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Ultra Fractal 3 anyone
page: 10
share:
Was wondering if anyone else on the board has an interest in fractal images.
I have just obtained i will say a copy off Ultra Fractal 3 and its great complicated to use but well ain`t everything at the start really.
If anyone else into this please post would be interested in some mathematical formulas for these images off chao`s.
thanks Natt
I have just obtained i will say a copy off Ultra Fractal 3 and its great complicated to use but well ain`t everything at the start really.
If anyone else into this please post would be interested in some mathematical formulas for these images off chao`s.
thanks Natt
There are a few bugs in the formula but, as you use them you could correct them and post your findings.
Any help would be great as they do get a bit complex,and when you look for errors sometimes you can`t quite find them.
Thanx for Help Natt
ps would you post one off yours to see what others have come up with.
init:
; complex _fd_dist
float _dist = 0
; float _ft_dist = 0
float _tdist = 0
bool _do_trap = true
float _trap = 0.01
complex zStart = 0
if (@initialisation == 0) ; init:
zStart = @i_randomness * #random
endif;
loop:
if (@initialisation == 1) ; loop:
zStart = #z + @i_randomness * #random
endif;
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
complex _fd_dist = @fkt_d(zStart)-@fkt_d(#pixel)
_dist = cabs(_fd_dist)
complex _ft_dist = @fkt_1(zStart)-@fkt_2(#pixel)
_tdist = cabs(_ft_dist)
if _do_trap && @_trap_min < _tdist && _tdist < @_trap_max
_do_trap = false
_trap =_dist
endif
final:
#index = _trap + @f_randomness * real(#random)
default:
title = "Some traps with functions"
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param lattice
caption = "Lattice Type"
enum = "None" \
"round" "trunc" "floor" "ceil" "abs" \
"r-round" "r-trunc" "r-floor" "r-ceil" "r-abs" \
"round^2" "trunc^2" "floor^2" "ceil^2" "abs^2" \
"r-round^2" "r-trunc^2" "r-floor^2" "r-ceil^2" "r-abs^2"
default = 0
endparam
param lattFac1
caption = "Lattice Factor 1"
default = (0.1,0.0)
endparam
param lattFac2
caption = "Lattice Factor 2"
default = (0.1,0.0)
endparam
param with_zStart
caption = "zStart everywhere Y/N"
default = false
hint = "Works with the lattices"
endparam
param initialisation
caption = "Initialisation"
enum = "init:" "loop:"
default = 1
endparam
param i_randomness
caption = "i: Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
param f_randomness
caption = "f: Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
func fkt_d
caption = "Distance Function"
default = exp()
endfunc
func fkt_1
caption = "Trap Function 1"
default = ident()
endfunc
func fkt_2
caption = "Trap Function 2"
default = ident()
endfunc
] ; some_other_traps
weierstrass_p_func [
;
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
; complex temp = (-1,0)
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
complex _zz = #z ; init _zz
int iter = 0
complex zStart = 0
loop:
zStart = #z ; init zStart
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
_zz = zStart
iter = iter+1
;
; transformation
;
int lat_real = 0
int lat_imag = 0
complex lat_comp_pp = 0
complex lat_comp_pn = 0
complex lat_comp_np = 0
complex lat_comp_nn = 0
complex W_Fkt_z = 0
if (_zz == 0)
W_Fkt_z = 0
else
if (@Weierstrass == 0) ; P-Function
W_Fkt_z = 1/_zz^2
elseif (@Weierstrass == 1) ; Zeta-Function
W_Fkt_z = 1/_zz
elseif (@Weierstrass == 2) ; Sigma-Function
W_Fkt_z = _zz
endif
endif
;
; Calculate the P-Function
;
while (lat_real _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ; "Difference"
elseif @_mode == 19
temp = _trap ; "Trap Dist"
elseif @_mode == 20
temp = _rtrap ; "Trap Real"
elseif @_mode == 21
temp = _itrap ; "Trap Imag"
elseif @_mode == 22
temp = _ttrap ; "Trap Triang"
elseif @_mode == 23
temp = _ctrap ; "Trap Cubus"
elseif @_mode == 24
temp = _sum ; "Sum Dist"
elseif @_mode == 25
temp = _rsum ; "Sum Real"
elseif @_mode == 26
temp = _isum ; "Sum Imag"
elseif @_mode == 27
temp = _tsum ; "Sum Triang"
elseif @_mode == 28
temp = _csum ; "Sum Cubus"
elseif @_mode == 29
temp = _min_qdist ; "Min MinQuot"
elseif @_mode == 30
temp = _max_qdist ; "Max MinQuot"
elseif @_mode == 32
temp = _qsum ; "Sum MinQuot"
elseif @_mode == 32
temp = _qdist ; "Last MinQuot"
endif
#index = real(@fkt(temp)) + @randomness * real(#random)
default:
title = "Three Weierstrass Functions Colouring"
param _mode
caption = "Dist. Mode"
enum = "Min Dist" "Min Real" "Min Imag" "Min Triang" "Min Cubus" \
"Max Dist" "Max Real" "Max Imag" "Max Triang" "Max Cubus" \
"Act Dist" "Act Real" "Act Imag" \
"Last Dist" "Last Real" "Last Imag" "Last Triang" "Last Cubus" \
"Difference" \
"Trap Dist" "Trap Real" "Trap Imag" "Trap Triang" "Trap Cubus" \
"Sum Dist" "Sum Real" "Sum Imag" "Sum Triang" "Sum Cubus" \
"Min MinQuot" "Max MinQuot" "Sum MinQuot" "Last MinQuot"
endparam
param Weierstrass
caption = "Weierstrass Function"
enum = "P-Function" "Zeta-Function" "Sigma-Function"
