246 lines
11 KiB
TeX
246 lines
11 KiB
TeX
\section{neuralpp::Neuron Class Reference}
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\label{classneuralpp_1_1Neuron}\index{neuralpp::Neuron@{neuralpp::Neuron}}
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Class for managing neurons.
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{\tt \#include $<$neural++.hpp$>$}
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\subsection*{Public Member Functions}
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\begin{CompactItemize}
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\item
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{\bf Neuron} (double($\ast$a)(double))
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\begin{CompactList}\small\item\em Constructor. \item\end{CompactList}\item
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{\bf Neuron} (vector$<$ {\bf Synapsis} $>$ {\bf in}, vector$<$ {\bf Synapsis} $>$ {\bf out}, double($\ast$a)(double))
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\begin{CompactList}\small\item\em Alternative constructor, that gets also the synapsis linked to the neuron. \item\end{CompactList}\item
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{\bf Synapsis} \& {\bf synIn} (size\_\-t i)
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\begin{CompactList}\small\item\em Get the i-th synapsis connected on the input of the neuron. \item\end{CompactList}\item
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{\bf Synapsis} \& {\bf synOut} (size\_\-t i)
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\begin{CompactList}\small\item\em Get the i-th synapsis connected on the output of the neuron. \item\end{CompactList}\item
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void {\bf push\_\-in} ({\bf Synapsis} \&s)
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\begin{CompactList}\small\item\em It pushes a new input synapsis. \item\end{CompactList}\item
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void {\bf push\_\-out} ({\bf Synapsis} \&s)
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\begin{CompactList}\small\item\em It pushes a new output synapsis. \item\end{CompactList}\item
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void {\bf setActv} (double a)
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\begin{CompactList}\small\item\em Change the activation value of the neuron. \item\end{CompactList}\item
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void {\bf setProp} (double p)
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\begin{CompactList}\small\item\em Change the propagation value of the neuron. \item\end{CompactList}\item
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double {\bf getActv} ()
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\begin{CompactList}\small\item\em Get the activation value of the neuron. \item\end{CompactList}\item
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double {\bf getProp} ()
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\begin{CompactList}\small\item\em Get the propagation value of the neuron. \item\end{CompactList}\item
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double {\bf propagate} ()
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\begin{CompactList}\small\item\em It propagates its activation value to the connected neurons. \item\end{CompactList}\item
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size\_\-t {\bf nIn} ()
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\begin{CompactList}\small\item\em Get the number of input synapsis for the neuron. \item\end{CompactList}\item
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size\_\-t {\bf nOut} ()
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\begin{CompactList}\small\item\em Get the number of output synapsis for the neuron. \item\end{CompactList}\item
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void {\bf synClear} ()
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\begin{CompactList}\small\item\em Remove input and output synapsis from a neuron. \item\end{CompactList}\end{CompactItemize}
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\subsection*{Private Attributes}
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\begin{CompactItemize}
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\item
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double {\bf actv\_\-val}
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\item
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double {\bf prop\_\-val}
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\item
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vector$<$ {\bf Synapsis} $>$ {\bf in}
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\item
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vector$<$ {\bf Synapsis} $>$ {\bf out}
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\item
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double($\ast$ {\bf actv\_\-f} )(double)
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\end{CompactItemize}
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\subsection{Detailed Description}
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Class for managing neurons.
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Don't use this class directly unless you know what you're doing, use \doxyref{NeuralNet}{p.}{classneuralpp_1_1NeuralNet} instead
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\subsection{Constructor \& Destructor Documentation}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!Neuron@{Neuron}}
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\index{Neuron@{Neuron}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[Neuron]{\setlength{\rightskip}{0pt plus 5cm}neuralpp::Neuron::Neuron (double($\ast$)(double) {\em a})}\label{classneuralpp_1_1Neuron_9863a08b73bc97c8b514aca6c580ff7b}
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Constructor.
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\begin{Desc}
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\item[Parameters:]
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\begin{description}
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\item[{\em a}]Activation function \end{description}
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\end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!Neuron@{Neuron}}
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\index{Neuron@{Neuron}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[Neuron]{\setlength{\rightskip}{0pt plus 5cm}neuralpp::Neuron::Neuron (vector$<$ {\bf Synapsis} $>$ {\em in}, \/ vector$<$ {\bf Synapsis} $>$ {\em out}, \/ double($\ast$)(double) {\em a})}\label{classneuralpp_1_1Neuron_f1bf19ec93174f60b368ee4a91b03f46}
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Alternative constructor, that gets also the synapsis linked to the neuron.
