: -\verb|\sectionref|, \verb|\equationref|, \verb|\tableref|, -\verb|\figureref|, \verb|\algorithmref|, \verb|\theoremref|, -\verb|\lemmaref|, \verb|\remarkref|, \verb|\corollaryref|, -\verb|\definitionref|, \verb|\conjectureref|, \verb|\axiomref|, -\verb|\exampleref| and \verb|\appendixref|. The argument of these -commands may either be a single label or a comma-separated list -of labels. Examples: - -Referencing sections: \sectionref{sec:math} or -\sectionref{sec:intro,sec:math} or -\sectionref{sec:intro,sec:math,sec:tables,sec:figures}. - -Referencing equations: \equationref{eq:trigrule} or -\equationref{eq:trigrule,eq:df} or -\equationref{eq:trigrule,eq:f,eq:df,eq:y}. - -Referencing tables: \tableref{tab:operatornames} or -\tableref{tab:operatornames,tab:example} or -\tableref{tab:operatornames,tab:example,tab:example-booktabs}. - -Referencing figures: \figureref{fig:nodes} or -\figureref{fig:nodes,fig:teximage} or -\figureref{fig:nodes,fig:teximage,fig:subfigex} or -\figureref{fig:circle,fig:square}. - -Referencing algorithms: \algorithmref{alg:gauss} or -\algorithmref{alg:gauss,alg:moore} or -\algorithmref{alg:gauss,alg:moore,alg:net}. - -Referencing theorem-like environments: \theoremref{thm:eigenpow}, -\lemmaref{lem:sample}, \remarkref{rem:sample}, -\corollaryref{cor:sample}, \definitionref{def:sample}, -\conjectureref{con:sample}, \axiomref{ax:sample} and -\exampleref{ex:sample}. - -Referencing appendices: \appendixref{apd:first} or -\appendixref{apd:first,apd:second}. - -\section{Equations} -\label{sec:math} - -The \textsf{jmlr} class loads the \textsf{amsmath} package, so -you can use any of the commands and environments defined there. -(See the \textsf{amsmath} documentation for further -details.\footnote{Either \texttt{texdoc amsmath} or -\url{http://www.ctan.org/pkg/amsmath}}) - -Unnumbered single-lined equations should be displayed using -\verb|\[| and \verb|\]|. For example: -\[E = m c^2\] -or you can use the \texttt{displaymath} environment: -\begin{displaymath} -E = m c^2 -\end{displaymath} -Numbered single-line equations should be displayed using the -\texttt{equation} environment. For example: -\begin{equation}\label{eq:trigrule} -\cos^2\theta + \sin^2\theta \equiv 1 -\end{equation} -This can be referenced using \verb|\label| and \verb|\equationref|. -For example, \equationref{eq:trigrule}. - -Multi-lined numbered equations should be displayed using the -\texttt{align} environment.\footnote{For reasons why you -shouldn't use the obsolete \texttt{eqnarray} environment, see -Lars Madsen, \emph{Avoid eqnarray!} TUGboat 33(1):21--25, 2012.} For example: -\begin{align} -f(x) &= x^2 + x\label{eq:f}\\ -f'(x) &= 2x + 1\label{eq:df} -\end{align} -Unnumbered multi-lined equations can be displayed using the -\texttt{align*} environment. For example: -\begin{align*} -f(x) &= (x+1)(x-1)\\ -&= x^2 - 1 -\end{align*} -If you want to mix numbered with unnumbered lines use the -\texttt{align} environment and suppress unwanted line numbers with -\verb|\nonumber|. For example: -\begin{align} -y &= x^2 + 3x - 2x + 1\nonumber\\ -&= x^2 + x + 1\label{eq:y} -\end{align} -An equation that is too long to fit on a single line can be -displayed using the \texttt{split} environment. -Text can be embedded in an equation using \verb|\text| or -\verb|\intertext| (as used in \theoremref{thm:eigenpow}). -See the \textsf{amsmath} documentation for further details. - -\subsection{Operator Names} -\label{sec:op} - -Predefined operator names are listed in \tableref{tab:operatornames}. -For additional operators, either use \verb|\operatorname|, -for example $\operatorname{var}(X)$ or declare it with -\verb|\DeclareMathOperator|, for example -\begin{verbatim} -\DeclareMathOperator{\var}{var} -\end{verbatim} -and then use this new command. If you want limits that go above and -below the operator (like \verb|\sum|) use the starred versions -(\verb|\operatorname*| or \verb|\DeclareMathOperator*|). - -\begin{table*}[htbp] -\floatconts - {tab:operatornames}% - {\caption{Predefined Operator Names (taken from - \textsf{amsmath} documentation)}}% - {% -\begin{tabular}{rlrlrlrl} -\cs{arccos} & $\arccos$ & \cs{deg} & $\deg$ & \cs{lg} & $\lg$ & \cs{projlim} & $\projlim$ \\ -\cs{arcsin} & $\arcsin$ & \cs{det} & $\det$ & \cs{lim} & $\lim$ & \cs{sec} & $\sec$ \\ -\cs{arctan} & $\arctan$ & \cs{dim} & $\dim$ & \cs{liminf} & $\liminf$ & \cs{sin} & $\sin$ \\ -\cs{arg} & $\arg$ & \cs{exp} & $\exp$ & \cs{limsup} & $\limsup$ & \cs{sinh} & $\sinh$ \\ -\cs{cos} & $\cos$ & \cs{gcd} & $\gcd$ & \cs{ln} & $\ln$ & \cs{sup} & $\sup$ \\ -\cs{cosh} & $\cosh$ & \cs{hom} & $\hom$ & \cs{log} & $\log$ & \cs{tan} & $\tan$ \\ -\cs{cot} & $\cot$ & \cs{inf} & $\inf$ & \cs{max} & $\max$ & \cs{tanh} & $\tanh$ \\ -\cs{coth} & $\coth$ & \cs{injlim} & $\injlim$ & \cs{min} & $\min$ \\ -\cs{csc} & $\csc$ & \cs{ker} & $\ker$ & \cs{Pr} & $\Pr$ -\end{tabular}\par -\begin{tabular}{rlrl} -\cs{varlimsup} & $\varlimsup$ -& \cs{varinjlim} & $\varinjlim$\\ -\cs{varliminf} & $\varliminf$ -& \cs{varprojlim} & $\varprojlim$ -\end{tabular} -} -\end{table*} - -\section{Vectors and Sets} -\label{sec:vec} - -Vectors should be typeset using \cs{vec}. For example $\vec{x}$. -(The original version of \cs{vec} can also be accessed using -\cs{orgvec}, for example $\orgvec{x}$.) -The \textsf{jmlr} class also provides \cs{set} to typeset a -set. For example $\set{S}$. - -\section{Floats} -\label{sec:floats} - -Floats, such as figures, tables and algorithms, are moving -objects and are supposed to float to the nearest convenient -location. Please don't force them to go in a particular place. In -general it's best to use the \texttt{htbp} specifier and don't -put the figure or table in the middle of a paragraph (that is -make sure there's a paragraph break above and below the float). -Floats are supposed to have a little extra space above and below -them to make them stand out from the rest of the text. This extra -spacing is put in automatically and shouldn't need modifying. - -If your article will later be reprinted in the Challenges for -Machine Learning, please be aware that the CiML books use a -different paper size, so if you want to resize any images use a -scale relative to the line width (\verb|\linewidth|), text width -(\verb|\textwidth|) or text height (\verb|\textheight|). - -To ensure consistency, please \emph{don't} try changing the format of the caption by doing -something like: -\begin{verbatim} -\caption{\textit{A Sample Caption.