endparam
param exponent
caption= "Exponent for P"
default=1.0
endparam
param vector1
caption= "Lattice Vector 1"
default=(1,0)
endparam
param vector2
caption= "Lattice Vector 2"
default=(0,1)
endparam
param pure
caption= "Pure Weierstrass"
default=TRUE
endparam
func fkt
caption = "Additional Function"
default = ident()
endfunc
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param lattice
caption = "Lattice Type"
enum = "None" \
"round" "trunc" "floor" "ceil" "abs" \
"r-round" "r-trunc" "r-floor" "r-ceil" "r-abs" \
"round^2" "trunc^2" "floor^2" "ceil^2" "abs^2" \
"r-round^2" "r-trunc^2" "r-floor^2" "r-ceil^2" "r-abs^2"
default = 0
endparam
param lattFac1
caption = "Lattice Factor 1"
default = (0.1,0.0)
endparam
param lattFac2
caption = "Lattice Factor 2"
default = (0.1,0.0)
endparam
param with_zStart
caption = "zStart everywhere Y/N"
default = false
hint = "Works with the lattices"
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
] ; weierstrass_p_func
riemann_zeta_func [
;
;;
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
; complex temp = (-1,0)
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
int iter = 0
complex zStart = 0
complex _zz = #z ; init _zz
loop:
zStart = #z ; init zStart
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
_zz = zStart
iter = iter+1
;
; transformation
;
int n = 1
complex R_Fkt_z = 0
;
; Calculate the Riemann Zeta-Function
;
while (n _max_dist
_max_dist = _dist
endif
if @_mode == 6 && _rdist > _max_rdist
_max_rdist = _rdist
endif
if @_mode == 7 && _rdist > _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ; "Difference"
elseif @_mode == 19
temp = _trap ; "Trap Dist"
elseif @_mode == 20
temp = _rtrap ; "Trap Real"
elseif @_mode == 21
temp = _itrap ; "Trap Imag"
elseif @_mode == 22
temp = _ttrap ; "Trap Triang"
elseif @_mode == 23
temp = _ctrap ; "Trap Cubus"
elseif @_mode == 24
temp = _sum ; "Sum Dist"
elseif @_mode == 25
temp = _rsum ; "Sum Real"
elseif @_mode == 26
temp = _isum ; "Sum Imag"
elseif @_mode == 27
temp = _tsum ; "Sum Triang"
elseif @_mode == 28
temp = _csum ; "Sum Cubus"
elseif @_mode == 29
temp = _min_qdist ; "Min MinQuot"
elseif @_mode == 30
temp = _max_qdist ; "Max MinQuot"
elseif @_mode == 32
temp = _qsum ; "Sum MinQuot"
elseif @_mode == 32
temp = _qdist ; "Last MinQuot"
endif
#index = real(@fkt(temp)) + @randomness * real(#random)
default:
title = "Riemann Zeta Function Colouring"
param _mode
caption = "Dist. Mode"
enum = "Min Dist" "Min Real" "Min Imag" "Min Triang" "Min Cubus" \
"Max Dist" "Max Real" "Max Imag" "Max Triang" "Max Cubus" \
"Act Dist" "Act Real" "Act Imag" \
"Last Dist" "Last Real" "Last Imag" "Last Triang" "Last Cubus" \
"Difference" \
"Trap Dist" "Trap Real" "Trap Imag" "Trap Triang" "Trap Cubus" \
"Sum Dist" "Sum Real" "Sum Imag" "Sum Triang" "Sum Cubus" \
"Min MinQuot" "Max MinQuot" "Sum MinQuot" "Last MinQuot"
endparam
param exponent
caption= "Exponent for R-Zeta"
default=1.0
endparam
param pure
caption= "With Pixel Addition"
default=TRUE
endparam
func fkt
caption = "Additional Function"
default = ident()
endfunc
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param lattice
caption = "Lattice Type"
enum = "None" \
"round" "trunc" "floor" "ceil" "abs" \
"r-round" "r-trunc" "r-floor" "r-ceil" "r-abs" \
"round^2" "trunc^2" "floor^2" "ceil^2" "abs^2" \
"r-round^2" "r-trunc^2" "r-floor^2" "r-ceil^2" "r-abs^2"
default = 0
endparam
param lattFac1
caption = "Lattice Factor 1"
default = (0.1,0.0)
endparam
param lattFac2
caption = "Lattice Factor 2"
default = (0.1,0.0)
endparam
param with_zStart
caption = "zStart everywhere Y/N"
default = false
hint = "Works with the lattices"
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
] ; riemann_zeta_func
joukowskij_func [
;
;
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
complex _zz = #z ; init _zz
complex zStart = 0
loop:
zStart = #z ; init zStart
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
complex J_Fkt_z = (zStart + @epsilon/zStart)/2
if (@pure)
_zz = J_Fkt_z^@exponent
else
_zz = J_Fkt_z^@exponent + #pixel
endif
;
; Calculate distances
;
_dist = cabs(_zz - #z)
_rd = real(_zz - #z)
_id = imag(_zz - #z)
_rdist = abs(_rd)
_idist = abs(_id)
if _rd > _id
_tdist = _rdist
_cdist = _idist
if _id == 0
_qdist = _rdist
else
_qdist = _rdist / _idist
endif
else
_tdist = _idist
_cdist = _rdist
if _rd == 0
_qdist = _idist
else
_qdist = _idist / _rdist
endif
endif
;
; Calculate Min
;
if @_mode == 0 && _dist < _min_dist
_min_dist = _dist
endif
if @_mode == 1 && _rdist < _min_rdist
_min_rdist = _rdist
endif
if @_mode == 2 && _idist < _min_idist
_min_idist = _idist
endif
if @_mode == 3 && _tdist < _min_tdist
_min_tdist = _tdist
endif
if @_mode == 4 && _tdist < _min_cdist
_min_cdist = _cdist
endif
if @_mode == 29 && _qdist < _min_qdist
_min_qdist = _qdist
endif
;
; Calculate Max
;
if @_mode == 5 && _dist > _max_dist
_max_dist = _dist
endif
if @_mode == 6 && _rdist > _max_rdist
_max_rdist = _rdist
endif
