Difference between revisions of "File:TaniaContourPlot100.png"

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[[Complex map]] of the [[Tania function]].
Importing image file
 
  +
  +
$f=\mathrm{Tania}(x\!+\!\mathrm{i} y)$ in the $x,y$ plane is shown with levels <br>
  +
$u\!=\!\Re(f)\!=\! \mathrm {const} ~$ and <br>
  +
$v\!=\!\Im(f)\!=\! \mathrm {const} ~$.
  +
  +
The thick lines correspond to the integer values.
  +
  +
==Generators==
  +
  +
Copyleft 2011 by Dmitrii Kouznetsov.
  +
The image and the generators may be used foe free, but attribute the source. This helps a lot to trace errors if any.
  +
  +
  +
===[[C++]] generator of curves===
  +
//Files [[conto.cin]] and [[ado.cin]] should be loaded into the working directory for the compilation of the generator below.
  +
  +
// Generator of [[contour plot]] of the [[Tania function]]; drawing of lines in C++
  +
#include <math.h>
  +
#include <stdio.h>
  +
#include <stdlib.h>
  +
#define DB double
  +
#define DO(x,y) for(x=0;x<y;x++)
  +
using namespace std;
  +
#include <complex>
  +
typedef complex<double> z_type;
  +
#define Re(x) x.real()
  +
#define Im(x) x.imag()
  +
#define I z_type(0.,1.)
  +
#include "conto.cin"
  +
  +
z_type ArcTania(z_type z) {return z + log(z) - 1. ;}
  +
z_type ArcTaniap(z_type z) {return 1. + 1./z ;}
  +
  +
z_type TaniaTay(z_type z) { int n; z_type s;
  +
s=1.+z*(.5+z*(1./16.+z*(-1./192.+z*(-1./3072.+z*(1.3/6144.+z*(-4.7/147456.
  +
//+z*(7.3/4128768.) //some reserve term
  +
)))))); DO(n,3) s+=(z-ArcTania(s))/ArcTaniap(s); return s ; }
  +
  +
z_type TaniaNega(z_type z){int n;z_type s=exp(z-exp(z)+1.);
  +
DO(n,4) s+=(z-ArcTania(s))/ArcTaniap(s); return s ; }
  +
  +
z_type TaniaBig(z_type z){int n;z_type s=z; s=z-log(s)+1.;
  +
DO(n,3) s+=(z-ArcTania(s))/ArcTaniap(s); return s ; }
  +
  +
z_type TaniaS(z_type z){int n; z_type s,t=z+z_type(2.,-M_PI);t*=2./9.; t=I*sqrt(t);
  +
s=-1.+t*(3.+t*(-3.+t*(.75+t*(.3+t*(.9/16.+t*(-.3/7.+t*(-12.51/224. //+t*(-.9/28.)
  +
)))))));
  +
DO(n,3) s+=(z-ArcTania(s))/ArcTaniap(s); return s ; }
  +
  +
z_type Tania(z_type z){ z_type t;
  +
if( fabs(Im(z))< M_PI && Re(z)<-2.51) return TaniaNega(z);
  +
if( abs(z)>7. || Re(z)>3.8 ) return TaniaBig(z);
  +
if( Im(z) > .7 ) return TaniaS(z);
  +
if( Im(z) < -.7) return conj(TaniaS(conj(z)));
  +
return TaniaTay(z);
  +
}
  +
  +
main(){ int j,k,m,n; DB x,y, p,q, t; z_type z,c,d;
  +
int M=160,M1=M+1;
  +
int N=161,N1=N+1;
  +
DB X[M1],Y[N1], g[M1*N1],f[M1*N1], w[M1*N1]; // w is working array.
  +
char v[M1*N1]; // v is working array
  +
FILE *o;o=fopen("taniacontour.eps","w");ado(o,162,162);
