So fügen Sie einen Abschnitt zu Wahlfächern in ein Diagramm ein

Hier ist eine Antwort auf Ihre aktualisierte Frage. (Für diejenigen, die meinen, ich sollte nicht zwei Antworten hinzufügen: Ich werde gerne eine davon entfernen. Ich denke jedoch, dass die andere möglicherweise für andere nützlich sein könnte.) Wie zuvor besteht die Strategie darin, berechnete Entfernungen in die AUX-Datei zu schreiben, sodass sie nach einer Neukompilierung verwendet werden können.

\documentclass{article}
\usepackage[showframe,margin=0in,footskip=0.25in,paperwidth=54cm,paperheight=24cm]{geometry}
\usepackage[english]{babel}
\usepackage[utf8]{inputenc}
\usepackage[T1]{fontenc}
\usepackage{hyperref}
\usepackage{tikz}
\usetikzlibrary{positioning,backgrounds,fit,calc}
\tikzset{text field/.style={text height=1.5ex,align=center,rounded corners},
title field/.style={text height=2ex,text depth=0.3em,anchor=south,text
width=4.5cm,align=center,font=\footnotesize\sffamily},
pics/fillable subject/.style={code={%
\node[text field] (-TF) 
{\hspace*{-0.5em}\TextField[align=1,name=#1-day,width=1em,charsize=7pt,maxlen=2,bordercolor={1 1 1}]~~/\hspace*{-0.15em}\TextField[align=1,name=#1-month,width=1em,charsize=7pt,maxlen=2,bordercolor={1 1 1}]~~/\hspace*{-0em}\TextField[align=1,name=#1-year,width=2em,charsize=7pt,maxlen=4,bordercolor={1 1 1}]{}~};
\node[title field] (-Title) 
at ([yshift=0.4em]-TF.north) {#1};
\draw[rounded corners] (-TF.south west) |- (-Title.south west)
|- (-Title.north east) -- (-Title.south east) -| (-TF.south east)
 -- cycle;
\draw ([xshift=4pt]-Title.south west) -- ([xshift=-4pt]-Title.south east);
 }},
pics/nonfillable subject/.style={code={%
\node[text field] (-TF) 
{\hspace{1.2em}~/~\hspace{1.15em}~/~\hspace{2.35em}{}};
\node[title field] (-Title) 
at ([yshift=0.4em]-TF.north) {#1};
\draw[rounded corners] (-TF.south west) |- (-Title.south west)
|- (-Title.north east) -- (-Title.south east) -| (-TF.south east)
 -- cycle;
\draw ([xshift=4pt]-Title.south west) -- ([xshift=-4pt]-Title.south east);
 }}, 
 manoooh/.style={column sep=-1.75cm,row sep=5mm},
 manooohE/.style={column sep=-2.25cm,row sep=5mm,anchor=south},
 electives/.style={column sep=-2.25cm,row sep=5mm},
 fit sep/.initial=10pt,
 fit dist/.initial=20pt,
 inlay top sep/.initial=24pt,
 matrix top sep/.initial=24pt,
 }

\makeatletter% from https://tex.stackexchange.com/a/85531/121799
\long\def\ifnodedefined#1#2#3{%
    \@ifundefined{pgf@sh@ns@#1}{#3}{#2}%
}
\makeatother

\begin{document}
\thispagestyle{empty}   % To suppress page number
\noindent
\begin{tikzpicture}
\fill[white,fill=orange] (0,0) rectangle (\paperwidth,-2cm) node[midway,align=center,font=\Huge] {\bfseries Some text here\\\LARGE More text here};
\end{tikzpicture}