if @_mode == 7 && _rdist > _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ; "Difference"
elseif @_mode == 19
temp = _trap ; "Trap Dist"
elseif @_mode == 20
temp = _rtrap ; "Trap Real"
elseif @_mode == 21
temp = _itrap ; "Trap Imag"
elseif @_mode == 22
temp = _ttrap ; "Trap Triang"
elseif @_mode == 23
temp = _ctrap ; "Trap Cubus"
elseif @_mode == 24
temp = _sum ; "Sum Dist"
elseif @_mode == 25
temp = _rsum ; "Sum Real"
elseif @_mode == 26
temp = _isum ; "Sum Imag"
elseif @_mode == 27
temp = _tsum ; "Sum Triang"
elseif @_mode == 28
temp = _csum ; "Sum Cubus"
elseif @_mode == 29
temp = _min_qdist ; "Min MinQuot"
elseif @_mode == 30
temp = _max_qdist ; "Max MinQuot"
elseif @_mode == 32
temp = _qsum ; "Sum MinQuot"
elseif @_mode == 32
temp = _qdist ; "Last MinQuot"
endif
#index = real(@fkt(temp)) + @randomness * real(#random)
default:
title = "Joukowskij Function Colouring"
param _mode
caption = "Dist. Mode"
enum = "Min Dist" "Min Real" "Min Imag" "Min Triang" "Min Cubus" \
"Max Dist" "Max Real" "Max Imag" "Max Triang" "Max Cubus" \
"Act Dist" "Act Real" "Act Imag" \
"Last Dist" "Last Real" "Last Imag" "Last Triang" "Last Cubus" \
"Difference" \
"Trap Dist" "Trap Real" "Trap Imag" "Trap Triang" "Trap Cubus" \
"Sum Dist" "Sum Real" "Sum Imag" "Sum Triang" "Sum Cubus" \
"Min MinQuot" "Max MinQuot" "Sum MinQuot" "Last MinQuot"
endparam
param exponent
caption= "Exponent for J"
default=1.0
endparam
param epsilon
caption= "Epsilon, Coeff. for 1/z"
default=1.0
endparam
param pure
caption= "With Pixel Addition"
default=TRUE
endparam
func fkt
caption = "Additional Function"
default = ident()
endfunc
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param lattice
caption = "Lattice Type"
enum = "None" \
"round" "trunc" "floor" "ceil" "abs" \
"r-round" "r-trunc" "r-floor" "r-ceil" "r-abs" \
"round^2" "trunc^2" "floor^2" "ceil^2" "abs^2" \
"r-round^2" "r-trunc^2" "r-floor^2" "r-ceil^2" "r-abs^2"
default = 0
endparam
param lattFac1
caption = "Lattice Factor 1"
default = (0.1,0.0)
endparam
param lattFac2
caption = "Lattice Factor 2"
default = (0.1,0.0)
endparam
param with_zStart
caption = "zStart everywhere Y/N"
default = false
hint = "Works with the lattices"
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
] ; joukowskij_func
agm [
init:
complex ar = |real(@fn1(#pixel))|
complex ge = |imag(@fn2(#pixel))|
complex arit = 0
complex geom = 0
int iter = 0
bool do_loop = TRUE
loop:
if (do_loop)
iter = iter +1
; Calculate new values of arithmetical
; and geometrical mean
arit = (ar+ge)/2.0
geom = sqrt(ar*ge)
; give these values back
; for the next loop-run
ar = arit
ge = geom
; stop the loop
if (|@fkt(ar)-@fkt(ge)| < @epsilon/@granulation || \
iter > @maxIter*@granulation)
do_loop = FALSE
endif
endif
final:
#index = real(@trf(iter/@granulation)) + @randomness * real(#random)
default:
title = "AGM #1 (Arithm. Geom. Mean)"
param epsilon
caption = "epsilon"
default = 0.001
min = 0.0
endparam
param granulation
caption = "Granulation"
default = 1.0
min = 0.0001
endparam
param maxIter
caption = "Maximum Iterations"
default = 60
min = 1
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
func fkt
caption = "Test Function"
default = ident()
endfunc
func trf
caption = "Transfer Function"
default = ident()
endfunc
func fn1
caption = "Real Part Init Function"
default = ident()
endfunc
func fn2
caption = "Imag Part Init Function"
default = ident()
endfunc
] ; agm
agm2 [
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
complex ar = |real(@fn1(#pixel))|
complex ge = |imag(@fn2(#pixel))|
complex arit = 0
complex geom = 0
complex _zz = #pixel
int iter = 0
bool do_loop = TRUE
loop:
if (do_loop)
iter = iter +1
; Calculate new values of arithmetical
; and geometrical mean
arit = (ar+ge)/2.0
geom = sqrt(ar*ge)
; give these values back
; for the next loop-run
ar = arit
ge = geom
; stop the loop
if (|@fkt(ar)-@fkt(ge)| < @epsilon/@granulation || \
iter > @maxIter*@granulation)
do_loop = FALSE
endif
if (_zz != 0)
_zz = _zz^iter + 1/_zz ;
endif
if (@pure)
_zz = _zz + #pixel
endif
endif
;
; Calculate distances
;
_dist = cabs(_zz - #z)
_rd = real(_zz - #z)
_id = imag(_zz - #z)
_rdist = abs(_rd)
_idist = abs(_id)
if _rd > _id
_tdist = _rdist
_cdist = _idist
if _id == 0
_qdist = _rdist
else
_qdist = _rdist / _idist
endif
else
_tdist = _idist
_cdist = _rdist
if _rd == 0
_qdist = _idist
else
_qdist = _idist / _rdist
endif
endif
;
; Calculate Min
;
if @_mode == 0 && _dist < _min_dist
_min_dist = _dist
endif
if @_mode == 1 && _rdist < _min_rdist
_min_rdist = _rdist
endif
if @_mode == 2 && _idist < _min_idist
_min_idist = _idist
endif
if @_mode == 3 && _tdist < _min_tdist
_min_tdist = _tdist
endif
if @_mode == 4 && _tdist < _min_cdist
_min_cdist = _cdist
endif
if @_mode == 29 && _qdist < _min_qdist
_min_qdist = _qdist
endif
;
; Calculate Max
;
if @_mode == 5 && _dist > _max_dist
_max_dist = _dist
endif
if @_mode == 6 && _rdist > _max_rdist
_max_rdist = _rdist
endif
if @_mode == 7 && _rdist > _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ; "Difference"
