--- a/Slides/Slides1.thy	Tue Feb 19 05:38:46 2013 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,1122 +0,0 @@
-(*<*)
-theory Slides1
-imports "~~/src/HOL/Library/LaTeXsugar" "Nominal"
-begin
-
-notation (latex output)
-  set ("_") and
-  Cons  ("_::/_" [66,65] 65) 
-
-(*>*)
-
-
-text_raw {*
-  %%\renewcommand{\slidecaption}{Cambridge, 8.~June 2010}
-  \renewcommand{\slidecaption}{Uppsala, 3.~March 2011}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1>[t]
-  \frametitle{%
-  \begin{tabular}{@ {\hspace{-3mm}}c@ {}}
-  \\
-  \huge Nominal Isabelle 2\\[-2mm] 
-  \large Or, How to Reason Conveniently\\[-5mm]
-  \large with General Bindings\\[5mm]
-  \end{tabular}}
-  \begin{center}
-  Christian Urban
-  \end{center}
-  \begin{center}
-  joint work with {\bf Cezary Kaliszyk}\\[0mm] 
-  \end{center}
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-2>
-  \frametitle{\begin{tabular}{c}Binding in Old Nominal\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \begin{itemize}
-  \item the old Nominal Isabelle provided a reasoning infrastructure for single binders\medskip
-  
-  \begin{center}
-  Lam [a].(Var a)
-  \end{center}\bigskip
-
-  \item<2-> but representing 
-
-  \begin{center}
-  $\forall\{a_1,\ldots,a_n\}.\; T$ 
-  \end{center}\medskip
-
-  with single binders and reasoning about it is a \alert{\bf major} pain; 
-  take my word for it!
-  \end{itemize}
-
-  \only<1>{
-  \begin{textblock}{6}(1.5,11)
-  \small
-  for example\\
-  \begin{tabular}{l@ {\hspace{2mm}}l}
-   & a $\fresh$ Lam [a]. t\\
-   & Lam [a]. (Var a) \alert{$=$} Lam [b]. (Var b)\\
-   & Barendregt-style reasoning about bound variables\\
-  \end{tabular}
-  \end{textblock}}
-  
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-4>
-  \frametitle{\begin{tabular}{c}Binding Sets of Names\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{itemize}
-  \item binding sets of names has some interesting properties:\medskip
-  
-  \begin{center}
-  \begin{tabular}{l}
-  $\forall\{x, y\}.\, x \rightarrow y \;\;\approx_\alpha\;\; \forall\{y, x\}.\, y \rightarrow x$
-  \bigskip\smallskip\\
-
-  \onslide<2->{%
-  $\forall\{x, y\}.\, x \rightarrow y \;\;\not\approx_\alpha\;\; \forall\{z\}.\, z \rightarrow z$
-  }\bigskip\smallskip\\
-
-  \onslide<3->{%
-  $\forall\{x\}.\, x \rightarrow y \;\;\approx_\alpha\;\; \forall\{x, \alert{z}\}.\, x \rightarrow y$
-  }\medskip\\
-  \onslide<3->{\hspace{4cm}\small provided $z$ is fresh for the type}
-  \end{tabular}
-  \end{center}
-  \end{itemize}
-  
-  \begin{textblock}{8}(2,14.5)
-  \footnotesize $^*$ $x$, $y$, $z$ are assumed to be distinct
-  \end{textblock}
-
-  \only<4>{
-  \begin{textblock}{6}(2.5,4)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=3mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\normalsize\color{darkgray}
-  \begin{minipage}{8cm}\raggedright
-  For type-schemes the order of bound names does not matter, and
-  alpha-equivalence is preserved under \alert{vacuous} binders.