\ifdefined\mymatdist
%\typeout{got\space\mymatdist}
\else
\typeout{Please\space recompile\space your\space file!}
\def\mymatdist{150pt}
\fi
\ifdefined\mymatbottom
%\typeout{got\space\mymatbottom}
\else
\typeout{Please\space recompile\space your\space file!}
\def\mymatbottom{-150pt}
\fi
\ifdefined\myheight
\else
\def\myheight{0}
\typeout{Please\space recompile\space your\space file!}
\fi
\ifdefined\LstMatShifts
\else
\def\LstMatShifts{{0pt,0pt,0pt,0pt,0pt}}
\fi
%\typeout{height:\myheight}
%\typeout{shifts(in):\LstMatShifts}

\vfill
\centering
\begin{tikzpicture}[node distance=3.14cm]
 % step 1: add the matrices, name them mat0, mat1 etc.
 \begin{scope}[local bounding box=matrices] 
  \matrix[manoooh] (mat0) at (0*\mymatdist,{\LstMatShifts[0]}) {
         \pic[local bounding box=A] (A)  {nonfillable subject={Subject}}; & & 
         \pic (B)  {nonfillable subject={Subject}}; \\
         & \pic (C)  {nonfillable subject={Subject}}; & \\
         };
  \matrix[manooohE,column sep=8pt] (matE0)  at (0*\mymatdist,\mymatbottom) {
         \pic (AE)  {nonfillable subject={Subject}}; &  
         \pic (BE)  {nonfillable subject={Subject}}; \\
         \pic (CE)  {nonfillable subject={Subject}}; &  
         \pic (DE)  {nonfillable subject={Subject}}; \\         
         };       
  \matrix[manoooh] (mat1) at (1*\mymatdist,{\LstMatShifts[1]}) {
         \pic (D)  {nonfillable subject={Subject}}; \\ 
         \pic (E)  {nonfillable subject={Subject}}; \\
         \pic (F)  {nonfillable subject={Subject}}; \\ 
         \pic (G)  {nonfillable subject={Subject}}; \\ 
         \pic (D')  {nonfillable subject={Subject}}; \\ 
         \pic (E')  {nonfillable subject={Subject}}; \\
         \pic (F')  {nonfillable subject={Subject}}; \\ 
         \pic (G')  {nonfillable subject={Subject}}; \\ 
         };
  \matrix[manoooh] (mat2) at (2*\mymatdist,{\LstMatShifts[2]}) {
         \pic (H)  {nonfillable subject={Subject}}; & & 
         \pic (I)  {nonfillable subject={Subject}}; \\
         & \pic (J)  {nonfillable subject={Subject}};  & \\
         \pic (K)  {nonfillable subject={Subject}}; 
         & &
         \pic (L)  {nonfillable subject={Subject}}; \\
         };
  \matrix[manooohE] (matE2) at (2*\mymatdist,\mymatbottom) {
         \pic (HE)  {nonfillable subject={Subject}}; \\
         };       
  \matrix[manoooh] (mat3) at (3*\mymatdist,{\LstMatShifts[3]}) {
         & \pic (M)  {nonfillable subject={Subject}};  & \\
         \pic (N)  {nonfillable subject={Subject}}; & & 
         \pic (O)  {nonfillable subject={Subject}}; \\
         \pic (P)  {nonfillable subject={Subject}}; 
         & &
         \pic (Q)  {nonfillable subject={Subject}}; \\
         };
  \matrix[manooohE] (matE3) at (3*\mymatdist,\mymatbottom) {
         &\pic (ME)  {nonfillable subject={Subject}};  &\\
         \pic (NE)  {nonfillable subject={Subject}}; & &
         \pic (POE)  {nonfillable subject={Subject}}; \\
         \pic (PE)  {nonfillable subject={Subject}}; &  &