elseif @_mode == 19
temp = _trap ; "Trap Dist"
elseif @_mode == 20
temp = _rtrap ; "Trap Real"
elseif @_mode == 21
temp = _itrap ; "Trap Imag"
elseif @_mode == 22
temp = _ttrap ; "Trap Triang"
elseif @_mode == 23
temp = _ctrap ; "Trap Cubus"
elseif @_mode == 24
temp = _sum ; "Sum Dist"
elseif @_mode == 25
temp = _rsum ; "Sum Real"
elseif @_mode == 26
temp = _isum ; "Sum Imag"
elseif @_mode == 27
temp = _tsum ; "Sum Triang"
elseif @_mode == 28
temp = _csum ; "Sum Cubus"
elseif @_mode == 29
temp = _min_qdist ; "Min MinQuot"
elseif @_mode == 30
temp = _max_qdist ; "Max MinQuot"
elseif @_mode == 32
temp = _qsum ; "Sum MinQuot"
elseif @_mode == 32
temp = _qdist ; "Last MinQuot"
endif
#index = real(@trf(temp)) + @randomness * real(#random)
default:
title = "AGM #2 (Arithm. Geom. Mean)"
param _mode
caption = "Dist. Mode"
enum = "Min Dist" "Min Real" "Min Imag" "Min Triang" "Min Cubus" \
"Max Dist" "Max Real" "Max Imag" "Max Triang" "Max Cubus" \
"Act Dist" "Act Real" "Act Imag" \
"Last Dist" "Last Real" "Last Imag" "Last Triang" "Last Cubus" \
"Difference" \
"Trap Dist" "Trap Real" "Trap Imag" "Trap Triang" "Trap Cubus" \
"Sum Dist" "Sum Real" "Sum Imag" "Sum Triang" "Sum Cubus" \
"Min MinQuot" "Max MinQuot" "Sum MinQuot" "Last MinQuot"
endparam
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param epsilon
caption = "epsilon"
default = 0.1
min = 0.0
endparam
param pure
caption= "With Pixel Addition"
default=TRUE
endparam
param granulation
caption = "Granulation"
default = 1.0
min = 0.0001
endparam
param maxIter
caption = "Maximum Iterations"
default = 200
min = 1
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
func fkt
caption = "Additional Function"
default = recip()
endfunc
func trf
caption = "Transfer Function"
default = ident()
endfunc
func fn1
caption = "Real Part Init Function"
default = ident()
endfunc
func fn2
caption = "Imag Part Init Function"
default = ident()
endfunc
] ; agm2
agm3 [
;
;
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
complex ar = |real(@fn1(#pixel))|
complex ge = |imag(@fn2(#pixel))|
complex arit = 0
complex geom = 0
complex _zz = #pixel
int iter = 0
bool do_loop = TRUE
complex zStart = 0
loop:
zStart = #z ; init zStart
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
_zz = zStart
if (do_loop)
iter = iter +1
; Calculate new values of arithmetical
; and geometrical mean
arit = (ar+ge)/2.0
geom = sqrt(ar*ge)
; give these values back
; for the next loop-run
ar = arit
ge = geom
; stop the loop
if (|@fkt(ar)-@fkt(ge)| < @epsilon/@granulation || \
iter > @maxIter*@granulation)
do_loop = FALSE
endif
if (_zz != 0)
_zz = _zz^iter + 1/_zz ;
endif
if (@pure)
_zz = _zz + #pixel
endif
endif
;
; Calculate distances
;
_dist = cabs(_zz - #z)
_rd = real(_zz - #z)
_id = imag(_zz - #z)
_rdist = abs(_rd)
_idist = abs(_id)
if _rd > _id
_tdist = _rdist
_cdist = _idist
if _id == 0
_qdist = _rdist
else
_qdist = _rdist / _idist
endif
else
_tdist = _idist
_cdist = _rdist
if _rd == 0
_qdist = _idist
else
_qdist = _idist / _rdist
endif
endif
;
; Calculate Min
;
if @_mode == 0 && _dist < _min_dist
_min_dist = _dist
endif
if @_mode == 1 && _rdist < _min_rdist
_min_rdist = _rdist
endif
if @_mode == 2 && _idist < _min_idist
_min_idist = _idist
endif
if @_mode == 3 && _tdist < _min_tdist
_min_tdist = _tdist
endif
if @_mode == 4 && _tdist < _min_cdist
_min_cdist = _cdist
endif
if @_mode == 29 && _qdist < _min_qdist
_min_qdist = _qdist
endif
;
; Calculate Max
;
if @_mode == 5 && _dist > _max_dist
_max_dist = _dist
endif
if @_mode == 6 && _rdist > _max_rdist
_max_rdist = _rdist
endif
if @_mode == 7 && _rdist > _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ;
It has run fine for me though the code could probably be a little quicker for forming the equation.
Have fun remember post some off your formuli ,we could maybe team up for the monthly
Any help would be great as they do get a bit complex,and when you look for errors sometimes you can`t quite find them.
Thanx for Help Natt
ps would you post one off yours to see what others have come up with.
init:
; complex _fd_dist
float _dist = 0
; float _ft_dist = 0
float _tdist = 0
bool _do_trap = true
float _trap = 0.01
complex zStart = 0
if (@initialisation == 0) ; init:
zStart = @i_randomness * #random
endif;
loop:
if (@initialisation == 1) ; loop:
zStart = #z + @i_randomness * #random
endif;
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
complex _fd_dist = @fkt_d(zStart)-@fkt_d(#pixel)
_dist = cabs(_fd_dist)
complex _ft_dist = @fkt_1(zStart)-@fkt_2(#pixel)
_tdist = cabs(_ft_dist)
if _do_trap && @_trap_min < _tdist && _tdist < @_trap_max
_do_trap = false
_trap =_dist
endif
final:
#index = _trap + @f_randomness * real(#random)
default:
title = "Some traps with functions"
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param lattice
caption = "Lattice Type"
enum = "None" \
"round" "trunc" "floor" "ceil" "abs" \
"r-round" "r-trunc" "r-floor" "r-ceil" "r-abs" \