  +
fprintf(o,"81 81 translate\n 10 10 scale\n");
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DO(m,M1) X[m]=-8.+.1*(m);
  +
DO(n,80)Y[n]=-8.+.1*n;
  +
Y[80]=-.033;
  +
Y[81]= .033;
  +
for(n=82;n<N1;n++) Y[n]=-8.+.1*(n-1.);
  +
for(m=-8;m<9;m++){if(m==0){M(m,-8.5)L(m,8.5)} else{M(m,-8)L(m,8)}}
  +
for(n=-8;n<9;n++){ M( -8,n)L(8,n)}
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fprintf(o,".008 W 0 0 0 RGB S\n");
  +
DO(m,M1)DO(n,N1){g[m*N1+n]=9999; f[m*N1+n]=9999;}
  +
DO(m,M1){x=X[m]; //printf("%5.2f\n",x);
  +
DO(n,N1){y=Y[n]; z=z_type(x,y);
  +
c=Tania(z); p=Re(c);q=Im(c);
  +
if(p>-99. && p<99. && q>-99. && q<99. ){ g[m*N1+n]=p;f[m*N1+n]=q;}
  +
}}
  +
fprintf(o,"1 setlinejoin 2 setlinecap\n"); p=.6;q=.5;
  +
for(m=-10;m<10;m++)for(n=2;n<10;n+=2)conto(o,f,w,v,X,Y,M,N,(m+.1*n),-q, q); fprintf(o,".01 W 0 .6 0 RGB S\n");
  +
for(m=0;m<10;m++) for(n=2;n<10;n+=2)conto(o,g,w,v,X,Y,M,N,-(m+.1*n),-q, q); fprintf(o,".01 W .9 0 0 RGB S\n");
  +
for(m=0;m<10;m++) for(n=2;n<10;n+=2)conto(o,g,w,v,X,Y,M,N, (m+.1*n),-q, q); fprintf(o,".01 W 0 0 .9 RGB S\n");
  +
for(m=1;m<10;m++) conto(o,f,w,v,X,Y,M,N, (0.-m),-p,p); fprintf(o,".05 W .9 0 0 RGB S\n");
  +
for(m=1;m<10;m++) conto(o,f,w,v,X,Y,M,N, (0.+m),-p,p); fprintf(o,".05 W 0 0 .9 RGB S\n");
  +
conto(o,f,w,v,X,Y,M,N, (0. ),-p,p); fprintf(o,".05 W .6 0 .6 RGB S\n");
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for(m=-9;m<10;m++) conto(o,g,w,v,X,Y,M,N, (0.+m),-p,p); fprintf(o,".05 W 0 0 0 RGB S\n");
  +
y= M_PI; for(m=0;m<60;m+=4) {x=-7.95+.1*m; M(x,y) L(x+.05,y)}
  +
y=-M_PI; for(m=0;m<60;m+=4) {x=-7.95+.1*m; M(x,y) L(x+.05,y)}
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fprintf(o,".07 W 1 .5 0 RGB S\n");
  +
y= M_PI; for(m=2;m<60;m+=4) {x=-7.95+.1*m; M(x,y) L(x+.05,y)}
  +
y=-M_PI; for(m=2;m<60;m+=4) {x=-7.95+.1*m; M(x,y) L(x+.05,y)}
  +
fprintf(o,".07 W 0 .5 1 RGB S\n");
  +
fprintf(o,"showpage\n%c%cTrailer",'%','%'); fclose(o);
  +
system("epstopdf taniacontour.eps");
  +
system( "open taniacontour.pdf");
  +
getchar(); system("killall Preview");
  +
}
  +
  +
===[[Latex]] generator of labels===
  +
%<nowiki>
  +
% Gerenator of TaniaPlot.png %<br>
  +
% Save the paragraph below as TaniaComplexPlot.tex %<br>
  +
% After the latexing is and generation TaniaContourPlot.pdf %<br>
  +
% convert TaniaPlot.pdf TaniaContourPlot100.png %<br>
  +
% with 100 pixels/inch; the result is supposed to be identical to the pic shown. %<br>
  +
% Copyleft 2011 by Dmitrii Kouznetsov %<br>
  +
\documentclass[12pt]{article} %<br>
  +
\usepackage{geometry} %<br>
  +