}} -\end{verbatim} -or -\begin{verbatim} -\caption{\em A Sample Caption.} -\end{verbatim} -You can, of course, change the font for individual words or -phrases, for example: -\begin{verbatim} -\caption{A Sample Caption With Some \emph{Emphasized Words}.} -\end{verbatim} - -\subsection{Tables} -\label{sec:tables} - -Tables should go in the \texttt{table} environment. Within this -environment use \verb|\floatconts| (defined by \textsf{jmlr}) -to set the caption correctly and center the table contents. -The location of the caption depends on the \verb|tablecaption| -setting in the document class options. - -\begin{table}[htbp] - % The first argument is the label. - % The caption goes in the second argument, and the table contents - % go in the third argument. -\floatconts - {tab:example}% - {\caption{An Example Table}}% - {\begin{tabular}{ll} - \bfseries Dataset & \bfseries Result\\ - Data1 & 0.12345\\ - Data2 & 0.67890\\ - Data3 & 0.54321\\ - Data4 & 0.09876 - \end{tabular}} -\end{table} - -If you want horizontal rules you can use the \textsf{booktabs} -package which provides the commands \verb|\toprule|, -\verb|\midrule| and \verb|\bottomrule|. For example, see -\tableref{tab:example-booktabs}. - -\begin{table}[hbtp] -\floatconts - {tab:example-booktabs} - {\caption{A Table With Horizontal Lines}} - {\begin{tabular}{ll} - \toprule - \bfseries Dataset & \bfseries Result\\ - \midrule - Data1 & 0.12345\\ - Data2 & 0.67890\\ - Data3 & 0.54321\\ - Data4 & 0.09876\\ - \bottomrule - \end{tabular}} -\end{table} - -If you really want vertical lines as well, you can't use the -\textsf{booktabs} commands as there'll be some unwanted gaps. -Instead you can use \LaTeX's \verb|\hline|, but the rows may -appear a bit cramped. You can add extra space above or below a -row using \verb|\abovestrut| and \verb|\belowstrut|. For example, -see \tableref{tab:example-hline}. However, you might want to read -the \textsf{booktabs} documentation regarding the use of vertical -lines. - -\begin{table}[htbp] -\floatconts - {tab:example-hline} - {\caption{A Table With Horizontal and Vertical Lines}}% - {% - \begin{tabular}{|l|l|} - \hline - \abovestrut{2.2ex}\bfseries Dataset & \bfseries Result\\\hline - \abovestrut{2.2ex}Data1 & 0.12345\\ - Data2 & 0.67890\\ - Data3 & 0.54321\\ - \belowstrut{0.2ex}Data4 & 0.09876\\\hline - \end{tabular} - } -\end{table} - -If you want to align numbers on their decimal point, you can -use the \textsf{siunitx} package. For example, see -\tableref{tab:example-siunitx}. For further details see the -\textsf{siunitx} documentation\footnote{Either \texttt{texdoc -siunitx} or \url{http://www.ctan.org/pkg/siunitx}}. - -\begin{table}[htbp] -\floatconts - {tab:example-siunitx} - {\caption{A Table With Numbers Aligned on the Decimal Point}} - {\begin{tabular}{lS[tabformat=3.5]} - \bfseries Dataset & {\bfseries Result}\\ - Data1 & 0.12345\\ - Data2 & 10.6789\\ - Data3 & 50.543\\ - Data4 & 200.09876 - \end{tabular}} -\end{table} - -If the table is too wide, you can adjust the inter-column -spacing by changing the value of \verb|\tabcolsep|. For -example: -\begin{verbatim} -\setlength{\tabcolsep}{3pt} -\end{verbatim} -If the table is very wide but not very long, you can use the -\texttt{sidewaystable} environment defined in the -\textsf{rotating} package (so use \verb|\usepackage{rotating}|). -If the table is too long to fit on a page, you can use the -\texttt{longtable} environment defined in the \textsf{longtable} -package (so use \verb|\usepackage{longtable}|). - -\subsection{Figures} -\label{sec:figures} - -Figures should go in the \texttt{figure} environment. Within this -environment, use \verb|\floatconts| to correctly position the -caption and center the image. Use \verb|\includegraphics| -for external graphics files but omit the file extension. Do not -use \verb|\epsfig| or \verb|\psfig|. If you want to scale the -image, it's better to use a fraction of the line width rather -than an explicit length. For example, see \figureref{fig:nodes}. - -\begin{figure}[htbp] - % Caption and label go in the first argument and the figure contents - % go in the second argument -\floatconts - {fig:nodes} - {\caption{Example Image}} - {\includegraphics[width=0.5\linewidth]{images/nodes}} -\end{figure} - -If your image is made up of \LaTeX\ code (for example, commands -provided by the \textsf{pgf} package) you can include it using -\cs{includeteximage} (defined by the \textsf{jmlr} class). This -can be scaled and rotated in the same way as \cs{includegraphics}. -For example, see \figureref{fig:teximage}. - -\begin{figure}[htbp] -\floatconts - {fig:teximage} - {\caption{Image Created Using \LaTeX\ Code}} - {\includeteximage[angle=45]{images/teximage}} -\end{figure} - -If the figure is too wide to fit on the page, you can use the -\texttt{sidewaysfigure} environment defined in the -\textsf{rotating} package. - -Don't use \verb|\graphicspath|.\footnote{This is specific to the -\textsf{jmlr} class, not a general recommendation. The main file -that generates the proceedings or the CiML book is typically in a -different directory to the imported articles, so it modifies the -graphics path when it imports an article.} If the images -are contained in a subdirectory, specify this when you include the image, for -example \verb|\includegraphics{figures/mypic}|. - -\subsubsection{Sub-Figures} -\label{sec:subfigures} - -Sub-figures can be created using \verb|\subfigure|, which is -defined by the \textsf{jmlr} class. The optional argument allows -you to provide a subcaption. The label should be placed in the -mandatory argument of \verb|\subfigure|. You can reference the -entire figure, for example \figureref{fig:subfigex}, or you can -reference part of the figure using \verb|\figureref|, for example -\figureref{fig:circle}. Alternatively you can reference the -subfigure using \verb|\subfigref|, for example -\subfigref{fig:circle,fig:square} in \figureref{fig:subfigex}. - -\begin{figure}[htbp] -\floatconts - {fig:subfigex} - {\caption{An Example With Sub-Figures.