December 2014 - Fractint - mailman.xmission.com

Jewel Case
by Multifrac＠t-online.de 07 Dec '14

07 Dec '14

*There is a small improvement to MFR_13 today: The warp effect can also be applied to magnet and lambdaFN. The image shows what it has accomplished with 61_Maggam-01 Maybe you?ll like it. ; https://www.dropbox.com/sh/65mmzl5h3bbhh8d/AAAA8pd7WEXy5Hws4b5Cx4S4a?dl=0 ; Nr.73_8MAGW-02 ; Petta ; -----------------------------------------Start par----------------------- 8MagW-02 { ; Jewel Case ; Time 0.39.21.74 Reso 1280/1024 ; Warped Zoom Maggam-01 reset=2004 type=formula formulafile=mfr_13.frm formulaname=multifractal_13 function=sin/exp/exp/sin passes=t center-mag=-1.29696014814550500/-0.00016029410913750/81.45935/1/-90/3.88\ 578058618804789e-016 params=4.123456789123456/0.3785210730307932/80000.645957/14235.491103060\ 2/152048.0404808001/384.16048940121/384.00482000595/256.1007683001/512.1\ 007683001/768.1007683001 float=y maxiter=3071 inside=maxiter periodicity=0 rseed=-2436 colors=000<3>000000000<3>000330<6>220220220<3>110000110<2>000KA4<7>gcOjg\ RmjT<3>zzc<9>UOFRKDOGA<3>A00<9>f0Ci0Dl0F<3>z0K<6>Z0EV0DR0C<3>A08004000<2\ 6>000<4>000<7>Q0UU0YX0a_0dc0hf0l<2>p0w<4>_0dX0aU0Y<2>K0NH0JG0NE1R<3>7UX6\ `Z4h_2oa0wc<10>2WI2TG2RE<3>4G54D36F5<16>kkammcpoe<3>zwm<3>mhZjdVfaS<3>VM\ CRI8OE4KA0000<38>000 } ----------------------------------------End--------------------------------*

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Two Aspects
by Multifrac＠t-online.de 06 Dec '14

06 Dec '14

*If anybody thinks my complex algorithm is not really new look at this image. Have never seen anything similar before and I dont think any other formula can generate something like this. Tell me if you want an explanation. ; The reason for the title: You can look at the image in two ways, either you see the lambda strings or these strange stonelike objects, maybe you think it?s not the same image. : https://www.dropbox.com/sh/65mmzl5h3bbhh8d/AAAA8pd7WEXy5Hws4b5Cx4S4a?dl=0 ; Image nr.72 in the folder ; Petta ; ---------------------------------------Start Par----------------------------- Lambda-65 { ; Two Aspects ; Lambda Variable set to 87 ; Time 0.17.53.41 Reso 1280/1024 ; New complex number definition reset=2004 type=formula formulafile=mfr_13.frm formulaname=multifractal_13 function=ident/exp/sin/exp passes=t center-mag=+0.47990394670342740/-0.96333869982815480/22748.91/1/-157.499\ 999999718966/-3.62519236851710502e-010 params=0.2809320352793969/-0.8534775841547899/80000.32598750002/11111.05\ 06030602/152848.0404808048/1111.1604894048/1111.00482000595/256.11111100\ 001/512.1111110000101/512.1111110000101 float=y maxiter=2048 inside=maxiter periodicity=0 rseed=-2436 colors=000j0pm0sp0w<4>_0dX0aU0Y<2>K0NH0JG0NE1R<3>7UX6`Z4h_2oa0wc<10>2WI2\ TG2RE<3>4G54D36F5<16>kkammcpoe<3>zwm<3>mhZjdVfaS<3>VMCRI8OE4KA0000<43>00\ 0<4>000330<6>220220220<3>110000110<2>000KA4<7>gcOjgRmjT<3>zzc<9>UOFRKDOG\ A<3>A00<9>f0Ci0Dl0F<3>z0K<6>Z0EV0DR0C<3>A08004000<26>000<4>000<7>Q0UU0YX\ 0a_0dc0hf0l } ----------------------------------------End--------------------------------- *

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Re: [Fractint] Links
by Hal Lane 06 Dec '14

