# Manipulate axes in MATLAB plot

I want to plot something like this:

``````x = 0:0.01:10;
y1 = 5*exp(-0.43*x);
y2 = 0.1*exp(0.4*x);
plot(x,y1);
hold on
plot(x,y2);
``````

I can't manage to get axes similar to the ones in this figure:

I know I can remove the top and right lines like in this question, but I don't know how to get the arrows on the edges.

I don't need the additional annotations, but I would like to remove the ticks on the axes. I know how to do this when the axes are "normal", but I'm not sure if it must be done in another way when the axes are already manipulated.

Does anyone know how to do this?

-
Just a warning: MATLAB is not the right tool for this sort of job. This sort of figure is (and should only be) an order-of-magnitude sort of thing, for which inkscape, MS paint, GIMP, or similar should amply suffice. Although it is possible to do this in MATLAB, be prepared to see some pretty long and ugly code that does little else than try and reduce the details of the inherently much more detailed plot methods MATLAB uses by default. –  Rody Oldenhuis Jun 11 '13 at 15:19

Well, don't say I didn't warn you :)

``````% Some bogus functions
f = @(x) 50* 1.6.^(-x-5);
g = @(x) 50* 1.6.^(+x-10);

% Point where they meet
xE = 2.5;
yE = f(xE);

% Plot the bogus functions
figure(1), clf, hold on
x = 0:0.2:5;
plot(x,f(x),'r',  x,g(x),'b', 'linewidth', 2)

% get rid of standard axes decorations
set(gca, 'Xtick', [], 'Ytick', [], 'box', 'off')

% Fix the axes sizes
axis([0 5 0 5])

% the equilibrium point
plot(xE, yE, 'k.', 'markersize', 20)

% the dashed lines
line([xE 0; xE xE], [0 yE; yE yE], 'linestyle', '--', 'color', 'k')

% the arrows
xO = 0.2;
yO = 0.1;
patch(...
[5-xO -yO; 5-xO +yO; 5.0 0.0], ...
[yO 5-xO; -yO 5-xO; 0 5], 'k', 'clipping', 'off')

% the squishy wiggly line pointing to the "equilibrium" text
h = @(x)0.5*(x+0.2) + 0.1*sin((x+0.2)*14);
x = 2.7:0.01:3.5;
plot(x, h(x), 'k', 'linewidth', 2)

% the static texts
text(xE-yO, -0.2, 'Q^*', 'fontweight', 'bold')
text(-2*yO,   yE, 'P^*', 'fontweight', 'bold')
text(-2*yO,    4, 'Price', 'rotation', 90, 'fontsize', 14)
text(    4, -0.2, 'Quantity', 'fontsize', 14)
text(   .5,  4.2, 'Demand', 'fontsize', 14, 'rotation', -55)
text(   4.0,  3.3, 'Supply', 'fontsize', 14, 'rotation', +55)
text(   3.6,  2.1, 'Equilibrium', 'fontsize', 14)
``````

Result:

-
A big +1, that just put a smile on my face :P I'm impressed (although not surprised, having seen your xkcd-graph). Thanks! –  Robert P. Jun 11 '13 at 17:50

The symbolic math toolbox has provisions for making these arrows, but without that toolbox you are stuck with drawing the arrows yourself. The following code should be useful for this purpose:

``````% determine position of the axes
axp = get(gca,'Position');

% determine startpoint and endpoint for the arrows
xs=axp(1);
xe=axp(1)+axp(3)+0.04;
ys=axp(2);
ye=axp(2)+axp(4)+0.05;

% make the arrows
annotation('arrow', [xs xe],[ys ys]);
annotation('arrow', [xs xs],[ys ye]);

% remove old box and axes
box off
set(gca,'YTick',[])
set(gca,'XTick',[])
set(gca,'YColor',get(gca,'Color'))
set(gca,'XColor',get(gca,'Color'))
``````

The only drawback is that for some figure window sizes you will have a 1-pixel white border below the arrows, and setting the LineWidth property of the axes to a ridiculous small value does not help.

But for printing, the small white border should not be relevant.

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was going to propose something similar, +1 for u. –  m_power Jun 11 '13 at 16:01
+1, Works like a charm! Thanks Martin! =) –  Robert P. Jun 11 '13 at 17:55