         \pic (QE)  {nonfillable subject={Subject}}; \\         
         };              
 \end{scope}
 \pgfmathsetmacro{\mywidth}{0}
 \foreach \X in {0,...,3} %<- if you have more or less matrices, adjust 3       
 {
  \ifnodedefined{matE\X}{% has inlay
   \path let \p1=($(mat\X.north east)-(mat\X.south west)$),
    \p2=($(matE\X.north east)-(matE\X.south west)$)
      in 
    \pgfextra{\pgfmathsetmacro{\mywidth}{max(\x1,\mywidth)}
     \pgfmathsetmacro{\myheight}{max(\y1+\y2+%
       \pgfkeysvalueof{/tikz/inlay top sep}+\pgfkeysvalueof{/tikz/matrix top sep},%
       \myheight)}
     \xdef\mywidth{\mywidth}\xdef\myheight{\myheight}
     \pgfmathsetmacro{\myshift}{(\pgfkeysvalueof{/tikz/inlay top sep}+\y2)/2}
     \ifnum\X=0
     \xdef\LstMatShifts{\myshift pt}
     \else
     \xdef\LstMatShifts{\LstMatShifts,\myshift pt}
     \fi};}{% no inlay
   \path 
    let \p1=($(mat\X.north east)-(mat\X.south west)$)  in 
  \pgfextra{\pgfmathsetmacro{\mywidth}{max(\x1,\mywidth)}
    \pgfmathsetmacro{\myheight}{max(\y1+\pgfkeysvalueof{/tikz/matrix top sep},\myheight)} 
    \xdef\mywidth{\mywidth}\xdef\myheight{\myheight}};
    \ifnum\X=0
    \xdef\LstMatShifts{0pt}
    \else
    \xdef\LstMatShifts{\LstMatShifts,0pt}
    \fi
     }
  \node[anchor=south,yshift=1cm,align=center,font=\LARGE\bfseries\boldmath] 
  at (mat\X |-matrices.north) (L\X) {Level $\X$};
  \begin{scope}[on background layer]
   % the fit parameters determine the shape of the background rectangles
   \node[fit=(L\X) (mat\X) (matrices.south-|mat\X.south),inner ysep=5mm,
   minimum width=\mymatdist-\pgfkeysvalueof{/tikz/fit dist}/2,
   fill=orange!30,rounded corners=50pt](F\X){};
  \end{scope}}
 %\typeout{height1:\myheight} % 
 %
 \pgfmathsetmacro{\mydist}{\mywidth+2*\pgfkeysvalueof{/tikz/fit
 sep}+\pgfkeysvalueof{/tikz/fit dist}}
 \xdef\mydist{\mydist}
 \def\mymatbottom{0pt}
 \foreach \X in {0,...,3} %
 {\ifnodedefined{matE\X}{\path let \p1=($(mat\X.north)-(mat\X.south)$),
      \p2=($(matE\X.north)-(matE\X.south)$),
      \n1={max(abs(\y1)/2+abs(\y2)+2*\pgfkeysvalueof{/tikz/inlay top sep},\mymatbottom)}
     in \pgfextra{\xdef\mymatbottom{\n1}}
     node[anchor=south east,xshift=-2cm,font=\LARGE\bfseries] (El\X)
      at (matE\X.north){Electives};
  \begin{scope}[on background layer]      
    \node[fit=(matE\X) (El\X)] (FE\X){};
    \fill[blue!30,rounded corners=30pt] (\X*\mymatdist-
    \mymatdist/2+\pgfkeysvalueof{/tikz/fit dist}/4+10pt,0|-FE\X.north)
    rectangle (\X*\mymatdist+
    \mymatdist/2-\pgfkeysvalueof{/tikz/fit dist}/4-10pt,0|-FE\X.south);
  \end{scope}}{}}
 %\typeout{shifts(end):\LstMatShifts} 
 \makeatletter
 \immediate\write\@mainaux{\xdef\string\mymatdist{\mydist pt}\relax}
 \immediate\write\@mainaux{\xdef\string\mymatbottom{-\mymatbottom}\relax}
 \immediate\write\@mainaux{\xdef\string\myheight{\myheight}\relax}
 \immediate\write\@mainaux{\xdef\string\LstMatShifts{{\LstMatShifts}}\relax}
 \makeatother