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-3>
-  \frametitle{\begin{tabular}{c}Other Binding Modes\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{itemize}
-  \item alpha-equivalence being preserved under vacuous binders is \underline{not} always
-  wanted:\bigskip\bigskip\normalsize
-  
-  \begin{tabular}{@ {\hspace{-8mm}}l}
-  $\text{let}\;x = 3\;\text{and}\;y = 2\;\text{in}\;x - y\;\text{end}$\medskip\\
-  \onslide<2->{$\;\;\;\only<2>{\approx_\alpha}\only<3>{\alert{\not\approx_\alpha}}
-   \text{let}\;y = 2\;\text{and}\;x = 3\only<3->{\alert{\;\text{and}
-    \;z = \text{loop}}}\;\text{in}\;x - y\;\text{end}$}
-  \end{tabular}
-  
-
-  \end{itemize}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1>
-  \frametitle{\begin{tabular}{c}\LARGE{}Even Another Binding Mode\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{itemize}
-  \item sometimes one wants to abstract more than one name, but the order \underline{does} matter\bigskip
-  
-  \begin{center}
-  \begin{tabular}{@ {\hspace{-8mm}}l}
-  $\text{let}\;(x, y) = (3, 2)\;\text{in}\;x - y\;\text{end}$\medskip\\
-  $\;\;\;\not\approx_\alpha
-   \text{let}\;(y, x) = (3, 2)\;\text{in}\;x - y\;\text{end}$
-  \end{tabular}
-  \end{center}
-  
-
-  \end{itemize}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-2>
-  \frametitle{\begin{tabular}{c}\LARGE{}Three Binding Modes\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{itemize}
-  \item the order does not matter and alpha-equivelence is preserved under
-  vacuous binders \textcolor{gray}{(restriction)}\medskip
-  
-  \item the order does not matter, but the cardinality of the binders 
-  must be the same \textcolor{gray}{(abstraction)}\medskip
-
-  \item the order does matter \textcolor{gray}{(iterated single binders)}
-  \end{itemize}
-
-  \onslide<2->{
-  \begin{center}
-  \isacommand{bind (set+)}\hspace{6mm}
-  \isacommand{bind (set)}\hspace{6mm}
-  \isacommand{bind}
-  \end{center}}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-3>
-  \frametitle{\begin{tabular}{c}Specification of Binding\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \mbox{}\hspace{10mm}
-  \begin{tabular}{ll}
-  \multicolumn{2}{l}{\isacommand{nominal\_datatype} trm $=$}\\
-  \hspace{5mm}\phantom{$|$} Var name\\
-  \hspace{5mm}$|$ App trm trm\\
-  \hspace{5mm}$|$ Lam \only<2->{x::}name \only<2->{t::}trm
-  & \onslide<2->{\isacommand{bind} x \isacommand{in} t}\\
-  \hspace{5mm}$|$ Let \only<2->{as::}assn \only<2->{t::}trm
-  & \onslide<2->{\isacommand{bind} bn(as) \isacommand{in} t}\\
-  \multicolumn{2}{l}{\isacommand{and} assn $=$}\\
-  \multicolumn{2}{l}{\hspace{5mm}\phantom{$|$} ANil}\\
-  \multicolumn{2}{l}{\hspace{5mm}$|$ ACons name trm assn}\\
-  \multicolumn{2}{l}{\onslide<3->{\isacommand{binder} bn \isacommand{where}}}\\
-  \multicolumn{2}{l}{\onslide<3->{\hspace{5mm}\phantom{$|$} bn(ANil) $=$ []}}\\
-  \multicolumn{2}{l}{\onslide<3->{\hspace{5mm}$|$ bn(ACons a t as) $=$ [a] @ bn(as)}}\\
-  \end{tabular}
-
-
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-5>
-  \frametitle{\begin{tabular}{c}Inspiration from Ott\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{itemize}
-  \item this way of specifying binding is inspired by 
-  {\bf Ott}\onslide<2->{, \alert{\bf but} we made some adjustments:}\medskip
-  
-
-  \only<2>{
-  \begin{itemize}
-  \item Ott allows specifications like\smallskip
-  \begin{center}
-  $t ::= t\;t\; |\;\lambda x.t$
-  \end{center}
-  \end{itemize}}
-
-  \only<3-4>{
-  \begin{itemize}
-  \item whether something is bound can depend in Ott on other bound things\smallskip
-  \begin{center}
-  \begin{tikzpicture}