\usepackage{graphicx} %<br>
  +
\usepackage{rotating} %<br>
  +
\paperwidth 854pt %<br>
  +
\paperheight 844pt %<br>
  +
\topmargin -96pt %<br>
  +
\oddsidemargin -98pt %<br>
  +
\textwidth 1100pt %<br>
  +
\textheight 1100pt %<br>
  +
\pagestyle {empty} %<br>
  +
\newcommand \sx {\scalebox} %<br>
  +
\newcommand \rot {\begin{rotate}} %<br>
  +
\newcommand \ero {\end{rotate}} %<br>
  +
\newcommand \ing {\includegraphics} %<br>
  +
\begin{document} %<br>
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\sx{5}{ \begin{picture}(164,165) %<br>
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\put(6,5){\ing{taniacontour}} %<br>
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\put(2,162){\sx{.7}{$y$}} %<br>
  +
\put(2,144){\sx{.6}{$6$}} %<br>
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\put(2,124){\sx{.6}{$4$}} %<br>
  +
\put(2,104){\sx{.6}{$2$}} %<br>
  +
\put(3,116){\sx{.6}{$\pi$ ~ \bf cut}} %<br>
  +
\put(23,100){\sx{.8}{$u\!=\!0$}} %<br>
  +
\put(2, 84){\sx{.6}{$0$}} %<br>
  +
\put(20, 84){\sx{.8}{$v\!=\!0$}} %<br>
  +
\put(23,68){\sx{.8}{$u\!=\!0$}} %<br>
  +
\put(-3,64){\sx{.6}{$-2$}} %<br>
  +
\put(-3,53){\sx{.6}{$-\pi$ ~ \bf cut}} %<br>
  +
\put(-3,44){\sx{.6}{$-4$}} %<br>
  +
\put(-3,24){\sx{.6}{$-6$}} %<br>
  +
\put( 22,0){\sx{.6}{$-6$}} %<br>
  +
\put( 42,0){\sx{.6}{$-4$}} %<br>
  +
\put( 62,0){\sx{.6}{$-2$}} %<br>
  +
\put( 86,0){\sx{.6}{$0$}} %<br>
  +
\put(106,0){\sx{.6}{$2$}} %<br>
  +
\put(126,0){\sx{.6}{$4$}} %<br>
  +
\put(146,0){\sx{.6}{$6$}} %<br>
  +
\put(164,0){\sx{.7}{$x$}} %<br>
  +
\put(139,154){\rot{-6}\sx{.8}{$v\!=\!6$}\ero}%<br>
  +
\put(138,143){\rot{-6}\sx{.8}{$v\!=\!5$}\ero}%<br>
  +
\put(137,132){\rot{-6}\sx{.8}{$v\!=\!4$}\ero}%<br>
  +
\put(136,121){\rot{-6}\sx{.8}{$v\!=\!3$}\ero}%<br>
  +
\put(135,109){\rot{-5}\sx{.8}{$v\!=\!2$}\ero}%<br>
  +
\put( 89, 83){\rot{82}\sx{.8}{$u\!=\!1$}\ero}%<br>
  +
\put(106, 81){\rot{84}\sx{.8}{$u\!=\!2$}\ero}%<br>
  +
\put(134, 97){\rot{-4}\sx{.8}{$v\!=\!1$}\ero}%<br>
  +
\put(134, 84){\rot{0}\sx{.8}{$v\!=\!0$}\ero}%<br>
  +
\put(134, 72){\rot{3}\sx{.72}{$v\!=\!-\!1$}\ero}%<br>
  +
\put(133, 60){\rot{3}\sx{.72}{$v\!=\!-\!2$}\ero}%<br>
  +
\put(134, 48){\rot{3}\sx{.72}{$v\!=\!-\!3$}\ero}%<br>
  +
\put(135, 36){\rot{3}\sx{.72}{$v\!=\!-\!4$}\ero}%<br>
  +
\put(136, 25){\rot{3}\sx{.72}{$v\!=\!-\!5$}\ero}%<br>
  +
\put(137, 14){\rot{3}\sx{.72}{$v\!=\!-\!6$}\ero}%<br>
  +
\end{picture} %<br>
  +
} %<br>
  +
\end{document} %<br>
  +
%</nowiki>
  +
  +
[[Category:Tania function]]
  +
[[Category:Complex maps]]
  +
[[Category:Laser science]]
  +
[[Category:Inverse functions]]

