File:Cubic set z^3+A*z+c with two cycles of length 3 and 105.png
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Summary
| Description |
English: Cubic Julia set z^3+A*z+c with two cycles of length 3 ( gray) and 105 ( black). c=(-5947392-3850240*i) * 2^-25 A=(-17343094-31007487*i) * 2^-25. Location by Marc Meidlinger: "Almost failed" [1] |
| Date | |
| Source | Own work |
| Author | Adam majewski |
Licensing
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Algorithm
Here are 3 Fatou components. Each component has its own test ( and radius : ER, AR3, AR105)
unsigned char ComputeColor_Fatou (complex double z, int IterMax)
{
int i; // number of iteration
for (i = 0; i < IterMax; ++i)
{
z = f(z);
if (IsEscaping(z)) // escaping = exterior
{
uExterior += 1;
return iColorOfExterior;
}
if (IsAttracting3(z)) //
{
uInterior3 += 1;
return iColorOfInterior3;
}
if (IsAttracting105(z)) //
{
uInterior105 += 1;
return iColorOfInterior105;
}
}
//
uUnknown += 1;
return iColorOfUnknown;
}
cycles
coefficients read from input file almost_failed.txt
degree 3 coefficient = ( 1.000000 +0.000000*i)
degree 1 coefficient = ( -17343094 -31007487*i) / 2^25
degree 0 coefficient = ( -5947392 -3850240*i) / 2^25
Input polynomial p(z)=(1+0i)*z^3+(-0.51686447858810424805-0.9240951240062713623i)*z^1+(-0.17724609375-0.11474609375i)
2 critical points found
cp#0: -0.51245892538596249377,-0.30054282669590931532 . It's critical orbit is bounded and enters cycle #0 length=105 and it's stability = |multiplier|=0.28704 =attractive
cycle = {
-0.24732793789495804981,0.29215263953094150473 ; 0.26876710406969839262,-0.0085171236418623563758 ; -0.3046767904944813754,-0.36055537020136457782 ; -0.26241535545808958307,0.29962592335603582816 ; 0.28787510018461370809,0.0078838929604866936351 ; -0.29494991315089091888,-0.38288540074102683786 ; -0.27455873309559225559,0.31191915190416169557 ; 0.31234799441805982667,0.017944373517944256502 ; -0.2919340307234095655,-0.40741391215611333365 ; -0.28235422026374618065,0.3290654079280695421 ; 0.34199350012506646301,0.019164449919817083678 ; -0.29667802201690768316,-0.43396868516467318466 ; -0.28342600463717920745,0.35085345796581834943 ; 0.37536866371159016698,0.0071858850187334066817 ; -0.31178847180608326717,-0.46229943654508381945 ; -0.27370494394472238975,0.37630203167158604582 ; 0.40772920474884866149,-0.025028103409567903359 ; -0.34409922814958437964,-0.49105709722591744937 ; -0.2449944738941836897,0.40102658228395615669 ; 0.42346616544766646495,-0.087906711439687451604 ; -0.41123452015233963319,-0.50724519093837194816 ; -0.18555276198412737343,0.40061722316252434961 ; 0.37181981448693979253,-0.17325968219142176552 ; -0.51161578092029436071,-0.43544956783496435726 ; -0.15809057050791477939,0.3237346187548343357 ; 0.24938141179809353298,-0.14563807260629968443 ; -0.4410850929751095606,-0.29400621596562687143 ; -0.19238863541649192657,0.29863158302528308718 ; 0.24250792287362227251,-0.084784862368257829512 ; -0.37190697423471780203,-0.309373342281155983 ; -0.21556349411693073725,0.29007338496181866994 ; 0.24662389567201831175,-0.049444009034894792487 ; -0.3372164738703821163,-0.32599535518510897036 ; -0.23503715928209542585,0.28880228310276029324 ; 0.25694407721793599553,-0.023046653588218862785 ; -0.31479457215798800629,-0.3448272629740875006 ; -0.25209517751790111451,0.29287235772481545748 ; 0.27254351923198216756,-0.0024445319540177257167 ; -0.30013349931606225773,-0.36588346388981141111 ; -0.26672768173431404826,0.30182257792420147391 ; 0.29344693016079059777,0.012657480463004577853 ; -0.29209367512707334891,-0.3891933522549606006 ; -0.27811441375559786682,0.31567172351627070803 ; 0.31984174502015799701,0.020891698446799555899 ; -0.29095440306864639446,-0.41470600265690205077 ; -0.28460453460461010433,0.33447169082783989591 ; 0.35140389365293778212,0.019237607102409959303 ; -0.29809405043374392896,-0.44230042353392406973 ; -0.28344007123985115459,0.35794909570135724497 ; 0.38621138880840610863,0.0025762164015241673098 ; -0.31688506654918935368,-0.47182092741151032689 ; -0.2696571589714125694,0.38485242207865261177 ; 0.41798013130114330949,-0.037521187970981417781 ; -0.35669945222245802441,-0.5012189884266159412 ; -0.23260870002965125525,0.40853985295680106393 ; 0.42439558633283758216,-0.11282617213027651415 ; -0.44063198174895995551,-0.50813980847646678107 ; -0.16329862573530923298,0.39030796337721151978 ; 0.33811514589344227044,-0.19381421358626163554 ; -0.53055744312808894581,-0.38621214111975221694 ; -0.17185025068141757121,0.30662016434653083241 ; 0.23831820717466317694,-0.11608257686068315651 ; -0.40379436623070885659,-0.29319052218167213075 ; -0.20118237053461970887,0.29172688754129455502 ; 0.23954321827980773474,-0.069022639922116713063 ; -0.35451938248878084314,-0.31198438514458648463 ; -0.22334763687303690882,0.2868496242954856057 ; 0.24726213893104953545,-0.037289013031137935306 ; -0.32541988506948532622,-0.33075400541779792496 ; -0.24235656540970954009,0.28803306487651270107 ; 0.26027404781921337218,-0.012801394511054969838 ; -0.30609853229264927243,-0.35124698678255716899 ; -0.25900635641491209782,0.29426841916134605093 ; 0.2784669582250638431,0.0062440397203482600474 ; -0.29384485773949253762,-0.37385105724090489376 ; -0.2730067007934079415,0.30543570183403107032 ; 0.30217227794736428725,0.019469614970230836315 ; -0.28818929179203861546,-0.39871935525962554081 ; -0.2832343880221637189,0.32169475666996583119 ; 0.33163637741350115995,0.024846157766341692152 ; -0.28983687276644753972,-0.42586914619178423136 ; -0.2876327929002780448,0.34311899843429255474 ; 0.36628864210255529521,0.018473728533294292431 ; -0.30072723525105027331,-0.45535064597357716165 ; -0.28273285588115038003,0.36938191097603756408 ; 0.40336219146392526813,-0.0062111966138009844229 ; -0.32588864780611004335,-0.48731224634183589739 ; -0.26156969938358271,0.39874134969146712848 ; 0.4332932280993916363,-0.060679693179994331764 ; -0.38071219062333577776,-0.51774021779493506479 ; -0.20793645379329273037,0.41832597847804342539 ; 0.41697573567503387615,-0.15775430867425729864 ; -0.4971780737983561016,-0.49689343919691547624 ; -0.13408028198229832162,0.35572947363411777655 ; 0.26927362987571457076,-0.20053692237335982163 ; -0.51470125367609298461,-0.29548729312417754134 ; -0.18580704247024834586,0.30457435706928459584 ; 0.24554126587236080326,-0.097174772283400157047 ; -0.38610846805622028866,-0.30808192777216636404 ; -0.20999645581128842386,0.29274656858186481889 ; 0.24654919780813883134,-0.058359174620379622445 ; -0.34614026729578128982,-0.32286081274663902541 ; -0.22992066652498396873,0.28960159742890478896 ; 0.25490644957189917408,-0.030322853277308270403 ; -0.32115939206444649168,-0.34051410523394409768 ; }
cp#1: 0.51245892538596249377,0.3005428266959092598 . It's critical orbit is bounded and enters cycle #1 length=3 and it's stability = |multiplier|=0.85666 =attractive
cycle = {
-0.15708836166441453308,-0.53313337552781914219 ; -0.45864684434588676165,0.41804133400602072612 ; 0.59009996754766946836,0.283773874530894199 ; }
c src code
/*
Adam Majewski
adammaj1 aaattt o2 dot pl // o like oxygen not 0 like zero
"Almost failed"
Cubic set z^3+A*z+c with two cycles of length 3 and 105 at L20 in about 20h computed.
