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From: owner-fractint-digest@lists.xmission.com (fractint-digest)
To: fractint-digest@lists.xmission.com
Subject: fractint-digest V1 #460
Reply-To: fractint-digest
Sender: owner-fractint-digest@lists.xmission.com
Errors-To: owner-fractint-digest@lists.xmission.com
Precedence: bulk
fractint-digest Tuesday, March 21 2000 Volume 01 : Number 460
----------------------------------------------------------------------
Date: Tue, 21 Mar 2000 00:08:42 -0600
From: "Paul N. Lee" <Paul.N.Lee@Worldnet.att.net>
Subject: Re: (fractint) Partobat
Is something going on with the Discussion List server ??
Just received another copy of something that was sent out days ago.
Have been receiving multiple copies of different postings every now and
then for the past week or so.
Paul N. Lee wrote:
>
> Received: from lists.xmission.com ([198.60.22.7])
> by mtiwgwc22.worldnet.att.net (InterMail
> vM.4.01.02.39 201-229-119-122) with ESMTP id
> <20000321055454.SAYC7721.mtiwgwc22.worldnet.
> att.net@lists.xmission.com>;
> Tue, 21 Mar 2000 05:54:54 +0000
> Received: from domo by lists.xmission.com with local
> (Exim 2.12 #2) id 12XHWM-0004Wj-00 for
> fractint-gooutt@lists.xmission.com;
> Mon, 20 Mar 2000 22:48:02 -0700
> Message-ID: <38D0748C.3B27@Worldnet.att.net>
> Date: Wed, 15 Mar 2000 23:43:40 -0600
> From: "Paul N. Lee" <Paul.N.Lee@Worldnet.att.net>
>
> ..........(body snipped)...........
>
> --------------------------------------------------------------
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>
> --------------------------------------------------------------
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- --------------------------------------------------------------
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------------------------------
Date: Tue, 21 Mar 2000 12:00:29 GET
From: "Tony \(Anthony\) Hanmer" <a_hanmer@hotmail.com>
Subject: (fractint) More Ls...
Here are some more L-systems, which really are holding my attention these
past few months as a relatively undeveloped area of the Fractiverse, it
seems to me.
This first set are variations on one particular curve - the best thing I've
done yet, I think. This posting should be saved as hanmerc.l
Tony Hanmer
ADH107h2 { ; Anthony Hanmer 2000
Angle 8 ; Who says L-systems are boring?!
Axiom f ; I like this one so much, I'll name it after myself:
f=+f+x--x+f+x++x+f+ ; the Hanmer Curve, version 1
}
ADH107h2a1 { ; Anthony Hanmer 2000
Angle 8 ; Even orders have 90-degree rotational symmetry
Axiom f++f++f++f ; Odd orders have glide symmetry
f=+f+x--x+f+x++x+f+
}
ADH107h2a1col { ; Anthony Hanmer 2000
Angle 8 ; Even orders have 90-degree rotational symmetry
Axiom c09f++c12f++c10f++c13f ; Odd orders have glide symmetry
f=+f+x--x+f+x++x+f+
}
ADH107h2a2 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom fff++f++fff++f
f=+f+x--x+f+x++x+f+
}
ADH107h2b { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f-f-f-f-f-f-f-f
f=+f+x--x+f+x++x+f+
}
ADH107h2bcol { ; Anthony Hanmer 2000
Angle 8 ;
Axiom c09f-c12f-c09f-c12f-c09f-c12f-c09f-c12f
f=+f+x--x+f+x++x+f+
}
ADH107h2c { ; Anthony Hanmer 2000
Angle 8 ; Even orders are x-shaped, odd orders are square
Axiom ff----ff++ff----ff++ff----ff++ff----ff
f=+f+x--x+f+x++x+f+
}
ADH152 { ; Anthony Hanmer 2000
Angle 4 ; A relative of ADH107h2
Axiom ++f ; so we'll call it the Hanmer Curve, version 2
f=f--x+f++x-f+x
}
ADH152a { ; Anthony Hanmer 2000
Angle 4 ; Even orders have 90-degree rotational symmetry
Axiom f+f+f+f ; Odd orders have glide symmetry
f=f--x+f++x-f+x
}
ADH152b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f--x+f++x-f+x
}
ADH152c { ; Anthony Hanmer 2000
Angle 4 ; Even orders have 180-degree rotational symmetry
Axiom f++f ; Odd orders are asymmetrical
f=f--x+f++x-f+x
}
ADH152d { ; Anthony Hanmer 2000
Angle 4 ; Even orders have 180-degree rotational symmetry
Axiom ff--ff ; Odd orders are asymmetrical
f=f--x+f++x-f+x
}
ADH152e { ; Anthony Hanmer 2000
Angle 4 ; Even orders are long, odd orders are square
Axiom fff+f+fff+f
f=f--x+f++x-f+x
}
ADH152f { ; Anthony Hanmer 2000
Angle 4 ; Even orders are x-shaped
Axiom ff--ff+ff--ff+ff--ff+ff--ff ; Odd orders are square
f=f--x+f++x-f+x
}
______________________________________________________
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------------------------------
Date: Tue, 21 Mar 2000 12:04:52 GET
From: "Tony \(Anthony\) Hanmer" <a_hanmer@hotmail.com>
Subject: (fractint) More Ls: Cesaro Variations
Another set, all based to varying degrees on the Cesaro and Double Cesaro
Curves. (Here also lurk all the strings with which I have produced 15
L-system alphabets recently.)
