--[[
MIT License
Copyright (c) 2017 Gabriel de Quadros Ligneul
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
]]
-- Julia sets via interval cell-mapping (quadtree version)
local function prequire(name) local success, result = pcall(require, name); return success and result end
local bench = script and require(script.Parent.bench_support) or prequire("bench_support") or require("../../bench_support")
function test()
--require"julia" local f=f
local io=io
local root,exterior
local cx,cy
local Rxmin,Rxmax,Rymin,Rymax=-2.0,2.0,-2.0,2.0
local white=1.0
local black=0.0
local gray=0.5
local N=0
local nE=0
local E={}
local write=print
local function output(a1,a2,a3,a4,a5,a6)
--[[write(
a1 or ""," ",
a2 or ""," ",
a3 or ""," ",
a4 or ""," ",
a5 or ""," ",
a6 or ""," \n")]]
end
local function imul(xmin,xmax,ymin,ymax)
local mm=xmin*ymin
local mM=xmin*ymax
local Mm=xmax*ymin
local MM=xmax*ymax
local m,M=mm,mm
if m>mM then m=mM elseif M<mM then M=mM end
if m>Mm then m=Mm elseif M<Mm then M=Mm end
if m>MM then m=MM elseif M<MM then M=MM end
return m,M
end
local function isqr(xmin,xmax)
local u=xmin*xmin
local v=xmax*xmax
if xmin<=0.0 and 0.0<=xmax then
if u<v then return 0.0,v else return 0.0,u end
else
if u<v then return u,v else return v,u end
end
end
local function f(xmin,xmax,ymin,ymax)
local x2min,x2max=isqr(xmin,xmax)
local y2min,y2max=isqr(ymin,ymax)
local xymin,xymax=imul(xmin,xmax,ymin,ymax)
return x2min-y2max+cx,x2max-y2min+cx,2.0*xymin+cy,2.0*xymax+cy
end
local function outside(xmin,xmax,ymin,ymax)
local x,y
if 0.0<xmin then x=xmin elseif 0.0<xmax then x=0.0 else x=xmax end
if 0.0<ymin then y=ymin elseif 0.0<ymax then y=0.0 else y=ymax end
return x^2+y^2>4.0
end
local function inside(xmin,xmax,ymin,ymax)
return xmin^2+ymin^2<=4.0 and xmin^2+ymax^2<=4.0 and
xmax^2+ymin^2<=4.0 and xmax^2+ymax^2<=4.0
end
local function newcell()
return {nil,nil,nil,nil,color=gray}
end
local function addedge(a,b)
nE=nE+1
E[nE]=b
end
local function refine(q)
if q.color==gray then
if q[1]==nil then
q[1]=newcell()
q[2]=newcell()
q[3]=newcell()
q[4]=newcell()
else
refine(q[1])
refine(q[2])
refine(q[3])
refine(q[4])
end
end
end
local function clip(q,xmin,xmax,ymin,ymax,o,oxmin,oxmax,oymin,oymax)
local ixmin,ixmax,iymin,iymax
if xmin>oxmin then ixmin=xmin else ixmin=oxmin end
if xmax<oxmax then ixmax=xmax else ixmax=oxmax end
if ixmin>=ixmax then return end
if ymin>oymin then iymin=ymin else iymin=oymin end
if ymax<oymax then iymax=ymax else iymax=oymax end
--if ixmin<=ixmax and iymin<=iymax then
if iymin<iymax then
if q[1]==nil then
addedge(o,q)
else
local xmid=(xmin+xmax)/2.0
local ymid=(ymin+ymax)/2.0
clip(q[1],xmin,xmid,ymid,ymax,o,oxmin,oxmax,oymin,oymax)
clip(q[2],xmid,xmax,ymid,ymax,o,oxmin,oxmax,oymin,oymax)
clip(q[3],xmin,xmid,ymin,ymid,o,oxmin,oxmax,oymin,oymax)
clip(q[4],xmid,xmax,ymin,ymid,o,oxmin,oxmax,oymin,oymax)
end
end
end
local function map(q,xmin,xmax,ymin,ymax)
--xmin,xmax,ymin,ymax=f(xmin,xmax,ymin,ymax,cx,cy)
xmin,xmax,ymin,ymax=f(xmin,xmax,ymin,ymax)
if outside(xmin,xmax,ymin,ymax) then
q.color=white
else
if not inside(xmin,xmax,ymin,ymax) then addedge(q,exterior) end
clip(root,Rxmin,Rxmax,Rymin,Rymax,q,xmin,xmax,ymin,ymax)
end
