function []= SolarPlotJS()
fp=fopen('1.txt','r')
%rootpath = strtrim(fscanf(fp,'%s\n'))
while ~feof(fp)
s = strtrim(fgets(fp))
if max(size(s))>10
SolarPlot(s)
end
end
fclose(fp)
function dest = getDest(s)
splitPos = findstr(s, '\');
n = max(size(splitPos));
p=splitPos(n-1);
p2=max(size(s));
aa = strrep(s(p+1:p2), '\','_');
dest = sprintf( '%s\%s', s(1:p),aa );
function []= SolarPlot(Path)
%for i= 1:length(PathArray)
close all;
dest = getDest(Path);
%Path = PathArray{i};
% thickness range, keep display range 200um
offtp = 0;
offbm = 0;
offTh = 0;
minTh = 110 + offTh;
maxTh = 280 + offTh;
mintp = 100 + offtp;
maxtp = 350 + offtp;
minbm = -100 + offbm;
maxbm = 150 + offbm;
%
% minTh = 160 + offTh
% maxTh = 500 + offTh
% mintp = 100 + offtp
% maxtp = 450 + offtp%
% minbm = -100 + offbm
% maxbm = 100 + offbm
% minTh = 0
% maxTh = 600
% mintp = 0
% maxtp = 400
% minbm = -200
% maxbm = 200
filePath= sprintf('%s\\pair0\\Btm\\deripple.tif', Path);
img0b= imread(filePath);
coOff(1)= 5;
coOff(2)= 65;
szOp(1)= size(img0b, 2)-10;
szOp(2)= size(img0b, 1)-70;
img0b= img0b(coOff(2):(coOff(2)+ szOp(2)), coOff(1):(coOff(1)+ szOp(1)));
filePath= sprintf('%s\\pair0\\top\\deripple.tif', Path);
img0t= imread(filePath);
img0t= img0t(coOff(2):(coOff(2)+ szOp(2)), coOff(1):(coOff(1)+ szOp(1)));
filePath= sprintf('%s\\pair1\\Btm\\deripple.tif', Path);
img1b= imread(filePath);
coOff2(1)= 5;
coOff2(2)= 25;
szOp2(1)= size(img1b, 2)-10;
szOp2(2)= size(img1b, 1)-90;
img1b= img1b(coOff2(2):(coOff2(2)+ szOp2(2)), coOff2(1):(coOff2(1)+ szOp2(1)));
filePath= sprintf('%s\\pair1\\top\\deripple.tif', Path);
img1t= imread(filePath);
img1t= img1t(coOff2(2):(coOff2(2)+ szOp2(2)), coOff2(1):(coOff2(1)+ szOp2(1)));
% 3D surface
scrsz = get(0,'ScreenSize');
% f1= figure('Position',[1 scrsz(4)/2-300 scrsz(3) scrsz(4)/2]);
f1= figure('Position',[1 scrsz(4)/2-300 scrsz(3) scrsz(4)/2]);
set(f1,'name','Profile','Numbertitle','off')
resX = 27;
resY = 117*2;
samX = 50;
samY = 5;
% for thickness, select line cross profile for substraction
% idy = [50 100 150]
% tiT{1} = sprintf('L-%d',idy(1));
% tiT{2} = sprintf('L-%d',idy(2));
% tiT{3} = sprintf('L-%d',idy(3));
idy = int32(size(img0b,1)/2); %100
idx = int32(size(img0b,2)/2);
tiy = sprintf('Middle Row');
tix = sprintf('Middle Column');
% tiy = sprintf('Row-%d',idy);
% tix = sprintf('Column-%d',idy);
% ti0{1} = sprintf('T0-%d',idy(1));
% ti0{2} = sprintf('T0-%d',idy(2));
% ti0{3} = sprintf('T0-%d',idy(3));
%
% ti1{1} = sprintf('T1-%d',idy(1));
% ti1{2} = sprintf('T1-%d',idy(2));
% ti1{3} = sprintf('T1-%d',idy(3));
subplot(2, 2, 1);
% imagesc(-img0t, [-300, 300]), title('Pair 0, Top'), colorbar();
T = double(-img0t(1:samY:end,1:samX:end));
surface('XData',[1:size(T,2)]*resX*samX/1000,...
'YData',[1:size(T,1)]*resY*samY/1000,...
'ZData',T,...
'CData',T);
colorbar('NorthOutside');
axis tight;
xlabel('X (unit:mm)'); xlabel('Y (unit:mm)')
zlabel('Z (unit:um)')
view(10,60)
set(gca, 'fontsize',6)
t = title('Pair0, Top');
set(t,'fontsize',10)
axis([0 size(T,2)*resX*samX/1000 0 size(T,1)*resY*samY/1000 mintp maxtp])
%
subplot(2, 2, 2);
% imagesc(-img1t, [-300, 300]), title('Pair 1, Top'), colorbar();
T = double(-img1t(1:samY:end,1:samX:end));
surface('XData',[1:size(T,2)]*resX*samX/1000,...
'YData',[1:size(T,1)]*resY*samY/1000,...
'ZData',T,...
'CData',T);
colorbar('NorthOutside');
axis tight;
xlabel('X (unit:mm)'); ylabel('Y (unit:mm)')
zlabel('Z (unit:um)')
view(10,60)
set(gca, 'fontsize',6)
t = title('Pair1, Top');
set(t,'fontsize',10)
axis([0 size(T,2)*resX*samX/1000 0 size(T,1)*resY*samY/1000 mintp maxtp])
%
subplot(2, 2, 3);
% imagesc(-img0b, [-300, 300]), title('Pair 0, Bottom'), colorbar();
T = double(-img0b(1:samY:end,1:samX:end));
surface('XData',[1:size(T,2)]*resX*samX/1000,...