Save this as Cesaros.l
(Sorry, I just realised that some lines will be too long for the text box
I'm writing in. The extra line-end marks, if there are any in your received
version, should be removed and the lines restored to full length.)
Tony Hanmer
ADH155 { ; Anthony Hanmer 2000
Angle 45 ; Cesaro variation
Axiom f
f=f++++++++++f--------------------f++++++++++f
}
ADH155a { ; Anthony Hanmer 2000
Angle 45 ; Double Cesaro variation
Axiom f+++++++++++f+++++++++++f+++++++++++f
f=f++++++++++f--------------------f++++++++++f
}
ADH155b { ; Anthony Hanmer 2000
Angle 36 ; Double Cesaro variation
Axiom f+++++++++f+++++++++f+++++++++f
f=f++++++++f----------------f++++++++f
}
ADH155c { ; Anthony Hanmer 2000
Angle 36 ; Double Cesaro variation
Axiom f---------f---------f---------f
f=f++++++++f----------------f++++++++f
}
ADH155d { ; Anthony Hanmer 2000
Angle 36 ; Double Cesaro variation
Axiom
f+++++++++f------------------f+++++++++f------------------f+++++++++f------------------f+++++++++f------------------f
f=f++++++++f----------------f++++++++f
}
ADH155dcol1 { ; Anthony Hanmer 2000
Angle 36 ; Double Cesaro variation, coloured
Axiom
c09f+++++++++c12f------------------c09f+++++++++c12f------------------c09f+++++++++c12f------------------c09f+++++++++c12f------------------c09f
f=f++++++++f----------------f++++++++f
}
ADH155e { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d
d=d\88d/176d\88d
}
ADH155e1 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d/90d/90d/90d
d=d\88d/176d\88d
}
ADH155e2 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d
d=d\88d/176d\88d
}
ADH155e1a { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=d\88d/176d\88d
}
ADH155e3 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d/90d/90d/90d
d=d\86d/176d\90d
}
ADH155e4 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d/90d/90d/90d
d=d\45d/176d\131d
}
ADH155e5 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d
d=d\90@.5d\62d/178d\52d/178d\62d\90@2d
}
ADH155e5a1 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d
d=dd\90d\62d/178d\52d/178d\62d\90dd
}
ADH155e5b { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d
d=ddd\90dd\62dd/178dd\52dd/178dd\62dd\90ddd
}
ADH155e5c { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d
d=dd\90d\82d/178d\47d/178d\47d\90dd
}
ADH155e5d1 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d
d=dd\90d\88d/178d\88d/178dd\90dd
}
ADH155e5d2 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=dd\90d\88d/178d\88d/178dd\90dd
}
ADH155e5d3a { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d
d=dd\90d\88d/178d\88d/178dd\90d
}
ADH155e5d3b { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=dd\90d\88d/178d\88d/178dd\90d
}
ADH155e5d3c { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d/180d
d=dd\90d\88d/178d\88d/178dd\90d
}
ADH155e5d4a { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d
d=dd\90d\88d/178d\88d/178d\90dd
}
ADH155e5d4b { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=dd\90d\88d/178d\88d/178d\90dd
}
ADH155e5d4c1 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d
d=d\90d\88d/178d\88d/178d\90d
}
ADH155e5d4c2 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d
d=d\90d\88d/178d\88d/178d\90d
}
ADH155e5d4c3 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d/90d/90d/90d
d=d\90d\88d/178d\88d/178d\90d
}
ADH155e5d4c4 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom ddd/90dd/90ddd/90dd
d=d\90d\88d/178d\88d/178d\90d
}
ADH155e5d5 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d/90d/90d/90d
d=dd\90d\88d/178d\88d/178ddd
}
ADH155e6 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d
d=d\90@.5d\62d/178d\52d/178d\62d\90@2d
}
ADH155e7 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\72d\72d\72d\72d
d=d\90@.5d\62d/178d\52d/178d\62d\90@2d
}
ADH155e8 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom \2d\176d/86d\176d/86d\176d/86d\176d
d=d/88d\176d/88d
}
ADH155e8col1 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation, coloured
Axiom \2c09d\176d/86c12d\176d/86c09d\176d/86c12d\176d
d=d/88d\176d/88d
}
ADH155e8col2 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation, coloured
Axiom \2c09d\176c12d/86c09d\176c12d/86c09d\176c12d/86c09d\176c12d
d=d/88d\176d/88d
}
ADH155e9a1 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d
d=d/90d\176d\4d/90d
}
ADH155e9a2 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d
d=d/90d\176d\4d/90d
}