06 Dec '14

Albrecht, The last dozen or so images in your 'Images' DropBox folder: https://www.dropbox.com/sh/ua45wf1v84p8nsw/AAAWxi3xeFg_5oZ_zV1wvRtua?dl=0 ...the images from: 38_ 25284-50.GIF thru: 48_40205-13.GIF are all great! Bravo! Ausgezeichnet! For some reason, I didn't seem to be able to download the image: 25284-53.GIF. When I right clicked on the image, I never got the popup option to download it. However, I was able to download the 'Images' folder as a .ZIP file and get it that way. I was able to get the option to download the image for some of the earlier images. - Hal Lane ######################## # hallane(a)earthlink.net ######################## --- This email is free from viruses and malware because avast! Antivirus protection is active. http://www.avast.com

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Complex Numbers using LambdaFN Part3
by Multifrac＠t-online.de 06 Dec '14

06 Dec '14

*Problem solved.It needed some patience but it was worth the effort. ; https://www.dropbox.com/s/skds2kk6xtveslo/69_LAMBD-54.GIF?dl=0 ; In the folder it?s nr.69. The link again: ; https://www.dropbox.com/sh/65mmzl5h3bbhh8d/AAAA8pd7WEXy5Hws4b5Cx4S4a?dl=0 ; Petta ; --------------------------------Start par-------------------------------- Lambda-54 { ; Complexity ; Lambda Variable set to 22 ; Time 0.01.53.42 Reso 1280/1024 ; New complex number definition reset=2004 type=formula formulafile=mfr_13.frm formulaname=multifractal_13 function=ident/exp/sin/ident passes=t center-mag=+0.42201922872088370/-1.08606971938494700/55.44183/1/-90/-1.2\ 3373533611470521e-014 params=0.2809320352793969/-0.8534775841547899/80000.32592350002/11111.05\ 06030602/150848.0404808048/1111.1604894048/1111.00482000595/256.11111100\ 001/512.1111110000101/512.1111110000101 float=y maxiter=1024 inside=maxiter periodicity=0 rseed=-2436 colors=000D01<8>f0Ci0Dl0F<3>z0K<6>Z0EV0DR0C<3>A08004000<26>000<4>000<7>Q\ 0UU0YX0a_0dc0hf0l<2>p0w<4>_0dX0aU0Y<2>K0NH0JG0NE1R<3>7UX6`Z4h_2oa0wc<10>\ 2WI2TG2RE<3>4G54D36F5<16>kkammcpoe<3>zwm<3>mhZjdVfaS<3>VMCRI8OE4KA0000<4\ 3>000<4>000330<6>220220220<3>110000110<2>000KA4<7>gcOjgRmjT<3>zzc<9>UOFR\ KDOGALC8H85E43A00 } ---------------------------------End---------------------------------------*

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Complex Numbers using LambdaFN Part2
by Multifrac＠t-online.de 04 Dec '14

04 Dec '14

*I improved my definition of a complex number using the complete variable value for the real part and only the second digit for the imaginary part: ; If (1<sp) d=(trunc(sp/10))/9 da=sp-100*d d=sp/99 sp=d+sqr(-da) else sp=p1 endif ; Now it IS capable of a fractal calculation, but the result is not really satisfactory as it still lacks versatility, the elements remain the same on zooming, but the lambda typical strings turn up. ; https://www.dropbox.com/s/i09knpa4oq6iqj1/68_LAMBD-24.GIF?dl=0 ; I still hope to get a reply on how to improve complexity. I know it?s possible, it is with other frms not using p1. ; The Images_Mfr folder now also contains an MFR13 version of the Input table and the latest version. Check the date. ; https://www.dropbox.com/sh/65mmzl5h3bbhh8d/AAAA8pd7WEXy5Hws4b5Cx4S4a?dl=0 ; Petta *

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Complex Numbers using LambdaFN
by Multifrac＠t-online.de 04 Dec '14

04 Dec '14

*HI, I hope a mathematician or formula writer is reading this and assists to solve the problem. In order to replace P1 Im trying to define a complex number, but the only available variable (sp) is a two digit one, which does not generate complex images. (It does with Magnet!) I tried several solutions, using the first digit as real part and the second as imaginary: ; If (1<sp) d=(trunc(sp/10))/9 da=sp-100*d sp=d, da else sp=p1 endif ; It is eccepted but does not generate complex images. Using the mathematical definition the images are more interesting but not really complex: ; If (1<sp) d=(trunc(sp/10))/9 da=sp-100*d sp=d+sqr(-da) else sp=p1 endif ; This the image, (sp=32): https://www.dropbox.com/s/z2pfqj2q85xlvp6/64_LAMBD-22.GIF?dl=0 If I?m right the y-axis is the imaginary part.(??) ; Is there anything I can do to get really complex images like this: https://www.dropbox.com/s/2w9gn2jnpeqoo4o/63_LAMBD-19.GIF?dl=0 ; If Tim or Jim are reading this I?m certain to get the answer. ; Petta*

