I am having problems compiling a LaTeX document to HTML. It works fine except that some of the figures are not numbered (they are referenced by number in the text but figure caption just says Figure: blah..). The output contains many errors like:
=============================================== ,Arguments to leftmargin are too complex ... It will not be processed unless used in another environment =============================================== and then many instances of =============================================== No number for "Thefourpossibleconstitutiveequationforms.Innon-linearsystems,them aterialparameters,$s,c,hatepsilon,beta,d,e,g,h$(compliance,stiffness,permittivit y,inversepermittivity,and4piezoelectriccouplingfactors)arefunctionsofthespecifie dindependentvariables.Inlinearsystemsonly,etc." =============================================== I don't understand the problem as I am not using the \leftmargin command. I don't even know what it does! Also, it says =============================================== Unknown commands: z_at_ p_at_ =============================================== I am not using these commands, I don't know what they are! My .tex file is vanilla LaTeX, the preamble is =============================================== \documentclass{article} \usepackage{graphics} \setlength{\topmargin}{0cm} \setlength{\textwidth}{16cm} \setlength{\textheight}{22cm} \setlength{\oddsidemargin}{0cm} \setlength{\evensidemargin}{0cm} \setlength{\marginparwidth}{2cm} \begin{document} \renewcommand{\vec}[1]{\mbox{\boldmath $#1$}} \renewcommand{\d}{\partial} \renewcommand{\t}[1]{\mathrm{#1}} \newcommand{\eq}[1]{(\ref{#1})} \newcommand{\f}[1]{Figure \ref{#1}} \newcommand{\dee}{\mathrm{d}} \newcommand{\dd}[2]{\left(\frac{\d #1}{\d #2}\right)} \newcommand{\ddd}[3]{\left(\frac{\d #1}{\d #2}\right)_{#3}} \newcommand{\rms}{{\footnotesize rms}~} \newcommand{\peak}{{\footnotesize peak}~} \title{Non linear piezoelectric resonance} \author{John Blackburn} \maketitle \section{Introduction} This aim of this document is to compare three non-linear piezoelectric test methods: constant voltage, constant current and burst mode ... =============================================== Typical figure =============================================== \begin{figure} \scalebox{0.8}{\includegraphics{contv}} \caption{Experimental setup for constant voltage. OSC output is in range 5mV\rms-1.1V\rms. The amplifier magnifies voltage up to $100\times$. The input to port A is voltage over piezoelectric divided by 10,000 to keep it low enough. The current detectors create 1V per 1A.} \label{contv} \end{figure} =============================================== and it is referenced by =============================================== ... as shown in \f{contv}. =============================================== I would appreciate any help!! John Blackburn ------------------------------------------------------------------- This e-mail and any attachments may contain confidential and/or privileged material; it is for the intended addressee(s) only. If you are not a named addressee, you must not use, retain or disclose such information. NPL Management Ltd cannot guarantee that the e-mail or any attachments are free from viruses. NPL Management Ltd. Registered in England and Wales. No: 2937881 Registered Office: Serco House, 16 Bartley Wood Business Park, Hook, Hampshire, United Kingdom RG27 9UY ------------------------------------------------------------------- _______________________________________________ latex2html mailing list latex2html@tug.org http://tug.org/mailman/listinfo/latex2html