}} - {% - \subfigure[A Circle]{\label{fig:circle}% - \includegraphics[width=0.2\linewidth]{images/circle}}% - \qquad - \subfigure[A Square]{\label{fig:square}% - \includegraphics[width=0.2\linewidth]{images/square}} - } -\end{figure} - -By default, the sub-figures are aligned on the baseline. -This can be changed using the second optional argument -of \verb|\subfigure|. This may be \texttt{t} (top), \texttt{c} -(centered) or \texttt{b} (bottom). For example, the subfigures -\subfigref{fig:circle2,fig:square2} in \figureref{fig:subfigex2} -both have \verb|[c]| as the second optional argument. - -\begin{figure}[htbp] -\floatconts - {fig:subfigex2} - {\caption{Another Example With Sub-Figures.}} - {% - \subfigure[A Small Circle][c]{\label{fig:circle2}% - \includegraphics[width=0.1\linewidth]{images/circle}}% - \qquad - \subfigure[A Square][c]{\label{fig:square2}% - \includegraphics[width=0.2\linewidth]{images/square}} - } -\end{figure} - -\subsection{Sub-Tables} -\label{sec:subtables} -There is an analogous command \verb|\subtable| for sub-tables. -It has the same syntax as \verb|\subfigure| described above. -You can reference the table using \verb|\tableref|, for example -\tableref{tab:subtabex} or you can reference part of the table, -for example \tableref{tab:ab}. Alternatively you can reference the -subtable using \verb|\subtabref|, for example -\subtabref{tab:ab,tab:cd} in \tableref{tab:subtabex}. - -\begin{table}[htbp] -\floatconts - {tab:subtabex} - {\caption{An Example With Sub-Tables}} - {% - \subtable{% - \label{tab:ab}% - \begin{tabular}{cc} - \bfseries A & \bfseries B\\ - 1 & 2 - \end{tabular} - }\qquad - \subtable{% - \label{tab:cd}% - \begin{tabular}{cc} - \bfseries C & \bfseries D\\ - 3 & 4\\ - 5 & 6 - \end{tabular} - } - } -\end{table} - -By default, the sub-tables are aligned on the top. -This can be changed using the second optional argument -of \verb|\subtable|. This may be \texttt{t} (top), \texttt{c} -(centered) or \texttt{b} (bottom). For example, the sub-tables -\subtabref{tab:ab2,tab:cd2} in \tableref{tab:subtabex2} -both have \verb|[c]| as the second optional argument. - -\begin{table}[htbp] -\floatconts - {tab:subtabex2} - {\caption{Another Example With Sub-Tables}} - {% - \subtable[][c]{% - \label{tab:ab2}% - \begin{tabular}{cc} - \bfseries A & \bfseries B\\ - 1 & 2 - \end{tabular} - }\qquad - \subtable[][c]{% - \label{tab:cd2}% - \begin{tabular}{cc} - \bfseries C & \bfseries D\\ - 3 & 4\\ - 5 & 6 - \end{tabular} - } - } -\end{table} - -\subsection{Algorithms} -\label{sec:algorithms} - -Enumerated textual algorithms can be displayed using the -\texttt{algorithm} environment. Within this environment, use -\verb|\caption| to set the caption and you can use an -\texttt{enumerate} or nested \texttt{enumerate} environments. -For example, see \algorithmref{alg:gauss}. Note that algorithms -float like figures and tables. - -\begin{algorithm}[htbp] -\floatconts - {alg:gauss}% - {\caption{The Gauss-Seidel Algorithm}}% -{% -\begin{enumerate} - \item For $k=1$ to maximum number of iterations - \begin{enumerate} - \item For $i=1$ to $n$ - \begin{enumerate} - \item $x_i^{(k)} = - \frac{b_i - \sum_{j=1}^{i-1}a_{ij}x_j^{(k)} - - \sum_{j=i+1}^{n}a_{ij}x_j^{(k-1)}}{a_{ii}}$ - \item If $\|\vec{x}^{(k)}-\vec{x}^{(k-1)} < \epsilon\|$, - where $\epsilon$ is a specified stopping criteria, stop. - \end{enumerate} - \end{enumerate} -\end{enumerate} -}% -\end{algorithm} - -If you'd rather have the same numbering throughout the algorithm -but still want the convenient indentation of nested -\texttt{enumerate} environments, you can use the -\texttt{enumerate*} environment provided by the \textsf{jmlr} -class. For example, see \algorithmref{alg:moore}. - -\begin{algorithm} -\floatconts - {alg:moore}% - {\caption{Moore's Shortest Path}}% -{% -Given a connected graph $G$, where the length of each edge is 1: -\begin{enumerate*} - \item Set the label of vertex $s$ to 0 - \item Set $i=0$ - \begin{enumerate*} - \item \label{step:locate}Locate all unlabelled vertices - adjacent to a vertex labelled $i$ and label them $i+1$ - \item If vertex $t$ has been labelled, - \begin{enumerate*} - \item[] the shortest path can be found by backtracking, and - the length is given by the label of $t$. - \end{enumerate*} - otherwise - \begin{enumerate*} - \item[] increment $i$ and return to step~\ref{step:locate} - \end{enumerate*} - \end{enumerate*} -\end{enumerate*} -}% -\end{algorithm} - -Pseudo code can be displayed using the \texttt{algorithm2e} -environment. This is defined by the \textsf{algorithm2e} package -(which is automatically loaded) so check the \textsf{algorithm2e} -documentation for further details.\footnote{Either \texttt{texdoc -algorithm2e} or \url{http://www.ctan.org/pkg/algorithm2e}} -For an example, see \algorithmref{alg:net}. - -\begin{algorithm2e} -\caption{Computing Net Activation} -\label{alg:net} - % older versions of algorithm2e have \dontprintsemicolon instead - % of the following: - %\DontPrintSemicolon - % older versions of algorithm2e have \linesnumbered instead of the - % following: - %\LinesNumbered -\KwIn{$x_1, \ldots, x_n, w_1, \ldots, w_n$} -\KwOut{$y$, the net activation} -$y\leftarrow 0$\; -\For{$i\leftarrow 1$ \KwTo $n$}{ - $y \leftarrow y + w_i*x_i$\; -} -\end{algorithm2e} - -\section{Description Lists} - -The \textsf{jmlr} class also provides a description-like -environment called \texttt{altdescription}. This has an -argument that should be the widest label in the list. Compare: -\begin{description} -\item[add] A method that adds two variables. -\item[differentiate] A method that differentiates a function. -\end{description} -with -\begin{altdescription}{differentiate} -\item[add] A method that adds two variables. -\item[differentiate] A method that differentiates a function. -\end{altdescription} - -\section{Theorems, Lemmas etc} -\label{sec:theorems} - -The following theorem-like environments are predefined by -the \textsf{jmlr} class: \texttt{theorem}, \texttt{example}, -\texttt{lemma}, \texttt{proposition}, \texttt{remark}, -\texttt{corollary}, \texttt{definition}, \texttt{conjecture} -and \texttt{axiom}. You can use the \texttt{proof} environment -to display the proof if need be, as in \theoremref{thm:eigenpow}. - -\begin{theorem}[Eigenvalue Powers]\label{thm:eigenpow} -If $\lambda$ is an eigenvalue of $\vec{B}$ with eigenvector -$\vec{\xi}$, then $\lambda^n$ is an eigenvalue of $\vec{B}^n$ -with eigenvector $\vec{\xi}$. -\begin{proof} -Let $\lambda$ be an eigenvalue of $\vec{B}$ with eigenvector -$\xi$, then -\begin{align*} -\vec{B}\vec{\xi} &= \lambda\vec{\xi} -\intertext{premultiply by $\vec{B}$:} -\vec{B}\vec{B}\vec{\xi} &= \vec{B}\lambda\vec{\xi}\\ -\Rightarrow \vec{B}^2\vec{\xi} &= \lambda\vec{B}\vec{\xi}\\ -&= \lambda\lambda\vec{\xi}\qquad -\text{since }\vec{B}\vec{\xi}=\lambda\vec{\xi}\\ -&= \lambda^2\vec{\xi} -\end{align*} -Therefore true for $n=2$. Now assume true for $n=k$: -\begin{align*} -\vec{B}^k\vec{\xi} &= \lambda^k\vec{\xi} -\intertext{premultiply by $\vec{B}$:} -\vec{B}\vec{B}^k\vec{\xi} &= \vec{B}\lambda^k\vec{\xi}\\ -\Rightarrow \vec{B}^{k+1}\vec{\xi} &= \lambda^k\vec{B}\vec{\xi}\\ -&= \lambda^k\lambda\vec{\xi}\qquad -\text{since }\vec{B}\vec{\xi}=\lambda\vec{\xi}\\ -&= \lambda^{k+1}\vec{\xi} -\end{align*} -Therefore true for $n=k+1$. Therefore, by induction, true for all -$n$. -\end{proof} -\end{theorem} - -\begin{lemma}[A Sample Lemma]\label{lem:sample} -This is a lemma. -\end{lemma} - -\begin{remark}[A Sample Remark]\label{rem:sample} -This is a remark. -\end{remark} - -\begin{corollary}[A Sample Corollary]\label{cor:sample} -This is a corollary. -\end{corollary} - -\begin{definition}[A Sample Definition]\label{def:sample} -This is a definition. -\end{definition} - -\begin{conjecture}[A Sample Conjecture]\label{con:sample} -This is a conjecture. -\end{conjecture} - -\begin{axiom}[A Sample Axiom]\label{ax:sample} -This is an axiom. -\end{axiom} - -\begin{example}[An Example]\label{ex:sample} -This is an example. -\end{example} - -\section{Color vs Grayscale} -\label{sec:color} - -It's helpful if authors supply grayscale versions of their -images in the event that the article is to be incorporated into -a black and white printed book. With external PDF, PNG or JPG -graphic files, you just need to supply a grayscale version of the -file. For example, if the file is called \texttt{myimage.png}, -then the gray version should be \texttt{myimage-gray.png} or -\texttt{myimage-gray.pdf} or \texttt{myimage-gray.jpg}. You don't -need to modify your code. The \textsf{jmlr} class checks for -the existence of the grayscale version if it is print mode -(provided you have used \verb|\includegraphics| and haven't -specified the file extension). - -You can use \verb|\ifprint| to determine which mode you are in. -For example, in \figureref{fig:nodes}, the -\ifprint{dark gray}{purple} ellipse represents an input and the -\ifprint{light gray}{yellow} ellipse represents an output. -Another example: {\ifprint{\bfseries}{\color{red}}important text!} - -You can use the class option \texttt{gray} to see how the -document will appear in gray scale mode. \textcolor{blue}{Colored -text} will automatically be converted to gray scale in print mode. - -The \textsf{jmlr} class loads the \textsf{xcolor} -package, so you can also define your own colors. For example: -\ifprint - {\definecolor{myred}{gray}{0.5}}% - {\definecolor{myred}{rgb}{0.5,0,0}}% -\textcolor{myred}{XYZ}. - -The \textsf{xcolor} class is loaded with the \texttt{x11names} -option, so you can use any of the x11 predefined colors (listed -in the \textsf{xcolor} documentation\footnote{either -\texttt{texdoc xcolor} or \url{http://www.ctan.org/pkg/xcolor}}). - -\section{Citations and Bibliography} -\label{sec:cite} - -The \textsf{jmlr} class automatically loads \textsf{natbib} -and automatically sets the bibliography style, so you don't need to -use \verb|\bibliographystyle|. -This sample file has the citations defined in the accompanying -BibTeX file \texttt{jmlr-sample.bib}. For a parenthetical -citation use \verb|\citep|. For example -\citep{guyon-elisseeff-03}. For a textual citation use -\verb|\citet|. For example \citet{guyon2007causalreport}. -Both commands may take a comma-separated list, for example -\citet{guyon-elisseeff-03,guyon2007causalreport}. - -These commands have optional arguments and have a starred -version. See the \textsf{natbib} documentation for further -details.\footnote{Either \texttt{texdoc natbib} or -\url{http://www.ctan.org/pkg/natbib}} - -The bibliography is displayed using \verb|\bibliography|. - -\acks{Acknowledgements go here.} - -\bibliography{jmlr-sample} - -\appendix - -\section{First Appendix}\label{apd:first} - -This is the first appendix. - -\section{Second Appendix}\label{apd:second} - -This is the second appendix. - -\end{document} diff --git a/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlrwcp-sample.pdf b/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlrwcp-sample.pdf Binary files differdeleted file mode 100644 index 8600d8176e1..00000000000 --- a/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlrwcp-sample.pdf +++ /dev/null diff --git a/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlrwcp-sample.tex b/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlrwcp-sample.tex deleted file mode 100644 index 470e2d92151..00000000000 --- a/Master/texmf-dist/doc/latex/jmlr/sample-papers/jmlrwcp-sample.tex +++ /dev/null @@ -1,789 +0,0 @@ - %\documentclass[wcp,gray]{jmlr} % test grayscale version - %\documentclass[wcp]{jmlr}% former name JMLR W\&CP -\documentclass[pmlr]{jmlr}% new name PMLR (Proceedings of Machine Learning) - - % The following packages will be automatically loaded: - % amsmath, amssymb, natbib, graphicx, url, algorithm2e - - %\usepackage{rotating}% for sideways figures and tables -\usepackage{longtable}% for long tables - - % The booktabs package is used by this sample document - % (it provides \toprule, \midrule and \bottomrule). - % Remove the next line if you don't require it. -\usepackage{booktabs} - % The siunitx package is used by this sample document - % to align numbers in a column by their decimal point. - % Remove the next line if you don't require it. -\usepackage[load-configurations=version-1]{siunitx} % newer version - %\usepackage{siunitx} - - % The following command is just for this sample document: -\newcommand{\cs}[1]{\texttt{\char`\\#1}} - - % Define an unnumbered theorem just for this sample document: -\theorembodyfont{\upshape} -\theoremheaderfont{\scshape} -\theorempostheader{:} -\theoremsep{\newline} -\newtheorem*{note}{Note} - - % change the arguments, as appropriate, in the following: -\jmlrvolume{1} -\jmlryear{2010} -\jmlrworkshop{Workshop Title} - -\title[Short Title]{Full Title of Article\titlebreak This Title Has -A Line Break\titletag{\thanks{sample footnote}}} - - % Use \Name{Author Name} to specify the name. - % If the surname contains spaces, enclose the surname - % in braces, e.g. \Name{John {Smith Jones}} similarly - % if the name has a "von" part, e.g \Name{Jane {de Winter}}. - % If the first letter in the forenames is a diacritic - % enclose the diacritic in braces, e.g. \Name{{\'E}louise Smith} - - % Two authors with the same address - \author{\Name{Author Name1\nametag{\thanks{with a note}}} \Email{abc@sample.com}\and - \Name{Author Name2} \Email{xyz@sample.com}\\ - \addr Address} - - % Three or more authors with the same address: - % \author{\Name{Author Name1} \Email{an1@sample.com}\\ - % \Name{Author Name2} \Email{an2@sample.com}\\ - % \Name{Author Name3} \Email{an3@sample.com}\\ - % \Name{Author Name4} \Email{an4@sample.com}\\ - % \Name{Author Name5} \Email{an5@sample.com}\\ - % \Name{Author Name6} \Email{an6@sample.com}\\ - % \Name{Author Name7} \Email{an7@sample.com}\\ - % \Name{Author Name8} \Email{an8@sample.com}\\ - % \Name{Author Name9} \Email{an9@sample.com}\\ - % \Name{Author Name10} \Email{an10@sample.com}\\ - % \Name{Author Name11} \Email{an11@sample.com}\\ - % \Name{Author Name12} \Email{an12@sample.com}\\ - % \Name{Author Name13} \Email{an13@sample.com}\\ - % \Name{Author Name14} \Email{an14@sample.com}\\ - % \addr Address} - - - % Authors with different addresses: - % \author{\Name{Author Name1} \Email{abc@sample.com}\\ - % \addr Address 1 - % \AND - % \Name{Author Name2} \Email{xyz@sample.com}\\ - % \addr Address 2 - %} - -\editor{Editor's name} - % \editors{List of editors' names} - -\begin{document} - -\maketitle - -\begin{abstract} -This is the abstract for this article. -\end{abstract} -\begin{keywords} -List of keywords -\end{keywords} - -\section{Introduction} -\label{sec:intro} - -This is a sample article that uses the \textsf{jmlr} class with -the \texttt{wcp} class option. Please follow the guidelines in -this sample document as it can help to reduce complications when -combining the articles into a book. Please avoid using obsolete -commands, such as \verb|\rm|, and obsolete packages, such as -\textsf{epsfig}.\footnote{See -\url{http://www.ctan.org/pkg/l2tabu}} - -Please also ensure that your document will compile with PDF\LaTeX. -If you have an error message that's puzzling you, first check for it -at the UK TUG FAQ -\url{https://texfaq.org/FAQ-man-latex}. If -that doesn't help, create a minimal working example (see -\url{https://www.dickimaw-books.com/latex/minexample}) and post -to somewhere like TeX on StackExchange -(\url{https://tex.stackexchange.com/}) or the LaTeX Community Forum -(\url{https://latex.org/forum/}). - -\begin{note} -This is an numbered theorem-like environment that was defined in -this document's preamble. -\end{note} - -\subsection{Sub-sections} - -Sub-sections are produced using \verb|\subsection|. - -\subsubsection{Sub-sub-sections} - -Sub-sub-sections are produced using \verb|\subsubsection|. - -\paragraph{Sub-sub-sub-sections} - -Sub-sub-sub-sections are produced using \verb|\paragraph|. -These are unnumbered with a running head. - -\subparagraph{Sub-sub-sub-sub-sections} - -Sub-sub-sub-sub-sections are produced using \verb|\subparagraph|. -These are unnumbered with a running head. - -\section{Cross-Referencing} - -Always use \verb|\label| and \verb|\ref| (or one of the commands -described below) when cross-referencing. For example, the next -section is Section~\ref{sec:math}. The \textsf{jmlr} class -provides some convenient cross-referencing commands: -\verb|\sectionref|, \verb|\equationref|, \verb|\tableref|, -\verb|\figureref|, \verb|\algorithmref|, \verb|\theoremref|, -\verb|\lemmaref|, \verb|\remarkref|, \verb|\corollaryref|, -\verb|\definitionref|, \verb|\conjectureref|, \verb|\axiomref|, -\verb|\exampleref| and \verb|\appendixref|. The argument of these -commands may either be a single label or a comma-separated list -of labels. Examples: - -Referencing sections: \sectionref{sec:math} or -\sectionref{sec:intro,sec:math} or -\sectionref{sec:intro,sec:math,sec:tables,sec:figures}. - -Referencing equations: \equationref{eq:trigrule} or -\equationref{eq:trigrule,eq:df} or -\equationref{eq:trigrule,eq:f,eq:df,eq:y}. - -Referencing tables: \tableref{tab:operatornames} or -\tableref{tab:operatornames,tab:example} or -\tableref{tab:operatornames,tab:example,tab:example-booktabs}. - -Referencing figures: \figureref{fig:nodes} or -\figureref{fig:nodes,fig:teximage} or -\figureref{fig:nodes,fig:teximage,fig:subfigex} or -\figureref{fig:circle,fig:square}. - -Referencing algorithms: \algorithmref{alg:gauss} or -\algorithmref{alg:gauss,alg:moore} or -\algorithmref{alg:gauss,alg:moore,alg:net}. - -Referencing theorem-like environments: \theoremref{thm:eigenpow}, -\lemmaref{lem:sample}, \remarkref{rem:sample}, -\corollaryref{cor:sample}, \definitionref{def:sample}, -\conjectureref{con:sample}, \axiomref{ax:sample} and -\exampleref{ex:sample}. - -Referencing appendices: \appendixref{apd:first} or -\appendixref{apd:first,apd:second}. - -\section{Equations} -\label{sec:math} - -The \textsf{jmlr} class loads the \textsf{amsmath} package, so -you can use any of the commands and environments defined there. -(See the \textsf{amsmath} documentation for further -details.\footnote{Either \texttt{texdoc amsmath} or -\url{http://www.ctan.org/pkg/amsmath}}) - -Unnumbered single-lined equations should be displayed using -\verb|\[| and \verb|\]|. For example: -\[E = m c^2\] -Numbered single-line equations should be displayed using the -\texttt{equation} environment. For example: -\begin{equation}\label{eq:trigrule} -\cos^2\theta + \sin^2\theta \equiv 1 -\end{equation} -This can be referenced using \verb|\label| and \verb|\equationref|. -For example, \equationref{eq:trigrule}. - -Multi-lined numbered equations should be displayed using the -\texttt{align} environment.\footnote{For reasons why you -shouldn't use the obsolete \texttt{eqnarray} environment, see -Lars Madsen, \emph{Avoid eqnarray!} TUGboat 33(1):21--25, 2012.