%% $Id: pst-hsb-doc.tex 686 2023-04-02 13:03:12Z herbert $
\RequirePackage{pdfmanagement-testphase}
\DeclareDocumentMetadata{}
% $Id: pst-hsb-doc.tex 686 2023-04-02 13:03:12Z herbert $
\documentclass[11pt,english,BCOR=10mm,DIV=12,bibliography=totoc,parskip=false,headings=small,
   headinclude=false,footinclude=false,twoside]{pst-doc}
\usepackage{pst-hsb}
\let\psthsbFV\fileversion
\usepackage{xltabular}
\usepackage{pst-plot}
\renewcommand\bgImage{\begin{pspicture}(0,-5)(11,5)
% \psgrid(0,-4)(10,4)
\psaxes{->}(0,0)(0,-4)(11,5)
\psset{plotpoints=300,algebraic}%
\psparametricplotHSB[linewidth=1mm,HueBegin=0,HueEnd=0.5]{0}{6.28}{t/0.628 | sin(t)*4}
\psparametricplotHSB[linewidth=1mm,HueBegin=0.5,HueEnd=0.7]{0}{6.28}{t/0.628 | cos(t)*4}
\psparametricplotHSB[linewidth=1mm,HueBegin=0.8,HueEnd=1]{0}{6.28}{t/0.628 | sin(t)*2}
\end{pspicture}}

\lstset{language=PSTricks,
   morekeywords={psPrintValue},basicstyle=\footnotesize\ttfamily}
%
%\usepackage{biblatex}
\addbibresource{pst-hsb-doc.bib}
\begin{document}

\title{\texttt{pst-hsb}}
\subtitle{Curves with continoues color; v.\psthsbFV}
\author{Denis Girou\\Manuel Luque\\Herbert Voß}
\docauthor{}
%\date{\today}
\settitle

\begin{abstract}
This package defines the macros \Lcs{pslineHSB}
\Lcs{parametricplotHSB} for curves with a continous color.


\tableofcontents



\vfill
\noindent
Thanks to:
%Denis Girou; Manuel Luque
\end{abstract}

\newpage

\section{Options}
The macros uses the hsb color model for the continuing setting of the
colors. hsb is Hue, Saturation and Brightness. All three can be defined by the
beginning and end value of the sequence. If the values for beginning and end are the
same then the value will be constant for the whole line and/or curve. The options
are preset to

\begin{verbatim}
 HueBegin=0,HueEnd=1,
 SaturationBegin=1, SaturationEnd=1,
 BrightnessBegin=1, BrightnessEnd=1,
\end{verbatim}



\section{Examples}

\subsection{Lines}
\begin{LTXexample}
\begin{pspicture}(-0.5,-0.5)(11,5)
% \psgrid(0,-4)(10,4)
\psaxes{->}(0,0)(11,5)
\pslineHSB[linewidth=1mm,HueBegin=0,HueEnd=0.5](0,0)(10,1)\rput[l](10,1){ 1}
\pslineHSB[linewidth=1mm,HueBegin=0,HueEnd=0.5,SaturationBegin=0](0,0.5)(10,2)\rput[l](10,2){ 2}
\pslineHSB[linewidth=1mm,HueBegin=0.5,HueEnd=0.7](0,1)(10,3)\rput[l](10,3){ 3}
\pslineHSB[linewidth=1mm,HueBegin=0.5,HueEnd=0.7,BrightnessBegin=0](0,1.5)(10,4)\rput[l](10,4){ 4}
\pslineHSB[linewidth=1mm,HueBegin=0.8,HueEnd=1](0,2)(10,5)\rput[l](10,5){ 5}
\end{pspicture}
\end{LTXexample}



\clearpage

\subsection{Parametric plot}

\begin{LTXexample}
\begin{pspicture}(0,-5)(11,5)
% \psgrid(0,-4)(10,4)
\psaxes{->}(0,0)(0,-4)(11,5)
\psset{plotpoints=10}%
\psparametricplotHSB[linewidth=1mm,HSB=false,linecolor=red]{0}{360}{t 36 div t sin 4 mul}
\psparametricplotHSB[linewidth=1mm,algebraic]{0}{6.28}{t/0.628 | cos(t)*4}
\end{pspicture}
\end{LTXexample}

\begin{LTXexample}
\begin{pspicture}(0,-5)(11,5)
% \psgrid(0,-4)(10,4)
\psaxes{->}(0,0)(0,-4)(11,5)
\psset{plotpoints=300}%
\psparametricplotHSB[linewidth=1mm,HSB=false,linecolor=red]{0}{360}{t 36 div t sin 4 mul}
\psparametricplotHSB[linewidth=1mm,algebraic]{0}{6.28}{t/0.628 | cos(t)*4}
\end{pspicture}
\end{LTXexample}

\begin{LTXexample}
\begin{pspicture}(0,-5)(11,5)
% \psgrid(0,-4)(10,4)
\psaxes{->}(0,0)(0,-4)(11,5)
\psset{plotpoints=300,algebraic}%
\psparametricplotHSB[linewidth=1mm,HueBegin=0,HueEnd=0.5]{0}{6.28}{t/0.628 | sin(t)*4}
\psparametricplotHSB[linewidth=1mm,HueBegin=0.5,HueEnd=0.7]{0}{6.28}{t/0.628 | cos(t)*4}
\psparametricplotHSB[linewidth=1mm,HueBegin=0.8,HueEnd=1]{0}{6.28}{t/0.628 | sin(t)*2}
\end{pspicture}
\end{LTXexample}

\begin{LTXexample}
\begin{pspicture}(-5,-5)(5,5)
\psframe*[linecolor=lightgray](-5,-4)(5,4)
\psgrid[gridlabels=0,subgriddiv=0](-5,-4)(5,4)
\multido{\nxDiv=-5+0.2}{50}{%
\psline(\nxDiv,-.1)(\nxDiv,0.1)}
\multido{\nyDiv=-4.0+0.2}{40}{%
\psline(-0.1,\nyDiv)(0.1,\nyDiv)}
\psset{linewidth=1mm}%
\psparametricplotHSB[plotpoints=2000,linecolor=blue,HSB=false,yunit=0.5]{-5}{5}{%
/temps t 2e-3 mul def
/frequence2 100 def
frequence2 360 mul temps mul cos
1 mul 3 add
}
\psparametricplotHSB[plotpoints=2000,yunit=1]{-5}{5}{%
/temps t 2e-3 mul def
/frequence1 1200 def
/frequence2 100 def
frequence2 360 mul temps mul cos
1 mul 3 add
frequence1 360 mul temps mul cos
4 mul
mul
0.1 mul
}
\end{pspicture}
\end{LTXexample}






\clearpage
\section{List of all optional arguments for \texttt{pst-hsb}}

\xkvview{family=pst-hsb,columns={key,type,default}}


\RaggedRight
\nocite{*}
%\bibliographystyle{plain}
\printbibliography

\printindex



\end{document}