Cleanup. Change intro example
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@ -146,11 +146,11 @@ We prove soundness and aim for a good compromise between completeness and time c
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\begin{figure}
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\begin{minipage}{0.43\textwidth}
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\begin{lstlisting}[style=java,label=lst:intro-example-typeless,caption=Missing return type]
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genBox() {
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genList() {
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if( ... ) {
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return new Box(1);
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return new List(1);
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} else {
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return new Box("Str");
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return new List("Str");
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}
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}
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\end{lstlisting}
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@ -158,11 +158,11 @@ genBox() {
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\hfill
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\begin{minipage}{0.55\textwidth}
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\begin{lstlisting}[style=tfgj,caption=Type inference solution,label=lst:intro-example-typed]
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Box<?> genBox() {
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List<?> genList() {
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if( ... ) {
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return new Box<Integer>(1);
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return new List<Integer>(1);
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} else {
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return new Box<String>("Str");
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return new List<String>("Str");
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}
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}
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\end{lstlisting}
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19
unify.tex
19
unify.tex
@ -252,7 +252,7 @@ whereas \rulename{Clear} and \rulename{Exclude} remove wildcard placeholders or
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allow the constraint to be processed by \rulename{Prepare}.
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\subsection{Adding Wildcards to the mix}
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\unify{} is able to create wildcard solutions even when the input set of constraints do not contain any wildcard variables.
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%\unify{} is able to create wildcard solutions even when the input set of constraints do not contain any wildcard variables.
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%Input constraints originating from a completely untyped input program do not contain any existential types.
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%Those are added during \unify{}.
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Wildcard types are added preemptively and if necessary can be removed later down the line.
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@ -264,8 +264,6 @@ results in $\tv{a} \doteq \wctype{\wildcard{X}{\tv{u}}{\tv{l}}}{List}{\rwildcard
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The upper and lower bounds of the freshly generated wildcard $\rwildcard{X}$ are type placeholders.
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If a second constraint like $\tv{a} \lessdot \exptype{List}{\type{String}}$
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exists the wildcard $\rwildcard{X}$ has to be removed by setting both lower and upper bound to $\type{String}$.
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\textit{Example:}
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\begin{displaymath}
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\prftree[r]{\rulename{Reduce}}{
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\prftree[r]{\rulename{Subst}}{
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@ -283,15 +281,16 @@ exists the wildcard $\rwildcard{X}$ has to be removed by setting both lower and
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%Wildcards are bound to a type.
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% and can therefore only be created at T <. a constraints
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% After a reduce step the information to which Type the wildcard was bound is lost!
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\begin{lstlisting}
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<X> List<X> concat(List<X> l, List<X> r){ ... }
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% \begin{lstlisting}
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% <X> List<X> concat(List<X> l, List<X> r){ ... }
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someList(){
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return new List("String") :? new List(42);
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}
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\end{lstlisting}
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% someList(){
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% return new List("String") :? new List(42);
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% }
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% \end{lstlisting}
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Constraints for the untyped \texttt{someList} method:
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Take the introduction example from listing \ref{lst:intro-example}.
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Constraints for the untyped \texttt{genList} method:
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\begin{constraintset}
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$\begin{array}{l}
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\exptype{List}{\ntv{x}} \lessdot {\ntv{r}}, \type{String} \lessdot {\ntv{x}},
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