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Liquid Colors
by Multifrac＠t-online.de 03 Dec '14

03 Dec '14

Hi, To introduce the new participating formula LambdaFN here is a solo image. Typical for Lambda are strings of rounded objects, maybe only one or many of them like here. A small improvement of the Lambda handling in the frm. Like with magnet it is now possible to switch between P1, in case it?s already in use, and the built in complex variable. The new version, see the date, is in the Images_MFR13 folder. ; https://www.dropbox.com/sh/65mmzl5h3bbhh8d/AAAA8pd7WEXy5Hws4b5Cx4S4a?dl=0 ; Petta ------------------------------Start Par------------------------------------ Lambd-19 { ; Liquid Colors ; LambdaFn Solo ; Time 0.01.07.89 Reso 1280/1024 reset=2004 type=formula formulafile=mfr_12.frm formulaname=multifractal_13 function=exp/exp/exp/sin passes=t center-mag=0.46742/-0.273285/1.724763/1/-105.000000000000028/1.310757058\ 44807544e-014 params=0.2809320352793969/-0.8534775841547899/80000.32590150023/25234.05\ 06030602/150148.0404808048/384.1604894048/384.00482000595/256.1007683/51\ 2.1007683001/512.1007683001 float=y maxiter=1024 inside=maxiter logmap=4 periodicity=0 rseed=-2436 colors=000zr0zz1zzC<2>zzz<3>jqdfo_blU<3>Mb8<3>LQ8KM8KJ8<2>I88H44G00<3>TA\ 5WD6ZF7aI8eLAhMBiODjQF<3>qeBriAtm9vq8xu7zz5zz4zz3<4>zj4zg4zc4<3>zS5zP5zL\ 6zI6zE6wE6tD6<6>vAIv9Kv9M<3>x7Sy7Uy6Wz6Yz5_<3>f5Ma5IW4E<2>_4H<3>P3DN2CK2\ A<3>805G0BO0G<3>g0Ul0Xq0`v0d<2>y0fz0gy0h<3>u1mt1ns1or2q<2>v2u<3>c5eZ6`U6\ X<2>F9LAAG7FO4KW0Qc<3>5Xc6Zc7`c7aa7c_7eY<3>FcgHciJbl<3>S_v<3>civflvinvlq\ votvsww<2>zzz<3>rwzovzhsw<3>Gch8_d8Xa<3>8JP8FL8CI<4>XCAaB9fB7<3>zA0<13>S\ A1QA1NA1<3>D92<6>UXAW`BYcC<3>hrI<3>UnXQm`NlcJkgFfpAaz<3>PKoSFlWAi_5fc0ce\ 7_jFRoNIzb0zj0000 } --------------------------------------------End----------------------------

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New Links
by Multifrac＠t-online.de 03 Dec '14

03 Dec '14

Just a notification: The Images folder has a new link: https://www.dropbox.com/sh/0skoqkoxde8ynr8/AAAfXIP8_-dfJG4PXBuyk8aYa?dl=0 The MFR13 Images and the latest version: https://www.dropbox.com/sh/65mmzl5h3bbhh8d/AAAA8pd7WEXy5Hws4b5Cx4S4a?dl=0 ; Petta

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FOTD 02-12-14 (The Great Eructor [A-6,M-6])
by Jim Muth 02 Dec '14

