章を開始しようとすると、`snotez` がエラーをスローするのはなぜですか?

章を開始しようとすると、`snotez` がエラーをスローするのはなぜですか?

私は、snotez余白のメモを書くために を使用していますが、 コマンドを使用しない限り、非常にうまく機能します\chapter。 コマンドを使用すると、エディター (TeXStudio) は、ドキュメントの行末を指してエラーをスローし、「未定義の制御シーケンス」と表示されます。\end{document}また、「ラベルが変更された可能性があります。相互参照を正しくするには、再実行してください。」という警告メッセージも表示されます。

\chapter{Chapter}以下のコードを削除すると、非常にうまく機能します

\documentclass[11pt, a4paper]{book}


\usepackage{xpatch}
\usepackage[x11names]{xcolor}
\usepackage{ragged2e}
\usepackage{ifthen}
\usepackage[a4paper]{geometry}
% BEGIN_FOLD

    \geometry{twoside=true, showframe=true, inner=5mm, outer=5mm, includemp=true, bindingoffset=5mm, marginparsep=3.5mm, marginparwidth=60mm}

    \geometry{top=20mm, vmarginratio=3:5, includehead=true, includefoot=true, headheight=8pt, headsep=14pt, footskip=5mm}

% END_FOLD



\usepackage{mdframed}
% BEGIN_FOLD

    % ===== Begin skipbelow patch =====
    \makeatletter
    \xpatchcmd{\endmdframed}
    {\aftergroup\endmdf@trivlist\color@endgroup}
    {\endmdf@trivlist\color@endgroup\@doendpe}
    {}{}
    \makeatother
    % ===== End skipbelow patch =====

    % ===== Frames templates =====
    \newcommand{\frameSideNote}{Side Note Frame}
    \global \mdfdefinestyle{\frameSideNote}{
        % Line
        linecolor=DodgerBlue1, linewidth=0.5mm,
        topline=false, bottomline=false,
        skipabove=\baselineskip, skipbelow=0.5\baselineskip,
        innertopmargin=0\baselineskip, innerbottommargin=0.3\baselineskip,  innerleftmargin=0.5mm, innerrightmargin=0.5mm,
        %
        % Frame
        frametitlerule=false,
        frametitlefont=\footnotesize \bfseries, frametitlealignment=\justifying,
        frametitleaboveskip=1.76mm, frametitlebelowskip=1.76mm,
        nobreak=false, needspace=3\baselineskip
                                            }




% END_FOLD

\usepackage{marginnote}
\usepackage{snotez}
% BEGIN_FOLD

    \setsidenotes{marginnote=true}
    \setsidenotes{text-format=\raggedright\normalsize}
    \setsidenotes{perpage=false}

    % Marker Settings
    \setsidenotes{note-mark-sep=\hspace{1mm}}

    \newcommand{\colorSideNoteMarker}{DodgerBlue2}

    \setsidenotes{note-mark-format={
        \textsuperscript{\textbf{\color{\colorSideNoteMarker} #1}}}%
                                    }

    \setsidenotes{text-mark-format={
            \textsuperscript{\textbf{\color{\colorSideNoteMarker} #1}}}%
                                    }


    % ===== Begin defining a instructor side notes =====

        \newboolean{InstructorMode}
        \setboolean{InstructorMode}{true}

        \newcommand{\sidenoteInstructor}[2][]{
            \ifthenelse{\boolean{InstructorMode}}{
                \sidenote[#1][]{#2}
            }{}
        }

        % Options to turn the side notes on or off  
        \newcommand{\setInstructorModeOn}{\setboolean{InstructorMode}{true}}
        \newcommand{\setInstructorModeOff}{\setboolean{InstructorMode}{false}}