 % now add the arrows 
 \foreach \X in {D,...,G}
 {\draw[blue,-latex] (B-Title) to[out=0,in=180] (\X-Title);}
\end{tikzpicture}

\vfill
\end{document}

Die Hauptkomplikation besteht darin, dass man Tikz-Matrizen noch nicht (?) verschachteln kann. Daher folgt dieser Vorschlag einer etwas anderen Strategie, die konzeptionell mehr oder weniger identisch ist mitder hier verwendete:

1. Erstellen Sie die Matrizen mit einigen geschätzten Entfernungen.
2. Messen Sie die Matrizen.
3. Berechnen Sie aus den gemessenen Werten die „optimalen“ Abstände.
4. Schreiben Sie die „optimalen“ Abstände in die AUX-Datei, sodass sie nach der Neukompilierung verwendet werden können.

Das Beispiel enthält viele Anmerkungen, die Ihnen dabei helfen sollen, zu verstehen, was passiert. Beachten Sie auch, dass Sie die eigentlichen Inlays durchlaufen müssen, d. h. wenn Sie Inlays hinzufügen oder entfernen möchten, müssen Sie möglicherweise Änderungen vornehmen \foreach \X in {0,2,3}.

\documentclass{article}
\usepackage[showframe,margin=0in,footskip=0.25in,paperwidth=54cm,paperheight=20cm]{geometry}
\usepackage[english]{babel}
\usepackage[utf8]{inputenc}
\usepackage[T1]{fontenc}
\usepackage{hyperref}
\usepackage{tikz}
\usetikzlibrary{positioning,backgrounds,fit,calc}
\tikzset{text field/.style={text height=1.5ex,align=center,rounded corners},
title field/.style={text height=2ex,text depth=0.3em,anchor=south,text
width=4.5cm,align=center,font=\footnotesize\sffamily},
pics/fillable subject/.style={code={%
\node[text field] (-TF) 
{\hspace*{-0.5em}\TextField[align=1,name=#1-day,width=1em,charsize=7pt,maxlen=2,bordercolor={1 1 1}]~~/\hspace*{-0.15em}\TextField[align=1,name=#1-month,width=1em,charsize=7pt,maxlen=2,bordercolor={1 1 1}]~~/\hspace*{-0em}\TextField[align=1,name=#1-year,width=2em,charsize=7pt,maxlen=4,bordercolor={1 1 1}]{}~};
\node[title field] (-Title) 
at ([yshift=0.4em]-TF.north) {#1};
\draw[rounded corners] (-TF.south west) |- (-Title.south west)
|- (-Title.north east) -- (-Title.south east) -| (-TF.south east)
 -- cycle;
\draw ([xshift=4pt]-Title.south west) -- ([xshift=-4pt]-Title.south east);
 }},
pics/nonfillable subject/.style={code={%
\node[text field] (-TF) 
{\hspace{1.2em}~/~\hspace{1.15em}~/~\hspace{2.35em}{}};
\node[title field] (-Title) 
at ([yshift=0.4em]-TF.north) {#1};
\draw[rounded corners] (-TF.south west) |- (-Title.south west)
|- (-Title.north east) -- (-Title.south east) -| (-TF.south east)
 -- cycle;
\draw ([xshift=4pt]-Title.south west) -- ([xshift=-4pt]-Title.south east);
 }}, 
 manoooh/.style={column sep=-1.75cm,row sep=5mm},
 manooohE/.style={column sep=-2.25cm,row sep=5mm,anchor=south},
 wrapper/.style={fit=#1,inner sep=0pt,minimum width=\useVal{matrix_width}}
 electives/.style={column sep=-2.25cm,row sep=5mm},
 fit sep/.initial=10pt,
 fit dist/.initial=20pt,
 inlay top sep/.initial=24pt
 }

\begin{document}
\thispagestyle{empty}   % To suppress page number
\noindent
\begin{tikzpicture}
\fill[white,fill=orange] (0,0) rectangle (\paperwidth,-2cm) node[midway,align=center,font=\Huge] {\bfseries Some text here\\\LARGE More text here};
\end{tikzpicture}