"round^2" "trunc^2" "floor^2" "ceil^2" "abs^2" \
"r-round^2" "r-trunc^2" "r-floor^2" "r-ceil^2" "r-abs^2"
default = 0
endparam
param lattFac1
caption = "Lattice Factor 1"
default = (0.1,0.0)
endparam
param lattFac2
caption = "Lattice Factor 2"
default = (0.1,0.0)
endparam
param with_zStart
caption = "zStart everywhere Y/N"
default = false
hint = "Works with the lattices"
endparam
param initialisation
caption = "Initialisation"
enum = "init:" "loop:"
default = 1
endparam
param i_randomness
caption = "i: Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
param f_randomness
caption = "f: Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
func fkt_d
caption = "Distance Function"
default = exp()
endfunc
func fkt_1
caption = "Trap Function 1"
default = ident()
endfunc
func fkt_2
caption = "Trap Function 2"
default = ident()
endfunc
] ; some_other_traps
weierstrass_p_func [
;
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
; complex temp = (-1,0)
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
complex _zz = #z ; init _zz
int iter = 0
complex zStart = 0
loop:
zStart = #z ; init zStart
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
_zz = zStart
iter = iter+1
;
; transformation
;
int lat_real = 0
int lat_imag = 0
complex lat_comp_pp = 0
complex lat_comp_pn = 0
complex lat_comp_np = 0
complex lat_comp_nn = 0
complex W_Fkt_z = 0
if (_zz == 0)
W_Fkt_z = 0
else
if (@Weierstrass == 0) ; P-Function
W_Fkt_z = 1/_zz^2
elseif (@Weierstrass == 1) ; Zeta-Function
W_Fkt_z = 1/_zz
elseif (@Weierstrass == 2) ; Sigma-Function
W_Fkt_z = _zz
endif
endif
;
; Calculate the P-Function
;
while (lat_real _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ; "Difference"
elseif @_mode == 19
temp = _trap ; "Trap Dist"
elseif @_mode == 20
temp = _rtrap ; "Trap Real"
elseif @_mode == 21
temp = _itrap ; "Trap Imag"
elseif @_mode == 22
temp = _ttrap ; "Trap Triang"
elseif @_mode == 23
temp = _ctrap ; "Trap Cubus"
elseif @_mode == 24
temp = _sum ; "Sum Dist"
elseif @_mode == 25
temp = _rsum ; "Sum Real"
elseif @_mode == 26
temp = _isum ; "Sum Imag"
elseif @_mode == 27
temp = _tsum ; "Sum Triang"
elseif @_mode == 28
temp = _csum ; "Sum Cubus"
elseif @_mode == 29
temp = _min_qdist ; "Min MinQuot"
elseif @_mode == 30
temp = _max_qdist ; "Max MinQuot"
elseif @_mode == 32
temp = _qsum ; "Sum MinQuot"
elseif @_mode == 32
temp = _qdist ; "Last MinQuot"
endif
#index = real(@fkt(temp)) + @randomness * real(#random)
default:
title = "Three Weierstrass Functions Colouring"
param _mode
caption = "Dist. Mode"
enum = "Min Dist" "Min Real" "Min Imag" "Min Triang" "Min Cubus" \
"Max Dist" "Max Real" "Max Imag" "Max Triang" "Max Cubus" \
"Act Dist" "Act Real" "Act Imag" \
"Last Dist" "Last Real" "Last Imag" "Last Triang" "Last Cubus" \
"Difference" \
"Trap Dist" "Trap Real" "Trap Imag" "Trap Triang" "Trap Cubus" \
"Sum Dist" "Sum Real" "Sum Imag" "Sum Triang" "Sum Cubus" \
"Min MinQuot" "Max MinQuot" "Sum MinQuot" "Last MinQuot"
endparam
param Weierstrass
caption = "Weierstrass Function"
enum = "P-Function" "Zeta-Function" "Sigma-Function"
endparam
param exponent
caption= "Exponent for P"
default=1.0
endparam
param vector1
caption= "Lattice Vector 1"
default=(1,0)
endparam
param vector2
caption= "Lattice Vector 2"
default=(0,1)
endparam
param pure
caption= "Pure Weierstrass"
default=TRUE
endparam
func fkt
caption = "Additional Function"
default = ident()
endfunc
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param lattice
caption = "Lattice Type"
enum = "None" \
"round" "trunc" "floor" "ceil" "abs" \
"r-round" "r-trunc" "r-floor" "r-ceil" "r-abs" \
"round^2" "trunc^2" "floor^2" "ceil^2" "abs^2" \
"r-round^2" "r-trunc^2" "r-floor^2" "r-ceil^2" "r-abs^2"
default = 0
endparam
param lattFac1
caption = "Lattice Factor 1"
default = (0.1,0.0)
endparam
param lattFac2
caption = "Lattice Factor 2"
default = (0.1,0.0)
endparam
param with_zStart
caption = "zStart everywhere Y/N"
default = false
hint = "Works with the lattices"
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
] ; weierstrass_p_func
riemann_zeta_func [
;
;;
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
; complex temp = (-1,0)
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
int iter = 0
complex zStart = 0
complex _zz = #z ; init _zz
loop:
zStart = #z ; init zStart
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
_zz = zStart
iter = iter+1
;
; transformation
;
int n = 1
complex R_Fkt_z = 0
;
; Calculate the Riemann Zeta-Function
;
while (n _max_dist
_max_dist = _dist
endif
if @_mode == 6 && _rdist > _max_rdist
_max_rdist = _rdist
endif
if @_mode == 7 && _rdist > _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ; "Difference"
elseif @_mode == 19
temp = _trap ; "Trap Dist"
elseif @_mode == 20
temp = _rtrap ; "Trap Real"
elseif @_mode == 21
temp = _itrap ; "Trap Imag"
elseif @_mode == 22
temp = _ttrap ; "Trap Triang"
elseif @_mode == 23
temp = _ctrap ; "Trap Cubus"
elseif @_mode == 24
temp = _sum ; "Sum Dist"