-  \node (A) at (-0.5,1) {Foo $(\lambda y. \lambda x. t)$};
-  \node (B) at ( 1.1,1) {$s$};
-  \onslide<4>{\node (C) at (0.5,0) {$\{y, x\}$};}
-  \onslide<4>{\draw[->,red,line width=1mm] (A) -- (C);}
-  \onslide<4>{\draw[->,red,line width=1mm] (C) -- (B);}
-  \end{tikzpicture}
-  \end{center}
-  \onslide<4>{this might make sense for ``raw'' terms, but not at all 
-  for $\alpha$-equated terms}
-  \end{itemize}}
-
-  \only<5>{
-  \begin{itemize}
-  \item we allow multiple ``binders'' and ``bodies''\smallskip
-  \begin{center}
-  \begin{tabular}{l}
-  \isacommand{bind} a b c \ldots \isacommand{in} x y z \ldots\\
-  \isacommand{bind (set)} a b c \ldots \isacommand{in} x y z \ldots\\
-  \isacommand{bind (set+)} a b c \ldots \isacommand{in} x y z \ldots
-  \end{tabular}
-  \end{center}\bigskip\medskip
-  the reason is that with our definition of $\alpha$-equivalence\medskip
-  \begin{center}
-  \begin{tabular}{l}
-  \isacommand{bind (set+)} as \isacommand{in} x y $\not\Leftrightarrow$\\ 
-  \hspace{8mm}\isacommand{bind (set+)} as \isacommand{in} x, \isacommand{bind (set+)} as \isacommand{in} y
-  \end{tabular}
-  \end{center}\medskip
-
-  same with \isacommand{bind (set)}
-  \end{itemize}}
-  \end{itemize}
-
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1>
-  \frametitle{\begin{tabular}{c}Alpha-Equivalence\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{itemize}
-  \item in the old Nominal Isabelle, we represented single binders as partial functions:\bigskip
-  
-  \begin{center}
-  \begin{tabular}{l}
-  Lam [$a$].\,$t$ $\;{^\text{``}}\!\dn{}\!^{\text{''}}$\\[2mm]
-  \;\;\;\;$\lambda b.$\;$\text{if}\;a = b\;\text{then}\;t\;\text{else}$\\
-  \phantom{\;\;\;\;$\lambda b.$\;\;\;\;\;\;}$\text{if}\;b \fresh t\;
-  \text{then}\;(a\;b)\act t\;\text{else}\;\text{error}$ 
-  \end{tabular}
-  \end{center}
-  \end{itemize}
-
-  \begin{textblock}{10}(2,14)
-  \footnotesize $^*$ alpha-equality coincides with equality on functions
-  \end{textblock}
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->
-  \frametitle{\begin{tabular}{c}New Design\end{tabular}}
-  \mbox{}\\[4mm]
-
-  \begin{center}
-  \begin{tikzpicture}
-  {\draw (0,0) node[inner sep=3mm, ultra thick, draw=fg, rounded corners=2mm]
-  (A) {\begin{minipage}{1.1cm}bind.\\spec.\end{minipage}};}
-  
-  {\draw (3,0) node[inner sep=3mm, ultra thick, draw=fg, rounded corners=2mm]
-  (B) {\begin{minipage}{1.1cm}raw\\terms\end{minipage}};}
-
-  \alt<2>
-  {\draw (6,0) node[inner sep=3mm, ultra thick, draw=red, rounded corners=2mm]
-  (C) {\textcolor{red}{\begin{minipage}{1.1cm}$\alpha$-\\equiv.\end{minipage}}};}
-  {\draw (6,0) node[inner sep=3mm, ultra thick, draw=fg, rounded corners=2mm]
-  (C) {\begin{minipage}{1.1cm}$\alpha$-\\equiv.\end{minipage}};}
-  
-  {\draw (0,-3) node[inner sep=3mm, ultra thick, draw=fg, rounded corners=2mm]
-  (D) {\begin{minipage}{1.1cm}quot.\\type\end{minipage}};}
-
-  {\draw (3,-3) node[inner sep=3mm, ultra thick, draw=fg, rounded corners=2mm]
-  (E) {\begin{minipage}{1.1cm}lift\\thms\end{minipage}};}
-
-  {\draw (6,-3) node[inner sep=3mm, ultra thick, draw=fg, rounded corners=2mm]
-  (F) {\begin{minipage}{1.1cm}add.\\thms\end{minipage}};}
-  
-  \draw[->,fg!50,line width=1mm] (A) -- (B);
-  \draw[->,fg!50,line width=1mm] (B) -- (C);
-  \draw[->,fg!50,line width=1mm, line join=round, rounded corners=2mm] 
-  (C) -- (8,0) -- (8,-1.5) -- (-2,-1.5) -- (-2,-3) -- (D);
-  \draw[->,fg!50,line width=1mm] (D) -- (E);
-  \draw[->,fg!50,line width=1mm] (E) -- (F);
-  \end{tikzpicture}
-  \end{center}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-8>
-  \frametitle{\begin{tabular}{c}Alpha-Equivalence\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{itemize}