} For example: -\begin{align} -f(x) &= x^2 + x\label{eq:f}\\ -f'(x) &= 2x + 1\label{eq:df} -\end{align} -Unnumbered multi-lined equations should be displayed using the -\texttt{align*} environment. For example: -\begin{align*} -f(x) &= (x+1)(x-1)\\ -&= x^2 - 1 -\end{align*} -If you want to mix numbered with unnumbered lines use the -align environment and suppress unwanted line numbers with -\verb|\nonumber|. For example: -\begin{align} -y &= x^2 + 3x - 2x + 1\nonumber\\ -&= x^2 + x + 1\label{eq:y} -\end{align} -An equation that is too long to fit on a single line can be -displayed using the \texttt{split} environment. -Text can be embedded in an equation using \verb|\text| or -\verb|\intertext| (as used in \theoremref{thm:eigenpow}). -See the \textsf{amsmath} documentation for further details. - -\subsection{Operator Names} -\label{sec:op} - -Predefined operator names are listed in \tableref{tab:operatornames}. -For additional operators, either use \verb|\operatorname|, -for example $\operatorname{var}(X)$ or declare it with -\verb|\DeclareMathOperator|, for example -\begin{verbatim} -\DeclareMathOperator{\var}{var} -\end{verbatim} -and then use this new command. If you want limits that go above and -below the operator (like \verb|\sum|) use the starred versions -(\verb|\operatorname*| or \verb|\DeclareMathOperator*|). - -\begin{table}[htbp] -\floatconts - {tab:operatornames}% - {\caption{Predefined Operator Names (taken from - \textsf{amsmath} documentation)}}% - {% -\begin{tabular}{rlrlrlrl} -\cs{arccos} & $\arccos$ & \cs{deg} & $\deg$ & \cs{lg} & $\lg$ & \cs{projlim} & $\projlim$ \\ -\cs{arcsin} & $\arcsin$ & \cs{det} & $\det$ & \cs{lim} & $\lim$ & \cs{sec} & $\sec$ \\ -\cs{arctan} & $\arctan$ & \cs{dim} & $\dim$ & \cs{liminf} & $\liminf$ & \cs{sin} & $\sin$ \\ -\cs{arg} & $\arg$ & \cs{exp} & $\exp$ & \cs{limsup} & $\limsup$ & \cs{sinh} & $\sinh$ \\ -\cs{cos} & $\cos$ & \cs{gcd} & $\gcd$ & \cs{ln} & $\ln$ & \cs{sup} & $\sup$ \\ -\cs{cosh} & $\cosh$ & \cs{hom} & $\hom$ & \cs{log} & $\log$ & \cs{tan} & $\tan$ \\ -\cs{cot} & $\cot$ & \cs{inf} & $\inf$ & \cs{max} & $\max$ & \cs{tanh} & $\tanh$ \\ -\cs{coth} & $\coth$ & \cs{injlim} & $\injlim$ & \cs{min} & $\min$ \\ -\cs{csc} & $\csc$ & \cs{ker} & $\ker$ & \cs{Pr} & $\Pr$ -\end{tabular}\par -\begin{tabular}{rlrl} -\cs{varlimsup} & $\varlimsup$ -& \cs{varinjlim} & $\varinjlim$\\ -\cs{varliminf} & $\varliminf$ -& \cs{varprojlim} & $\varprojlim$ -\end{tabular} -} -\end{table} - -\section{Vectors and Sets} -\label{sec:vec} - -Vectors should be typeset using \cs{vec}. For example $\vec{x}$. -The \textsf{jmlr} class also provides \cs{set} to typeset a -set. For example $\set{S}$. - -\section{Floats} -\label{sec:floats} - -Floats, such as figures, tables and algorithms, are moving -objects and are supposed to float to the nearest convenient -location. Please don't force them to go in a particular place. In -general it's best to use the \texttt{htbp} specifier and don't -put the figure or table in the middle of a paragraph (that is -make sure there's a paragraph break above and below the float). -Floats are supposed to have a little extra space above and below -them to make them stand out from the rest of the text. This extra -spacing is put in automatically and shouldn't need modifying. - -To ensure consistency, please \emph{don't} try changing the format of the caption by doing -something like: -\begin{verbatim} -\caption{\textit{A Sample Caption.}} -\end{verbatim} -or -\begin{verbatim} -\caption{\em A Sample Caption.} -\end{verbatim} -You can, of course, change the font for individual words or -phrases, for example: -\begin{verbatim} -\caption{A Sample Caption With Some \emph{Emphasized Words}.} -\end{verbatim} - -\subsection{Tables} -\label{sec:tables} - -Tables should go in the \texttt{table} environment. Within this -environment use \verb|\floatconts| (defined by \textsf{jmlr}) -to set the caption correctly and center the table contents. - -\begin{table}[htbp] - % The first argument is the label. - % The caption goes in the second argument, and the table contents - % go in the third argument. -\floatconts - {tab:example}% - {\caption{An Example Table}}% - {\begin{tabular}{ll} - \bfseries Dataset & \bfseries Result\\ - Data1 & 0.12345\\ - Data2 & 0.67890\\ - Data3 & 0.54321\\ - Data4 & 0.09876 - \end{tabular}} -\end{table} - -If you want horizontal rules you can use the \textsf{booktabs} -package which provides the commands \verb|\toprule|, -\verb|\midrule| and \verb|\bottomrule|. For example, see -\tableref{tab:example-booktabs}. - -\begin{table}[hbtp] -\floatconts - {tab:example-booktabs} - {\caption{A Table With Horizontal Lines}} - {\begin{tabular}{ll} - \toprule - \bfseries Dataset & \bfseries Result\\ - \midrule - Data1 & 0.12345\\ - Data2 & 0.67890\\ - Data3 & 0.54321\\ - Data4 & 0.09876\\ - \bottomrule - \end{tabular}} -\end{table} - -If you want vertical lines as well, you can't use the -\textsf{booktabs} commands as there'll be some unwanted gaps. -Instead you can use \LaTeX's \verb|\hline|, but the rows may -appear a bit cramped. You can add extra space above or below a -row using \verb|\abovestrut| and \verb|\belowstrut|. For example, -see \tableref{tab:example-hline}. - -\begin{table}[htbp] -\floatconts - {tab:example-hline} - {\caption{A Table With Horizontal and Vertical Lines}}% - {% - \begin{tabular}{|l|l|} - \hline - \abovestrut{2.2ex}\bfseries Dataset & \bfseries Result\\\hline - \abovestrut{2.2ex}Data1 & 0.12345\\ - Data2 & 0.67890\\ - Data3 & 0.54321\\ - \belowstrut{0.2ex}Data4 & 0.09876\\\hline - \end{tabular} - } -\end{table} - -If you want to align numbers on their decimal point, you can -use the \textsf{siunitx} package. For example, see -\tableref{tab:example-siunitx}. For further details see the -\textsf{siunitx} documentation\footnote{Either \texttt{texdoc -siunitx} or \url{http://www.ctan.org/pkg/siunitx}}. - -\begin{table}[htbp] -\floatconts - {tab:example-siunitx} - {\caption{A Table With Numbers Aligned on the Decimal Point}} - {\begin{tabular}{lS[tabformat=3.5]} - \bfseries Dataset & {\bfseries Result}\\ - Data1 & 0.12345\\ - Data2 & 10.6789\\ - Data3 & 50.543\\ - Data4 & 200.09876 - \end{tabular}} -\end{table} - -If the table is too wide, you can adjust the inter-column -spacing by changing the value of \verb|\tabcolsep|. For -example: -\begin{verbatim} -\setlength{\tabcolsep}{3pt} -\end{verbatim} -If the table is very wide but not very long, you can use the -\texttt{sidewaystable} environment defined in the -\textsf{rotating} package (so use \verb|\usepackage{rotating}|). -If the table is too long to fit on a page, you should use the -\texttt{longtable} environment defined in the \textsf{longtable} -package (so use \verb|\usepackage{longtable}|). - -\subsection{Figures} -\label{sec:figures} - -Figures should go in the \texttt{figure} environment. Within this -environment, use \verb|\floatconts| to correctly position the -caption and center the image. Use \verb|\includegraphics| -for