end
local function update(q,xmin,xmax,ymin,ymax)
if q.color==gray then
if q[1]==nil then
local b=nE
q[2]=nE+1
map(q,xmin,xmax,ymin,ymax)
q[3]=nE
else
local xmid=(xmin+xmax)/2.0
local ymid=(ymin+ymax)/2.0
update(q[1],xmin,xmid,ymid,ymax)
update(q[2],xmid,xmax,ymid,ymax)
update(q[3],xmin,xmid,ymin,ymid)
update(q[4],xmid,xmax,ymin,ymid)
end
end
end
local function color(q)
if q.color==gray then
if q[1]==nil then
for i=q[2],q[3] do
if E[i].color~=white then return end
end
q.color=white N=N+1
else
color(q[1])
color(q[2])
color(q[3])
color(q[4])
end
end
end
local function prewhite(q)
if q.color==gray then
if q[1]==nil then
for i=q[2],q[3] do
local c=E[i].color
if c==white or c==-gray then
q.color=-gray
N=N+1
return
end
end
else
prewhite(q[1])
prewhite(q[2])
prewhite(q[3])
prewhite(q[4])
end
end
end
local function recolor(q)
if q.color==-gray then
q.color=gray
elseif q.color==gray then
if q[1]==nil then
q.color=black
else
recolor(q[1])
recolor(q[2])
recolor(q[3])
recolor(q[4])
end
end
end
local function area(q)
if q[1]==nil then
if q.color==white then return 0.0,0.0
elseif q.color==black then return 0.0,1.0
else return 1.0,0.0 end
else
local g1,b1=area(q[1])
local g2,b2=area(q[2])
local g3,b3=area(q[3])
local g4,b4=area(q[4])
return (g1+g2+g3+g4)/4.0, (b1+b2+b3+b4)/4.0
end
end
local function colorup(q)
if q[1]~=nil and q.color==gray then
local c1=colorup(q[1])
local c2=colorup(q[2])
local c3=colorup(q[3])
local c4=colorup(q[4])
if c1==c2 and c1==c3 and c1==c4 then
if c1~=gray then
q[1]=nil; --q[2]=nil; q[3]=nil; q[4]=nil
N=N+1 end
q.color=c1
end
end
return q.color
end
local function save(q,xmin,ymin,N)
if q[1]==nil or N==1 then
output(xmin,ymin,N,q.color)
else
N=N/2
local xmid=xmin+N
local ymid=ymin+N
save(q[1],xmin,ymin,N)
save(q[2],xmid,ymin,N)
save(q[3],xmin,ymid,N)
save(q[4],xmid,ymid,N)
end
end
local function show(p)
local N=2^10
-- io.output(p..".box")
output(N)
save(root,0,0,N)
-- io.close()
end
local t0=0
local function memory(s)
local t=os.clock()
--local dt=string.format("%f",t-t0)
local dt=t-t0
--io.stdout:write(s,"\t",dt," sec\t",t," sec\t",math.floor(collectgarbage("count")/1024),"M\n")
t0=t
end
local function do_(f,s)
local a,b=f(root,Rxmin,Rxmax,Rymin,Rymax)
memory(s)
return a,b
end
local function julia(l,a,b)
memory("begin")
cx=a cy=b
root=newcell()
exterior=newcell() exterior.color=white
show(0)
for i=1,l do --print("\nstep",i)
nE=0
do_(refine,"refine")
do_(update,"update")
repeat
N=0 color(root,Rxmin,Rxmax,Rymin,Rymax) --print("color",N)
until N==0 memory("color")
repeat
N=0 prewhite(root,Rxmin,Rxmax,Rymin,Rymax) --print("prewhite",N)
until N==0 memory("prewhite")
do_(recolor,"recolor")
do_(colorup,"colorup") --print("colorup",N)
local g,b=do_(area,"area") --print("area",g,b,g+b)
show(i) memory("output")
--print("edges",nE)
end
end
--julia(14,0.25,0.35)
--julia(14, -.12, .74 )
--julia(14,0,0)
--julia(12,0.25,0)
--julia(9,0.24,0)
--julia(9,0.26,0)
--julia(13,0,1)
--julia(12,-1.1,0)
--julia(9,-0.12,0.5)
-- figures for paper
--julia(14,0,1)
--julia(14,-1,0)
--julia(12,-0.12, 0.64)
--julia(14,-0.12, 0.60)
--julia(14,-0.12, 0.30)
-- julia (level, a, b) -- julia set de c= a + b i
julia(8,-0.25, 0.74)
end
bench.runCode(test, "qt")