02 Dec '14

FOTD -- December 02, 2014 (Rating A-6,M-6) Fractal visionaries and enthusiasts: Believe it or not, Today's image shows part of Seahorse Valley of the classic Mandelbrot set. The unfamiliarity is due to the orientation of the image, which is sliced in the Oblate direction, defined by the real(Z) and imag(C) axes. Since the overall shape reminds me of a hulking figure, I named the scene "The Great Eructor". The name will make more sense once the meaning of the word 'eruct' is considered. I found nothing unusually worthwhile in either the art or math, so I could rate the image no higher than a pair of sixes. The calculation time of 3-3/4 minutes borders on slowness, especially for such an average scene. But the web sites can take away most of this viewing hassle. Avoid the hassle by checking the finished image at: <http://www.crosscanpuzzles.com/Archives.html> <http://www.emarketingiseasy.com/TESTS/FOTD/jim_muths_fotd.html> <http://www.Nahee.com/FOTD/> <http://user.xmission.com/~legalize/fractals/fotd/about.html> The day dawned mostly clear, but clouds moved in during the morning and snow began by 11am, building up to around 3cm by afternoon. The fractal cats gave the weather a quick check, then settled down for their long winter's naps. The humans, with another busy day on their hands, had little time to note the outside conditions. The next FOTD will be posted, maybe soon, maybe not so soon. Until this widely anticipated celestial moment arrives, take care, and why has no one suggested applying the full force of science and technology to our current intractable social problems? Jim (with another good idea) Muth jimmuth(a)earthlink.net START PARAMETER FILE======================================= The_Great_Eructor { ; time=0:03:45.00 SF5 at 2000MHZ reset=2004 type=formula formulafile=basicer.frm formulaname=SliceJulibrot4 passes=1 center-mag=1.46624/0/27.08442/0.5632/90/0 params=0/0/90/0/-0.75/0/0/0/2/0 float=y maxiter=32767 inside=0 logmap=3 periodicity=6 colors=000AqvFptKorOnpTmnXllakjfjhjifohdsgcwhbzibz\ ibzjbwkbtkbqlbmmbjmbhnbeobbob`pbZpb_m``jZagXbdWcaU\ dZSeWQeTPfQNgNLhKJiHIjEGkBEl8Cl5Bh5Id5P`5VX5aT5gP5\ nL5rMAmNAhOAcPAZQAURAPSAMTAKUAMUAPUARUAUUAWVAZWA`V\ AcUAeTAhSAjRAlQAoPAqOBsNCpMDmLEjKFiJGiIHiHImFJpCKs\ CLqDMoDNmEOkEPiFQgFQeGPcGOaHN_HMYILWIKUIJSIIQIGOIF\ MHEKHDIHCGHBEHADG9CG8CF7CE6CD5BC4BB3BA2B91B80A70A6\ 0A50A509609609709709808808908908A08A0DB0HC0LE0QG0U\ I0YK0bM0fO0jQ0oS0sU0wU0vU0uU0tU0sU0rU0qU0pU0oU0nU0\ mU0lU0kU0jU0iU0hU0gU0fT0eS0dR0cQ1bP2aO3`M4_L6ZK8YJ\ AXICWGEYHGWHIVHKUHMTHOSHQRHSQHUPHWOHXNHYMHZLH_KH`J\ HaIHbHHcGHdFHeEHfDHgCHiBHjAHl9Hm8Ho7Ho6Hq5Hr4Gt1Hr\ 3Ip4Io5Jm7Jl8Kj9KhALfCLeDMdEMcFNbHNaIO_JPZKPYMQXNQ\ WORVPRTRSSSSRTTQUTPWUOXUNYVLZcK`cJacIbcHccGecEffDg\ iChmBjmAko9ls5vv8mzBez6SzEYzLbzTgz_mzgrzoxznwzmwzl\ wzzzzzzzzzzzzzzzzzzzzzzzz } frm:SliceJulibrot4 {; draws all slices of Julibrot pix=pixel, u=real(pix), v=imag(pix), a=pi*real(p1*0.0055555555555556), b=pi*imag(p1*0.0055555555555556), g=pi*real(p2*0.0055555555555556), d=pi*imag(p2*0.0055555555555556), ca=cos(a), cb=cos(b), sb=sin(b), cg=cos(g), sg=sin(g), cd=cos(d), sd=sin(d), p=u*cg*cd-v*(ca*sb*sg*cd+ca*cb*sd), q=u*cg*sd+v*(ca*cb*cd-ca*sb*sg*sd), r=u*sg+v*ca*sb*cg, s=v*sin(a), esc=imag(p5)+9 c=p+flip(q)+p3, z=r+flip(s)+p4: z=z^(real(p5))+c |z|< esc } END PARAMETER FILE=========================================

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MFR_13
by Multifrac＠t-online.de 02 Dec '14