elseif @_mode == 25
temp = _rsum ; "Sum Real"
elseif @_mode == 26
temp = _isum ; "Sum Imag"
elseif @_mode == 27
temp = _tsum ; "Sum Triang"
elseif @_mode == 28
temp = _csum ; "Sum Cubus"
elseif @_mode == 29
temp = _min_qdist ; "Min MinQuot"
elseif @_mode == 30
temp = _max_qdist ; "Max MinQuot"
elseif @_mode == 32
temp = _qsum ; "Sum MinQuot"
elseif @_mode == 32
temp = _qdist ; "Last MinQuot"
endif
#index = real(@fkt(temp)) + @randomness * real(#random)
default:
title = "Riemann Zeta Function Colouring"
param _mode
caption = "Dist. Mode"
enum = "Min Dist" "Min Real" "Min Imag" "Min Triang" "Min Cubus" \
"Max Dist" "Max Real" "Max Imag" "Max Triang" "Max Cubus" \
"Act Dist" "Act Real" "Act Imag" \
"Last Dist" "Last Real" "Last Imag" "Last Triang" "Last Cubus" \
"Difference" \
"Trap Dist" "Trap Real" "Trap Imag" "Trap Triang" "Trap Cubus" \
"Sum Dist" "Sum Real" "Sum Imag" "Sum Triang" "Sum Cubus" \
"Min MinQuot" "Max MinQuot" "Sum MinQuot" "Last MinQuot"
endparam
param exponent
caption= "Exponent for R-Zeta"
default=1.0
endparam
param pure
caption= "With Pixel Addition"
default=TRUE
endparam
func fkt
caption = "Additional Function"
default = ident()
endfunc
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param lattice
caption = "Lattice Type"
enum = "None" \
"round" "trunc" "floor" "ceil" "abs" \
"r-round" "r-trunc" "r-floor" "r-ceil" "r-abs" \
"round^2" "trunc^2" "floor^2" "ceil^2" "abs^2" \
"r-round^2" "r-trunc^2" "r-floor^2" "r-ceil^2" "r-abs^2"
default = 0
endparam
param lattFac1
caption = "Lattice Factor 1"
default = (0.1,0.0)
endparam
param lattFac2
caption = "Lattice Factor 2"
default = (0.1,0.0)
endparam
param with_zStart
caption = "zStart everywhere Y/N"
default = false
hint = "Works with the lattices"
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
] ; riemann_zeta_func
joukowskij_func [
;
;
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
complex _zz = #z ; init _zz
complex zStart = 0
loop:
zStart = #z ; init zStart
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
complex J_Fkt_z = (zStart + @epsilon/zStart)/2
if (@pure)
_zz = J_Fkt_z^@exponent
else
_zz = J_Fkt_z^@exponent + #pixel
endif
;
; Calculate distances
;
_dist = cabs(_zz - #z)
_rd = real(_zz - #z)
_id = imag(_zz - #z)
_rdist = abs(_rd)
_idist = abs(_id)
if _rd > _id
_tdist = _rdist
_cdist = _idist
if _id == 0
_qdist = _rdist
else
_qdist = _rdist / _idist
endif
else
_tdist = _idist
_cdist = _rdist
if _rd == 0
_qdist = _idist
else
_qdist = _idist / _rdist
endif
endif
;
; Calculate Min
;
if @_mode == 0 && _dist < _min_dist
_min_dist = _dist
endif
if @_mode == 1 && _rdist < _min_rdist
_min_rdist = _rdist
endif
if @_mode == 2 && _idist < _min_idist
_min_idist = _idist
endif
if @_mode == 3 && _tdist < _min_tdist
_min_tdist = _tdist
endif
if @_mode == 4 && _tdist < _min_cdist
_min_cdist = _cdist
endif
if @_mode == 29 && _qdist < _min_qdist
_min_qdist = _qdist
endif
;
; Calculate Max
;
if @_mode == 5 && _dist > _max_dist
_max_dist = _dist
endif
if @_mode == 6 && _rdist > _max_rdist
_max_rdist = _rdist
endif
if @_mode == 7 && _rdist > _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ; "Difference"
elseif @_mode == 19
temp = _trap ; "Trap Dist"
elseif @_mode == 20
temp = _rtrap ; "Trap Real"
elseif @_mode == 21
temp = _itrap ; "Trap Imag"
elseif @_mode == 22
temp = _ttrap ; "Trap Triang"
elseif @_mode == 23
temp = _ctrap ; "Trap Cubus"
elseif @_mode == 24
temp = _sum ; "Sum Dist"
elseif @_mode == 25
temp = _rsum ; "Sum Real"
elseif @_mode == 26
temp = _isum ; "Sum Imag"
elseif @_mode == 27
temp = _tsum ; "Sum Triang"
elseif @_mode == 28
temp = _csum ; "Sum Cubus"
elseif @_mode == 29
temp = _min_qdist ; "Min MinQuot"
elseif @_mode == 30
temp = _max_qdist ; "Max MinQuot"
elseif @_mode == 32
temp = _qsum ; "Sum MinQuot"
elseif @_mode == 32
temp = _qdist ; "Last MinQuot"
endif
#index = real(@fkt(temp)) + @randomness * real(#random)
default:
title = "Joukowskij Function Colouring"
param _mode
caption = "Dist. Mode"
enum = "Min Dist" "Min Real" "Min Imag" "Min Triang" "Min Cubus" \
"Max Dist" "Max Real" "Max Imag" "Max Triang" "Max Cubus" \
"Act Dist" "Act Real" "Act Imag" \
"Last Dist" "Last Real" "Last Imag" "Last Triang" "Last Cubus" \
"Difference" \
"Trap Dist" "Trap Real" "Trap Imag" "Trap Triang" "Trap Cubus" \
"Sum Dist" "Sum Real" "Sum Imag" "Sum Triang" "Sum Cubus" \
"Min MinQuot" "Max MinQuot" "Sum MinQuot" "Last MinQuot"
endparam
param exponent
caption= "Exponent for J"
default=1.0
endparam
param epsilon
caption= "Epsilon, Coeff. for 1/z"
default=1.0
endparam
param pure
caption= "With Pixel Addition"
default=TRUE
endparam
func fkt
caption = "Additional Function"
default = ident()
endfunc
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param lattice
caption = "Lattice Type"
enum = "None" \
"round" "trunc" "floor" "ceil" "abs" \
"r-round" "r-trunc" "r-floor" "r-ceil" "r-abs" \
"round^2" "trunc^2" "floor^2" "ceil^2" "abs^2" \
"r-round^2" "r-trunc^2" "r-floor^2" "r-ceil^2" "r-abs^2"