\ifdefined\mymatdist
%\typeout{got\space\mymatdist}
\else
\typeout{Please\space recompile\space your\space file!}
\def\mymatdist{150pt}
\fi
\ifdefined\mymatbottom
%\typeout{got\space\mymatbottom}
\else
\typeout{Please\space recompile\space your\space file!}
\def\mymatbottom{-150pt}
\fi


\vfill
\centering
\begin{tikzpicture}[node distance=3.14cm]
 % step 1: add the matrices, name them mat0, mat1 etc.
 \begin{scope}[local bounding box=matrices] 
  \matrix[manoooh] (mat0) at (0*\mymatdist,0) {
         \pic[local bounding box=A] (A)  {nonfillable subject={Subject}}; & & 
         \pic (B)  {nonfillable subject={Subject}}; \\
         & \pic (C)  {nonfillable subject={Subject}}; & \\
         };
  \matrix[manooohE,column sep=8pt] (matE0)  at (0*\mymatdist,\mymatbottom) {
         \pic (AE)  {nonfillable subject={Subject}}; &  
         \pic (BE)  {nonfillable subject={Subject}}; \\
         \pic (CE)  {nonfillable subject={Subject}}; &  
         \pic (DE)  {nonfillable subject={Subject}}; \\         
         };       
  \matrix[manoooh] (mat1) at (1*\mymatdist,0) {
         \pic (D)  {nonfillable subject={Subject}}; \\ 
         \pic (E)  {nonfillable subject={Subject}}; \\
         \pic (F)  {nonfillable subject={Subject}}; \\ 
         \pic (G)  {nonfillable subject={Subject}}; \\ 
         };
  \matrix[manoooh] (mat2) at (2*\mymatdist,0) {
         \pic (H)  {nonfillable subject={Subject}}; & & 
         \pic (I)  {nonfillable subject={Subject}}; \\
         & \pic (J)  {nonfillable subject={Subject}};  & \\
         \pic (K)  {nonfillable subject={Subject}}; 
         & &
         \pic (L)  {nonfillable subject={Subject}}; \\
         };
  \matrix[manooohE] (matE2) at (2*\mymatdist,\mymatbottom) {
         \pic (HE)  {nonfillable subject={Subject}}; \\
         };       
  \matrix[manoooh] (mat3) at (3*\mymatdist,0) {
         & \pic (M)  {nonfillable subject={Subject}};  & \\
         \pic (N)  {nonfillable subject={Subject}}; & & 
         \pic (O)  {nonfillable subject={Subject}}; \\
         \pic (P)  {nonfillable subject={Subject}}; 
         & &
         \pic (Q)  {nonfillable subject={Subject}}; \\
         };
  \matrix[manooohE] (matE3) at (3*\mymatdist,\mymatbottom) {
         &\pic (ME)  {nonfillable subject={Subject}};  &\\
         \pic (NE)  {nonfillable subject={Subject}}; & &
         \pic (POE)  {nonfillable subject={Subject}}; \\
         \pic (PE)  {nonfillable subject={Subject}}; &  &
         \pic (QE)  {nonfillable subject={Subject}}; \\         
         };              
 \end{scope}
 \pgfmathsetmacro{\mywidth}{0pt}
 \foreach \X in {0,...,3} %<- if you have more or less matrices, adjust 3       
 {\path let \p1=($(mat\X.east)-(mat\X.west)$) in 
 \pgfextra{\pgfmathsetmacro{\mywidth}{max(\x1,\mywidth)}
 \xdef\mywidth{\mywidth}};
 \node[anchor=south,yshift=1cm,align=center,font=\LARGE\bfseries\boldmath] 
 at (mat\X |-matrices.north) (L\X) {Level $\X$};
 \begin{scope}[on background layer]
  % the fit parameters determine the shape of the background rectangles
  \node[fit=(L\X) (mat\X) (matrices.south-|mat\X.south),inner ysep=5mm,
  minimum width=\mymatdist-\pgfkeysvalueof{/tikz/fit dist}/2,
  fill=orange!30,rounded corners=50pt](F\X){};
 \end{scope}}
 %\xdef\mydist{\mydist}
 \pgfmathsetmacro{\mydist}{\mywidth+2*\pgfkeysvalueof{/tikz/fit
 sep}+\pgfkeysvalueof{/tikz/fit dist}}
 \xdef\mydist{\mydist}
 \def\mymatbottom{0pt}
 \foreach \X in {0,2,3} %<run only over those entries that have inlays
 {\path let \p1=($(mat\X.north)-(mat\X.south)$),
      \p2=($(matE\X.north)-(matE\X.south)$),
      \n1={max(abs(\y1)/2+abs(\y2)+2*\pgfkeysvalueof{/tikz/inlay top sep},\mymatbottom)}
     in \pgfextra{\xdef\mymatbottom{\n1}}
     node[anchor=south east,xshift=-2cm,font=\LARGE\bfseries] (El\X)
      at (matE\X.north){Electives};
  \begin{scope}[on background layer]      
    \node[fit=(matE\X) (El\X)] (FE\X){};
    \fill[blue!30,rounded corners=30pt] (\X*\mymatdist-
    \mymatdist/2+\pgfkeysvalueof{/tikz/fit dist}/4+10pt,0|-FE\X.north)
    rectangle (\X*\mymatdist+
    \mymatdist/2-\pgfkeysvalueof{/tikz/fit dist}/4-10pt,0|-FE\X.south);
  \end{scope}}
 \makeatletter
 \immediate\write\@mainaux{\xdef\string\mymatdist{\mydist pt}\relax}
 \immediate\write\@mainaux{\xdef\string\mymatbottom{-\mymatbottom}\relax}
 \makeatother