    % ===== End defining a instructor side notes =====

% END_FOLD




\begin{document}


\chapter{Chapter}

\cleardoublepage

\paragraph{Page with larger right margin}
This \sidenote{note without determining \texttt{voffset}}  paper proposes an improved  single-diode modeling approach for PV modules suitable for a broad range of the PV technologies available today, including modules \sidenote[\baselineskip][]{note with determining \texttt{voffset}} on tandem cell structures. After establishing the model (which has an overall of seven parameters), the paper devises a methodology to estimate its parameters  using Standard Test Conditions (STC) data, Nominal Operating Cell Temperature (NOCT) data, and temperature coefficients values as provided in most manufacturers' datasheets. Simulation results and their comparison \marginnote{Right margin notes work well} with a previous work show a very accurate prediction of critical points in the current-voltage characteristics curve. \sidenoteInstructor{instructor side note} The precise prediction happens for both STC and NOCT conditions and the error in predicting maximum \sidenoteInstructor{instructor side note} power point lies \sidenoteInstructor[2\baselineskip]{instructor side note} within $1\%$ limit, and the error in its corresponding voltage and current is almost always within $2\%$ limit. Further, for both maximum power point and open-circuit voltage, the statistical variance
around manufacturer measurements
%
\sidenote{\begin{mdframed}[style=\frameSideNote, frametitle=My title]
        My Note
            \end{mdframed}} 
%
due to temperature changes is demonstrated to be low for five various module technologies.


\paragraph{Page with larger right margin}
This paper proposes an improved single-diode modeling approach for PV modules suitable for a broad range of the PV technologies available today, including modules on tandem cell structures. After establishing the model (which has an overall of seven parameters), the paper devises a methodology to estimate its parameters using Standard Test Conditions (STC) data, Nominal Operating Cell Temperature (NOCT) data, \marginnote{Right margin notes work well} and temperature coefficients values as provided in most manufacturers' datasheets. Simulation results and their comparison with a previous work show a very accurate prediction of critical points in the current-voltage characteristics curve. The precise prediction happens for both STC and NOCT conditions and the error in predicting maximum power point lies within $1\%$ limit, and the error in its corresponding voltage and current is almost always within $2\%$ limit. Further, for both maximum power point
%
\sidenote[][]{\begin{mdframed}[style=\frameSideNote, frametitle=My title]
        My Note
            \end{mdframed}}
%
and open-circuit voltage, the statistical variance around manufacturer measurements due to temperature changes is demonstrated to be low for five various module technologies.



\end{document}

答え1

解決しました。\setsidenotes{perpage=true}、または を使用してください。\setsidenotes{perpage=false} \counterwithout{sidenote}{chapter}

ここに画像の説明を入力してください

ムウェ

\documentclass[11pt, a4paper]{book}


\usepackage{xpatch}
\usepackage[x11names]{xcolor}
\usepackage{ragged2e}
\usepackage{ifthen}
\usepackage[a4paper]{geometry}
% BEGIN_FOLD

    \geometry{twoside=true, showframe=true, inner=5mm, outer=5mm, includemp=true, bindingoffset=5mm, marginparsep=3.5mm, marginparwidth=60mm}

    \geometry{top=20mm, vmarginratio=3:5, includehead=true, includefoot=true, headheight=8pt, headsep=14pt, footskip=5mm}

% END_FOLD



\usepackage{mdframed}
% BEGIN_FOLD

    % ===== Begin skipbelow patch =====
    \makeatletter
    \xpatchcmd{\endmdframed}
    {\aftergroup\endmdf@trivlist\color@endgroup}
    {\endmdf@trivlist\color@endgroup\@doendpe}
    {}{}
    \makeatother
    % ===== End skipbelow patch =====

    % ===== Frames templates =====
    \newcommand{\frameSideNote}{Side Note Frame}
    \global \mdfdefinestyle{\frameSideNote}{
        % Line
        linecolor=DodgerBlue1, linewidth=0.5mm,
        topline=false, bottomline=false,
        skipabove=\baselineskip, skipbelow=0.5\baselineskip,
        innertopmargin=0\baselineskip, innerbottommargin=0.3\baselineskip,  innerleftmargin=0.5mm, innerrightmargin=0.5mm,
        %
        % Frame
        frametitlerule=false,
        frametitlefont=\footnotesize \bfseries, frametitlealignment=\justifying,
        frametitleaboveskip=1.76mm, frametitlebelowskip=1.76mm,
        nobreak=false, needspace=3\baselineskip
                                            }