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\begin{Desc}
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\item[Parameters:]
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\begin{description}
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\item[{\em in}]Input synapses \item[{\em out}]Output synapses \item[{\em a}]Activation function \end{description}
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\end{Desc}
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\subsection{Member Function Documentation}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!synIn@{synIn}}
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\index{synIn@{synIn}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[synIn]{\setlength{\rightskip}{0pt plus 5cm}{\bf Synapsis}\& neuralpp::Neuron::synIn (size\_\-t {\em i})}\label{classneuralpp_1_1Neuron_29f2d9dcc4ca34f224d4dc39bb2f180a}
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Get the i-th synapsis connected on the input of the neuron.
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\begin{Desc}
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\item[Parameters:]
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\begin{description}
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\item[{\em i}]Index of the input synapsis to get \end{description}
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\end{Desc}
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\begin{Desc}
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\item[Returns:]Reference to the i-th synapsis \end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!synOut@{synOut}}
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\index{synOut@{synOut}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[synOut]{\setlength{\rightskip}{0pt plus 5cm}{\bf Synapsis}\& neuralpp::Neuron::synOut (size\_\-t {\em i})}\label{classneuralpp_1_1Neuron_655f1637e1b754461413ac7fc2ffeebe}
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Get the i-th synapsis connected on the output of the neuron.
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\begin{Desc}
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\item[Parameters:]
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\begin{description}
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\item[{\em i}]Index of the output synapsis to get \end{description}
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\end{Desc}
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\begin{Desc}
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\item[Returns:]Reference to the i-th synapsis \end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!push\_\-in@{push\_\-in}}
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\index{push\_\-in@{push\_\-in}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[push\_\-in]{\setlength{\rightskip}{0pt plus 5cm}void neuralpp::Neuron::push\_\-in ({\bf Synapsis} \& {\em s})}\label{classneuralpp_1_1Neuron_583ada6e1dd3f2e113415b4d89196e62}
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It pushes a new input synapsis.
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\begin{Desc}
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\item[Parameters:]
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\begin{description}
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\item[{\em s}]\doxyref{Synapsis}{p.}{classneuralpp_1_1Synapsis} to be pushed \end{description}
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\end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!push\_\-out@{push\_\-out}}
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\index{push\_\-out@{push\_\-out}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[push\_\-out]{\setlength{\rightskip}{0pt plus 5cm}void neuralpp::Neuron::push\_\-out ({\bf Synapsis} \& {\em s})}\label{classneuralpp_1_1Neuron_bca65db84f56f9d40694bfbcd25812cb}
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It pushes a new output synapsis.
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\begin{Desc}
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\item[Parameters:]
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\begin{description}
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\item[{\em s}]\doxyref{Synapsis}{p.}{classneuralpp_1_1Synapsis} to be pushed \end{description}
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\end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!setActv@{setActv}}
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\index{setActv@{setActv}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[setActv]{\setlength{\rightskip}{0pt plus 5cm}void neuralpp::Neuron::setActv (double {\em a})}\label{classneuralpp_1_1Neuron_ddf00ffef030b27ed11901aad08822bd}
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Change the activation value of the neuron.
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\begin{Desc}
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\item[Parameters:]
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\begin{description}
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\item[{\em a}]Activation value \end{description}
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\end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!setProp@{setProp}}
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\index{setProp@{setProp}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[setProp]{\setlength{\rightskip}{0pt plus 5cm}void neuralpp::Neuron::setProp (double {\em p})}\label{classneuralpp_1_1Neuron_aa6e58f073a76b3481fea9115a4e6ea6}
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Change the propagation value of the neuron.
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\begin{Desc}
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\item[Parameters:]
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\begin{description}
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\item[{\em p}]Propagation value \end{description}
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\end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!getActv@{getActv}}
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\index{getActv@{getActv}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[getActv]{\setlength{\rightskip}{0pt plus 5cm}double neuralpp::Neuron::getActv ()}\label{classneuralpp_1_1Neuron_55993867179f0ac7d1e0e2c460ceb611}
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Get the activation value of the neuron.