 % now add the arrows 
 \foreach \X in {D,...,G}
 {\draw[blue,-latex] (B-Title) to[out=0,in=180] (\X-Title);}
\end{tikzpicture}

\vfill
\end{document}

Und dies ist ein zweites Beispiel mit Anmerkungen, das auch Ihrem Screenshot näher kommt.

\documentclass{article}
\usepackage[showframe,margin=0in,footskip=0.25in,paperwidth=54cm,paperheight=24cm]{geometry}
\usepackage[english]{babel}
\usepackage[utf8]{inputenc}
\usepackage[T1]{fontenc}
\usepackage{hyperref}
\usepackage{tikz}
\usetikzlibrary{positioning,backgrounds,fit,calc}
\tikzset{text field/.style={text height=1.5ex,align=center,rounded corners},
title field/.style={text height=2ex,text depth=0.3em,anchor=south,text
width=4.5cm,align=center,font=\footnotesize\sffamily},
pics/fillable subject/.style={code={%
\node[text field] (-TF) 
{\hspace*{-0.5em}\TextField[align=1,name=#1-day,width=1em,charsize=7pt,maxlen=2,bordercolor={1 1 1}]~~/\hspace*{-0.15em}\TextField[align=1,name=#1-month,width=1em,charsize=7pt,maxlen=2,bordercolor={1 1 1}]~~/\hspace*{-0em}\TextField[align=1,name=#1-year,width=2em,charsize=7pt,maxlen=4,bordercolor={1 1 1}]{}~};
\node[title field] (-Title) 
at ([yshift=0.4em]-TF.north) {#1};
\draw[rounded corners] (-TF.south west) |- (-Title.south west)
|- (-Title.north east) -- (-Title.south east) -| (-TF.south east)
 -- cycle;
\draw ([xshift=4pt]-Title.south west) -- ([xshift=-4pt]-Title.south east);
 }},
pics/nonfillable subject/.style={code={%
\node[text field] (-TF) 
{\hspace{1.2em}~/~\hspace{1.15em}~/~\hspace{2.35em}{}};
\node[title field] (-Title) 
at ([yshift=0.4em]-TF.north) {#1};
\draw[rounded corners] (-TF.south west) |- (-Title.south west)
|- (-Title.north east) -- (-Title.south east) -| (-TF.south east)
 -- cycle;
\draw ([xshift=4pt]-Title.south west) -- ([xshift=-4pt]-Title.south east);
 }}, 
 manoooh/.style={column sep=-1.75cm,row sep=5mm},
 manooohE/.style={column sep=-2.25cm,row sep=5mm,anchor=south},
 wrapper/.style={fit=#1,inner sep=0pt,minimum width=\useVal{matrix_width}}
 electives/.style={column sep=-2.25cm,row sep=5mm},
 fit sep/.initial=10pt,
 fit dist/.initial=20pt,
 inlay top sep/.initial=24pt
 }