Revision as of 09:39, 21 June 2013

Complex map of the Tania function.

$f=\mathrm{Tania}(x\!+\!\mathrm{i} y)$ in the $x,y$ plane is shown with levels
$u\!=\!\Re(f)\!=\! \mathrm {const} ~$ and
$v\!=\!\Im(f)\!=\! \mathrm {const} ~$.

The thick lines correspond to the integer values.

Generators

Copyleft 2011 by Dmitrii Kouznetsov. The image and the generators may be used foe free, but attribute the source. This helps a lot to trace errors if any.


C++ generator of curves

//Files conto.cin and ado.cin should be loaded into the working directory for the compilation of the generator below.

// Generator of contour plot of the Tania function; drawing of lines in C++

#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#define DB double
#define DO(x,y) for(x=0;x<y;x++)
using namespace std;
#include <complex>
typedef complex<double> z_type;
#define Re(x) x.real()
#define Im(x) x.imag()
#define I z_type(0.,1.)
#include "conto.cin"
z_type ArcTania(z_type z) {return z + log(z) - 1. ;}
z_type ArcTaniap(z_type z) {return 1. + 1./z ;}
z_type TaniaTay(z_type z) { int n; z_type s;
s=1.+z*(.5+z*(1./16.+z*(-1./192.+z*(-1./3072.+z*(1.3/6144.+z*(-4.7/147456.
//+z*(7.3/4128768.) //some reserve term
)))))); DO(n,3) s+=(z-ArcTania(s))/ArcTaniap(s); return s ; }
z_type TaniaNega(z_type z){int n;z_type s=exp(z-exp(z)+1.); 
DO(n,4) s+=(z-ArcTania(s))/ArcTaniap(s); return s ; }
z_type TaniaBig(z_type z){int n;z_type s=z; s=z-log(s)+1.; 
DO(n,3) s+=(z-ArcTania(s))/ArcTaniap(s); return s ; }
z_type TaniaS(z_type z){int n; z_type s,t=z+z_type(2.,-M_PI);t*=2./9.; t=I*sqrt(t);
s=-1.+t*(3.+t*(-3.+t*(.75+t*(.3+t*(.9/16.+t*(-.3/7.+t*(-12.51/224. //+t*(-.9/28.)
)))))));
DO(n,3) s+=(z-ArcTania(s))/ArcTaniap(s); return s ; }
z_type Tania(z_type z){ z_type t;
if( fabs(Im(z))< M_PI && Re(z)<-2.51) return TaniaNega(z);
if( abs(z)>7. || Re(z)>3.8 ) return TaniaBig(z);
if( Im(z) > .7 ) return TaniaS(z);
if( Im(z) < -.7) return conj(TaniaS(conj(z)));
return TaniaTay(z);
}
main(){ int j,k,m,n; DB x,y, p,q, t; z_type z,c,d;