ADH155e9a3 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d/90d/90d/90d
d=d/90d\176d\4d/90d
}
ADH155f1 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d/90d/90d/90d
d=d/90@.8d\180@1.25d/90d
}
ADH155f2 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=d/90@.8d\180@1.25d/90d
}
ADH155g1 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d
d=d\88d/176d\88d\88d/176d\88d
}
ADH155g2 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=d\88d/176d\88d\88d/176d\88d
}
ADH155h1 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d
d=dd\88d\88d/176dd/176d\88d\88dd
}
ADH155h2 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=dd\88d\88d/176dd/176d\88d\88dd
}
ADH155h3 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d
d=ddd\88dd\88dd/176dddd/176dd\88dd\88ddd
}
ADH155i1 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d
d=dd\88d\88d/176d\88d/176d\88d/176d\88d\88dd
}
ADH155i2 { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=dd\88d\88d/176d\88d/176d\88d/176d\88d\88dd
}
ADH155i3a { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d
d=ddd\88dd\88dd/176dd\88dd/176dd\88dd/176dd\88dd\88ddd
}
ADH155i3b { ; Anthony Hanmer 2000
Angle 4 ; Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=ddd\88dd\88dd/176dd\88dd/176dd\88dd/176dd\88dd\88ddd
}
ADH155j { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d
d=d/88d\176dd/176d\88d
}
ADH155k1 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d
d=d/88d\176dddd/176d\88d
}
ADH155k2 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d
d=d/88d\176dddd/176d\88d
}
ADH155l1 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d
d=d/88d\176ddd/176d\88d
}
ADH155l2 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d
d=d/88d\176ddd/176d\88d
}
ADH157a { ; Anthony Hanmer 2000
Angle 36 ; Double Cesaro variation
Axiom f++++++f++++++f++++++f++++++f++++++f
f=f+++++++f--------------f+++++++f
}
ADH157b { ; Anthony Hanmer 2000
Angle 36 ; Double Cesaro variation
Axiom f++++++f++++++f++++++f++++++f++++++f
f=f+++++++ff--------------ff+++++++f
}
ADH157c { ; Anthony Hanmer 2000
Angle 36 ; Double Cesaro variation
Axiom f++++++f++++++f++++++f++++++f++++++f
f=ff+++++++f--------------ff+++++++f
}
ADH155m1 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d
d=dd\88d\88d/176d\88dd/176d\88d/176d\88dd\88dd
}
ADH155m2 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=dd\88d\88d/176d\88dd/176d\88d/176d\88dd\88dd
}
ADH155n1 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d
d=ddd\88d\88d/176d\88dd/176d\88d/176d\88dd\88ddd
}
ADH155n2 { ; Anthony Hanmer 2000
Angle 4 ; Double Cesaro variation
Axiom d\90d\90d\90d/180d/90d/90d/90d
d=ddd\88d\88d/176d\88dd/176d\88d/176d\88dd\88ddd
}
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------------------------------
Date: Tue, 21 Mar 2000 12:06:58 GET
From: "Tony \(Anthony\) Hanmer" <a_hanmer@hotmail.com>
Subject: (fractint) General Spring collection of Ls
Just a random set of L-systems from the last while of playing. Save these
as hanmer4.l
Tony Hanmer
ADH59aa { ; Anthony Hanmer 2000
Angle 6
Axiom x+x+x+x+x+x
x=[@.48f+x+x+x+x]
}
ADH105aa { ; Anthony Hanmer 2000
Angle 4
Axiom f+f+f+f
f=ffff+fff+ff+f+f-f-ff-fff-ffff
}
ADH105ba { ; Anthony Hanmer 2000
Angle 4
Axiom f+f+f+f
f=fff+fff+ff+f+f-f-ff-fff-fff
}
ADH105c1 { ; Anthony Hanmer 2000
Angle 4
Axiom f+f+f+f
f=+fff+ff+f+f-f-ff-fff-
}
ADH104a { ; Anthony Hanmer 2000
Angle 4
Axiom f
f=+fff+ffff+ff+f+f-f-ff-ffff-fff
}
ADH104b { ; Anthony Hanmer 2000
Angle 4
Axiom f+f+f+f
f=+fff+ffff+ff+f+f-f-ff-ffff-fff
}
ADH104c { ; Anthony Hanmer 2000
Angle 4
Axiom f-f-f-f
f=+fff+ffff+ff+f+f-f-ff-ffff-fff
}
ADH104d { ; Anthony Hanmer 2000
Angle 4
Axiom f
f=+fff+fff+ff+f+f-f-ff-fff-fff
}
ADH104d1 { ; Anthony Hanmer 2000
Angle 4
Axiom f+f+f+f
f=+fff+fff+ff+f+f-f-ff-fff-fff
}
ADH104d2 { ; Anthony Hanmer 2000
Angle 4
Axiom f-f-f-f
f=+fff+fff+ff+f+f-f-ff-fff-fff
}
ADH107h2c { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=f+f+f--f+f+f
}
ADH107h2c2 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f
f=f+f+f--f+f+f
}
ADH107h2d { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=x+f+x--x+g+x++x+f+x
}
ADH107h2d1 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=x+f+x--x+g+x++x+f+x
}
ADH107h2e { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=x+f+x--x+ff+x++x+f+x
}
ADH107h2e2 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f
f=x+f+x--x+ff+x++x+f+x
}
ADH107h2f { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=x--x+ff+x++x
