% % weight.tex -- Einfluss der Gewichtsfunktion auf die möglichen Funktionen % % (c) 2021 Prof Dr Andreas Müller, OST Ostschweizer Fachhochschule % \documentclass[tikz]{standalone} \usepackage{amsmath} \usepackage{times} \usepackage{txfonts} \usepackage{pgfplots} \usepackage{csvsimple} \usetikzlibrary{arrows,intersections,math} \begin{document} \def\skala{6} \begin{tikzpicture}[>=latex,thick,scale=\skala] \definecolor{hell}{rgb}{0.4,0.4,1} \xdef\sfour{0.16} \xdef\sthree{0.20} \xdef\stwo{0.27} \xdef\sone{0.45} \begin{scope} \clip (-1,-1) rectangle (1,1); \xdef\s{0.16} \fill[color=blue!40] plot[domain=0.7:0.99,samples=20] ({\x},{\s*exp(-0.48*ln(1-\x))}) -- (1,1) -- (1,-1) -- plot[domain=0.99:0.7,samples=20] ({\x},{-\s*exp(-0.48*ln(1-\x))}) -- cycle; \xdef\s{0.20} \fill[color=blue!40] plot[domain=0.033:0.33,samples=20] ({\x},{\s*exp(-0.28*ln(1/3-\x))}) -- ({1/3},1) -- plot[domain=0.34:0.6333,samples=20] ({\x},{\s*exp(-0.28*ln(\x-1/3))}) -- plot[domain=0.6333:0.34,samples=20] ({\x},{-\s*exp(-0.28*ln(\x-1/3))}) -- ({1/3},-1) -- plot[domain=0.333:0.033,samples=20] ({\x},{-\s*exp(-0.28*ln(1/3-\x))}) -- cycle; \xdef\s{0.27} \fill[color=blue!40] (-0.6333,-\s) rectangle (-0.0333,\s); \xdef\s{0.45} \fill[color=blue!40] (-1,0) -- plot[domain=-0.99:-0.7,samples=100] ({\x},{\s*exp(0.48*ln(1+\x))}) -- plot[domain=-0.7:-0.99,samples=100] ({\x},{-\s*exp(0.48*ln(1+\x))}) -- cycle; \end{scope} \def\rechteck#1#2{ \fill[color=hell!#1] ({#2/300},1) rectangle ({(#2+1.1)/300},-1); } \def\verlauf{ \foreach\x in {0,1,...,100.1}{ \rechteck{\x}{\x} \rechteck{\x}{-\x} } } \def\rand{ plot[domain=0.7:0.99,samples=20] ({\x},{\sfour*exp(-0.48*ln(1-\x))}) -- (1,1) -- (1,-1) -- plot[domain=0.99:0.7,samples=20] ({\x},{-\sfour*exp(-0.48*ln(1-\x))}) -- plot[domain=0.6333:0.34,samples=20] ({\x},{-\sthree*exp(-0.28*ln(\x-1/3))}) -- ({1/3},-1) -- plot[domain=0.333:0.033,samples=20] ({\x},{-\sthree*exp(-0.28*ln(1/3-\x))}) -- (-0.0333,-\stwo) -- (-0.6333,-\stwo) -- plot[domain=-0.7:-0.998,samples=100] ({\x},{-\sone*exp(0.48*ln(1+\x))}) -- (-1,0) -- plot[domain=-0.998:-0.7,samples=100] ({\x},{\sone*exp(0.48*ln(1+\x))}) -- (-0.6333,\stwo) -- (-0.0333,\stwo) -- plot[domain=0.033:0.33,samples=20] ({\x},{\sthree*exp(-0.28*ln(1/3-\x))}) -- ({1/3},1) -- plot[domain=0.34:0.6333,samples=20] ({\x},{\sthree*exp(-0.28*ln(\x-1/3))}) -- cycle; } \begin{scope} \clip (-1,-1) rectangle (1,1); \begin{scope} \clip \rand; \fill[left color=hell,right color=white] (-1,-1) rectangle (-0.6666,1); \fill[left color=white,right color=hell] (-0.6666,-1) rectangle (-0.3333,1); \fill[left color=hell,right color=white] (-0.3333,-1) rectangle (0,1); \fill[left color=white,right color=hell] (0,-1) rectangle (0.3333,1); \fill[left color=hell,right color=white] (0.3333,-1) rectangle (0.6666,1); \fill[left color=white,right color=hell] (0.6666,-1) rectangle (1,1); \end{scope} \draw[color=white,line width=0.5pt] \rand; \draw[color=white,line width=0.8pt] ({-2/3},-1) -- ({-2/3},1); \draw[color=white,line width=0.8pt] ({2/3},-1) -- ({2/3},1); \end{scope} \draw[->] (-1.1,0) -- (1.1,0) coordinate[label={$x$}]; \draw[->] (0,-1.1) -- (0,1.1) coordinate[label={right:$y$}]; \begin{scope} \clip (-1,-1) rectangle (1,1); \input{weightfunction.tex} \end{scope} \draw[line width=0.2pt] (-1,-1) -- (-1,1); \draw[line width=0.2pt] ({-1/3},-1) -- ({-1/3},1); \draw ({-1/3},{-0.1/\skala}) -- ({-1/3},{0.1/\skala}); \draw ({1/3},{-0.1/\skala}) -- ({1/3},{0.1/\skala}); \draw (1,{-0.1/\skala}) -- (1,{0.1/\skala}); \node at (-1,0) [below left] {$-1$}; \node at (1,0) [below right] {$1$}; \def\marke#1#2#3{ \fill[color=white,opacity=0.7] ({#1-0.03},{#2-0.12}) rectangle ({#1+0.03},{#2+0.12}); } \marke{-1}{0.2}{} \node at (-1,0.2) [rotate=90] {$\alpha=-1.9$}; \marke{-1/3}{0.2}{} \node at ({-1/3},0.2) [rotate=90] {$\alpha=-0.9$}; \marke{1/3}{0.2}{} \node at ({1/3},0.2) [rotate=90] {$\alpha=1$}; \marke{1}{0.2}{} \node at (1,0.2) [rotate=90] {$\alpha=2$}; \end{tikzpicture} \end{document}