-  \item lets first look at pairs\bigskip\medskip
-
-  \begin{tabular}{@ {\hspace{1cm}}l}
-  $(as, x) \onslide<2->{\approx\!}\makebox[0mm][l]{\only<2-6>{${}_{\text{set}}$}%
-           \only<7>{${}_{\text{\alert{list}}}$}%
-           \only<8>{${}_{\text{\alert{set+}}}$}}%
-           \onslide<3->{^{R,\text{fv}}}\,\onslide<2->{(bs,y)}$
-  \end{tabular}\bigskip
-  \end{itemize}
-
-  \only<1>{
-  \begin{textblock}{8}(3,8.5)
-  \begin{tabular}{l@ {\hspace{2mm}}p{8cm}}
-   & $as$ is a set of names\ldots the binders\\
-   & $x$ is the body (might be a tuple)\\
-   & $\approx_{\text{set}}$ is where the cardinality 
-  of the binders has to be the same\\
-  \end{tabular}
-  \end{textblock}}
-
-  \only<4->{
-  \begin{textblock}{12}(5,8)
-  \begin{tabular}{ll@ {\hspace{1mm}}l}
-  $\dn$ & \onslide<5->{$\exists \pi.\,$} & $\text{fv}(x) - as = \text{fv}(y) - bs$\\[1mm]
-        & \onslide<5->{$\;\;\;\wedge$} & \onslide<5->{$\text{fv}(x) - as \fresh^* \pi$}\\[1mm]
-        & \onslide<5->{$\;\;\;\wedge$} & \onslide<5->{$(\pi \act x)\;R\;y$}\\[1mm]
-        & \onslide<6-7>{$\;\;\;\wedge$} & \onslide<6-7>{$\pi \act as = bs$}\\
-  \end{tabular}
-  \end{textblock}}
-  
-  \only<7>{
-  \begin{textblock}{7}(3,13.8)
-  \footnotesize $^*$ $as$ and $bs$ are \alert{lists} of names 
-  \end{textblock}}
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-3>
-  \frametitle{\begin{tabular}{c}Examples\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{itemize}
-  \item lets look at ``type-schemes'':\medskip\medskip
-
-  \begin{center}
-  $(as, x) \approx\!\makebox[0mm][l]{${}_{\text{set}}$}\only<1>{{}^{R,\text{fv}}}\only<2->{{}^{\alert{=},\alert{\text{fv}}}} (bs, y)$
-  \end{center}\medskip
-
-  \onslide<2->{
-  \begin{center}
-  \begin{tabular}{l}
-  $\text{fv}(x) = \{x\}$\\[1mm]
-  $\text{fv}(T_1 \rightarrow T_2) = \text{fv}(T_1) \cup \text{fv}(T_2)$\\
-  \end{tabular}
-  \end{center}}
-  \end{itemize}
-
-  
-  \only<3->{
-  \begin{textblock}{4}(0.3,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{set+:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  \\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-  \only<3->{
-  \begin{textblock}{4}(5.2,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{set:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  $\wedge$ & $\pi \cdot as = bs$\\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-  \only<3->{
-  \begin{textblock}{4}(10.2,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{list:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  $\wedge$ & $\pi \cdot as = bs$\\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-2>
-  \frametitle{\begin{tabular}{c}Examples\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{center}
-  \only<1>{$(\{x, y\}, x \rightarrow y) \approx_? (\{x, y\}, y \rightarrow x)$}
-  \only<2>{$([x, y], x \rightarrow y) \approx_? ([x, y], y \rightarrow x)$}
-  \end{center}
-
-  \begin{itemize}
-  \item $\approx_{\text{set+}}$, $\approx_{\text{set}}$% 
-  \only<2>{, \alert{$\not\approx_{\text{list}}$}}
-  \end{itemize}
-
-  
-  \only<1->{
-  \begin{textblock}{4}(0.3,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{set+:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  \\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-  \only<1->{
-  \begin{textblock}{4}(5.2,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{set:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  $\wedge$ & $\pi \cdot as = bs$\\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-  \only<1->{
