\section{Double\+Pole\+Cart Class Reference}
\label{classmlpack_1_1rl_1_1DoublePoleCart}\index{Double\+Pole\+Cart@{Double\+Pole\+Cart}}


Implementation of Double Pole Cart Balancing task.  


\subsection*{Classes}
\begin{DoxyCompactItemize}
\item 
class \textbf{ State}
\begin{DoxyCompactList}\small\item\em Implementation of the state of Double Pole Cart. \end{DoxyCompactList}\end{DoxyCompactItemize}
\subsection*{Public Types}
\begin{DoxyCompactItemize}
\item 
enum \textbf{ Action} \{ \newline
\textbf{ backward}, 
\newline
\textbf{ forward}, 
\newline
\textbf{ size}
 \}\begin{DoxyCompactList}\small\item\em Implementation of action of Double Pole Cart. \end{DoxyCompactList}
\end{DoxyCompactItemize}
\subsection*{Public Member Functions}
\begin{DoxyCompactItemize}
\item 
\textbf{ Double\+Pole\+Cart} (const double m1=0.\+1, const double m2=0.\+01, const double l1=0.\+5, const double l2=0.\+05, const double gravity=9.\+8, const double mass\+Cart=1.\+0, const double force\+Mag=10.\+0, const double tau=0.\+02, const double theta\+Threshold\+Radians=36 $\ast$2 $\ast$3.\+1416/360, const double x\+Threshold=2.\+4, const double done\+Reward=0.\+0, const size\+\_\+t max\+Steps=0)
\begin{DoxyCompactList}\small\item\em Construct a Double Pole Cart instance using the given constants. \end{DoxyCompactList}\item 
void \textbf{ Dsdt} (const \textbf{ State} \&state, const \textbf{ Action} \&action, arma\+::vec \&dydx)
\begin{DoxyCompactList}\small\item\em This is the ordinary differential equations required for estimation of next state through R\+K4 method. \end{DoxyCompactList}\item 
\textbf{ State} \textbf{ Initial\+Sample} ()
\begin{DoxyCompactList}\small\item\em Initial state representation is randomly generated within [-\/0.\+05, 0.\+05]. \end{DoxyCompactList}\item 
bool \textbf{ Is\+Terminal} (const \textbf{ State} \&state) const
\begin{DoxyCompactList}\small\item\em This function checks if the car has reached the terminal state. \end{DoxyCompactList}\item 
size\+\_\+t \textbf{ Max\+Steps} () const
\begin{DoxyCompactList}\small\item\em Get the maximum number of steps allowed. \end{DoxyCompactList}\item 
size\+\_\+t \& \textbf{ Max\+Steps} ()
\begin{DoxyCompactList}\small\item\em Set the maximum number of steps allowed. \end{DoxyCompactList}\item 
void \textbf{ R\+K4} (const \textbf{ State} \&state, const \textbf{ Action} \&action, arma\+::vec \&dydx, \textbf{ State} \&next\+State)
\begin{DoxyCompactList}\small\item\em This function calls the R\+K4 iterative method to estimate the next state based on given ordinary differential equation. \end{DoxyCompactList}\item 
double \textbf{ Sample} (const \textbf{ State} \&state, const \textbf{ Action} \&action, \textbf{ State} \&next\+State)
\begin{DoxyCompactList}\small\item\em Dynamics of Double Pole Cart instance. \end{DoxyCompactList}\item 
double \textbf{ Sample} (const \textbf{ State} \&state, const \textbf{ Action} \&action)
\begin{DoxyCompactList}\small\item\em Dynamics of Double Pole Cart. \end{DoxyCompactList}\item 
size\+\_\+t \textbf{ Steps\+Performed} () const
\begin{DoxyCompactList}\small\item\em Get the number of steps performed. \end{DoxyCompactList}\end{DoxyCompactItemize}


\subsection{Detailed Description}
Implementation of Double Pole Cart Balancing task. 

This is an extension of the existing \doxyref{Cart\+Pole}{p.}{classmlpack_1_1rl_1_1CartPole} environment. The environment comprises of a cart of a cart with two poles of different lengths and masses. The agent is meant to balance the poles by applying force on the cart. 

Definition at line 27 of file double\+\_\+pole\+\_\+cart.\+hpp.