}
ADH107h2f1 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f
f=x--x+ff+x++x
}
ADH107h3 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f-f-f-f-f-f-f-f
f=f-f-f+f+f+f+f+f+f-f-f-f-f-f-f+f+f
}
ADH107h4 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f-f-f-f-f-f-f-f
f=f-f+f+f+f+f+f-f-f-f-f-f+f
}
ADH107h5 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f-f-f-f-f-f-f-f
f=f+f+f+f+f+f-f-f-f-f-f
}
ADH107h6 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=f+f+f+f+f+f+f-f-f-f-f-f-f
}
ADH107h7 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=+fx--x+fx++x+f+
}
ADH107h8a { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=+f++x--f++x++x++f+
}
ADH107h8b { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f
f=+f++x--f++x++x++f+
}
ADH107h9 { ; Anthony Hanmer 2000
Angle 8 ; Even orders have 180-degree
Axiom f++++f ; rotational symmetry
f=+f+x--x+f+x++x+f+
}
ADH107h10 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=-x-f++f-x-f--f-x-
}
ADH107h11 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=+f-f+f+
}
ADH135 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=ff-f-f--gg--f+f+f
}
ADH135_1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=ff-f-f--gg--f+f+f
}
ADH135a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f-ff-f--gg--f+f+f
}
ADH135a1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f-ff-f--gg--f+f+f
}
ADH135b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f-f--gg--f+f
}
ADH135c { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=ff-ff-f--gg--f+f+f
}
ADH135c1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=ff-ff-f--gg--f+f+f
}
ADH135d { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f-ff-f--gg--f+ff+f
}
ADH135e { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=ff-f-ff--gg--f+ff+f
}
ADH135e1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=ff-f-ff--gg--f+ff+f
}
ADH135f { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f-f-g-f+f
}
ADH135g { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f-f-f--[gg--f+f]+f
}
ADH135h { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=ff-f-f--gg--f+f+ff
}
ADH136 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=ff--g-f-f
}
ADH137 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=ff--g+g--ff-f
}
ADH138 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=f-f-f-f-f----g-f+f----g+f+f+f+f
}
ADH138a { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f
f=f-f-f-f-f----g-f+f----g+f+f+f+f
}
ADH138b { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=f-f-f----g-f+f----g+f+f
}
ADH138c { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=f-f----g-f+f----g+f
}
ADH138d { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f-f--g-f+f--g+f
}
ADH138e { ; Anthony Hanmer 2000
Angle 3 ;
Axiom f-f-f
f=f-f-g-f+f-g+f+f
}
ADH138f { ; Anthony Hanmer 2000
Angle 6 ;
Axiom f--f--f
f=f-f-f---g-f+f---g+f+f
}
ADH138g { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=f-x-f-x-f----g-f+f----g+f+x+f
}
ADH107h13 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=f+f+x--x+f+x++x+f+f
}
ADH107h14 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=x+f+f+x--x+f+x++x+f+f+x
}
ADH139 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff--g+ff--g
}
ADH140 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff--g+ff--g-ff
}
ADH141 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff--gg-g--fff
}
ADH142 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff+ff--g+ff
}
ADH143 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff--g-ff+g--fff
}
ADH144 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff+ff--g-g--ff
}
ADH145 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff--g+g+g--f+ff+f
}
ADH146 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff--g+g+g--ff--g+ff-f
}
ADH147 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff-g--g++f
}
ADH148 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f-@.8g--@.8f
}
ADH149 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff--g-ff-gg-g-g--ff
}
ADH107h15 { ; Anthony Hanmer 2000
Angle 8 ; Odd orders have
Axiom fh ; 180-degree rotational symmetry
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
}
ADH107h15a { ; Anthony Hanmer 2000
Angle 8 ;
Axiom fh++fh++fh++fh
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
}
ADH107h15b { ; Anthony Hanmer 2000
Angle 8 ;
Axiom fh--fh--fh--fh
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