-  \begin{textblock}{4}(10.2,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{list:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  $\wedge$ & $\pi \cdot as = bs$\\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-2>
-  \frametitle{\begin{tabular}{c}Examples\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{center}
-  \only<1>{$(\{x\}, x) \approx_? (\{x, y\}, x)$}
-  \end{center}
-
-  \begin{itemize}
-  \item $\approx_{\text{set+}}$, $\not\approx_{\text{set}}$,
-        $\not\approx_{\text{list}}$
-  \end{itemize}
-
-  
-  \only<1->{
-  \begin{textblock}{4}(0.3,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{set+:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  \\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-  \only<1->{
-  \begin{textblock}{4}(5.2,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{set:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  $\wedge$ & $\pi \cdot as = bs$\\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-  \only<1->{
-  \begin{textblock}{4}(10.2,12)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=1mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\tiny\color{darkgray}
-  \begin{minipage}{3.4cm}\raggedright
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {}l}{list:}\\
-  $\exists\pi.$ & $\text{fv}(x) - as = \text{fv}(y) - bs$\\
-  $\wedge$ & $\text{fv}(x) - as \fresh^* \pi$\\
-  $\wedge$ & $\pi \cdot x = y$\\
-  $\wedge$ & $\pi \cdot as = bs$\\
-  \end{tabular}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-
-  \only<2>{
-  \begin{textblock}{6}(2.5,4)
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=5mm,fill=cream, ultra thick, draw=red, rounded corners=2mm] 
-  {\normalsize
-  \begin{minipage}{8cm}\raggedright
-  \begin{itemize}
-  \item \color{darkgray}$\alpha$-equivalences coincide when a single name is
-  abstracted
-  \item \color{darkgray}in that case they are equivalent to ``old-fashioned'' definitions of $\alpha$ 
-  \end{itemize}
-  \end{minipage}};
-  \end{tikzpicture}
-  \end{textblock}}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-3>
-  \frametitle{\begin{tabular}{c}General Abstractions\end{tabular}}
-  \mbox{}\\[-7mm]
-
-  \begin{itemize}
-  \item we take $(as, x) \approx\!\makebox[0mm][l]{${}_{{}*{}}$}^{=,\text{supp}} (bs, y)$\medskip
-  \item they are equivalence relations\medskip  
-  \item we can therefore use the quotient package to introduce the 
-  types $\beta\;\text{abs}_*$\bigskip 
-  \begin{center}
-  \only<1>{$[as].\,x$}
-  \only<2>{$\text{supp}([as].x) = \text{supp}(x) - as$}
-  \only<3>{%
-  \begin{tabular}{r@ {\hspace{1mm}}l}
-  \multicolumn{2}{@ {\hspace{-7mm}}l}{$[as]. x \alert{=}  [bs].y\;\;\;\text{if\!f}$}\\[2mm]
-  $\exists \pi.$ & $\text{supp}(x) - as = \text{supp}(y) - bs$\\
-  $\wedge$       & $\text{supp}(x) - as \fresh^* \pi$\\
-  $\wedge$       & $\pi \act x = y $\\
-  $(\wedge$       & $\pi \act as = bs)\;^*$\\
-  \end{tabular}}
-  \end{center}
-  \end{itemize}
-
-  \only<1->{
-  \begin{textblock}{8}(12,3.8)
-  \footnotesize $^*$ set, set+, list
-  \end{textblock}}
-  
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1>
-  \frametitle{\begin{tabular}{c}A Problem\end{tabular}}
-  \mbox{}\\[-3mm]
-
-  \begin{center}
-  $\text{let}\;x_1=t_1 \ldots x_n=t_n\;\text{in}\;s$
-  \end{center}
-
-  \begin{itemize}
-  \item we cannot represent this as\medskip
-  \begin{center}
-  $\text{let}\;[x_1,\ldots,x_n]\alert{.}s\;\;[t_1,\ldots,t_n]$
-  \end{center}\bigskip
-
-  because\medskip
-  \begin{center}
-  $\text{let}\;[x].s\;\;[t_1,t_2]$
-  \end{center}
-  \end{itemize}
-
-  
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->
-  \frametitle{\begin{tabular}{c}Our Specifications\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \mbox{}\hspace{10mm}