02 Dec '14

*Hi, I dont know if it still makes any sense to publish a new MFR Version. Will see. It was necessary to improve the Magnet handling. It now ignores P1 completely with the effect that the images are "clean" without chaotic junk and always symmetrical. In addition its possible to ignore the variable - set to 0.1 - and read only Real(p1) which delivers an infinite diversity. A sample is todays image. It?s called Maggame because it?s possible to play "Monkey at the typewriter" and type any value in Real(P1). This is how it was generated, it takes just a few seconds.The evolution mode never can accomplish the same results. A second achievement is greater speed. For example the "Togetherness" image needs 13 minutes less. The third and most important improvement is the replacemnt of SpiderJul (never used) by LambdaFn which has unlimited versality, more then any other participating frm. Hal Lane - A big Thank You! from here and I spent a lot of time testing and checking for any differences to MFR_12 Images. So far the newer images are identical with the exception of course of those that use magnet, they maybe identical or maybe not, pending on the reading of P1. The new frm did not show any problems sofar, possibly there are none. Anyway until I?m certain I will attach it to the par. Of course it doesnt make any sense to ?publish more images if no one is interested anymore. So tell me, please. Thanks. Paul, please make it available in orgform, although it?s subject to modification. Thanks also to you. -----------------------Start PaR------------------------------------------- LambdBsn { ; LambdaFn Basic ; Replaces Spider ; Time 0.01.08.28 Reso 1280/1024 reset=2004 type=formula formulafile=mfr_12.frm formulaname=multifractal_13 function=exp/sin/exp/sin passes=t center-mag=-0.0606262/0.0140242/1.06411/1/-105.000000000000028/1.3107570\ 5844807544e-014 params=0.09659108249153112/-0.5176854762413403/80000.32591550023/25234.0\ 506030602/152048.0404808048/384.1604894048/384.00482000595/256.1007683/5\ 12.1007683001/512.1007683001 float=y maxiter=1024 inside=maxiter logmap=4 periodicity=0 rseed=-2436 colors=000zr0zz1zzC<2>zzz<3>jqdfo_blU<3>Mb8<3>LQ8KM8KJ8<2>I88H44G00<3>TA\ 5WD6ZF7aI8eLAhMBiODjQF<3>qeBriAtm9vq8xu7zz5zz4zz3<4>zj4zg4zc4<3>zS5zP5zL\ 6zI6zE6wE6tD6<6>vAIv9Kv9M<3>x7Sy7Uy6Wz6Yz5_<3>f5Ma5IW4E<2>_4H<3>P3DN2CK2\ A<3>805G0BO0G<3>g0Ul0Xq0`v0d<2>y0fz0gy0h<3>u1mt1ns1or2q<2>v2u<3>c5eZ6`U6\ X<2>F9LAAG7FO4KW0Qc<3>5Xc6Zc7`c7aa7c_7eY<3>FcgHciJbl<3>S_v<3>civflvinvlq\ votvsww<2>zzz<3>rwzovzhsw<3>Gch8_d8Xa<3>8JP8FL8CI<4>XCAaB9fB7<3>zA0<13>S\ A1QA1NA1<3>D92<6>UXAW`BYcC<3>hrI<3>UnXQm`NlcJkgFfpAaz<3>PKoSFlWAi_5fc0ce\ 7_jFRoNIzb0zj0000 } Maggam-01 { ; Magnet Solo ; New MFR_13 Feature ; 0.05.40.70 Reso 1280*1024 ; Input Real(p1) reset=2004 type=formula formulafile=mfr_12.frm formulaname=multifractal_13 function=sin/exp/exp/sin passes=t center-mag=-1.3042/-0.000358195/31.60623/1/-90/3.88578058618804789e-016 params=4.123456789123456/0.3785210730307932/80000.6459575/14235.49110306\ 02/152048.0404808001/384.16048940121/384.00482000595/256.1007683001/512.