c=(-5947392-3850240*i) * 2^-25
A=(-17343094-31007487*i) * 2^-25
-----------
gcc l.c -lm -Wall -march=native -fopenmp
a@zalman:~/Dokumenty/almost$ ./a.out
setup start
end of setup
compute Fatou image
File 15000_100000.pgm saved . Comment = name = iWidth+IterMax f(z) = z^6+A*z+c where A= 15000.0000000000000000 ; -0.9240951240062714 c =-0.1772460937500000 ; -0.1147460937500000
allways free memory (deallocate ) to avoid memory leaks
Numerical approximation of Julia set for fc(z)= z^3+A*z+c
parameter c = ( -0.1772460937500000 ; -0.1147460937500000 )
parameter A = ( -0.5168644785881042 ; -0.9240951240062714 )
Image Width = 3.000000 in world coordinate
PixelWidth = 0.0002000133342223
Maximal number of iterations = iterMax = 100000
ratio of image = 1.000000 ; it should be 1.000 ...
gcc version: 9.3.0
__STDC__ = 1
__STDC_VERSION__ = 201710
c dialect = C18
a@zalman:~/Dokumenty/almost$ convert 15000_100000.pgm -resize 2000x2000 15.png
==============================================
Structure of a program or how to analyze the program
============== Image X ========================
DrawImageOfX -> DrawPointOfX -> ComputeColorOfX
first 2 functions are identical for every X
check only last function = ComputeColorOfX
which computes color of one pixel !
==========================================
---------------------------------
indent d.c
default is gnu style
-------------------
c console progam
export OMP_DISPLAY_ENV="TRUE"
gcc d.c -lm -Wall -march=native -fopenmp
time ./a.out > b.txt
gcc l.c -lm -Wall -march=native -fopenmp
time ./a.out
time ./a.out >i.txt
time ./a.out >e.txt
convert -limit memory 1000mb -limit disk 1gb dd30010000_20_3_0.90.pgm -resize 2000x2000 10.png
=======================
# gnuplot "i.plt"
set terminal svg enhanced background rgb 'white'
set xlabel "re(z)"
set ylabel "DLD"
set title "Relation between z and DLD in the interior of Julia set for c = -1"
set output "interior.svg"
plot "i.txt" with lines
----------------------
d0 - db = 5.0000000000000000 - 4.5389870050569598 = 0.4610129949430402
allways free memory (deallocate ) to avoid memory leaks
Numerical approximation of Julia set for fc(z)= z^2 + c
parameter c = ( -1.0000000000000000 ; 0.0000000000000000 )
Image Width = 4.000000 in world coordinate
PixelWidth = 0.004004
Maximal number of iterations = iterMax = 1000
ratio of image = 1.000000 ; it should be 1.000 ...
gcc version: 7.5.0
*/
#include <stdio.h>
#include <stdlib.h> // malloc
#include <string.h> // strcat
#include <math.h> // M_PI; needs -lm also
#include <complex.h>
#include <omp.h> // OpenMP
#include <limits.h> // Maximum value for an unsigned long long int
// https://sourceforge.net/p/predef/wiki/Standards/
#if defined(__STDC__)
#define PREDEF_STANDARD_C_1989
#if defined(__STDC_VERSION__)
#if (__STDC_VERSION__ >= 199409L)
#define PREDEF_STANDARD_C_1994
#endif
#if (__STDC_VERSION__ >= 199901L)
#define PREDEF_STANDARD_C_1999
#endif
#endif
#endif
/* --------------------------------- global variables and consts ------------------------------------------------------------ */
// virtual 2D array and integer ( screen) coordinate
// Indexes of array starts from 0 not 1
//unsigned int ix, iy; // var
static unsigned int ixMin = 0; // Indexes of array starts from 0 not 1
static unsigned int ixMax; //
static unsigned int iWidth; // horizontal dimension of array
static unsigned int iyMin = 0; // Indexes of array starts from 0 not 1