\begin{document}
\thispagestyle{empty}   % To suppress page number
\noindent
\begin{tikzpicture}
\fill[white,fill=orange] (0,0) rectangle (\paperwidth,-2cm) node[midway,align=center,font=\Huge] {\bfseries Some text here\\\LARGE More text here};
\end{tikzpicture}

\ifdefined\mymatdist
%\typeout{got\space\mymatdist}
\else
\typeout{Please\space recompile\space your\space file!}
\def\mymatdist{150pt}
\fi
\ifdefined\mymatbottom
%\typeout{got\space\mymatbottom}
\else
\typeout{Please\space recompile\space your\space file!}
\def\mymatbottom{-150pt}
\fi


\vfill
\centering
\begin{tikzpicture}[node distance=3.14cm]
 % step 1: add the matrices, name them mat0, mat1 etc.
 \begin{scope}[local bounding box=matrices] 
  \matrix[manoooh] (mat0) at (0*\mymatdist,0) {
         \pic[local bounding box=A] (A)  {nonfillable subject={Subject}}; & & 
         \pic (B)  {nonfillable subject={Subject}}; \\
         & \pic (C)  {nonfillable subject={Subject}}; & \\
         };
  \matrix[manooohE,column sep=8pt] (matE0)  at (0*\mymatdist,\mymatbottom) {
         \pic (AE)  {nonfillable subject={Subject}}; &  
         \pic (BE)  {nonfillable subject={Subject}}; \\
         \pic (CE)  {nonfillable subject={Subject}}; &  
         \pic (DE)  {nonfillable subject={Subject}}; \\         
         };       
  \matrix[manoooh] (mat1) at (1*\mymatdist,0) {
         \pic (D)  {nonfillable subject={Subject}}; \\ 
         \pic (E)  {nonfillable subject={Subject}}; \\
         \pic (F)  {nonfillable subject={Subject}}; \\ 
         \pic (G)  {nonfillable subject={Subject}}; \\ 
         \pic (D')  {nonfillable subject={Subject}}; \\ 
         \pic (E')  {nonfillable subject={Subject}}; \\
         \pic (F')  {nonfillable subject={Subject}}; \\ 
         \pic (G')  {nonfillable subject={Subject}}; \\ 
         };
  \matrix[manoooh] (mat2) at (2*\mymatdist,0) {
         \pic (H)  {nonfillable subject={Subject}}; & & 
         \pic (I)  {nonfillable subject={Subject}}; \\
         & \pic (J)  {nonfillable subject={Subject}};  & \\
         \pic (K)  {nonfillable subject={Subject}}; 
         & &
         \pic (L)  {nonfillable subject={Subject}}; \\
         };
  \matrix[manooohE] (matE2) at (2*\mymatdist,\mymatbottom) {
         \pic (HE)  {nonfillable subject={Subject}}; \\
         };       
  \matrix[manoooh] (mat3) at (3*\mymatdist,0) {
         & \pic (M)  {nonfillable subject={Subject}};  & \\
         \pic (N)  {nonfillable subject={Subject}}; & & 
         \pic (O)  {nonfillable subject={Subject}}; \\
         \pic (P)  {nonfillable subject={Subject}}; 
         & &
         \pic (Q)  {nonfillable subject={Subject}}; \\