external graphics files but omit the file extension. Do not -use \verb|\epsfig| or \verb|\psfig|. If you want to scale the -image, it's better to use a fraction of the line width rather -than an explicit length. For example, see \figureref{fig:nodes}. - -\begin{figure}[htbp] - % Caption and label go in the first argument and the figure contents - % go in the second argument -\floatconts - {fig:nodes} - {\caption{Example Image}} - {\includegraphics[width=0.5\linewidth]{images/nodes}} -\end{figure} - -If your image is made up of \LaTeX\ code (for example, commands -provided by the \textsf{pgf} package) you can include it using -\cs{includeteximage} (defined by the \textsf{jmlr} class). This -can be scaled and rotated in the same way as \cs{includegraphics}. -For example, see \figureref{fig:teximage}. - -\begin{figure}[htbp] -\floatconts - {fig:teximage} - {\caption{Image Created Using \LaTeX\ Code}} - {\includeteximage[angle=45]{images/teximage}} -\end{figure} - -If the figure is too wide to fit on the page, you can use the -\texttt{sidewaysfigure} environment defined in the -\textsf{rotating} package. - -Don't use \verb|\graphicspath|. If the images are contained in -a subdirectory, specify this when you include the image, for -example \verb|\includegraphics{figures/mypic}|. - -\subsubsection{Sub-Figures} -\label{sec:subfigures} - -Sub-figures can be created using \verb|\subfigure|, which is -defined by the \textsf{jmlr} class. The optional argument allows -you to provide a subcaption. The label should be placed in the -mandatory argument of \verb|\subfigure|. You can reference the -entire figure, for example \figureref{fig:subfigex}, or you can -reference part of the figure using \verb|\figureref|, for example -\figureref{fig:circle}. Alternatively you can reference the -subfigure using \verb|\subfigref|, for example -\subfigref{fig:circle,fig:square} in \figureref{fig:subfigex}. - -\begin{figure}[htbp] -\floatconts - {fig:subfigex} - {\caption{An Example With Sub-Figures.}} - {% - \subfigure[A Circle]{\label{fig:circle}% - \includegraphics[width=0.2\linewidth]{images/circle}}% - \qquad - \subfigure[A Square]{\label{fig:square}% - \includegraphics[width=0.2\linewidth]{images/square}} - } -\end{figure} - -By default, the sub-figures are aligned on the baseline. -This can be changed using the second optional argument -of \verb|\subfigure|. This may be \texttt{t} (top), \texttt{c} -(centered) or \texttt{b} (bottom). For example, the subfigures -\subfigref{fig:circle2,fig:square2} in \figureref{fig:subfigex2} -both have \verb|[c]| as the second optional argument. - -\begin{figure}[htbp] -\floatconts - {fig:subfigex2} - {\caption{Another Example With Sub-Figures.}} - {% - \subfigure[A Small Circle][c]{\label{fig:circle2}% - \includegraphics[width=0.1\linewidth]{images/circle}}% - \qquad - \subfigure[A Square][c]{\label{fig:square2}% - \includegraphics[width=0.2\linewidth]{images/square}} - } -\end{figure} - -\subsection{Sub-Tables} -\label{sec:subtables} -There is an analogous command \verb|\subtable| for sub-tables. -It has the same syntax as \verb|\subfigure| described above. -You can reference the table using \verb|\tableref|, for example -\tableref{tab:subtabex} or you can reference part of the table, -for example \tableref{tab:ab}. Alternatively you can reference the -subtable using \verb|\subtabref|, for example -\subtabref{tab:ab,tab:cd} in \tableref{tab:subtabex}. - -\begin{table}[htbp] -\floatconts - {tab:subtabex} - {\caption{An Example With Sub-Tables}} - {% - \subtable{% - \label{tab:ab}% - \begin{tabular}{cc} - \bfseries A & \bfseries B\\ - 1 & 2 - \end{tabular} - }\qquad - \subtable{% - \label{tab:cd}% - \begin{tabular}{cc} - \bfseries C & \bfseries D\\ - 3 & 4\\ - 5 & 6 - \end{tabular} - } - } -\end{table} - -By default, the sub-tables are aligned on the top. -This can be changed using the second optional argument -of \verb|\subtable|. This may be \texttt{t} (top), \texttt{c} -(centered) or \texttt{b} (bottom). For example, the sub-tables -\subtabref{tab:ab2,tab:cd2} in \tableref{tab:subtabex2} -both have \verb|[c]| as the second optional argument. - -\begin{table}[htbp] -\floatconts - {tab:subtabex2} - {\caption{Another Example With Sub-Tables}} - {% - \subtable[][c]{% - \label{tab:ab2}% - \begin{tabular}{cc} - \bfseries A & \bfseries B\\ - 1 & 2 - \end{tabular} - }\qquad - \subtable[][c]{% - \label{tab:cd2}% - \begin{tabular}{cc} - \bfseries C & \bfseries D\\ - 3 & 4\\ - 5 & 6 - \end{tabular} - } - } -\end{table} - -\subsection{Algorithms} -\label{sec:algorithms} - -Enumerated textual algorithms can be displayed using the -\texttt{algorithm} environment. Within this environment, use -use an \texttt{enumerate} or nested \texttt{enumerate} environments. -For example, see \algorithmref{alg:gauss}. Note that algorithms -float like figures and tables. - -\begin{algorithm}[htbp] -\floatconts -{alg:gauss}% label -{\caption{The Gauss-Seidel Algorithm}} -{% contents -\begin{enumerate} - \item For $k=1$ to maximum number of iterations - \begin{enumerate} - \item For $i=1$ to $n$ - \begin{enumerate} - \item $x_i^{(k)} = - \frac{b_i - \sum_{j=1}^{i-1}a_{ij}x_j^{(k)} - - \sum_{j=i+1}^{n}a_{ij}x_j^{(k-1)}}{a_{ii}}$ - \item If $\|\vec{x}^{(k)}-\vec{x}^{(k-1)} < \epsilon\|$, - where $\epsilon$ is a specified stopping criteria, stop. - \end{enumerate} - \end{enumerate} -\end{enumerate} -} -\end{algorithm} - -You can use \verb|\caption| and \verb|\label| without using -\verb|\floatconts| (as in \algorithmref{alg:moore}). - -If you'd rather have the same numbering throughout the algorithm -but still want the convenient indentation of nested -\texttt{enumerate} environments, you can use the -\texttt{enumerate*} environment provided by the \textsf{jmlr} -class. For example, see \algorithmref{alg:moore}. - -\begin{algorithm} -\caption{Moore's Shortest Path}\label{alg:moore} -Given a connected graph $G$, where the length of each edge is 1: -\begin{enumerate*} - \item Set the label of vertex $s$ to 0 - \item Set $i=0$ - \begin{enumerate*} - \item \label{step:locate}Locate all unlabelled vertices - adjacent to a vertex labelled $i$ and label them $i+1$ - \item If vertex $t$ has been labelled, - \begin{enumerate*} - \item[] the shortest path can be found by backtracking, and - the length is given by the label of $t$. - \end{enumerate*} - otherwise - \begin{enumerate*} - \item[] increment $i$ and return to step~\ref{step:locate} - \end{enumerate*} - \end{enumerate*} -\end{enumerate*} -\end{algorithm} - -Pseudo code can be displayed using the \texttt{algorithm2e} -environment. This is defined by the \textsf{algorithm2e} package -(which is automatically loaded) so check the \textsf{algorithm2e} -documentation for further details.