# Get stuck in a loop while returning multiple arrays from a local function?

I have to find the minimum and maximum angle of a catapult's trajectory that will make it over a wall. I have a local function that includes the motion equations and returns the distance at which the object lands, an array of x values, an array of y values, and the number of x and y values based on an input of lots of conditions called anglesfunction. In the main function, I tried to call it multiple times in a loop but it must be an infinite loop because I have to quit the program. It always quits on the same line, which is:

``````[temp(p), a, b, c(p)] = anglefunction(v0, w, m, d, h, dw, theta2(p), k);
``````

I have it commented out right now, but I tried to do a similar thing later to do bisection and it stops at the same point there too. Here's my full code, `g` is gravity and is the only thing I am passing in to the main function.

``````function [mid] = longassignment3(g)
v0 = 40;
w = 5;
m = 10;
d = 50;
h = 5;
dw = 30;
theta1 = 38;
k = .05;
n = 1;
%hold on
%grid on
A = 0:.01:h;
%plot(dw, A, 'r', 'linewidth',2)
%plot(d, 0, 'linewidth', 2)
[distance, x, y, z] = anglefunction(v0, w, m, d, h, dw, theta1, k);  %should take out     eventually
%plot(x,y);
min = 0;
max = 0;
q = 1;
tol = .3;
tester = 2;
theta2 = 0:.01:90;
p = 1;
dt = 1e-3;
num = 1;
[temp(p), a, b, c(p)] = anglefunction(v0, w, m, d, h, dw, theta2(p), k);  %for p=1
while theta2(p) < 90
p = p + 1;    %p becomes 2
[temp(p), a, b, c(p)] = anglefunction(v0, w, m, d, h, dw, theta2(p), k);   %for p=2 the     first time
B = size(a);
while q <= B(2);
if a(q) >= dw & a(q) <= (dw+tol)
num = q;
end
q = q + 1;
end
if b(num) >= (h - tol) || b(num) <= (h+tol)  %if it hits wall
min = 0;
max = 0;
else                                         %does not hit the wall
if temp(p)<temp(p-1)
min = theta2(p);                     %not assigning max and min
elseif temp(p)>temp(p-1)
max = theta2(p);
end
end
end
%min
%max
%distance = 0;
%q = 1;
%min = 26;
%max = 45;
%u = 1;
%done = 1;
%while done ~= 0
%    total = min + max;
%    mid = total/2;
%    [distance(u), a, b, c(u)] = anglefunction(v0, w, m, d, h, dw, mid, k);
%    if distance(u) < d
%        max = mid;
%    elseif distance(u) > d
%        min = mid;
%    elseif distance(u) >= d-tol | distance(u) <= d+tol
%        done = 0;
%    end
%    u = u + 1;
%end
end
if true
function [dist, x, y, n] = anglefunction(v0, w, m, d, h, dw, theta1, k)
n = 1;
g = 9.81;
%hold on
%grid on
A = 0:.01:h;
clear vx vy x y
%plot(dw, A, 'r', 'linewidth',2)
%plot(d, 0, 'linewidth', 2)
x(n) = 0;
y(n) = 0;
dvx = 0;
dvy = 0;
dt = 1e-3;
vx(n) = (v0)*(cos(theta1*pi/180));
vy(n) = (v0)*(sin(theta1*pi/180));
while y(n)>=0 && x(n)>=0
veff(n) = sqrt((vx(n) - w)^2 + (vy(n))^2);
dvx(n) = -k*veff(n)*(vx(n) - w)*dt/m;
dvy(n) = (-k*veff(n)*vy(n)/m-g)*dt;
vx(n+1) = vx(n) + (dvx(n));
vy(n+1) = vy(n) + (dvy(n));
x(n+1) = x(n) + (vx(n))*dt;
y(n+1) = y(n) + (vy(n))*dt;
n = n +1 ;
end
dist = x(n);
end
``````
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