}
ADH107h15c { ; Anthony Hanmer 2000
Angle 8 ; Even orders are rectangular
Axiom fh--fh++fh++fh++fh--fh++fh++fh
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
}
ADH107h15ccol1 { ; Anthony Hanmer 2000
Angle 8 ; Even orders are rectangular
Axiom c09fh--c09fh++c09fh++c09fh++c12fh--c12fh++c12fh++c12fh
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
}
ADH107h15ccol2 { ; Anthony Hanmer 2000
Angle 8 ; Even orders are rectangular
Axiom c09fh--c12fh++c12fh++c09fh++c09fh--c12fh++c12fh++c09fh
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
}
ADH107h15ccol3 { ; Anthony Hanmer 2000
Angle 8 ; Even orders are rectangular
Axiom c09fh--c12fh++c09fh++c12fh++c09fh--c12fh++c09fh++c12fh
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
}
ADH107h15d { ; Anthony Hanmer 2000
Angle 8 ; Odd orders have rotational symmetty
Axiom fhjk++fhjk++fhjk++fhjk
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
j=+x+f--f+x+f++f+x+
k=-x-f--x+f+x++x+f+
}
ADH107h15e { ; Anthony Hanmer 2000
Angle 8 ; Even orders have 180-degree rotational symmetry
Axiom fhjk--fhjk
f=+f+x--x+f+x++x+f+
h=-f-x++x-f-x--x-f-
j=+x+f--f+x+f++f+x+
k=-x-f--x+f+x++x+f+
}
ADH107h15f { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f+h+j+k+f+h+j+k+f+h+j+k+f+h+j+k
f=+f+x--x+f+x++x+f+ ; even orders have 90-degree rotational symmetry
h=-f-x++x-f-x--x-f- ; odd orders have 180-degree rotational symmetry
j=+x+f--f+x+f++f+x+
k=-x-f--x+f+x++x+f+
}
ADH107h15g { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f+h+j+k-f+h+j+k-f+h+j+k-f+h+j+k
f=+f+x--x+f+x++x+f+ ; odd orders have 90-degree rotational symmetry
h=-f-x++x-f-x--x-f-
j=+x+f--f+x+f++f+x+
k=-x-f--x+f+x++x+f+
}
ADH107h16 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f
f=f+f+x--x+f+x++x+f+
}
ADH107h17a { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=+f++x--x+f++x++x+f+
}
ADH107h17b { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f
f=+f++x--x+f++x++x+f+
}
ADH107h17c { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f++f++f++f--f++f++f++f
f=+f++x--x+f++x++x+f+
}
ADH107h17d { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f--f--f--f++f--f--f--f
f=+f++x--x+f++x++x+f+
}
ADH107h17e { ; Anthony Hanmer 2000
Angle 8 ;
Axiom
f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f--@.75f
f=+f++x--x+f++x++x+f+
}
ADH107h17e1 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom
[f--@.75f--@.75f--@.75f--@.75f]++[f--@.75f--@.75f--@.75f--@.75f]++[f--@.75f--@.75f--@.75f--@.75f]++[f--@.75f--@.75f--@.75f--@.75f]
f=+f++x--x+f++x++x+f+
}
ADH107h18 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f
f=+f++f--g+f++g+f+
}
ADH107h19 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=+f+x--x+g+x++x+f+g
}
ADH107h20a { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=+f++x--x++f++x++x+f+
}
ADH107h20b { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f
f=+f++x--x++f++x++x+f+
}
ADH107h21 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom fh++fh++fh++fh
f=-f--x++x-f--x--x-x
h=+f++x--x+f++x++x+x
}
ADH107h22 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++++f++++f++++f
f=+x++f--f+x++f++f
}
ADH107h22a { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++++f-f++++f-f++++f-f++++f-f++++f-f++++f-f++++f-f++++f-f
f=+x++f--f+x++f++f
}
ADH107h22b { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f+++++++f-f+++++++f-f+++++++f-f+++++++f-f
f=+x++f--f+x++f++f
}
ADH107h22c { ; Anthony Hanmer 2000
Angle 8 ;
Axiom ffff++++ffff
f=+x++f--f+x++f++f
}
ADH107h22d { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=x++f-f++x++f++f
}
ADH107h22d1 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++++f++++f++++f++++f++++f++++f++++f
f=x++f-f++x++f++f
}
ADH107h22d2 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f----f----f----f----f----f----f----f
f=x++f-f++x++f++f
}
ADH107h22e { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f----f----f----f
f=x+f-f++x++f++f
}
ADH107h23 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=+x++ff--f+x++f++f
}
ADH107h24 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=+x++f--ff+x++f++f
}
ADH107h25 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=+x++f--f+x++ff++f
}
ADH107h26 { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f
f=+x++f--f+x++f++ff
}
ADH119zzn4 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f++f-f-f-f
f=f+[f+g]-f
}
ADH150 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff--x+ff+x++f
}