-  \begin{tabular}{ll}
-  \multicolumn{2}{l}{\isacommand{nominal\_datatype} trm $=$}\\
-  \hspace{5mm}\phantom{$|$} Var name\\
-  \hspace{5mm}$|$ App trm trm\\
-  \hspace{5mm}$|$ Lam x::name t::trm
-  & \isacommand{bind} x \isacommand{in} t\\
-  \hspace{5mm}$|$ Let as::assn t::trm
-  & \isacommand{bind} bn(as) \isacommand{in} t\\
-  \multicolumn{2}{l}{\isacommand{and} assn $=$}\\
-  \multicolumn{2}{l}{\hspace{5mm}\phantom{$|$} ANil}\\
-  \multicolumn{2}{l}{\hspace{5mm}$|$ ACons name trm assn}\\
-  \multicolumn{2}{l}{\isacommand{binder} bn \isacommand{where}}\\
-  \multicolumn{2}{l}{\hspace{5mm}\phantom{$|$} bn(ANil) $=$ $[]$}\\
-  \multicolumn{2}{l}{\hspace{5mm}$|$ bn(ACons a t as) $=$ $[$a$]$ @ bn(as)}\\
-  \end{tabular}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-2>
-  \frametitle{\begin{tabular}{c}``Raw'' Definitions\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \mbox{}\hspace{10mm}
-  \begin{tabular}{ll}
-  \multicolumn{2}{l}{\isacommand{datatype} trm $=$}\\
-  \hspace{5mm}\phantom{$|$} Var name\\
-  \hspace{5mm}$|$ App trm trm\\
-  \hspace{5mm}$|$ Lam name trm\\
-  \hspace{5mm}$|$ Let assn trm\\
-  \multicolumn{2}{l}{\isacommand{and} assn $=$}\\
-  \multicolumn{2}{l}{\hspace{5mm}\phantom{$|$} ANil}\\
-  \multicolumn{2}{l}{\hspace{5mm}$|$ ACons name trm assn}\\[5mm]
-  \multicolumn{2}{l}{\isacommand{function} bn \isacommand{where}}\\
-  \multicolumn{2}{l}{\hspace{5mm}\phantom{$|$} bn(ANil) $=$ $[]$}\\
-  \multicolumn{2}{l}{\hspace{5mm}$|$ bn(ACons a t as) $=$ $[$a$]$ @ bn(as)}\\
-  \end{tabular}
-
-  \only<2>{
-  \begin{textblock}{5}(10,5)
-  $+$ \begin{tabular}{l}automatically\\ 
-  generate fv's\end{tabular}
-  \end{textblock}}
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1>
-  \frametitle{\begin{tabular}{c}\LARGE``Raw'' Alpha-Equivalence\end{tabular}}
-  \mbox{}\\[6mm]
-
-  \begin{center}
-  Lam x::name t::trm \hspace{10mm}\isacommand{bind} x \isacommand{in} t\\
-  \end{center}
-
-
-  \[
-  \infer[\text{Lam-}\!\approx_\alpha]
-  {\text{Lam}\;x\;t \approx_\alpha \text{Lam}\;x'\;t'}
-  {([x], t) \approx\!\makebox[0mm][l]{${}_{\text{list}}$}
-    ^{\approx_\alpha,\text{fv}} ([x'], t')}
-  \]
-
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1>
-  \frametitle{\begin{tabular}{c}\LARGE``Raw'' Alpha-Equivalence\end{tabular}}
-  \mbox{}\\[6mm]
-
-  \begin{center}
-  Lam x::name y::name t::trm s::trm \hspace{5mm}\isacommand{bind} x y \isacommand{in} t s\\
-  \end{center}
-
-
-  \[
-  \infer[\text{Lam-}\!\approx_\alpha]
-  {\text{Lam}\;x\;y\;t\;s \approx_\alpha \text{Lam}\;x'\;y'\;t'\;s'}
-  {([x, y], (t, s)) \approx\!\makebox[0mm][l]{${}_{\text{list}}$}
-    ^{R, fv} ([x', y'], (t', s'))}
-  \]
-
-  \footnotesize
-  where $R =\;\approx_\alpha\times\approx_\alpha$ and $fv = \text{fv}\cup\text{fv}$
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-2>
-  \frametitle{\begin{tabular}{c}\LARGE``Raw'' Alpha-Equivalence\end{tabular}}
-  \mbox{}\\[6mm]
-
-  \begin{center}
-  Let as::assn t::trm \hspace{10mm}\isacommand{bind} bn(as) \isacommand{in} t\\
-  \end{center}
-
-
-  \[
-  \infer[\text{Let-}\!\approx_\alpha]
-  {\text{Let}\;as\;t \approx_\alpha \text{Let}\;as'\;t'}
-  {(\text{bn}(as), t) \approx\!\makebox[0mm][l]{${}_{\text{list}}$}
-    ^{\approx_\alpha,\text{fv}} (\text{bn}(as'), t') &
-   \onslide<2->{as \approx_\alpha^{\text{bn}} as'}}
-  \]\bigskip
-
-
-  \onslide<1->{\small{}bn-function $\Rightarrow$ \alert{deep binders}}
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->
-  \frametitle{\begin{tabular}{c}\LARGE{}$\alpha$ for Binding Functions\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \mbox{}\hspace{10mm}