 int M=160,M1=M+1;
 int N=161,N1=N+1;
DB X[M1],Y[N1], g[M1*N1],f[M1*N1], w[M1*N1]; // w is working array.
char v[M1*N1]; // v is working array
FILE *o;o=fopen("taniacontour.eps","w");ado(o,162,162);
fprintf(o,"81 81 translate\n 10 10 scale\n");
DO(m,M1) X[m]=-8.+.1*(m);
DO(n,80)Y[n]=-8.+.1*n;
        Y[80]=-.033;
        Y[81]= .033;
for(n=82;n<N1;n++) Y[n]=-8.+.1*(n-1.);
for(m=-8;m<9;m++){if(m==0){M(m,-8.5)L(m,8.5)} else{M(m,-8)L(m,8)}}
for(n=-8;n<9;n++){     M(  -8,n)L(8,n)}
fprintf(o,".008 W 0 0 0 RGB S\n");
DO(m,M1)DO(n,N1){g[m*N1+n]=9999; f[m*N1+n]=9999;}
DO(m,M1){x=X[m]; //printf("%5.2f\n",x);
DO(n,N1){y=Y[n]; z=z_type(x,y);        
 c=Tania(z); p=Re(c);q=Im(c);  
 if(p>-99. && p<99. &&  q>-99. && q<99. ){ g[m*N1+n]=p;f[m*N1+n]=q;}
        }}
fprintf(o,"1 setlinejoin 2 setlinecap\n");  p=.6;q=.5;
for(m=-10;m<10;m++)for(n=2;n<10;n+=2)conto(o,f,w,v,X,Y,M,N,(m+.1*n),-q, q); fprintf(o,".01 W 0 .6 0 RGB S\n");
for(m=0;m<10;m++) for(n=2;n<10;n+=2)conto(o,g,w,v,X,Y,M,N,-(m+.1*n),-q, q); fprintf(o,".01 W .9 0 0 RGB S\n");
for(m=0;m<10;m++) for(n=2;n<10;n+=2)conto(o,g,w,v,X,Y,M,N, (m+.1*n),-q, q); fprintf(o,".01 W 0 0 .9 RGB S\n");
for(m=1;m<10;m++)  conto(o,f,w,v,X,Y,M,N, (0.-m),-p,p); fprintf(o,".05 W .9 0 0 RGB S\n");
for(m=1;m<10;m++)  conto(o,f,w,v,X,Y,M,N, (0.+m),-p,p); fprintf(o,".05 W 0 0 .9 RGB S\n");
                   conto(o,f,w,v,X,Y,M,N, (0.  ),-p,p); fprintf(o,".05 W .6 0 .6 RGB S\n");
for(m=-9;m<10;m++) conto(o,g,w,v,X,Y,M,N, (0.+m),-p,p); fprintf(o,".05 W 0 0 0 RGB S\n");
y= M_PI; for(m=0;m<60;m+=4) {x=-7.95+.1*m; M(x,y) L(x+.05,y)}
y=-M_PI; for(m=0;m<60;m+=4) {x=-7.95+.1*m; M(x,y) L(x+.05,y)}
fprintf(o,".07 W 1 .5 0 RGB S\n");
y= M_PI; for(m=2;m<60;m+=4) {x=-7.95+.1*m; M(x,y) L(x+.05,y)}
y=-M_PI; for(m=2;m<60;m+=4) {x=-7.95+.1*m; M(x,y) L(x+.05,y)}
fprintf(o,".07 W 0 .5 1 RGB S\n");
fprintf(o,"showpage\n%c%cTrailer",'%','%'); fclose(o);
       system("epstopdf taniacontour.eps");    
       system(    "open taniacontour.pdf");
       getchar(); system("killall Preview");
}