\ 1007683001/768.1007683001 float=y maxiter=3071 inside=maxiter periodicity=0 rseed=-2436 colors=000<3>000000000<3>000330<6>220220220<3>110000110<2>000KA4<7>gcOjg\ RmjT<3>zzc<9>UOFRKDOGA<3>A00<9>f0Ci0Dl0F<3>z0K<6>Z0EV0DR0C<3>A08004000<2\ 6>000<4>000<7>Q0UU0YX0a_0dc0hf0l<2>p0w<4>_0dX0aU0Y<2>K0NH0JG0NE1R<3>7UX6\ `Z4h_2oa0wc<10>2WI2TG2RE<3>4G54D36F5<16>kkammcpoe<3>zwm<3>mhZjdVfaS<3>VM\ CRI8OE4KA0000<38>000 } frm:multifractal_13 { ; Albrecht Niekamp Nov29, 2014 ;P1 spider-julia-seed ;RP2 Left: 5 Digit_Channels: (1)shape (2)out (3)ins_1 (4)ins_2 (5)ins_3 ; Frm: 0_off 1_Secant 2_Mand(2) 3_Bees 4_Jul/Manowar 5_Mmods ; 6_Phoenix 7_Newton 8_Lambda/Magnet ; Right: 2 Digit_ManyMods_Number of sides 2 Digit_Phoen 2 Digit_Lambd ; 1 Digit_TransReset-Shape: 0_no 1_DblMan 2_Iter 3_both +5_nowarp ; 4 Digit_TransReset-Ch 2-5: 0_no 1_z 2_Iter 3_both +5_warp ;IP2 Left: 5 Digit_Bailout Number for Channels 1 to 5 ; Right: Variables: 4 Digit_Mand/Jul (2var) 2 Digit_Secant 4 Digit_Bees ;RP3 Left: 2 Digit_Newtonvariable 4 Digits_bailout1 ; Right: 4 Digit_bailout2 4 Digit_bailout3 1 Digit_Magnet ;IP3 Left: 4 Digit_Shape: Warp-factor (fn1 is used) ; Right: 4 Digit_bailout4 4 Digit_bailout5 1 digit_mow=2 1 digit_mag=2 ;RP4 Left: 4 Digit_Outside: Warp-factor (fn2 used) ; Right: Outside: 4 Digit+fractdig_Border-out 4 Digit+fractdig_border-in ;IP4 Left: Inside1_Maxiter ; Right: Inside1_Transit: 1_maxit 2_borderout 3_borderin +5_maxit+bord ; 5 Digit_warp factor (fn2 used) 4 Digit+fractaldigit_border1 ;RP5 Left: Inside2_Maxiter ; Right: Inside2_Transit: 1_maxit 2_borderout 3_borderin +5_maxit+bord ; 5 Digit_warp factor (fn3 used) 4 Digit+fractaldigit_border2 ;IP5 Left: Inside3_Maxiter ; Right: Inside3_Transit: 1_maxit 2_borderout 3_borderin +5_maxit+bord ; 5 Digits_Warp factor (fn4 used) 4 Digit+fractaldigit_border3 ;fn(1) shared by many-mods + bees ; z=pixel da=real(p2) dd=trunc(da) tt=dd>0 da=trunc(((da-dd)*100000000000)+11111) dd=trunc(dd+11111) d=trunc(dd/10000) dd=dd-d*10000 d3=(d==4)+(d==5)+(d==8)+(d==9) d4=d3==0 vb=d>5 ex0=(d>1) sc=d==2 mo=d==6 po=d==7 sx=d==9 ab=po+(d==3)+(d==5)+(d==9) d=trunc(dd/1000) dd=dd-d*1000 ex1=(d>1) sc1=d==2 mo1=d==6 po1=d==7 sx1=d==9 v1m=mo1+po1 v1j=d>7 dd1=v1j+(d==4)+(d==5) ab1=po1+(d==3)+(d==5)+(d==9) d=trunc(dd/100) dd=dd-d*100 ex2=(d>1) sc2=d==2 mo2=d==6 po2=d==7 sx2=d==9 v2m=mo2+po2 v2j=d>7 dd2=v2j+(d==4)+(d==5) ab2=po2+(d==3)+(d==5)+(d==9) d=trunc(dd/10) ex3=(d>1) sc3=d==2 mo3=d==6 po3=d==7 sx3=d==9 v3m=mo3+po3 v3j=d>7 dd3=v3j+(d==4)+(d==5) ab3=po3+(d==3)+(d==5)+(d==9) d=dd-d*10 ba=imag(p5) mi3=trunc(ba) dd=(d>1)+(mi3>1) ex4=(dd==2) sc4=d==2 mo4=d==6 po4=d==7 