-  \begin{tabular}{l}
-  \ldots\\
-  \isacommand{binder} bn \isacommand{where}\\
-  \phantom{$|$} bn(ANil) $=$ $[]$\\
-  $|$ bn(ACons a t as) $=$ $[$a$]$ @ bn(as)\\
-  \end{tabular}\bigskip
-
-  \begin{center}
-  \mbox{\infer{\text{ANil} \approx_\alpha^{\text{bn}} \text{ANil}}{}}\bigskip
-
-  \mbox{\infer{\text{ACons}\;a\;t\;as \approx_\alpha^{\text{bn}} \text{ACons}\;a'\;t'\;as'}
-  {t \approx_\alpha t' & as \approx_\alpha^{bn} as'}}
-  \end{center}
-
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1>
-  \frametitle{\begin{tabular}{c}\LARGE``Raw'' Alpha-Equivalence\end{tabular}}
-  \mbox{}\\[6mm]
-
-  \begin{center}
-  LetRec as::assn t::trm \hspace{10mm}\isacommand{bind} bn(as) \isacommand{in} t \alert{as}\\
-  \end{center}
-
-
-  \[\mbox{}\hspace{-4mm}
-  \infer[\text{LetRec-}\!\approx_\alpha]
-  {\text{LetRec}\;as\;t \approx_\alpha \text{LetRec}\;as'\;t'}
-  {(\text{bn}(as), (t, as)) \approx\!\makebox[0mm][l]{${}_{\text{list}}$}
-    ^{R,\text{fv}} (\text{bn}(as'), (t', as'))} 
-  \]\bigskip
-  
-  \onslide<1->{\alert{deep recursive binders}}
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->
-  \frametitle{\begin{tabular}{c}Restrictions\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  Our restrictions on binding specifications:
-
-  \begin{itemize}
-  \item a body can only occur once in a list of binding clauses\medskip
-  \item you can only have one binding function for a deep binder\medskip
-  \item binding functions can return: the empty set, singletons, unions (similarly for lists)
-  \end{itemize}
-
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->
-  \frametitle{\begin{tabular}{c}Automatic Proofs\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \begin{itemize}
-  \item we can show that $\alpha$'s are equivalence relations\medskip
-  \item as a result we can use our quotient package to introduce the type(s)
-  of $\alpha$-equated terms
-
-  \[
-  \infer
-  {\text{Lam}\;x\;t \alert{=} \text{Lam}\;x'\;t'}
-  {\only<1>{([x], t) \approx\!\makebox[0mm][l]{${}_{\text{list}}$}
-    ^{=,\text{supp}} ([x'], t')}%
-   \only<2>{[x].t = [x'].t'}}
-  \]
-
-
-  \item the properties for support are implied by the properties of $[\_].\_$
-  \item we can derive strong induction principles
-  \end{itemize}
-
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1>[t]
-  \frametitle{\begin{tabular}{c}Runtime is Acceptable\end{tabular}}
-  \mbox{}\\[-7mm]\mbox{}
-
-  \footnotesize
-  \begin{center}
-  \begin{tikzpicture}
-  \draw (0,0) node[inner sep=2mm, ultra thick, draw=fg, rounded corners=2mm]
-  (A) {\begin{minipage}{0.8cm}bind.\\spec.\end{minipage}};
-  
-  \draw (2,0) node[inner sep=2mm, ultra thick, draw=fg, rounded corners=2mm]
-  (B) {\begin{minipage}{0.8cm}raw\\terms\end{minipage}};
-
-  \draw (4,0) node[inner sep=2mm, ultra thick, draw=fg, rounded corners=2mm]
-  (C) {\begin{minipage}{0.8cm}$\alpha$-\\equiv.\end{minipage}};
-  
-  \draw (0,-2) node[inner sep=2mm, ultra thick, draw=fg, rounded corners=2mm]
-  (D) {\begin{minipage}{0.8cm}quot.\\type\end{minipage}};
-
-  \draw (2,-2) node[inner sep=2mm, ultra thick, draw=fg, rounded corners=2mm]
-  (E) {\begin{minipage}{0.8cm}lift\\thms\end{minipage}};
-
-  \draw (4,-2) node[inner sep=2mm, ultra thick, draw=fg, rounded corners=2mm]
-  (F) {\begin{minipage}{0.8cm}add.\\thms\end{minipage}};
-  
-  \draw[->,fg!50,line width=1mm] (A) -- (B);
-  \draw[->,fg!50,line width=1mm] (B) -- (C);
-  \draw[->,fg!50,line width=1mm, line join=round, rounded corners=2mm] 
-  (C) -- (5,0) -- (5,-1) -- (-1,-1) -- (-1,-2) -- (D);
-  \draw[->,fg!50,line width=1mm] (D) -- (E);
-  \draw[->,fg!50,line width=1mm] (E) -- (F);
