Implementing crank nicolson method in matlab

I am trying to implement the crank nicolson method in matlab and have managed to get an implementation working without boundary conditions (ie u(0,t)=u(N,t)=0). The problem I am having is with adding boundary conditions. It seems that the boundary conditions are not being considered in my current implementation.

Here is my current implementation: C-N method:

``````function [ x, t, U ] = Crank_Nicolson( vString, fString, a, N, M,g1,g2 )
%The Crank Nicolson provides a solution to the parabolic equation provided
%   The Crank Nicolson method uses linear system of equations to solve the
%   parabolic equation.

%Prepare the grid and grid spacing variables.
dt = 1/M;
t = dt * [0:M];
h = 1/N;
x = 2 + h * [0:N]';%Shift x by 2 that way we have 2 <= x <= 3

%Prepare the matrix that will store the solutions over the grid
U = zeros(N+1, M+1);
%This will fill the first column with the initial condition. feval will
%evaluate the initial condition at all values of x
U(:,1) = feval(vString, x);
%This fills the boundary conditions. One boundary condition goes on the
%first row the other boundary condition goes on the last row
U(1,:) = feval(g1, t);
U(end,:) = feval(g2, t);

%The loop that will populate the matrix with the solution
n = 1:N+1;%Start at 2 since n=1 is the initial condition
e = ones(N+1,1);
B = spdiags([-1*e 2*e -1*e],-1:1, N+1, N+1)*(1/h^2);
A = (speye(N+1)+((a*dt)/2)*B);
X = (speye(N+1)-((a*dt)/2)*B);
R = chol(A);%Choleski decomposition
for m=2:M+1
%The linear system is solved.
b = X*U(n,m-1) + dt * feval(fString, x(n), (t(m)+t(m-1))*0.5);
b = R'\b;
U(n,m) = R\b;
end
end
``````

I know that this implementation works when boundary conditions are not an issue. Is there something I am missing? Also, I'd be happy to hear if there are any general matlab format suggestions, since I am relatively new to matlab.