% END_FOLD

\usepackage{marginnote}
\usepackage{snotez}
% BEGIN_FOLD

    \setsidenotes{marginnote=true}
    \setsidenotes{text-format=\raggedright\normalsize}

    % ===== Solution =====

        % 1. either set
        \setsidenotes{perpage=true}

        % 2. or set
%       \setsidenotes{perpage=false} \counterwithout{sidenote}{chapter}

    % Marker Settings
    \setsidenotes{note-mark-sep=\hspace{1mm}}

    \newcommand{\colorSideNoteMarker}{DodgerBlue2}

    \setsidenotes{note-mark-format={
        \textsuperscript{\textbf{\color{\colorSideNoteMarker} #1}}}%
                                    }

    \setsidenotes{text-mark-format={
            \textsuperscript{\textbf{\color{\colorSideNoteMarker} #1}}}%
                                    }


    % ===== Begin defining a instructor side notes =====

        \newboolean{InstructorMode}
        \setboolean{InstructorMode}{true}

        \newcommand{\sidenoteInstructor}[2][]{
            \ifthenelse{\boolean{InstructorMode}}{
                \sidenote[#1][]{#2}
            }{}
        }

        % Options to turn the side notes on or off  
        \newcommand{\setInstructorModeOn}{\setboolean{InstructorMode}{true}}
        \newcommand{\setInstructorModeOff}{\setboolean{InstructorMode}{false}}

    % ===== End defining a instructor side notes =====

% END_FOLD




\begin{document}


\chapter{Chapter}

\paragraph{Page with larger right margin}
This \sidenote{note without determining \texttt{voffset}}  paper proposes an improved  single-diode modeling approach for PV modules suitable for a broad range of the PV technologies available today, including modules \sidenote[\baselineskip][]{note with determining \texttt{voffset}} on tandem cell structures. After establishing the model (which has an overall of seven parameters), the paper devises a methodology to estimate its parameters  using Standard Test Conditions (STC) data, Nominal Operating Cell Temperature (NOCT) data, and temperature coefficients values as provided in most manufacturers' datasheets. Simulation results and their comparison \marginnote{Right margin notes work well} with a previous work show a very accurate prediction of critical points in the current-voltage characteristics curve. \sidenoteInstructor{instructor side note} The precise prediction happens for both STC and NOCT conditions and the error in predicting maximum \sidenoteInstructor{instructor side note} power point lies \sidenoteInstructor[2\baselineskip]{instructor side note} within $1\%$ limit, and the error in its corresponding voltage and current is almost always within $2\%$ limit. Further, for both maximum power point and open-circuit voltage, the statistical variance
around manufacturer measurements
%
\sidenote{\begin{mdframed}[style=\frameSideNote, frametitle=My title]
        My Note
            \end{mdframed}} 
%
due to temperature changes is demonstrated to be low for five various module technologies.


\paragraph{Page with larger right margin}
This paper proposes an improved single-diode modeling approach for PV modules suitable for a broad range of the PV technologies available today, including modules on tandem cell structures. After establishing the model (which has an overall of seven parameters), the paper devises a methodology to estimate its parameters using Standard Test Conditions (STC) data, Nominal Operating Cell Temperature (NOCT) data, \marginnote{Right margin notes work well} and temperature coefficients values as provided in most manufacturers' datasheets. Simulation results and their comparison with a previous work show a very accurate prediction of critical points in the current-voltage characteristics curve. The precise prediction happens for both STC and NOCT conditions and the error in predicting maximum power point lies within $1\%$ limit, and the error in its corresponding voltage and current is almost always within $2\%$ limit. Further, for both maximum power point
%
\sidenote[][]{\begin{mdframed}[style=\frameSideNote, frametitle=My title]
        My Note
            \end{mdframed}}
%
and open-circuit voltage, the statistical variance around manufacturer measurements due to temperature changes is demonstrated to be low for five various module technologies.



\end{document}

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