         };
  \matrix[manooohE] (matE3) at (3*\mymatdist,\mymatbottom) {
         &\pic (ME)  {nonfillable subject={Subject}};  &\\
         \pic (NE)  {nonfillable subject={Subject}}; & &
         \pic (POE)  {nonfillable subject={Subject}}; \\
         \pic (PE)  {nonfillable subject={Subject}}; &  &
         \pic (QE)  {nonfillable subject={Subject}}; \\         
         };              
 \end{scope}
 \pgfmathsetmacro{\mywidth}{0pt}
 \foreach \X in {0,...,3} %<- if you have more or less matrices, adjust 3       
 {\path let \p1=($(mat\X.east)-(mat\X.west)$) in 
 \pgfextra{\pgfmathsetmacro{\mywidth}{max(\x1,\mywidth)}
 \xdef\mywidth{\mywidth}};
 \node[anchor=south,yshift=1cm,align=center,font=\LARGE\bfseries\boldmath] 
 at (mat\X |-matrices.north) (L\X) {Level $\X$};
 \begin{scope}[on background layer]
  % the fit parameters determine the shape of the background rectangles
  \node[fit=(L\X) (mat\X) (matrices.south-|mat\X.south),inner ysep=5mm,
  minimum width=\mymatdist-\pgfkeysvalueof{/tikz/fit dist}/2,
  fill=orange!30,rounded corners=50pt](F\X){};
 \end{scope}}
 %\xdef\mydist{\mydist}
 \pgfmathsetmacro{\mydist}{\mywidth+2*\pgfkeysvalueof{/tikz/fit
 sep}+\pgfkeysvalueof{/tikz/fit dist}}
 \xdef\mydist{\mydist}
 \def\mymatbottom{0pt}
 \foreach \X in {0,2,3} %<run only over those entries that have inlays
 {\path let \p1=($(mat\X.north)-(mat\X.south)$),
      \p2=($(matE\X.north)-(matE\X.south)$),
      \n1={max(abs(\y1)/2+abs(\y2)+2*\pgfkeysvalueof{/tikz/inlay top sep},\mymatbottom)}
     in \pgfextra{\xdef\mymatbottom{\n1}}
     node[anchor=south east,xshift=-2cm,font=\LARGE\bfseries] (El\X)
      at (matE\X.north){Electives};
  \begin{scope}[on background layer]      
    \node[fit=(matE\X) (El\X)] (FE\X){};
    \fill[blue!30,rounded corners=30pt] (\X*\mymatdist-
    \mymatdist/2+\pgfkeysvalueof{/tikz/fit dist}/4+10pt,0|-FE\X.north)
    rectangle (\X*\mymatdist+
    \mymatdist/2-\pgfkeysvalueof{/tikz/fit dist}/4-10pt,0|-FE\X.south);
  \end{scope}}
 \makeatletter
 \immediate\write\@mainaux{\xdef\string\mymatdist{\mydist pt}\relax}
 \immediate\write\@mainaux{\xdef\string\mymatbottom{-\mymatbottom}\relax}
 \makeatother

 % now add the arrows 
 \foreach \X in {D,...,G}
 {\draw[blue,-latex] (B-Title) to[out=0,in=180] (\X-Title);}
 \foreach \X in {0,...,3}
 {\node[circle,red,inner sep=4pt,fill,label={[font=\Huge,text=red]above:mat \X\ center}] (c\X) at 
 (mat\X.center){};
 \unless\ifnum\X=1
 \node[circle,blue,inner sep=4pt,fill,
 label={[font=\Huge,text=blue]above:matE \X' south}] (c\X') at 
 (matE\X.south){};
 \fi
 }
\end{tikzpicture}

\vfill
\end{document}