sx4=d==9 v4m=mo4+po4 v4j=d>7 dd4=v4j+(d==4)+(d==5) ab4=po4+(d==3)+(d==5)+(d==9) tt=ex1+ex0+ex2+ex3+ex4 ; mm=trunc(da/1000000000) da=da-mm*1000000000 ph=trunc(da/10000000) da=da-ph*10000000 sp=trunc(da/100000) da=da-sp*100000 d=trunc(da/10000) da=da-d*10000 wx=(d>4) d=d-5*wx dm=(d==2)+(d==4) ir0=(d==3)+(d==4) d=trunc(da/1000) da=da-d*1000 w1=d>4 d=d-5*w1 rs1=(d==2)+(d==4) ir1=(d==3)+(d==4) d=trunc(da/100) da=da-d*100 w2=d>4 d=d-5*w2 rs2=(d==2)+(d==4) ir2=(d==3)+(d==4) d=trunc(da/10) da=da-d*10 w3=d>4 d=d-5*w3 rs3=(d==2)+(d==4) ir3=(d==3)+(d==4) w4=da>4 da=da-5*w4 rs4=(da==2)+(da==3)+(da==4) ph=ph/10 sp=sp/10 w0=(wx==0) ; d=real(p3) dd=trunc(d) da=trunc((d-dd)*10000000000) pp=trunc(dd/10000) ba1=dd-10000*pp ba2=trunc(da/1000000) da=da-1000000*ba2 ba3=trunc(da/100) da=da-100*ba3-4 mg=da/10 if (mg<1) mg=real(p1) endif ; d=imag(p3) sfac=trunc(d) da=trunc((d-sfac)*10000000000) ba4=trunc(da/1000000) da=da-ba4*1000000 ba5=trunc(da/100) da=da-ba5*100 d=trunc(da/10) da=da-d*10 mow=d==2 mag=da==2 px0=((sx*mag)==0)*p1 px1=((sx1*mag)==0)*p1 px2=((sx2*mag)==0)*p1 px3=((sx3*mag)==0)*p1 px4=((sx4*mag)==0)*p1 ; d=real(p4) ofac=trunc(d) da=trunc((d-ofac)*10000000000) bh=trunc(da/100000)/10 bl=(da-bh*1000000)/10 bs=bl/2 ; d=imag(p2) dd=trunc(d) da=trunc((d-dd)*10000000000) d=trunc(dd/10000) dd=dd-d*10000 bb0=ba1*(d==1)+ba2*(d==2)+ba3*(d==3)+ba4*(d==4)+ba5*(d==5) d=trunc(dd/1000) dd=dd-d*1000 bb1=ba1*(d==1)+ba2*(d==2)+ba3*(d==3)+ba4*(d==4)+ba5*(d==5) d=trunc(dd/100) dd=dd-d*100 bb2=ba1*(d==1)+ba2*(d==2)+ba3*(d==3)+ba4*(d==4)+ba5*(d==5) d=trunc(dd/10) dd=dd-d*10 bb3=ba1*(d==1)+ba2*(d==2)+ba3*(d==3)+ba4*(d==4)+ba5*(d==5) d=dd bb4=ba1*(d==1)+ba2*(d==2)+ba3*(d==3)+ba4*(d==4)+ba5*(d==5) ; d=da p0=trunc(d/100000000)/10 d=d-p0*1000000000 p6=trunc(d/1000000)/10 d=d-p6*10000000 p7=trunc(d/10000)/10 d=d-p7*100000 dp=p6+p0/100 p8=trunc(d/100)/100 d=d-p8*10000 p9=d/100 ; d=imag(p4) mi1=trunc(d) da=trunc((d-mi1)*100000000000) d=trunc(da/10000000000) bt1=d>6 da=da-d*10000000000 d=d-5*bt1 dt1=d>1 iv1=d==3 fac1=trunc(da/100000) da=da-fac1*100000 bo1=(da/100000)/10 ; d=real(p5) mi2=trunc(d) da=trunc((d-mi2)*100000000000) d=trunc(da/10000000000) bt2=d>6 da=da-d*10000000000 d=d-5*bt2 dt2=d>1 iv2=d==3 fac2=trunc(da/100000) da=da-fac2*100000 bo2=(da/100000)/10 ; d=imag(p5) mi3=trunc(d) da=trunc((d-mi3)*100000000000) d=trunc(da/10000000000) bt3=d>6 da=da-d*10000000000 d=d-5*bt3 dt3=d>1 iv3=(d==3) fac3=trunc(da/100000) da=da-fac3*100000 bo3=(da/100000)/10 ; if (vb) if (d3) if (ab) if (mag) c=z z=pixel x=mg x=x+(x==0)*3 ;magnet else z=pixel ;lambdafn m = ((1, 0.4) * (|p1|<=0) + p1) x = (64 * (real(sp)<=0) + real(sp) * (0<sp) ) endif else c=z z=pixel ;newton endif elseif (ab) c=z ;Phoenix z=pixel else c=0.4*log(sqr(z^mm)) ;many mods z=0 endif elseif (d3) if (ab) if (mow) ;manowar mt = (4 * (real(p2)<=0) + real(p2) * (0<p2) ) c=p1 z=pixel else c=p1 ;Julia z=pixel endif else ;bees c=p1 z=pixel endif elseif (ab) c=z ;Mandel z=0 else c=z ;Secant z=pixel endif t=0 bo=|z| p=pp z0=p7 zold=(0.0,0.0) cb=p9 ba=bb0 : if (tt>0) t=t+1 if (ex0) ex0=t<mi1 if (bo>bs) u0=2*(fn1(t/sfac)) if (w0) u=u0 else u=1.0 endif ex0=0 if (ir0) t=0 endif if (d4) z=z*u if (mo) c=0.4*log(sqr(z^mm)) else c=pixel endif else z=pixel cb=p9*u c=px0*u p=pp*u endif tt=tt-1+ex0 endif elseif ((ex1)&&bo>bl) if (bo<bh) d3=dd1 ba=bb1 ab=ab1 ex1=0 tt=tt-1 if (w1) u=2*(fn2(t/ofac)) else u=1.0 endif if (ir1) t=0 endif if (d3) vb=v1j if (rs1) z=pixel cb=p9*u c=px1*u p=pp*u else c=px1 z=z*u cb=p9 endif else vb=v1m if (rs1) c=z*u z=pixel*(sc1+po1) z0=p7*u ph=ph*u else c=z z=z*u endif if (mo1) c=0.4*log(sqr(z^mm)) endif endif endif elseif (ex2) if (dt1) if (iv1) d=bo>bo1 else d=bo<bo1 endif if (bt1) d=d+(t>mi1) endif else d=t>mi1 endif if (d) ab=ab2 d3=dd2 ba=bb2 ex2=0 tt=tt-1 if (w2) u=2*(fn2(t/fac1)) else u=1.0 endif if (ir2) t=0 endif if (d3) vb=v2j if (rs2) z=pixel cb=p9*u c=px2*u p=pp*u else cb=p9 c=px2 z=z*u endif else vb=v2m if (rs2) c=z*u z=pixel*(sc2+po2) z0=p7*u ph=ph*u else c=z z=z*u endif if (mo2) c=0.4*log(sqr(z^mm)) endif endif endif elseif (ex3) if (dt2) if (iv2) d=bo>bo2 else d=bo<bo2 endif if (bt2) d=d+(t>mi2) endif else d=t>mi2 endif if (d) ab=ab3 d3=dd3 ba=bb3 ex3=0 tt=tt-1 if (w3) u=2*(fn3(t/fac2)) else u=1.0 endif if (ir3) t=0 endif if (d3) vb=v3j if (rs3) z=pixel cb=p9*u c=px3*u p=pp*u else cb=p9 c=px3 z=z*u endif else vb=v3m if (rs3) c=z*u z=pixel*(sc3+po3) z0=p7*u ph=ph*u else c=z z=z*u endif vb=v3m if (mo3) c=0.4*log(sqr(z^mm)) endif endif endif elseif (ex4) if (dt3) if (iv3) d=bo>bo3 else d=bo<bo3 endif if (bt3) d=d+(t>mi3) endif else d=t>mi3 endif if (d) ab=ab4 d3=dd4 ba=bb4 ex4=0 tt=0 if (w4) u=2*(fn4(t/fac3)) else u=1.0 endif if (d3) vb=v4j if (rs4) z=pixel cb=p9*u c=px4*u p=pp*u else cb=p9 c=px4 z=z*u endif else vb=v4m if (rs4) c=z*u z=pixel*(sc4+po4) z0=p7*u ph=ph*u else c=z z=z*u endif if (mo4) c=0.4*log(sqr(z^mm)) endif endif endif endif endif if (vb) if (d3) if (ab) if (mag) ;magnet z=((z^x+c-1)/(2*z+c-2))^(x-1) else z=fn2(z)*fn3(m) ;Lambdafn abs(imag(z)) <=x && abs(real(z)) <=x endif else z1=z^p-1 ;newton z2=p*z*z z=z-z1/z2 endif elseif (ab) z1=z*z+0.56+ph/100-0.5*zold ;Phoenix zold=z z=z1 else z2=fn1(z)+c ;Many_mods z1=cos(z2) z=c*(1-z1)/(1+z1) endif elseif (d3) if (ab) if (mow) z1 = z ;manowar oldz = z z = sqr(oldz) + z1 + c z1 = oldz else z2=z*z ;Julia z=z2*z2+p6*z2+c-p0 endif else z1=fn1(z)-cb ;Bees z2=z1^p8-1 z3=p8*(z1^(p8-1)) z=z-(z2/z3) endif elseif (ab) if (dm) z=z*z+c+c*c-dp ;Double Mandel else z2=z*z ;Mandel z=z2*z2+p6*z2+c-p0 endif else z3=z ;Secant z1=z0*z0*z0*z0-1 z2=z*z*z*z-1 z=z-z2*(z-z0)/(z2-z1) z0=z3 endif bo=|z| bo<ba } ----------------------------------End----------------------------------- *

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