ADH151 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++x-f+x
}
ADH153a1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=ff++x-f--x+ff-x
}
ADH153a2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=ff++x-f--x+ff-x
}
ADH153b1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f
f=ff++x-ff--x+ff-x
}
ADH153c2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f
f=ff++x-f--x+f-x
}
ADH153d1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f++x-ff--x+ff-x
}
ADH153d2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f++x-ff--x+ff-x
}
ADH153e2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f
f=f++x-ff--x+f-x
}
ADH153f1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=ff++x-ff--x+f-x
}
ADH153f2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=ff++x-ff--x+f-x
}
ADH153g { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff++x-f--x+f-x
}
ADH153h { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++x-fff--x+f-x
}
ADH153i { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++x-f--x+fff-x
}
ADH153j { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff++x-fff--x+f-x
}
ADH153k { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff++x-f--x+fff-x
}
ADH153l { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++x-fff--x+fff-x
}
ADH153m { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff++x-fff--x+fff-x
}
ADH153n { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff++x-ff--x+ff-x
}
ADH153o { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff++x-fff--x+ff-x
}
ADH153p { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff++x-ff--x+fff-x
}
ADH153q { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff++x-fff--x+ff-x
}
ADH153r { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff++x-f--x+ff-x
}
ADH153s { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff++x-fff--x+f-x
}
ADH153t { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff++x-ff--x+f-x
}
ADH153u { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff++x-f--x+fff-x
}
ADH153v { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++x-ff--x+fff-x
}
ADH153w { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++x-fff--x+ff-x
}
ADH154a { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=f+f--f+f
}
ADH154b { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f
f=f+f--f+f
}
ADH154c { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f--f--f--f--f--f--f--f
f=f+f-f+f
}
ADH154d { ; Anthony Hanmer 2000
Angle 8 ;
Axiom f++f++f++f
f=f+ff--ff+f
}
ADH173a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f-f-f+f++f-f-f+f
}
ADH173b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+f++f-f-f
}
ADH173c { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+f-f-f++f-f-f+f
}
ADH173d { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f-x-f+ff+x
}
ADH173d1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f-x-f+ff+x
}
ADH173d2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f-x-f+ff+x
}
ADH173e { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+x+f-x+ff++x-f
}
ADH173f { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+f-f-f+f+f-f-f+f
}
ADH174 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+f-f-f+f++f+f+f-f
}
ADH174a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f+f-x-f+f++f+f--x-f
}
ADH174a1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f--f
f=f+f-x-f+f++f+f--x-f
}
ADH174a1col { ; Anthony Hanmer 2000
Angle 4 ;
Axiom c09f+c12f+c14f+c10f
f=f+f-x-f+f++f+f--x-f
}
ADH174a2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f+f-x-f+f++f+f--x-f
}
ADH174a2col { ; Anthony Hanmer 2000
Angle 4 ;
Axiom c09f-c12f-c14f-c10f
f=f+f-x-f+f++f+f--x-f
}
ADH174b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+f-f-f+f++f+f+f-f
}
ADH174c { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++f-x-f+x++f+f--x-f
}
ADH174d { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+f-x-f+f++x+f--x-f
}
ADH174e { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+x-f-f+f++f+f--x-f
}
ADH174f { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++x-[f-x+f+]f-f
}
ADH174f1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f++x-[f-x+f+]f-f
}
ADH174f2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f++x-[f-x+f+]f-f
}
ADH174g { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+x-f-f+x++f+f--x-f
}
ADH174h { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+x+ff+x+f--x-f
}