'YData',[1:size(T,1)]*resY*samY/1000,...
'ZData',T,...
'CData',T)
colorbar('NorthOutside');
axis tight;
xlabel('X (unit:mm)'); ylabel('Y (unit:mm)')
zlabel('Z (unit:um)')
view(10,60)
set(gca, 'fontsize',6)
t = title('Pair0, Bottom')
set(t,'fontsize',10)
axis([0 size(T,2)*resX*samX/1000 0 size(T,1)*resY*samY/1000 minbm maxbm])
%
subplot(2, 2, 4);
% imagesc(-img1b, [-300, 300]), title('Pair 1, Bottom'), colorbar();
T = double(-img1b(1:samY:end,1:samX:end));
surface('XData',[1:size(T,2)]*resX*samX/1000,...
'YData',[1:size(T,1)]*resY*samY/1000,...
'ZData',T,...
'CData',T)
colorbar('NorthOutside');
axis tight;
xlabel('X (unit:mm)'); ylabel('Y (unit:mm)')
zlabel('Z (unit:um)')
view(10,60)
set(gca, 'fontsize',6)
t = title('Pair1, Bottom');
set(t,'fontsize',10)
axis([0 size(T,2)*resX*samX/1000 0 size(T,1)*resY*samY/1000 minbm maxbm])
%%
Grab = getframe(gcf,[1 1 scrsz(3) scrsz(4)/2]);
imwrite(Grab.cdata, sprintf('%sProfile.bmp', dest));
%%
%
f2= figure('Position',[1 scrsz(4)/2-300 scrsz(3) scrsz(4)/2]);
set(f2,'name','Profile','Numbertitle','off')
subplot(2, 2, 1);
% surface('XData',[1:size(T,2)]*resX*samX/1000,...
% 'YData',[1:size(T,1)]*resY*samY/1000,...
% 'ZData',double(img0b(1:samY:end,1:samX:end)-img0t(1:samY:end,1:samX:end)),...
% 'CData',double(img0b(1:samY:end,1:samX:end)-img0t(1:samY:end,1:samX:end)))
T = double(img0b(1:samY:end,1:samX:end)-img0t(1:samY:end,1:samX:end));
T = T;%-281.8724
surface('XData',(1:size(T,2))*resX*samX/1000,...
'YData',(1:size(T,1))*resY*samY/1000,...
'ZData', T,...
'CData', T)
colorbar('NorthOutside');
axis tight;
xlabel('X (unit:mm)'); ylabel('Y (unit:mm)')
zlabel('Z (unit:um)')
view(10,60)
set(gca, 'fontsize',6)
t = title('Pair0, Thickness');
set(t,'fontsize',10)
axis([0 size(T,2)*resX*samX/1000 0 size(T,1)*resY*samY/1000 minTh maxTh])
subplot(2, 2, 2);
T = double(img1b(1:samY:end,1:samX:end)-img1t(1:samY:end,1:samX:end));
surface('XData', (1:size(T,2))*resX*samX/1000,...
'YData', (1:size(T,1))*resY*samY/1000,...
'ZData',T,...
'CData',T);
colorbar('NorthOutside');
axis tight;
xlabel('X (unit:mm)'); ylabel('Y (unit:mm)')
zlabel('Z (unit:um)')
view(10,60)
set(gca, 'fontsize',6)
t = title('Pair1, Thickness'),
set(t,'fontsize',10)
axis([0 size(T,2)*resX*samX/1000 0 size(T,1)*resY*samY/1000 minTh maxTh])
img0bs = img0b;
img0ts = img0t;
img1bs = img1b;
img1ts = img1t;
L0by = img0bs(idy,:);
L0ty = img0ts(idy,:);
L1by = img1bs(idy,:);
L1ty = img1ts(idy,:);
T0y = L0by - L0ty;
T1y = L1by - L1ty;
miny= min(size(T0y,2),size(T1y,2));
Ty = [T0y(1:miny); T1y(1:miny)]';
Ty(:,1) = Ty(:,1);% -281.8724
subplot(2,2,3);
hold on; plot(([1:size(Ty,1)]*resX/1000)',Ty(:,1),'r'); %legend(tix);
hold on; plot(([1:size(Ty,1)]*resX/1000)',Ty(:,2),'b'); %legend(tix);
legend('Pair0','Pair1');
title('Thinckness profile along middle row');
axis([0 size(Ty,1)*resX/1000 minTh maxTh])
L0bx = img0b(:,idx);
L0tx = img0t(:,idx);
L1bx = img1b(:,idx);
L1tx = img1t(:,idx);
T0x = L0bx - L0tx;
T1x = L1bx - L1tx;
minx= min(size(T0x,1),size(T1x,1));
Tx = [T0x(1:minx) T1x(1:minx)];
Tx(:,1) = Tx(:,1);% -281.8724
subplot(2,2,4);
hold on; plot(([1:size(Tx,1)]*resY/1000)',Tx(:,1),'r'); %legend(tix);
hold on; plot(([1:size(Tx,1)]*resY/1000)',Tx(:,2),'b'); %
legend('Pair0','Pair1');
title('Thinckness profile along middle column');
axis([0 size(Tx,1)*resY/1000 minTh maxTh])
Grab = getframe(gcf,[1 1 scrsz(3) scrsz(4)/2]);
imwrite(Grab.cdata, sprintf('%sThinckness.bmp', dest));
%end
solarplot
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