\footnote{Either \texttt{texdoc -algorithm2e} or \url{http://www.ctan.org/pkg/algorithm2e}} -For an example, see \algorithmref{alg:net}. - -\begin{algorithm2e} -\caption{Computing Net Activation} -\label{alg:net} - % older versions of algorithm2e have \dontprintsemicolon instead - % of the following: - %\DontPrintSemicolon - % older versions of algorithm2e have \linesnumbered instead of the - % following: - %\LinesNumbered -\KwIn{$x_1, \ldots, x_n, w_1, \ldots, w_n$} -\KwOut{$y$, the net activation} -$y\leftarrow 0$\; -\For{$i\leftarrow 1$ \KwTo $n$}{ - $y \leftarrow y + w_i*x_i$\; -} -\end{algorithm2e} - -\section{Description Lists} - -The \textsf{jmlr} class also provides a description-like -environment called \texttt{altdescription}. This has an -argument that should be the widest label in the list. Compare: -\begin{description} -\item[add] A method that adds two variables. -\item[differentiate] A method that differentiates a function. -\end{description} -with -\begin{altdescription}{differentiate} -\item[add] A method that adds two variables. -\item[differentiate] A method that differentiates a function. -\end{altdescription} - -\section{Theorems, Lemmas etc} -\label{sec:theorems} - -The following theorem-like environments are predefined by -the \textsf{jmlr} class: \texttt{theorem}, \texttt{example}, -\texttt{lemma}, \texttt{proposition}, \texttt{remark}, -\texttt{corollary}, \texttt{definition}, \texttt{conjecture} -and \texttt{axiom}. You can use the \texttt{proof} environment -to display the proof if need be, as in \theoremref{thm:eigenpow}. - -\begin{theorem}[Eigenvalue Powers]\label{thm:eigenpow} -If $\lambda$ is an eigenvalue of $\vec{B}$ with eigenvector -$\vec{\xi}$, then $\lambda^n$ is an eigenvalue of $\vec{B}^n$ -with eigenvector $\vec{\xi}$. -\begin{proof} -Let $\lambda$ be an eigenvalue of $\vec{B}$ with eigenvector -$\xi$, then -\begin{align*} -\vec{B}\vec{\xi} &= \lambda\vec{\xi} -\intertext{premultiply by $\vec{B}$:} -\vec{B}\vec{B}\vec{\xi} &= \vec{B}\lambda\vec{\xi}\\ -\Rightarrow \vec{B}^2\vec{\xi} &= \lambda\vec{B}\vec{\xi}\\ -&= \lambda\lambda\vec{\xi}\qquad -\text{since }\vec{B}\vec{\xi}=\lambda\vec{\xi}\\ -&= \lambda^2\vec{\xi} -\end{align*} -Therefore true for $n=2$. Now assume true for $n=k$: -\begin{align*} -\vec{B}^k\vec{\xi} &= \lambda^k\vec{\xi} -\intertext{premultiply by $\vec{B}$:} -\vec{B}\vec{B}^k\vec{\xi} &= \vec{B}\lambda^k\vec{\xi}\\ -\Rightarrow \vec{B}^{k+1}\vec{\xi} &= \lambda^k\vec{B}\vec{\xi}\\ -&= \lambda^k\lambda\vec{\xi}\qquad -\text{since }\vec{B}\vec{\xi}=\lambda\vec{\xi}\\ -&= \lambda^{k+1}\vec{\xi} -\end{align*} -Therefore true for $n=k+1$. Therefore, by induction, true for all -$n$. -\end{proof} -\end{theorem} - -\begin{lemma}[A Sample Lemma]\label{lem:sample} -This is a lemma. -\end{lemma} - -\begin{remark}[A Sample Remark]\label{rem:sample} -This is a remark. -\end{remark} - -\begin{corollary}[A Sample Corollary]\label{cor:sample} -This is a corollary. -\end{corollary} - -\begin{definition}[A Sample Definition]\label{def:sample} -This is a definition. -\end{definition} - -\begin{conjecture}[A Sample Conjecture]\label{con:sample} -This is a conjecture. -\end{conjecture} - -\begin{axiom}[A Sample Axiom]\label{ax:sample} -This is an axiom. -\end{axiom} - -\begin{example}[An Example]\label{ex:sample} -This is an example. -\end{example} - -\section{Color vs Grayscale} -\label{sec:color} - -It's helpful if authors supply grayscale versions of their -images in the event that the article is to be incorporated into -a black and white printed book. With external PDF, PNG or JPG -graphic files, you just need to supply a grayscale version of the -file. For example, if the file is called \texttt{myimage.png}, -then the gray version should be \texttt{myimage-gray.png} or -\texttt{myimage-gray.pdf} or \texttt{myimage-gray.jpg}. You don't -need to modify your code. The \textsf{jmlr} class checks for -the existence of the grayscale version if it is print mode -(provided you have used \verb|\includegraphics| and haven't -specified the file extension). - -You can use \verb|\ifprint| to determine which mode you are in. -For example, in \figureref{fig:nodes}, the -\ifprint{dark gray}{purple} ellipse represents an input and the -\ifprint{light gray}{yellow} ellipse represents an output. -Another example: {\ifprint{\bfseries}{\color{red}}important text!} - -You can use the class option \texttt{gray} to see how the -document will appear in gray scale mode. \textcolor{blue}{Colored -text} will automatically be converted to gray scale. - -The \textsf{jmlr} class loads the \textsf{xcolor} -package, so you can also define your own colors. For example: -\ifprint - {\definecolor{myred}{gray}{0.5}}% - {\definecolor{myred}{rgb}{0.5,0,0}}% -\textcolor{myred}{XYZ}. - -The \textsf{xcolor} class is loaded with the \texttt{x11names} -option, so you can use any of the x11 predefined colors (listed -in the \textsf{xcolor} documentation\footnote{either -\texttt{texdoc xcolor} or \url{http://www.ctan.org/pkg/xcolor}}). - -\section{Citations and Bibliography} -\label{sec:cite} - -The \textsf{jmlr} class automatically loads \textsf{natbib}. -This sample file has the citations defined in the accompanying -BibTeX file \texttt{jmlr-sample.bib}. For a parenthetical -citation use \verb|\citep|. For example -\citep{guyon-elisseeff-03}. For a textual citation use -\verb|\citet|. For example \citet{guyon2007causalreport}. -Both commands may take a comma-separated list, for example -\citet{guyon-elisseeff-03,guyon2007causalreport}. - -These commands have optional arguments and have a starred -version. See the \textsf{natbib} documentation for further -details.\footnote{Either \texttt{texdoc natbib} or -\url{http://www.ctan.org/pkg/natbib}} - -The bibliography is displayed using \verb|\bibliography|. - -\acks{Acknowledgements go here.} - -\bibliography{jmlr-sample} - -\appendix - -\section{First Appendix}\label{apd:first} - -This is the first appendix. - -\section{Second Appendix}\label{apd:second} - -This is the second appendix. - -\end{document} |