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calc.jl
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function bulkCalc_evwVgl1(disc::DiscMethode)
N = 400.0
dt = 2e-6
as = 1.0:0.1:2.0
T = 10.0
N = 500.0
dt = 2e-6 / 1.4
as = [1.3 1.5 1.7]
as = [1.1 1.9]
T = 4.0
for a in as
res = fractDeriv(dx=1.0/N, dt=dt, T=T, bwp=EvwVgl(b=0.1), disc=disc, a=a);
RS_save(res, "evwVgl1_$(disc.toString)_$a")
end
end
function bulkCalc_evwVgl2(disc::DiscMethode)
dt = 2e-6
T = 10.0
params = [
100 1.1
200 1.1
# 400 1.1
## 800 1.1
## 1600 1.1
## 3200 1.1
100 1.5
200 1.5
# 400 1.5
## 800 1.5
## 1600 1.5
## 3200 1.5
100 1.9
200 1.9
# 400 1.9
## 800 1.9
];
for i = 1:length(params[:,1])
res = fractDeriv(dx=1.0/params[i,1], dt=dt, T=T, bwp=EvwVgl(b=0.1), disc=disc, a=params[i,2]);
RS_save(res, "evwVgl2_$(disc.toString)_$(params[i,1])_$(params[i,2])")
end
end
function bulkCalc_evwVgl3(disc::DiscMethode)
T = 10.0
N = 400
a = 1.5
#dts = [2e-6 2e-5 2e-4 2e-3]
dts = [2e-5 2e-4 2e-3]
N = 800
dts = [2e-4]/2.8
for dt in dts
res = fractDeriv(dx=1.0/N, dt=dt, T=T, bwp=EvwVgl(b=0.1), disc=disc, a=a);
RS_save(res, "evwVgl3_$(disc.toString)_$dt")
res = 0;
end
end
function bulkCalc1()
#bulkCalc_evwVgl1(L2("im"));
bulkCalc_evwVgl2(L2("im"));
bulkCalc_evwVgl3(L2("im"));
end
function bulkCalc2()
#bulkCalc_evwVgl1(L2C("im"));
bulkCalc_evwVgl2(L2C("im"));
bulkCalc_evwVgl3(L2C("im"));
end
function GS_alphaMatrix()
as1 = 1.0 : 0.1 : 2.0 ;
as2 = as1;
#dt = 0.1;
dt = 0.005;
#as1 = 1.5 : 0.1 : 2.0 ;
#as2 = 1.0 : 0.1 : 1.5;
#dt = 0.01;
#as1 = 1.0 : 0.1 : 1.4 ;
#as2 = 1.0 : 0.1 : 2.0;
#dt = 0.01;
#as1 = 1.5 : 0.1 : 2.0 ;
#as2 = 1.6 : 0.1 : 2.0;
#dt = 0.01;
for a1 in as1, a2 in as2
if(a1 <= 1.2 || (a1 == 1.3 && a2 <= 1.5))
continue;
end
res_u, res_v = fractGrayScott(dx=0.0025, dt=dt, bwp=GrayScott(a1=a1,a2=a2),disc1=L2("im"),disc2=L2("im"),imgX=400,imgT=250);
RS_save(res_u, "alphaMat/alphaMat_$(a1)_$(a2)_u")
RS_save(res_v, "alphaMat/alphaMat_$(a1)_$(a2)_v")
RS_makeMesh2(res_u);
savefig("resultaten/alphaMat/alphaMat_$(a1)_$(a2)_u.png");
close();
RS_makePlot(res_u);
savefig("resultaten/alphaMat/alphaMat_$(a1)_$(a2)_u_plot.png");
close();
RS_makeMesh2(res_v);
savefig("resultaten/alphaMat/alphaMat_$(a1)_$(a2)_v.png");
close();
RS_makePlot(res_v);
savefig("resultaten/alphaMat/alphaMat_$(a1)_$(a2)_v_plot.png");
close();
res_u = 0;
res_v = 0;
end
end
function GS_alphaMatrix_addPlots()
as1 = 1.0 : 0.1 : 2.0 ;
as2 = as1;
dt = 0.01;
for a1 in as1, a2 in as2
result = RS_open("alphaMat_0.0025_$(dt)/alphaMat_$(a1)_$(a2)_u");
RS_makePlot(result);
savefig("resultaten/alphaMat_0.0025_$(dt)/alphaMat_$(a1)_$(a2)_u_plot.png");
close();
result = RS_open("alphaMat_0.0025_$(dt)/alphaMat_$(a1)_$(a2)_v");
RS_makePlot(result);
savefig("resultaten/alphaMat_0.0025_$(dt)/alphaMat_$(a1)_$(a2)_v_plot.png");
close();
RS_makeMesh(result);
savefig("resultaten/alphaMat_0.0025_$(dt)/alphaMat_$(a1)_$(a2)_v.png");
close();
println("$(a1)_$(a2)");
end
end
function GS_alphaMatrix_specificPlots()
as = [
(1.2, 1.8)
(1.2, 1.7)
(1.2, 1.0)
(1.6, 1.5)
(1.6, 2.0)
(2.0, 2.0)
]
dt = 0.01;
for (a1, a2) in as
result = RS_open("alphaMat_0.0025_$(dt)/alphaMat_$(a1)_$(a2)_v");
RS_makeMesh2(result);
savefig("resultaten/alphaMat_0.0025_$(dt)/alphaMat_$(a1)_$(a2)_v_2.png");
close();
println("$(a1)_$(a2)");
end
end