static unsigned int iyMax; //
static unsigned int iHeight = 15000; //
// The size of array has to be a positive constant integer
static unsigned long long int iSize; // = iWidth*iHeight;
// memmory 1D array
unsigned char *data;
//unsigned char *edge;
//unsigned char *edge2;
// unsigned int i; // var = index of 1D array
//static unsigned int iMin = 0; // Indexes of array starts from 0 not 1
static unsigned int iMax; // = i2Dsize-1 =
// The size of array has to be a positive constant integer
// unsigned int i1Dsize ; // = i2Dsize = (iMax -iMin + 1) = ; 1D array with the same size as 2D array
// zoom to part of period
static const double ZxMin = -1.5; //0.6; //-0.05;
static const double ZxMax = 1.5; //0.75;
static const double ZyMin = -1.5; //-0.1;
static const double ZyMax = 1.5; //0.7;
static double PixelWidth; // =(ZxMax-ZxMin)/ixMax;
static double PixelHeight; // =(ZyMax-ZyMin)/iyMax;
static double ratio;
// complex numbers of parametr plane
//https://fractalforums.org/fractal-mathematics-and-new-theories/28/julia-sets-true-shape-and-escape-time/2725/msg22791#msg22791
/*
c=(-5947392-3850240*i) * 2^-25
A=(-17343094-31007487*i) * 2^-25
*/
double complex c = - 0.11474609375*I -0.17724609375;
// parameter of function fc(z)=z^6 +A*x+ c = (15728640-19136512*i) * (2^-25)
double complex A= - 0.9240951240062714 *I - 0.5168644785881043;
complex double f(complex double z) {
return z*z*z +A*z+ c; // complex iteration z^6+A*z+c
}
/*
ER = pow(10,ERe);
AR = pow(10,-ARe);
*/
int ARe_3 = 2;
double AR_3 ; //= 1e-15; // increase ARe until black ( unknown) points disapear
double AR2_3;
int ARe_105 = 2;
double AR_105 ; //= 1e-15; // increase ARe until black ( unknown) points disapear
double AR2_105;
double ER; //= 1e60;
double ER2; //ER2 = ER*ER
double AR2; //AR2 = AR*AR
complex double z3 = 0.5900999663884065+0.2837738661170331*I;
complex double z105 = -0.5147160557032144-0.2946889400739363*I; //
//-0.3861355806430767 -0.3080847982463079*I;
/*
[-0.1570883645161246,-0.5331333747802431],
[-0.4586468403362385,0.4180413342397985],
[0.5900999663884065,0.2837738661170331]]
period 105
*/
int IterMax = 100000;
/* colors = shades of gray from 0 to 255 */
unsigned char iColorOfExterior = 250;
unsigned char iColorOfInterior3 = 100;
unsigned char iColorOfInterior105 = 30;
unsigned char iColorOfBoundary = 0;
unsigned char iColorOfUnknown = 20;
// pixel counters
unsigned long long int uUnknown = 0;
unsigned long long int uInterior3 = 0;
unsigned long long int uInterior105 = 0;
unsigned long long int uExterior = 0;
/* ------------------------------------------ functions -------------------------------------------------------------*/
//------------------complex numbers -----------------------------------------------------
// from screen to world coordinate ; linear mapping
// uses global cons
double
GiveZx (int ix)
{
return (ZxMin + ix * PixelWidth);
}
// uses globaal cons
double
GiveZy (int iy)
{
return (ZyMax - iy * PixelHeight);
} // reverse y axis
complex double
GiveZ (int ix, int iy)
{
double Zx = GiveZx (ix);
double Zy = GiveZy (iy);
return Zx + Zy * I;
}
double cabs2(complex double z){
return creal(z)*creal(z)+cimag(z)*cimag(z);
}
// ****************** DYNAMICS = trap tests ( target sets) ****************************
/* ----------- array functions = drawing -------------- */
/* gives position of 2D point (ix,iy) in 1D array ; uses also global variable iWidth */