ADH174i { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+x-f-f+f++f+x--x-f
}
ADH175 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=fxfyfx+fx+fy-fyfx
y=fyfx+fx-fy-fyfxfy
f=
}
ADH175a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=fxfy-fx+fy-fyfx
y=fyfx+fx-fy+fxfy
f=
}
ADH175b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=fxfyfy+fx+fy-fyfx
y=fyfx+fx-fy-fxfxfy
f=
}
ADH175c { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=+fxfyfy+fyfy-fx++fyfx
y=fyfx--fy+fxfx-fxfxfy-
f=
}
ADH175d { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=fxfyfy+fxfx+fy-fyfx
y=fyfx+fx-fyfy-fxfxfy
f=
}
ADH175e { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=+fxfx+fy-fyfx
y=fyfx+fx-fyfy-
f=
}
ADH175f { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=+fxfx+fy+fx-fy
y=fx+fy-fx-fyfy-
f=
}
ADH175g { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=+fxfy
y=fxfy-
f=
}
ADH175g1 { ; Anthony Hanmer 2000
Angle 4 ; Odd orders have 90-degree rotational symmetry
Axiom z-z-z-z
z=f
f=+fxfy
y=fxfy-
f=
}
ADH175g1col { ; Anthony Hanmer 2000
Angle 4 ; Odd orders have 90-degree rotational symmetry
Axiom c09z-c12z-c09z-c12z
z=f
f=+fxfy
y=fxfy-
f=
}
ADH175h { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=fx+fy
y=fx-fy
f=
}
ADH175h1 { ; Anthony Hanmer 2000
Angle 4 ; Odd orders have 90-degree rotational symmetry
Axiom z-z-z-z
z=f
f=fx+fy
y=fx-fy
f=
}
ADH175h2 { ; Anthony Hanmer 2000
Angle 4 ; Odd orders have 90-degree rotational symmetry
Axiom z+z+z+z
z=f
f=fx+fy
y=fx-fy
f=
}
ADH175i { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=fx+fy+
y=-fx-fy
f=
}
ADH175i1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z-z-z-z
z=f
f=fx+fy+
y=-fx-fy
f=
}
ADH175i2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z+z+z+z
z=f
f=fx+fy+
y=-fx-fy
f=
}
ADH175j { ; Anthony Hanmer 2000
Angle 4 ;
Axiom z
z=f
f=-fyfx-fy
y=fx+fyfx+
f=
}
ADH176 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f++x-ff+x
}
ADH176a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f++x-ff+x
}
ADH177 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f++f-f-f-f
f=f+f-@.5f-@2f+f
}
ADH177a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f+f-@.5f-@2f+f
}
ADH178 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f-f++f
}
ADH178a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f-g+f-f
}
ADH178b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f
f=f-f+ff-ff
}
ADH179 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f+ff+ff+f+f-f-ff-ff
}
ADH179a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f
f=f+ff+ff+f+f-f-ff-ff
}
ADH179b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f+ff+f+f-f-ff-f
}
ADH179c { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=ff+f+f-f-f
}
ADH179c1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=ff+f+f-f-f
}
ADH179d { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f+ff+f+f-f-ff-ff
}
ADH179d1 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f+ff+f+f-f-ff-ff
}
ADH179d2 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f++f
f=f+ff+f+f-f-ff-ff
}
ADH180 { ; Anthony Hanmer 2000
Angle 3 ;
Axiom f
f=f+f+ff-x+f+x
}
ADH180a { ; Anthony Hanmer 2000
Angle 3 ;
Axiom f+f+f
f=f+f+ff-x+f+x
}
ADH181 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f-f+ff-x+f+x
}
ADH181a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=f-f+ff-x+f+x
}
ADH181b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=f-f+ff-x+f+x
}
ADH182 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff-ff-f+f+ff+ff
}
ADH182a { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f+f+f+f
f=fff-ff-f+f+ff+ff
}
ADH182b { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f-f-f-f
f=fff-ff-f+f+ff+ff
}
ADH183 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=fff-ff-f+f+ff+f
}
ADH184 { ; Anthony Hanmer 2000
Angle 4 ;
Axiom f
f=f-ff-f+f+ff+f
}
______________________________________________________
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------------------------------
Date: Thu, 16 Mar 2000 01:45:10 -0500 (EST)
From: Jim Muth <jamth@mindspring.com>
Subject: (fractint) FOTD, 16-03-00 (Rolling Grassland [6]) (c)
FOTD -- March 16, 2000 (Rating 6)
Fractal enthusiasts and visionaries:
Having survived the tempests of the Ides of March, I thought a
nice soothing fractal would be an appropriate way to end the
day. So I unpacked an image I had stored away a year or so ago,
touched up the coloring a bit, and declared the result FOTD for
March 16.