Latex generator of labels

% % Gerenator of TaniaPlot.png %<br> % Save the paragraph below as TaniaComplexPlot.tex %<br> % After the latexing is and generation TaniaContourPlot.pdf %<br> % convert TaniaPlot.pdf TaniaContourPlot100.png %<br> % with 100 pixels/inch; the result is supposed to be identical to the pic shown. %<br> % Copyleft 2011 by Dmitrii Kouznetsov %<br> \documentclass[12pt]{article} %<br> \usepackage{geometry} %<br> \usepackage{graphicx} %<br> \usepackage{rotating} %<br> \paperwidth 854pt %<br> \paperheight 844pt %<br> \topmargin -96pt %<br> \oddsidemargin -98pt %<br> \textwidth 1100pt %<br> \textheight 1100pt %<br> \pagestyle {empty} %<br> \newcommand \sx {\scalebox} %<br> \newcommand \rot {\begin{rotate}} %<br> \newcommand \ero {\end{rotate}} %<br> \newcommand \ing {\includegraphics} %<br> \begin{document} %<br> \sx{5}{ \begin{picture}(164,165) %<br> \put(6,5){\ing{taniacontour}} %<br> \put(2,162){\sx{.7}{$y$}} %<br> \put(2,144){\sx{.6}{$6$}} %<br> \put(2,124){\sx{.6}{$4$}} %<br> \put(2,104){\sx{.6}{$2$}} %<br> \put(3,116){\sx{.6}{$\pi$ ~ \bf cut}} %<br> \put(23,100){\sx{.8}{$u\!=\!0$}} %<br> \put(2, 84){\sx{.6}{$0$}} %<br> \put(20, 84){\sx{.8}{$v\!=\!0$}} %<br> \put(23,68){\sx{.8}{$u\!=\!0$}} %<br> \put(-3,64){\sx{.6}{$-2$}} %<br> \put(-3,53){\sx{.6}{$-\pi$ ~ \bf cut}} %<br> \put(-3,44){\sx{.6}{$-4$}} %<br> \put(-3,24){\sx{.6}{$-6$}} %<br> \put( 22,0){\sx{.6}{$-6$}} %<br> \put( 42,0){\sx{.6}{$-4$}} %<br> \put( 62,0){\sx{.6}{$-2$}} %<br> \put( 86,0){\sx{.6}{$0$}} %<br> \put(106,0){\sx{.6}{$2$}} %<br> \put(126,0){\sx{.6}{$4$}} %<br> \put(146,0){\sx{.6}{$6$}} %<br> \put(164,0){\sx{.7}{$x$}} %<br> \put(139,154){\rot{-6}\sx{.8}{$v\!=\!6$}\ero}%<br> \put(138,143){\rot{-6}\sx{.8}{$v\!=\!5$}\ero}%<br> \put(137,132){\rot{-6}\sx{.8}{$v\!=\!4$}\ero}%<br> \put(136,121){\rot{-6}\sx{.8}{$v\!=\!3$}\ero}%<br> \put(135,109){\rot{-5}\sx{.8}{$v\!=\!2$}\ero}%<br> \put( 89, 83){\rot{82}\sx{.8}{$u\!=\!1$}\ero}%<br> \put(106, 81){\rot{84}\sx{.8}{$u\!=\!2$}\ero}%<br> \put(134, 97){\rot{-4}\sx{.8}{$v\!=\!1$}\ero}%<br> \put(134, 84){\rot{0}\sx{.8}{$v\!=\!0$}\ero}%<br> \put(134, 72){\rot{3}\sx{.72}{$v\!=\!-\!1$}\ero}%<br> \put(133, 60){\rot{3}\sx{.72}{$v\!=\!-\!2$}\ero}%<br> \put(134, 48){\rot{3}\sx{.72}{$v\!=\!-\!3$}\ero}%<br> \put(135, 36){\rot{3}\sx{.72}{$v\!=\!-\!4$}\ero}%<br> \put(136, 25){\rot{3}\sx{.72}{$v\!=\!-\!5$}\ero}%<br> \put(137, 14){\rot{3}\sx{.72}{$v\!=\!-\!6$}\ero}%<br> \end{picture} %<br> } %<br> \end{document} %<br> %

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