-  \end{tikzpicture}
-  \end{center}
-
-  \begin{itemize}
-  \item Core Haskell: 11 types, 49 term-constructors, 7 binding functions
-  \begin{center}
-  $\sim$ 2 mins
-  \end{center}
-  \end{itemize}
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->
-  \frametitle{\begin{tabular}{c}Interesting Phenomenon\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \small
-  \mbox{}\hspace{20mm}
-  \begin{tabular}{ll}
-  \multicolumn{2}{l}{\isacommand{nominal\_datatype} trm $=$}\\
-  \hspace{5mm}\phantom{$|$} Var name\\
-  \hspace{5mm}$|$ App trm trm\\
-  \hspace{5mm}$|$ Lam x::name t::trm
-  & \isacommand{bind} x \isacommand{in} t\\
-  \hspace{5mm}$|$ Let as::assn t::trm
-  & \isacommand{bind} bn(as) \isacommand{in} t\\
-  \multicolumn{2}{l}{\isacommand{and} assn $=$}\\
-  \multicolumn{2}{l}{\hspace{5mm}\phantom{$|$} ANil}\\
-  \multicolumn{2}{l}{\hspace{5mm}$|$ ACons name trm assn}\\
-  \multicolumn{2}{l}{\isacommand{binder} bn \isacommand{where}}\\
-  \multicolumn{2}{l}{\hspace{5mm}\phantom{$|$} bn(ANil) $=$ $[]$}\\
-  \multicolumn{2}{l}{\hspace{5mm}$|$ bn(ACons a t as) $=$ $[$a$]$ @ bn(as)}\\
-  \end{tabular}\bigskip\medskip
-
-  we cannot quotient assn: ACons a \ldots $\not\approx_\alpha$ ACons b \ldots
-
-  \only<1->{
-  \begin{textblock}{8}(0.2,7.3)
-  \alert{\begin{tabular}{p{2.6cm}}
-  \raggedright\footnotesize{}Should a ``naked'' assn be quotient?
-  \end{tabular}\hspace{-3mm}
-  $\begin{cases}
-  \mbox{} \\ \mbox{}
-  \end{cases}$} 
-  \end{textblock}}
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->
-  \frametitle{\begin{tabular}{c}Conclusion\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \begin{itemize}
-  \item the user does not see anything of the raw level\medskip
-  \only<1>{\begin{center}
-  Lam a (Var a) \alert{$=$} Lam b (Var b)
-  \end{center}\bigskip}
-
-  \item<2-> we have not yet done function definitions (will come soon and
-  we hope to make improvements over the old way there too)\medskip
-  \item<3-> it took quite some time to get here, but it seems worthwhile 
-  (Barendregt's variable convention is unsound in general, 
-  found bugs in two paper proofs, quotient package, POPL 2011 tutorial)\medskip
-  \end{itemize}
-
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->[c]
-  \frametitle{\begin{tabular}{c}Future Work\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \begin{itemize}
-  \item Function definitions 
-  \end{itemize}
-  
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1->[c]
-  \frametitle{\begin{tabular}{c}Questions?\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \begin{center}
-  \alert{\huge{Thanks!}}
-  \end{center}
-  
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-
-
-text_raw {*
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-  \mode<presentation>{
-  \begin{frame}<1-2>[c]
-  \frametitle{\begin{tabular}{c}Examples\end{tabular}}
-  \mbox{}\\[-6mm]
-
-  \begin{center}
-  $(\{a,b\}, a \rightarrow b) \approx_\alpha (\{a, b\}, a \rightarrow b)$
-  $(\{a,b\}, a \rightarrow b) \approx_\alpha (\{a, b\}, b \rightarrow a)$
-  \end{center}
-
-  \begin{center}
-  $(\{a,b\}, (a \rightarrow b, a \rightarrow b))$\\ 
-  \hspace{17mm}$\not\approx_\alpha (\{a, b\}, (a \rightarrow b, b \rightarrow a))$
-  \end{center}
-  
-  \onslide<2->
-  {1.) \hspace{3mm}\isacommand{bind (set)} as \isacommand{in} $\tau_1$, 
-   \isacommand{bind (set)} as \isacommand{in} $\tau_2$\medskip
-
-   2.) \hspace{3mm}\isacommand{bind (set)} as \isacommand{in} $\tau_1$ $\tau_2$ 
-  }
-
-  \end{frame}}
-  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%     
-*}
-
-(*<*)
-end
-(*>*)
\ No newline at end of file