To me, this picture resembles a scene on a rolling, wind-swept,
grass-covered prairie. All we need is a cloud or two in the sky
to complete the illusion. Of course, no camera was used to
create the scene other than the camera of the mind. The formula
that created the picture is my RectangularN, which computes the
Rectangular (imag[z],imag[c]) slices of Z^n+C. In the case of
today's picture, n=1.1.
I named the picture "Rolling Grassland". The reason for the
name will be apparent as soon as the image is viewed. That
image may be viewed by running the parameter file and waiting
8-1/2 minutes, or by going to:
<alt.binaries.pictures.fractals>
or to:
<http://home.att.net/~Paul.N.Lee/FotD/FotD.html>
and downloading the JPEG file from there.
The fractal weather was near perfect today, with a temperature
of 70F (21C) that gave the cats their best day of the year.
Unfortunately, in the late afternoon an unexpectedly strong wind
arose, which struck a pile of old newspapers that I had stacked
on the porch, and scattered them all over the yard. I knew I
should have tied that bundle.
Once again I have fallen short on my philosophical musings, but
once again tomorrow I'll have another try. Until then, take
care, and be at peace.
Jim Muth
jamth@mindspring.com
START 20.0 PAR-FORMULA FILE================================
Rolling_Grassland { ; time=0:08:26.40 SF5 on a P200
; Version 2000 Patchlevel 9
reset=2000 type=formula formulafile=slices.frm
formulaname=RectangularN passes=1
center-mag=-0.00255084527186440/+0.00001503202402791\
/178233/0.001255/0.148/89.811
params=1.1/0/0/0/0.041627863/-0.002064849 float=y
maxiter=10000 bailout=25 inside=0
logmap=136 symmetry=none periodicity=10
colors=000Noz<2>PozQozRoySox<12>`ow`owaow<3>dowdptep\
w<13>oqwpqwprw<3>srwtrr<3>sqZsqUrqPrqKrqG<50>em5em5e\
m4<3>dm4cl5ck5<6>_g5_f5Zf5<3>Xc5_c5cb5<3>c`6cc6ca6cZ\
6<3>cX6cW6cV6<3>ST6PS6NR7MQ7KQ7<3>KQ7KQ7KQ7KQ7IM7<18\
>8A88A8798<2>678678789<68>`SV
}
frm:RectangularN {; Jim Muth
b=p1, z=flip(real(pixel))+p2,
c=flip(imag(pixel))+p3:
z=z^(b)+c,
|z| <= 16
}
END 20.0 PAR-FORMULA FILE==================================
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------------------------------
Date: Tue, 21 Mar 2000 16:47:12 +0100
From: Ralph Feltens <feltens@biochem.mu-luebeck.de>
Subject: Re: (fractint) multiple copies of mail
Me too!
Ralph Feltens
"Paul N. Lee" wrote:
> Is something going on with the Discussion List server ??
>
> Just received another copy of something that was sent out days ago.
>
> Have been receiving multiple copies of different postings every now and
> then for the past week or so.
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------------------------------
Date: Tue, 21 Mar 2000 11:02:02 -0500
From: "James R. McKenzie" <jimmckenzie@earthlink.net>
Subject: Re: (fractint) multiple copies of mail
I've been getting them that way for about a month. Not enough to be a
bother but noticeable. Probably just some odd-ball setting that only crops
up once every other blue moon or so.
T H A N K Y O U
James R. McKenzie
jimmckenzie@earthlink.net
- ----- Original Message -----
From: "Ralph Feltens" <feltens@biochem.mu-luebeck.de>
To: <fractint@lists.xmission.com>
Sent: Tuesday, March 21, 2000 10:47 AM
Subject: Re: (fractint) multiple copies of mail
> Me too!
>
> Ralph Feltens
>
>
>
> "Paul N. Lee" wrote:
>
> > Is something going on with the Discussion List server ??
> >
> > Just received another copy of something that was sent out days ago.
> >
> > Have been receiving multiple copies of different postings every now and
> > then for the past week or so.
>
>
> --------------------------------------------------------------
> Thanks for using Fractint, The Fractals and Fractint Discussion List
> Post Message: fractint@lists.xmission.com
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> Administrator: twegner@fractint.org
> Unsubscribe: majordomo@lists.xmission.com "unsubscribe fractint"
>
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------------------------------
End of fractint-digest V1 #460
******************************
