This is an example post with some pseudo code rendered by pseudocode
. The example presented here is the same as the one in the pseudocode.js
documentation, with only one simple but important change: everytime you would use $, you should use $$ instead. Also, note that the pseudocode key in the front matter is set to true to enable the rendering of pseudo code. As an example, using this code:
```pseudocode
% This quicksort algorithm is extracted from Chapter 7, Introduction to Algorithms (3rd edition)
\begin{algorithm}
\caption{Quicksort}
\begin{algorithmic}
\PROCEDURE{Quicksort}{$$A, p, r$$}
\IF{$$p < r$$}
\STATE $$q = $$ \CALL{Partition}{$$A, p, r$$}
\STATE \CALL{Quicksort}{$$A, p, q - 1$$}
\STATE \CALL{Quicksort}{$$A, q + 1, r$$}
\ENDIF
\ENDPROCEDURE
\PROCEDURE{Partition}{$$A, p, r$$}
\STATE $$x = A[r]$$
\STATE $$i = p - 1$$
\FOR{$$j = p$$ \TO $$r - 1$$}
\IF{$$A[j] < x$$}
\STATE $$i = i + 1$$
\STATE exchange
$$A[i]$$ with $$A[j]$$
\ENDIF
\STATE exchange $$A[i]$$ with $$A[r]$$
\ENDFOR
\ENDPROCEDURE
\end{algorithmic}
\end{algorithm}
```
Generates:
% This quicksort algorithm is extracted from Chapter 7, Introduction to Algorithms (3rd edition)
\begin{algorithm}
\caption{Quicksort}
\begin{algorithmic}
\PROCEDURE{Quicksort}{$$A, p, r$$}
\IF{$$p < r$$}
\STATE $$q = $$ \CALL{Partition}{$$A, p, r$$}
\STATE \CALL{Quicksort}{$$A, p, q - 1$$}
\STATE \CALL{Quicksort}{$$A, q + 1, r$$}
\ENDIF
\ENDPROCEDURE
\PROCEDURE{Partition}{$$A, p, r$$}
\STATE $$x = A[r]$$
\STATE $$i = p - 1$$
\FOR{$$j = p$$ \TO $$r - 1$$}
\IF{$$A[j] < x$$}
\STATE $$i = i + 1$$
\STATE exchange
$$A[i]$$ with $$A[j]$$
\ENDIF
\STATE exchange $$A[i]$$ with $$A[r]$$
\ENDFOR
\ENDPROCEDURE
\end{algorithmic}
\end{algorithm}