default = 0
endparam
param lattFac1
caption = "Lattice Factor 1"
default = (0.1,0.0)
endparam
param lattFac2
caption = "Lattice Factor 2"
default = (0.1,0.0)
endparam
param with_zStart
caption = "zStart everywhere Y/N"
default = false
hint = "Works with the lattices"
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
] ; joukowskij_func
agm [
init:
complex ar = |real(@fn1(#pixel))|
complex ge = |imag(@fn2(#pixel))|
complex arit = 0
complex geom = 0
int iter = 0
bool do_loop = TRUE
loop:
if (do_loop)
iter = iter +1
; Calculate new values of arithmetical
; and geometrical mean
arit = (ar+ge)/2.0
geom = sqrt(ar*ge)
; give these values back
; for the next loop-run
ar = arit
ge = geom
; stop the loop
if (|@fkt(ar)-@fkt(ge)| < @epsilon/@granulation || \
iter > @maxIter*@granulation)
do_loop = FALSE
endif
endif
final:
#index = real(@trf(iter/@granulation)) + @randomness * real(#random)
default:
title = "AGM #1 (Arithm. Geom. Mean)"
param epsilon
caption = "epsilon"
default = 0.001
min = 0.0
endparam
param granulation
caption = "Granulation"
default = 1.0
min = 0.0001
endparam
param maxIter
caption = "Maximum Iterations"
default = 60
min = 1
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
func fkt
caption = "Test Function"
default = ident()
endfunc
func trf
caption = "Transfer Function"
default = ident()
endfunc
func fn1
caption = "Real Part Init Function"
default = ident()
endfunc
func fn2
caption = "Imag Part Init Function"
default = ident()
endfunc
] ; agm
agm2 [
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
complex ar = |real(@fn1(#pixel))|
complex ge = |imag(@fn2(#pixel))|
complex arit = 0
complex geom = 0
complex _zz = #pixel
int iter = 0
bool do_loop = TRUE
loop:
if (do_loop)
iter = iter +1
; Calculate new values of arithmetical
; and geometrical mean
arit = (ar+ge)/2.0
geom = sqrt(ar*ge)
; give these values back
; for the next loop-run
ar = arit
ge = geom
; stop the loop
if (|@fkt(ar)-@fkt(ge)| < @epsilon/@granulation || \
iter > @maxIter*@granulation)
do_loop = FALSE
endif
if (_zz != 0)
_zz = _zz^iter + 1/_zz ;
endif
if (@pure)
_zz = _zz + #pixel
endif
endif
;
; Calculate distances
;
_dist = cabs(_zz - #z)
_rd = real(_zz - #z)
_id = imag(_zz - #z)
_rdist = abs(_rd)
_idist = abs(_id)
if _rd > _id
_tdist = _rdist
_cdist = _idist
if _id == 0
_qdist = _rdist
else
_qdist = _rdist / _idist
endif
else
_tdist = _idist
_cdist = _rdist
if _rd == 0
_qdist = _idist
else
_qdist = _idist / _rdist
endif
endif
;
; Calculate Min
;
if @_mode == 0 && _dist < _min_dist
_min_dist = _dist
endif
if @_mode == 1 && _rdist < _min_rdist
_min_rdist = _rdist
endif
if @_mode == 2 && _idist < _min_idist
_min_idist = _idist
endif
if @_mode == 3 && _tdist < _min_tdist
_min_tdist = _tdist
endif
if @_mode == 4 && _tdist < _min_cdist
_min_cdist = _cdist
endif
if @_mode == 29 && _qdist < _min_qdist
_min_qdist = _qdist
endif
;
; Calculate Max
;
if @_mode == 5 && _dist > _max_dist
_max_dist = _dist
endif
if @_mode == 6 && _rdist > _max_rdist
_max_rdist = _rdist
endif
if @_mode == 7 && _rdist > _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ; "Difference"
elseif @_mode == 19
temp = _trap ; "Trap Dist"
elseif @_mode == 20
temp = _rtrap ; "Trap Real"
elseif @_mode == 21
temp = _itrap ; "Trap Imag"
elseif @_mode == 22
temp = _ttrap ; "Trap Triang"
elseif @_mode == 23
temp = _ctrap ; "Trap Cubus"
elseif @_mode == 24
temp = _sum ; "Sum Dist"
elseif @_mode == 25
temp = _rsum ; "Sum Real"
elseif @_mode == 26
temp = _isum ; "Sum Imag"
elseif @_mode == 27
temp = _tsum ; "Sum Triang"
elseif @_mode == 28
temp = _csum ; "Sum Cubus"
elseif @_mode == 29
temp = _min_qdist ; "Min MinQuot"
elseif @_mode == 30
temp = _max_qdist ; "Max MinQuot"
elseif @_mode == 32
temp = _qsum ; "Sum MinQuot"
elseif @_mode == 32
temp = _qdist ; "Last MinQuot"
endif
#index = real(@trf(temp)) + @randomness * real(#random)
default:
title = "AGM #2 (Arithm. Geom. Mean)"
param _mode
caption = "Dist. Mode"
enum = "Min Dist" "Min Real" "Min Imag" "Min Triang" "Min Cubus" \
"Max Dist" "Max Real" "Max Imag" "Max Triang" "Max Cubus" \
"Act Dist" "Act Real" "Act Imag" \
"Last Dist" "Last Real" "Last Imag" "Last Triang" "Last Cubus" \
"Difference" \
"Trap Dist" "Trap Real" "Trap Imag" "Trap Triang" "Trap Cubus" \
"Sum Dist" "Sum Real" "Sum Imag" "Sum Triang" "Sum Cubus" \
"Min MinQuot" "Max MinQuot" "Sum MinQuot" "Last MinQuot"
endparam
param _trap_min
caption = "lower border for trap"
default = 1.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param _trap_max
caption = "upper border for trap"
default = 2.0
min = 0.0
hint = "Only usefull with Traps"
endparam
param epsilon
caption = "epsilon"
default = 0.1
min = 0.0
endparam
param pure
caption= "With Pixel Addition"
default=TRUE
endparam
param granulation
caption = "Granulation"
default = 1.0
min = 0.0001
endparam
param maxIter
caption = "Maximum Iterations"
default = 200
min = 1
endparam
param randomness
caption = "Randomness"
hint = "This adds a random texture to the coloring."