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\begin{Desc}
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\item[Returns:]Activation value for the neuron \end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!getProp@{getProp}}
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\index{getProp@{getProp}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[getProp]{\setlength{\rightskip}{0pt plus 5cm}double neuralpp::Neuron::getProp ()}\label{classneuralpp_1_1Neuron_57c022f82213f662e2a263fc134a3fc9}
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Get the propagation value of the neuron.
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\begin{Desc}
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\item[Returns:]Propagation value for the neuron \end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!propagate@{propagate}}
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\index{propagate@{propagate}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[propagate]{\setlength{\rightskip}{0pt plus 5cm}double neuralpp::Neuron::propagate ()}\label{classneuralpp_1_1Neuron_8b0ca61cd0e047c8691ab39aae56dbda}
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It propagates its activation value to the connected neurons.
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\index{neuralpp::Neuron@{neuralpp::Neuron}!nIn@{nIn}}
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\index{nIn@{nIn}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[nIn]{\setlength{\rightskip}{0pt plus 5cm}size\_\-t neuralpp::Neuron::nIn ()}\label{classneuralpp_1_1Neuron_ad97f1a082d5f969eb4c69ab454ecfbb}
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Get the number of input synapsis for the neuron.
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\begin{Desc}
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\item[Returns:]Number of input synapsis \end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!nOut@{nOut}}
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\index{nOut@{nOut}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[nOut]{\setlength{\rightskip}{0pt plus 5cm}size\_\-t neuralpp::Neuron::nOut ()}\label{classneuralpp_1_1Neuron_fe458021e3b20d58dc608fb94ae2135b}
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Get the number of output synapsis for the neuron.
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\begin{Desc}
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\item[Returns:]Number of output synapsis \end{Desc}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!synClear@{synClear}}
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\index{synClear@{synClear}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[synClear]{\setlength{\rightskip}{0pt plus 5cm}void neuralpp::Neuron::synClear ()}\label{classneuralpp_1_1Neuron_2e2ccb69277fc3d992a3a3f2360ed154}
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Remove input and output synapsis from a neuron.
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\subsection{Member Data Documentation}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!actv\_\-val@{actv\_\-val}}
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\index{actv\_\-val@{actv\_\-val}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[actv\_\-val]{\setlength{\rightskip}{0pt plus 5cm}double {\bf neuralpp::Neuron::actv\_\-val}\hspace{0.3cm}{\tt [private]}}\label{classneuralpp_1_1Neuron_eec680c47272b2465e8d8a998c359853}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!prop\_\-val@{prop\_\-val}}
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\index{prop\_\-val@{prop\_\-val}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[prop\_\-val]{\setlength{\rightskip}{0pt plus 5cm}double {\bf neuralpp::Neuron::prop\_\-val}\hspace{0.3cm}{\tt [private]}}\label{classneuralpp_1_1Neuron_da75259de98b1a893c736666af6bfdc3}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!in@{in}}
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\index{in@{in}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[in]{\setlength{\rightskip}{0pt plus 5cm}vector$<$ {\bf Synapsis} $>$ {\bf neuralpp::Neuron::in}\hspace{0.3cm}{\tt [private]}}\label{classneuralpp_1_1Neuron_ead827210fa18c2baae03927b2c798ff}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!out@{out}}
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\index{out@{out}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[out]{\setlength{\rightskip}{0pt plus 5cm}vector$<$ {\bf Synapsis} $>$ {\bf neuralpp::Neuron::out}\hspace{0.3cm}{\tt [private]}}\label{classneuralpp_1_1Neuron_82a4297f84d6403e52a8386d26117b4f}
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\index{neuralpp::Neuron@{neuralpp::Neuron}!actv\_\-f@{actv\_\-f}}
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\index{actv\_\-f@{actv\_\-f}!neuralpp::Neuron@{neuralpp::Neuron}}
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\subsubsection[actv\_\-f]{\setlength{\rightskip}{0pt plus 5cm}double($\ast$ {\bf neuralpp::Neuron::actv\_\-f})(double)\hspace{0.3cm}{\tt [private]}}\label{classneuralpp_1_1Neuron_198ddd0d11a26d0052d52b787d6a0df0}
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The documentation for this class was generated from the following file:\begin{CompactItemize}
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\item
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{\bf neural++.hpp}\end{CompactItemize}
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