\subsection{Member Enumeration Documentation}
\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a8bb1ef53467e4f61410d12822d922498}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Action@{Action}}
\index{Action@{Action}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Action}
{\footnotesize\ttfamily enum \textbf{ Action}}



Implementation of action of Double Pole Cart. 

\begin{DoxyEnumFields}{Enumerator}
\raisebox{\heightof{T}}[0pt][0pt]{\index{backward@{backward}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!backward@{backward}}}\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a8bb1ef53467e4f61410d12822d922498ab3d7481243d86f5bf31d617c7ba70220}} 
backward&\\
\hline

\raisebox{\heightof{T}}[0pt][0pt]{\index{forward@{forward}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!forward@{forward}}}\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a8bb1ef53467e4f61410d12822d922498a726a0af5164861adac8c015a742dcf21}} 
forward&\\
\hline

\raisebox{\heightof{T}}[0pt][0pt]{\index{size@{size}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!size@{size}}}\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a8bb1ef53467e4f61410d12822d922498a052a2b4924452fb4a73f2cb52b6e9d41}} 
size&\\
\hline

\end{DoxyEnumFields}


Definition at line 91 of file double\+\_\+pole\+\_\+cart.\+hpp.



\subsection{Constructor \& Destructor Documentation}
\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a24764701d67410fb38fecfef2c2d5ae8}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Double\+Pole\+Cart@{Double\+Pole\+Cart}}
\index{Double\+Pole\+Cart@{Double\+Pole\+Cart}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Double\+Pole\+Cart()}
{\footnotesize\ttfamily \textbf{ Double\+Pole\+Cart} (\begin{DoxyParamCaption}\item[{const double}]{m1 = {\ttfamily 0.1},  }\item[{const double}]{m2 = {\ttfamily 0.01},  }\item[{const double}]{l1 = {\ttfamily 0.5},  }\item[{const double}]{l2 = {\ttfamily 0.05},  }\item[{const double}]{gravity = {\ttfamily 9.8},  }\item[{const double}]{mass\+Cart = {\ttfamily 1.0},  }\item[{const double}]{force\+Mag = {\ttfamily 10.0},  }\item[{const double}]{tau = {\ttfamily 0.02},  }\item[{const double}]{theta\+Threshold\+Radians = {\ttfamily 36~$\ast$~2~$\ast$~3.1416~/~360},  }\item[{const double}]{x\+Threshold = {\ttfamily 2.4},  }\item[{const double}]{done\+Reward = {\ttfamily 0.0},  }\item[{const size\+\_\+t}]{max\+Steps = {\ttfamily 0} }\end{DoxyParamCaption})\hspace{0.3cm}{\ttfamily [inline]}}



Construct a Double Pole Cart instance using the given constants. 


\begin{DoxyParams}{Parameters}
{\em m1} & The mass of the first pole. \\
\hline
{\em m2} & The mass of the second pole. \\
\hline
{\em l1} & The length of the first pole. \\
\hline
{\em l2} & The length of the second pole. \\
\hline
{\em gravity} & The gravity constant. \\
\hline
{\em mass\+Cart} & The mass of the cart. \\
\hline
{\em force\+Mag} & The magnitude of the applied force. \\
\hline
{\em tau} & The time interval. \\
\hline
{\em theta\+Threshold\+Radians} & The maximum angle. \\
\hline
{\em x\+Threshold} & The maximum position. \\
\hline
{\em done\+Reward} & Reward recieved by agent on success. \\
\hline
{\em max\+Steps} & The number of steps after which the episode terminates. If the value is 0, there is no limit. \\
\hline
\end{DoxyParams}


Definition at line 117 of file double\+\_\+pole\+\_\+cart.\+hpp.



\subsection{Member Function Documentation}
\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_aec6c83f7450927b7520a0c057babc128}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Dsdt@{Dsdt}}
\index{Dsdt@{Dsdt}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Dsdt()}
{\footnotesize\ttfamily void Dsdt (\begin{DoxyParamCaption}\item[{const \textbf{ State} \&}]{state,  }\item[{const \textbf{ Action} \&}]{action,  }\item[{arma\+::vec \&}]{dydx }\end{DoxyParamCaption})\hspace{0.3cm}{\ttfamily [inline]}}



This is the ordinary differential equations required for estimation of next state through R\+K4 method. 


\begin{DoxyParams}{Parameters}
{\em state} & The current state. \\
\hline
{\em action} & The action taken. \\
\hline
{\em dydx} & The differential. \\
\hline
\end{DoxyParams}


Definition at line 191 of file double\+\_\+pole\+\_\+cart.\+hpp.



