# How to convert this code into function in MATLAB so I may just use it by calling it

% Code slightly modified from Signals and Systems by Lathi MS2P4 pg 232.

How can I make this code a function? So that I can just "call" it to use it. Instead of pasting this whole thing over and over. This is just a convolution animation of two functions.

figure(1) % Create figure window and make visible on screen
x = @(t) cos(2*pi*3*t).* u(t);
h = @(t) u(t)-u(t-1);
dtau = 0.005;
tau = -1:dtau:4;
ti = 0;
tvec = -1:0.1:5;
y = NaN*zeros(1,length(tvec)); % Pre-allocate memory
for t = tvec,
ti = ti + 1; % Time index
xh = x(t-tau).*h(tau);
lxh = length(xh);
y(ti) = sum(xh.*dtau); % Trapezoidal approximation of integral
subplot(2,1,1)
plot(tau,h(tau),'k-',tau,x(t-tau),'k--',t,0,'ok')
axis([tau(1) tau(end) -2.0 2.5])
patch([tau(1:end-1);tau(1:end-1);tau(2:end);tau(2:end)],...
[zeros(1,lxh-1);xh(1:end-1);xh(2:end);zeros(1,lxh-1)],...
[0.8 0.8 0.8],'edgecolor','none')
xlabel('\tau')
legend('h(\tau)','x(t-\tau)','t','h(\tau)x(t-\tau)')
c = get(gca,'children');
set(gca,'children',[c(2);c(3);c(4);c(1)]);
subplot(2,1,2)
plot(tvec,y,'k',tvec(ti),y(ti),'ok')
xlabel('t')
ylabel('y(t) = \int h(\tau)x(t-\tau) d\tau')
axis([tau(1) tau(end) -1.0 2.0])
grid
drawnow
%   pause
end

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You can use Matlab's function , as described here

So, you have to write on the top "function yourFunctionName" and then you can call it using its name, yourFunctionName in this case.

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function convol_anime(x,h). I stared with that to create my function. when I put in two arbitrary functions x(t) and h(t) (same as above) the animation graph isn't showing. how come? I called it by convol_anime(x(t),h(t)) for the respective x(t) and h(t) above –  user1945925 Feb 10 '13 at 19:41
got it by removing the (t), so just inputs x,y –  user1945925 Feb 10 '13 at 21:26

Here is what worked with your exact code, a straightforward function definition and the addition of u(t) that was missing from the OP:

figure(1) % figure window outside function
u = @(t)heaviside(t); % define step function
x = @(t) cos(2*pi*3*t).* u(t);
h = @(t) u(t)-u(t-1);
dtau = 0.005;

convol_anime(x, h, dtau); % pass function handles + parameters


function convol_anime(x, h, dtau)