default = 0.0
endparam
func fkt
caption = "Additional Function"
default = recip()
endfunc
func trf
caption = "Transfer Function"
default = ident()
endfunc
func fn1
caption = "Real Part Init Function"
default = ident()
endfunc
func fn2
caption = "Imag Part Init Function"
default = ident()
endfunc
] ; agm2
agm3 [
;
;
init:
float _dist = 0
float _rdist = 0
float _idist = 0
float _tdist = 0
float _cdist = 0
float _qdist = 0
float _rd = 0
float _id = 0
float _min_dist = 1e20
float _max_dist = -1
float _min_rdist = 1e20
float _max_rdist = -1
float _min_idist = 1e20
float _max_idist = -1
float _min_tdist = 1e20
float _max_tdist = -1
float _min_cdist = 1e20
float _max_cdist = -1
float _min_qdist = 1e20
float _max_qdist = -1
float temp = -1
;
; Traps
;
bool _do_trap = true
float _trap = 0.01
bool _do_rtrap = true
float _rtrap = 0.01
bool _do_itrap = true
float _itrap = 0.01
bool _do_ttrap = true
float _ttrap = 0.01
bool _do_ctrap = true
float _ctrap = 0.01
;
; Sums
;
float _sum = 0
float _rsum = 0
float _isum = 0
float _tsum = 0
float _csum = 0
float _qsum = 0
complex ar = |real(@fn1(#pixel))|
complex ge = |imag(@fn2(#pixel))|
complex arit = 0
complex geom = 0
complex _zz = #pixel
int iter = 0
bool do_loop = TRUE
complex zStart = 0
loop:
zStart = #z ; init zStart
;
; Start with the lattices
;
if (@lattice == 1)
zStart = round(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 2)
zStart = trunc(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 3)
zStart = floor(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 4)
zStart = ceil(@lattFac1*zStart) - @lattFac2*zStart
elseif (@lattice == 5)
zStart = abs(@lattFac1*zStart) - @lattFac2*zStart^2
elseif (@lattice == 6)
zStart = round(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 7)
zStart = trunc(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 8)
zStart = floor(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 9)
zStart = ceil(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 10)
zStart = abs(@lattFac1*zStart) \
- @lattFac2*sqrt(real(zStart)*imag(zStart))
elseif (@lattice == 11)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 12)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 13)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 14)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*zStart)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 15)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*zStart^2)^2) \
- @lattFac2*zStart^2
elseif (@lattice == 16)
zStart = round((round(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 17)
zStart = trunc((trunc(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 18)
zStart = floor((floor(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 19)
zStart = ceil((ceil(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
elseif (@lattice == 20)
zStart = abs((abs(@lattFac1*zStart) \
- @lattFac1*sqrt(real(zStart)*imag(zStart)))^2) \
- @lattFac2*zStart^2
endif
_zz = zStart
if (do_loop)
iter = iter +1
; Calculate new values of arithmetical
; and geometrical mean
arit = (ar+ge)/2.0
geom = sqrt(ar*ge)
; give these values back
; for the next loop-run
ar = arit
ge = geom
; stop the loop
if (|@fkt(ar)-@fkt(ge)| < @epsilon/@granulation || \
iter > @maxIter*@granulation)
do_loop = FALSE
endif
if (_zz != 0)
_zz = _zz^iter + 1/_zz ;
endif
if (@pure)
_zz = _zz + #pixel
endif
endif
;
; Calculate distances
;
_dist = cabs(_zz - #z)
_rd = real(_zz - #z)
_id = imag(_zz - #z)
_rdist = abs(_rd)
_idist = abs(_id)
if _rd > _id
_tdist = _rdist
_cdist = _idist
if _id == 0
_qdist = _rdist
else
_qdist = _rdist / _idist
endif
else
_tdist = _idist
_cdist = _rdist
if _rd == 0
_qdist = _idist
else
_qdist = _idist / _rdist
endif
endif
;
; Calculate Min
;
if @_mode == 0 && _dist < _min_dist
_min_dist = _dist
endif
if @_mode == 1 && _rdist < _min_rdist
_min_rdist = _rdist
endif
if @_mode == 2 && _idist < _min_idist
_min_idist = _idist
endif
if @_mode == 3 && _tdist < _min_tdist
_min_tdist = _tdist
endif
if @_mode == 4 && _tdist < _min_cdist
_min_cdist = _cdist
endif
if @_mode == 29 && _qdist < _min_qdist
_min_qdist = _qdist
endif
;
; Calculate Max
;
if @_mode == 5 && _dist > _max_dist
_max_dist = _dist
endif
if @_mode == 6 && _rdist > _max_rdist
_max_rdist = _rdist
endif
if @_mode == 7 && _rdist > _max_rdist
_max_idist = _idist
endif
if @_mode == 8 && _tdist > _max_tdist
_max_tdist = _tdist
endif
if @_mode == 9 && _cdist > _max_cdist
_max_cdist = _cdist
endif
if @_mode == 30 && _qdist > _max_qdist
_max_qdist = _qdist
endif
;
; Calculate the traps
;
if @_mode == 19 && _do_trap && _dist > @_trap_min && _dist < @_trap_max
_do_trap = false
_trap =_dist
endif
if @_mode == 20 && _do_rtrap && _rdist > @_trap_min && _rdist < @_trap_max
_do_rtrap = false
_rtrap =_rdist
endif
if @_mode == 21 && _do_itrap && _idist > @_trap_min && _idist < @_trap_max
_do_itrap = false
_itrap =_idist
endif
if @_mode == 22 && _do_ttrap && _tdist > @_trap_min && _tdist < @_trap_max
_do_ttrap = false
_ttrap =_tdist
endif
if @_mode == 23 && _do_ctrap && _cdist > @_trap_min && _cdist < @_trap_max
_do_ctrap = false
_ctrap =_cdist
endif
;
; Calculate the sums
;
if @_mode == 24
_sum = _sum + _dist
endif
if @_mode == 25
_rsum = _rsum + _rdist
endif
if @_mode == 26
_isum = _isum + _idist
endif
if @_mode == 27
_tsum = _tsum + _tdist
endif
if @_mode == 28
_csum = _csum + _cdist
endif
if @_mode == 31
_qsum = _qsum + _qdist
endif
final:
if @_mode == 0
temp = _min_dist ; "Min Dist"
elseif @_mode == 1
temp = _min_rdist ; "Min Real"
elseif @_mode == 2
temp = _min_idist ; "Min Imag"
elseif @_mode == 3
temp = _min_tdist ; "Min Triang"
elseif @_mode == 4
temp = _min_cdist ; "Min Cubus"
elseif @_mode == 5
temp = _max_dist ; "Max Dist"
elseif @_mode == 6
temp = _max_rdist ; "Max Real"
elseif @_mode == 7
temp = _max_idist ; "Max Imag"
elseif @_mode == 8
temp = _max_tdist ; "Max Triang"
elseif @_mode == 9
temp = _max_cdist ; "Max Cubus"
elseif @_mode == 10
temp = cabs(_zz - #pixel) ; "Act Dist"
elseif @_mode == 11
temp = abs(real(_zz-#pixel)) ; "Act Real"
elseif @_mode == 12
temp = abs(imag(_zz-#pixel)) ; "Act Imag"
elseif @_mode == 13
temp = _dist ; "Last Dist"
elseif @_mode == 14
temp = _rdist ; "Last Real"
elseif @_mode == 15
temp = _idist ; "Last Imag"
elseif @_mode == 16
temp = _tdist ; "Last Triang"
elseif @_mode == 17
temp = _cdist ; "Last Cubus"
elseif @_mode == 18
temp = abs(cabs(_zz)-cabs(#pixel)) ;
It has run fine for me though the code could probably be a little quicker for forming the equation.
Have fun remember post some off your formuli ,we could maybe team up for the monthly
Can you please help me find a keygen or cr*ck for the wonderful ultra fractal 3 (or even 3.01)?
I really like the software for uf2.05, and would like to use uf3.01 or uf3.
Thanks heaps.
I really like the software for uf2.05, and would like to use uf3.01 or uf3.
Thanks heaps.
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James O’Keefe: I have evidence that exposes the CIA, and it’s on camera.
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