References Double\+Pole\+Cart\+::\+State\+::\+Angle(), and Double\+Pole\+Cart\+::\+State\+::\+Angular\+Velocity().



Referenced by Double\+Pole\+Cart\+::\+R\+K4(), and Double\+Pole\+Cart\+::\+Sample().

\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_aa9f537249fa0c1e62b38197996ab4c6a}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Initial\+Sample@{Initial\+Sample}}
\index{Initial\+Sample@{Initial\+Sample}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Initial\+Sample()}
{\footnotesize\ttfamily \textbf{ State} Initial\+Sample (\begin{DoxyParamCaption}{ }\end{DoxyParamCaption})\hspace{0.3cm}{\ttfamily [inline]}}



Initial state representation is randomly generated within [-\/0.\+05, 0.\+05]. 

\begin{DoxyReturn}{Returns}
Initial state for each episode. 
\end{DoxyReturn}


Definition at line 283 of file double\+\_\+pole\+\_\+cart.\+hpp.



References Double\+Pole\+Cart\+::\+State\+::\+State().

\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a7fd056133dfd315e4bf45c408f99326f}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Is\+Terminal@{Is\+Terminal}}
\index{Is\+Terminal@{Is\+Terminal}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Is\+Terminal()}
{\footnotesize\ttfamily bool Is\+Terminal (\begin{DoxyParamCaption}\item[{const \textbf{ State} \&}]{state }\end{DoxyParamCaption}) const\hspace{0.3cm}{\ttfamily [inline]}}



This function checks if the car has reached the terminal state. 


\begin{DoxyParams}{Parameters}
{\em state} & The desired state. \\
\hline
\end{DoxyParams}
\begin{DoxyReturn}{Returns}
true if state is a terminal state, otherwise false. 
\end{DoxyReturn}


Definition at line 295 of file double\+\_\+pole\+\_\+cart.\+hpp.



References Double\+Pole\+Cart\+::\+State\+::\+Angle(), Log\+::\+Info, and Double\+Pole\+Cart\+::\+State\+::\+Position().



Referenced by Double\+Pole\+Cart\+::\+Sample().

\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_ad8fd6d8f7581c82e73556491b79a8907}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Max\+Steps@{Max\+Steps}}
\index{Max\+Steps@{Max\+Steps}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Max\+Steps()\hspace{0.1cm}{\footnotesize\ttfamily [1/2]}}
{\footnotesize\ttfamily size\+\_\+t Max\+Steps (\begin{DoxyParamCaption}{ }\end{DoxyParamCaption}) const\hspace{0.3cm}{\ttfamily [inline]}}



Get the maximum number of steps allowed. 



Definition at line 321 of file double\+\_\+pole\+\_\+cart.\+hpp.

\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a64c84cebc489c6fdfd7f057e127b0aef}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Max\+Steps@{Max\+Steps}}
\index{Max\+Steps@{Max\+Steps}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Max\+Steps()\hspace{0.1cm}{\footnotesize\ttfamily [2/2]}}
{\footnotesize\ttfamily size\+\_\+t\& Max\+Steps (\begin{DoxyParamCaption}{ }\end{DoxyParamCaption})\hspace{0.3cm}{\ttfamily [inline]}}



Set the maximum number of steps allowed. 



Definition at line 323 of file double\+\_\+pole\+\_\+cart.\+hpp.

\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_afb8fc975886aa60312d63dff046af34a}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!R\+K4@{R\+K4}}
\index{R\+K4@{R\+K4}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{R\+K4()}
{\footnotesize\ttfamily void R\+K4 (\begin{DoxyParamCaption}\item[{const \textbf{ State} \&}]{state,  }\item[{const \textbf{ Action} \&}]{action,  }\item[{arma\+::vec \&}]{dydx,  }\item[{\textbf{ State} \&}]{next\+State }\end{DoxyParamCaption})\hspace{0.3cm}{\ttfamily [inline]}}



This function calls the R\+K4 iterative method to estimate the next state based on given ordinary differential equation. 


\begin{DoxyParams}{Parameters}
{\em state} & The current state. \\
\hline
{\em action} & The action to be applied. \\
\hline
{\em dydx} & The differential. \\
\hline
{\em next\+State} & The next state. \\
\hline
\end{DoxyParams}


Definition at line 232 of file double\+\_\+pole\+\_\+cart.\+hpp.



