# How to show Miller indexes in MATLAB?

I'm using MATLAB to plot XRD analyses where Miller indexes are used to identify crystallographic plane directions. These indexes contain 3 or 4 numbers and negative value is shown with bar over this number.

In LaTeX it can be written by $$[1\bar{1}1]$$ or $$[1\overline{1}1]$$ command.

For labeling spectral lines of XRD standards I'm using this command: Note that negative values are not considered.

std_text_hkl(j)=text(theta{i}(j)-r,0.1,['[' hkl{j} ']'],... % position and label
of j-th line of i-th standard; hkl{j} holds Miller index in string format
'parent',ax_std(i),... % association with axes of i-th standard
'rotation',90,...
'fontsize',12,...
'fontname',Font); % Font holds global font setup


How can I automate creating bar over negative number without using 'Interpreter','latex' property since I would like to be able to change 'FontName'property aswell. At leat I'd like to avoid different fonts in labels and ticks.

EDIT:
Thanks to Magla's comment I got this idea:

• Store indexes as 3 column matrix
• separate label into 5 text fields
• if Miller index is negative draw line over it (top line of text frame)

Actual piece of code:

rr=get(ax_std(i),'xlim'); % read x-axis limits of i-th standard
r=(rr(2)-rr(1))/150; % x-offset of Miller indexes
for j=1:size(dhkl,1)
theta{i}(j)=asin(lambda/(2*dhkl(j,1)))*360/pi(); %calculating of lines
%positions (Bragg's law)
line('parent',ax_std(i),...
'xdata',[theta{i}(j) theta{i}(j)],...
'ydata',[0 dhkl(j,2)],... % j-th line's reflection intensity
'color',[colors(1+mod(i-1,size(colors,1)),1:3)],...
'linewidth',3)

%         Miller indexes

if theta{i}(j)>rr(1)&&theta{i}(j)<rr(2) % test if line is inside axes
std_text_lbrace(j)=text(theta{i}(j)-r,0.1,'[',...
'parent',ax_std(i),...
'verticalalignment','bottom',...
'horizontalalignment','left',...
'rotation',90,...
'fontsize',12,...
'fontname',Font);
pos=get(std_text_lbrace(j),'position');
ext=get(std_text_lbrace(j),'extent');

std_text_h(j)=text(pos(1),pos(2)+ext(4)/1.5,int2str(abs(hkl(j,1))),...
'parent',ax_std(i),...
'verticalalignment','bottom',...
'horizontalalignment','left',...
'rotation',90,...
'fontsize',12,...
'fontname',Font); % write 1st Miller index
pos=get(std_text_h(j),'position');
ext=get(std_text_h(j),'extent')
if hkl(j,1)<0 % if negative, draw line over it
wdth=get(ax0,'xlim');
wdth=wdth(2)-wdth(1);
set(std_text_h(j),'color','b','edgecolor','g')
line('parent',ax_std(i),...
'xdata',[pos(1)-wdth/280*ext(3),pos(1)-wdth/280*ext(3)],...
'ydata',[pos(2),pos(2)+ext(4)/wdth*100],...
'color','r')
end
end


I can't fit the line length. For single digit it's too long, for two digits it fits and for more (theoretically) it's way too short. What am I doing wrong? How does MATLAB measure 'extent' property of rotated text?

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I would use an second text field with underscores only, and translate or rotate it to match the target number. This solution works fine with equally spaced font though (courier new, monospaced). –  macduf Aug 3 '13 at 15:45
@Magla: Good point, ' _ \newline[111]' should do that trick. But, as you say, only for fixedwidth font (there should double spaces). –  Crowley Aug 4 '13 at 16:22
Have you cosidered the many answers to "using latex tick labels", e.g. stackoverflow.com/a/9328945/2180721. This does not let use any font, but the workaround proposed by Magla applies to your specific request only, and if you have some complex latex to display, using graphical objects will become unfeasible. –  Oleg Komarov Aug 7 '13 at 8:12

Here is a piece of code that displays overlines on the top of negative digits. This solution does not use 'interpreter','latex' so that one may choose different fonts. Note that the code uses a set of single textboxes, each one having a \n or char(10) to display on the top line the underscore (char(95), or ' ' for positive digits) and on the bottom line the associated number. One can choose to have two different textboxes to set a particular distance between the underscore and its number. This piece of code does not work for all the fonts though (I would say 90% of my system fonts works fine).

The following code

%Miller indices
miller_ind = [1 -1 -2 3 -3];

%font definition
c = listfonts;
ind_perm = randperm(length(c));
font_names = {'Arial','Times','Courier New',c{ind_perm}};
font_size = 16;

figure('Color','w','Position',[10 10 600 1000]);
py = 0.05;
for ind_font = 1:12

%font name
text(0.03,py,font_names{ind_font},'FontName',font_names{ind_font},'FontSize',font_size);

%plot miller textbox
px = 0.6;
for ii = 1:length(miller_ind)
if miller_ind(ii)<0
text(px,py,[char(95) char(10) num2str(-1*miller_ind(ii)) ],...
'FontName',font_names{ind_font},'FontSize',font_size,'interpreter','none');
else
text(px,py,[' ' char(10) num2str(miller_ind(ii)) ],...
'FontName',font_names{ind_font},'FontSize',font_size,'interpreter','none');
end
px = px + 0.03;
end
py = py + 0.09;
end


gives this result

EDIT Thank to @Oleg Komarov for his comment. Picture is now directly saved as a .tiff and not via .eps.

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What you're actually showing to be different font types are actually the same. –  Oleg Komarov Aug 6 '13 at 15:19
oops - that's true - at least for the top part of the figure. Fortunately, I added Arial, Courier New, and Times at the bottom part and I can see they show up differently. Edit on its way! –  macduf Aug 6 '13 at 15:38
Actually, all the 12 fonts are correctly written in Matlab's figure. It seems that 'save as eps' didn't work - my bad. Picture edited! Thanks for pointing this out @Oleg Komarov. –  macduf Aug 6 '13 at 15:46
WooW... It works :). Even when texts are rotated. –  Crowley Aug 26 '13 at 17:01