unsigned int
Give_i (unsigned int ix, unsigned int iy)
{
return ix + iy * iWidth;
}
unsigned int Give_i_from_z(complex double z){
unsigned int ix = (creal(z)-ZxMin)/PixelWidth;
unsigned int iy = (ZyMax - cimag(z))/PixelHeight;
return Give_i(ix,iy);
}
// ***********************************************************************************************
// ********************** edge detection usung Sobel filter ***************************************
// ***************************************************************************************************
// from Source to Destination
int
ComputeBoundaries (unsigned char S[], unsigned char D[])
{
unsigned int iX, iY; /* indices of 2D virtual array (image) = integer coordinate */
unsigned int i; /* index of 1D array */
/* sobel filter */
unsigned char G, Gh, Gv;
// boundaries are in D array ( global var )
// clear D array
memset (D, iColorOfExterior, iSize * sizeof (*D)); // for heap-allocated arrays, where N is the number of elements = FillArrayWithColor(D , iColorOfExterior);
// printf(" find boundaries in S array using Sobel filter\n");
#pragma omp parallel for schedule(dynamic) private(i,iY,iX,Gv,Gh,G) shared(iyMax,ixMax)
for (iY = 1; iY < iyMax - 1; ++iY)
{
for (iX = 1; iX < ixMax - 1; ++iX)
{
Gv =
S[Give_i (iX - 1, iY + 1)] + 2 * S[Give_i (iX, iY + 1)] +
S[Give_i (iX - 1, iY + 1)] - S[Give_i (iX - 1, iY - 1)] -
2 * S[Give_i (iX - 1, iY)] - S[Give_i (iX + 1, iY - 1)];
Gh =
S[Give_i (iX + 1, iY + 1)] + 2 * S[Give_i (iX + 1, iY)] +
S[Give_i (iX - 1, iY - 1)] - S[Give_i (iX + 1, iY - 1)] -
2 * S[Give_i (iX - 1, iY)] - S[Give_i (iX - 1, iY - 1)];
G = sqrt (Gh * Gh + Gv * Gv);
i = Give_i (iX, iY); /* compute index of 1D array from indices of 2D array */
if (G == 0)
{
D[i] = 255;
} /* background */
else
{
D[i] = 0;
} /* boundary */
}
}
return 0;
}
// copy from Source to Destination
int
CopyBoundaries (unsigned char S[], unsigned char D[])
{
unsigned int iX, iY; /* indices of 2D virtual array (image) = integer coordinate */
unsigned int i; /* index of 1D array */
//printf("copy boundaries from S array to D array \n");
for (iY = 1; iY < iyMax - 1; ++iY)
for (iX = 1; iX < ixMax - 1; ++iX)
{
i = Give_i (iX, iY);
if (S[i] == 0)
D[i] = 0;
}
return 0;
}
int IsEscaping(complex double z){
if (cabs2 (z) > ER2) return 1;
return 0;
}
int IsAttracting3(complex double z){
if (cabs2 (z - z3) < AR2_3) return 1;
return 0;
}
int IsAttracting105(complex double z){
if (cabs2 (z - z105) < AR2_105) return 1;
return 0;
}
// find basin and it's color using simple test ( bailout ) for escaping to infinity
unsigned char
ComputeColor_Fatou (complex double z, int IterMax)
{
int i; // number of iteration
for (i = 0; i < IterMax; ++i)
{
z = f(z);
if (IsEscaping(z)) // escaping = exterior
{
uExterior += 1;
return iColorOfExterior;
}
if (IsAttracting3(z)) //
{
uInterior3 += 1;
return iColorOfInterior3;
}
if (IsAttracting105(z)) //
{
uInterior105 += 1;
return iColorOfInterior105;
}
}
//
uUnknown += 1;
return iColorOfUnknown;
}
// plots raster point (ix,iy)
int
DrawFatouPoint (unsigned char A[], int ix, int iy, int IterMax)
{
int i; /* index of 1D array */
unsigned char iColor = 0;
complex double z;
i = Give_i (ix, iy); /* compute index of 1D array from indices of 2D array */
z = GiveZ (ix, iy);
iColor = ComputeColor_Fatou (z, IterMax);
A[i] = iColor; // interior
return 0;
}
// fill array
// uses global var : ...