References Double\+Pole\+Cart\+::\+State\+::\+Data(), Double\+Pole\+Cart\+::\+Dsdt(), and Double\+Pole\+Cart\+::\+State\+::\+State().



Referenced by Double\+Pole\+Cart\+::\+Sample().

\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a311ac19edc537dee94f37b7cce93d908}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Sample@{Sample}}
\index{Sample@{Sample}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Sample()\hspace{0.1cm}{\footnotesize\ttfamily [1/2]}}
{\footnotesize\ttfamily double Sample (\begin{DoxyParamCaption}\item[{const \textbf{ State} \&}]{state,  }\item[{const \textbf{ Action} \&}]{action,  }\item[{\textbf{ State} \&}]{next\+State }\end{DoxyParamCaption})\hspace{0.3cm}{\ttfamily [inline]}}



Dynamics of Double Pole Cart instance. 

Get reward and next state based on current state and current action.


\begin{DoxyParams}{Parameters}
{\em state} & The current state. \\
\hline
{\em action} & The current action. \\
\hline
{\em next\+State} & The next state. \\
\hline
\end{DoxyParams}
\begin{DoxyReturn}{Returns}
reward, it\textquotesingle{}s always 1.\+0. 
\end{DoxyReturn}
When done is false, it means that the cartpole has fallen down. For this case the reward is 1.\+0.

Definition at line 153 of file double\+\_\+pole\+\_\+cart.\+hpp.



References Double\+Pole\+Cart\+::\+State\+::\+Angular\+Velocity(), Double\+Pole\+Cart\+::\+Dsdt(), Double\+Pole\+Cart\+::\+Is\+Terminal(), Double\+Pole\+Cart\+::\+R\+K4(), and Double\+Pole\+Cart\+::\+State\+::\+Velocity().



Referenced by Double\+Pole\+Cart\+::\+Sample().

\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_af2bb860eaefeaa62a40f5cf940793704}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Sample@{Sample}}
\index{Sample@{Sample}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Sample()\hspace{0.1cm}{\footnotesize\ttfamily [2/2]}}
{\footnotesize\ttfamily double Sample (\begin{DoxyParamCaption}\item[{const \textbf{ State} \&}]{state,  }\item[{const \textbf{ Action} \&}]{action }\end{DoxyParamCaption})\hspace{0.3cm}{\ttfamily [inline]}}



Dynamics of Double Pole Cart. 

Get reward based on current state and current action.


\begin{DoxyParams}{Parameters}
{\em state} & The current state. \\
\hline
{\em action} & The current action. \\
\hline
\end{DoxyParams}
\begin{DoxyReturn}{Returns}
reward, it\textquotesingle{}s always 1.\+0. 
\end{DoxyReturn}


Definition at line 272 of file double\+\_\+pole\+\_\+cart.\+hpp.



References Double\+Pole\+Cart\+::\+Sample().

\mbox{\label{classmlpack_1_1rl_1_1DoublePoleCart_a5fe06563064ebcee88c593e1673f03d4}} 
\index{mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}!Steps\+Performed@{Steps\+Performed}}
\index{Steps\+Performed@{Steps\+Performed}!mlpack\+::rl\+::\+Double\+Pole\+Cart@{mlpack\+::rl\+::\+Double\+Pole\+Cart}}
\subsubsection{Steps\+Performed()}
{\footnotesize\ttfamily size\+\_\+t Steps\+Performed (\begin{DoxyParamCaption}{ }\end{DoxyParamCaption}) const\hspace{0.3cm}{\ttfamily [inline]}}



Get the number of steps performed. 



Definition at line 318 of file double\+\_\+pole\+\_\+cart.\+hpp.



The documentation for this class was generated from the following file\+:\begin{DoxyCompactItemize}
\item 
/var/www/mlpack.\+ratml.\+org/mlpack.\+org/\+\_\+src/mlpack-\/3.\+3.\+2/src/mlpack/methods/reinforcement\+\_\+learning/environment/\textbf{ double\+\_\+pole\+\_\+cart.\+hpp}\end{DoxyCompactItemize}