// scanning complex plane
int
DrawFatouImage (unsigned char A[], int IterMax)
{
unsigned int ix, iy; // pixel coordinate
fprintf (stderr, "compute Fatou image \n");
// for all pixels of image
#pragma omp parallel for schedule(dynamic) private(ix,iy) shared(A, ixMax , iyMax, uUnknown, uInterior3, uInterior105, uExterior)
for (iy = iyMin; iy <= iyMax; ++iy)
{
fprintf (stderr," %d from %d \r", iy, iyMax); //info
for (ix = ixMin; ix <= ixMax; ++ix)
DrawFatouPoint (A, ix, iy, IterMax); //
}
return 0;
}
//=========
// plots raster point (ix,iy)
int MarkTrapPoint (unsigned char A[], int ix, int iy)
{
int i; /* index of 1D array */
complex double z;
i = Give_i (ix, iy); /* compute index of 1D array from indices of 2D array */
z = GiveZ (ix, iy);
if (IsAttracting3(z)) A[i] = 255 - A[i]; // inversion
if (IsAttracting105(z)) A[i] = 255 - A[i]; // inversion
return 0;
}
// fill array
// uses global var : ...
// scanning complex plane
int MarkTraps (unsigned char A[])
{
unsigned int ix, iy; // pixel coordinate
fprintf (stderr, "Mark traps\n");
// for all pixels of image
#pragma omp parallel for schedule(dynamic) private(ix,iy) shared(A, ixMax , iyMax, uUnknown, uInterior3, uInterior105, uExterior)
for (iy = iyMin; iy <= iyMax; ++iy)
{
fprintf (stderr," %d from %d \r", iy, iyMax); //info
for (ix = ixMin; ix <= ixMax; ++ix)
MarkTrapPoint (A, ix, iy); //
}
return 0;
}
//======================================================================================
int IsInside (int x, int y, int xcenter, int ycenter, int r){
double dx = x- xcenter;
double dy = y - ycenter;
double d = sqrt(dx*dx+dy*dy);
if (d<r)
return 1;
return 0;
}
int PlotPoint(complex double z, unsigned char A[]){
unsigned int ix_seed = (creal(z)-ZxMin)/PixelWidth;
unsigned int iy_seed = (ZyMax - cimag(z))/PixelHeight;
unsigned int i;
/* mark seed point by big pixel */
int iSide =3.0*iWidth/2000.0 ; /* half of width or height of big pixel */
int iY;
int iX;
for(iY=iy_seed-iSide;iY<=iy_seed+iSide;++iY){
for(iX=ix_seed-iSide;iX<=ix_seed+iSide;++iX){
if (IsInside(iX, iY, ix_seed, iy_seed, iSide)) {
i= Give_i(iX,iY); /* index of _data array */
A[i]= 255;}}}
return 0;
}
// fill array
// uses global var : ...
// scanning complex plane
int MarkAttractors (unsigned char A[])
{
int iter;
complex double z;
fprintf (stderr, "mark attractors \n");
// period 3 cycle
z = z3;
PlotPoint(z, A);
for (iter = 0; iter < 3; ++iter)
{ z = f(z);
PlotPoint(z, A);
}
// period 105
z = z105;
PlotPoint(z, A);
for (iter = 0; iter < 105; ++iter)
{ z = f(z);
PlotPoint(z, A);
}
return 0;
}
//======================================================================================
// *******************************************************************************************
// ********************************** save A array to pgm file ****************************
// *********************************************************************************************
int
SaveArray2PGMFile (unsigned char B[], int ia, int ib, int ic, int id, int ie, char *comment)
{
FILE *fp;
const unsigned int MaxColorComponentValue = 255; /* color component is coded from 0 to 255 ; it is 8 bit color file */
char name[100]; /* name of file */
snprintf (name, sizeof name, "%d_%d_%d_%d_%d", ia, ib, ic ,id,ie); /* */
char *filename = strcat (name, ".pgm");
char long_comment[200];
sprintf (long_comment, "%s\t f(z) = z^6+A*z+c where A= %.16f ; %.16f \t c =%.16f ; %.16f", comment, creal(A),cimag(A), creal(c), cimag(c));
// save image array to the pgm file
fp = fopen (filename, "wb"); // create new file,give it a name and open it in binary mode
fprintf (fp, "P5\n # %s\n %u %u\n %u\n", long_comment, iWidth, iHeight, MaxColorComponentValue); // write header to the file
fwrite (B, iSize, 1, fp); // write array with image data bytes to the file in one step
fclose (fp);
// info
printf ("File %s saved ", filename);
if (long_comment == NULL || strlen (long_comment) == 0)
printf ("\n");
else
printf (". Comment = %s \n", long_comment);
return 0;
}
int
PrintCInfo ()
{
printf ("gcc version: %d.%d.%d\n", __GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__); // https://stackoverflow.com/questions/20389193/how-do-i-check-my-gcc-c-compiler-version-for-my-eclipse
// OpenMP version is displayed in the console : export OMP_DISPLAY_ENV="TRUE"
printf ("__STDC__ = %d\n", __STDC__);
printf ("__STDC_VERSION__ = %ld\n", __STDC_VERSION__);
printf ("c dialect = ");
switch (__STDC_VERSION__)
{ // the format YYYYMM
case 199409L:
printf ("C94\n");
break;
case 199901L:
printf ("C99\n");
break;
case 201112L:
printf ("C11\n");
break;
case 201710L:
printf ("C18\n");
break;
//default : /* Optional */
}
return 0;
}
int
PrintProgramInfo ()
{
// display info messages
printf ("Numerical approximation of Julia set for fc(z)= z^3+A*z+c \n");
//printf ("iPeriodParent = %d \n", iPeriodParent);
//printf ("iPeriodOfChild = %d \n", iPeriodChild);
printf ("parameter c = ( %.16f ; %.16f ) \n", creal (c), cimag (c));
printf ("parameter A = ( %.16f ; %.16f ) \n", creal (A), cimag (A));
printf ("Image Width = %f in world coordinate\n", ZxMax - ZxMin);
printf ("PixelWidth = %.16f \n", PixelWidth);
printf ("AR_3 = %.16f \n", AR_3);
printf ("ER = %.16f \n", ER);
//printf("pixel counters\n");
//printf ("uUnknown = %llu\n", uUnknown);
//printf ("uExterior = %llu\n", uExterior);
//printf ("uInterior = %llu\n", uInterior);
//printf ("Sum of pixels = %llu\n", uInterior+uExterior + uUnknown);
//printf ("all pixels of the array = iSize = %llu\n", iSize);
// image corners in world coordinate
// center and radius
// center and zoom
// GradientRepetition
printf ("Maximal number of iterations = iterMax = %d \n", IterMax);
printf ("ratio of image = %f ; it should be 1.000 ...\n", ratio);
printf ("pixel counters\n");
printf ("uUnknown = %llu\n", uUnknown);
printf ("uExterior = %llu\n", uExterior);
printf ("uInterior3 = %llu\n", uInterior3);
printf ("uInterior105 = %llu\n", uInterior105);
printf ("Sum of pixels = %llu\n", uInterior3 + uInterior105 + uExterior + uUnknown);
printf ("all pixels of the array = iSize = %llu\n", iSize);
printf ("Maximum value for an unsigned long long int = ULLONG_MAX = %llu\n",
ULLONG_MAX);
//
return 0;
}
// *****************************************************************************
//;;;;;;;;;;;;;;;;;;;;;; setup ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
// **************************************************************************************
int
setup ()
{
fprintf (stdout, "setup start\n");
/* 2D array ranges */
iWidth = iHeight;
iSize = iWidth * iHeight; // size = number of points in array
// iy
iyMax = iHeight - 1; // Indexes of array starts from 0 not 1 so the highest elements of an array is = array_name[size-1].
//ix
ixMax = iWidth - 1;
/* 1D array ranges */
// i1Dsize = i2Dsize; // 1D array with the same size as 2D array
iMax = iSize - 1; // Indexes of array starts from 0 not 1 so the highest elements of an array is = array_name[size-1].
/* Pixel sizes */
PixelWidth = (ZxMax - ZxMin) / ixMax; // ixMax = (iWidth-1) step between pixels in world coordinate
PixelHeight = (ZyMax - ZyMin) / iyMax;
ratio = ((ZxMax - ZxMin) / (ZyMax - ZyMin)) / ((double) iWidth / (double) iHeight); // it should be 1.000 ...
// minimal radius of circla containing all the Julia set
ER = 2.0;
ER2 = ER*ER;
// radius of maximal circle which is inside component
AR_3 = 7.0*pow (10, -ARe_3);
AR2_3 = AR_3*AR_3;
AR_105 = 2.5*pow (10, -ARe_105); // adjust the radius :
AR2_105 = AR_105*AR_105;
/* create dynamic 1D arrays for colors ( shades of gray ) */
data = malloc (iSize * sizeof (unsigned char));
if (data == NULL)
{
fprintf (stderr, " Could not allocate memory");
return 1;
}
fprintf (stdout, " end of setup \n");
return 0;
} // ;;;;;;;;;;;;;;;;;;;;;;;;; end of the setup ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
int
end ()
{
fprintf (stdout, " allways free memory (deallocate ) to avoid memory leaks \n"); // https://en.wikipedia.org/wiki/C_dynamic_memory_allocation
free (data);
PrintProgramInfo ();
PrintCInfo ();
return 0;
}
// ********************************************************************************************************************
/* ----------------------------------------- main -------------------------------------------------------------*/
// ********************************************************************************************************************
int
main ()
{
setup ();
DrawFatouImage (data, IterMax); // first find Fatou
SaveArray2PGMFile (data, iWidth, IterMax, ARe_3, ARe_105, 1,"name = iWidth_IterMax_ARe_ ARe_3_ARe_105_1");
MarkTraps(data );
SaveArray2PGMFile (data, iWidth, IterMax, ARe_3, ARe_105,2,"name = iWidth_IterMax+1_ARe ARe_3_ARe_105_1");
MarkAttractors(data);
SaveArray2PGMFile (data, iWidth, IterMax, ARe_3, ARe_105,3,"name = iWidth_IterMax+1_ARe ARe_3_ARe_105_1");
end ();
return 0;
}
text output
OPENMP DISPLAY ENVIRONMENT BEGIN _OPENMP = '201511' OMP_DYNAMIC = 'FALSE' OMP_NESTED = 'FALSE' OMP_NUM_THREADS = '8' OMP_SCHEDULE = 'DYNAMIC' OMP_PROC_BIND = 'FALSE' OMP_PLACES = '' OMP_STACKSIZE = '0' OMP_WAIT_POLICY = 'PASSIVE' OMP_THREAD_LIMIT = '4294967295' OMP_MAX_ACTIVE_LEVELS = '2147483647' OMP_CANCELLATION = 'FALSE' OMP_DEFAULT_DEVICE = '0' OMP_MAX_TASK_PRIORITY = '0' OMP_DISPLAY_AFFINITY = 'FALSE' OMP_AFFINITY_FORMAT = 'level %L thread %i affinity %A' OPENMP DISPLAY ENVIRONMENT END File 15000_100000_2_2_2.pgm saved . Comment = name = iWidth_IterMax+1_ARe ARe_3_ARe_105_1 f(z) = z^6+A*z+c where A= 15000.0000000000000000 ; -0.9240951240062714 c =2.0000000000000000 ; 0.0000000000000000 mark attractors File 15000_100000_2_2_3.pgm saved . Comment = name = iWidth_IterMax+1_ARe ARe_3_ARe_105_1 f(z) = z^6+A*z+c where A= 15000.0000000000000000 ; -0.9240951240062714 c =2.0000000000000000 ; 0.0000000000000000 allways free memory (deallocate ) to avoid memory leaks Numerical approximation of Julia set for fc(z)= z^3+A*z+c parameter c = ( -0.1772460937500000 ; -0.1147460937500000 ) parameter A = ( -0.5168644785881042 ; -0.9240951240062714 ) Image Width = 3.000000 in world coordinate PixelWidth = 0.0002000133342223 AR_3 = 0.0700000000000000 ER = 2.0000000000000000 Maximal number of iterations = iterMax = 100000 ratio of image = 1.000000 ; it should be 1.000 ... pixel counters uUnknown = 0 uExterior = 138102480 uInterior3 = 12516176 uInterior105 = 12668216 Sum of pixels = 163286872 all pixels of the array = iSize = 225000000 Maximum value for an unsigned long long int = ULLONG_MAX = 18446744073709551615 gcc version: 9.3.0 __STDC__ = 1 __STDC_VERSION__ = 201710 c dialect = C18 real 2m5,118s user 16m11,754s sys 0m0,918s
References
File history
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| Date/Time | Thumbnail | Dimensions | User | Comment | |
|---|---|---|---|---|---|
| current | 16:25, 12 July 2020 | | 2,000 × 2,000 (558 KB) | Soul windsurfer | better exif notes inside file |
| 15:15, 12 July 2020 |  | 2,000 × 2,000 (558 KB) | Soul windsurfer | Uploaded own work with UploadWizard |
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