finite difference solution to multivariate, linear boundary problems

This function finds approximate solution to boundary value problems
generated by a system of time-dependent,
linear, first order diferential equations
and linear boundary conditions
by using the finite difference method.
The general form of the problems adressed is
d(t) .* x'(t) + L(t) * x(t) = z(t)
b_i * x(t_i) = w_i for i=1,2,...,m

where

t is a variable (time)
x(t) is a column vector of m unknown functions x_1(t),...,x_m(t)
' means differentiation with respect to t
t_i and w_i (i=1,2,...,m) are known scalars
b_i (i=1,2,...,m) are known row vectors of size 1*m
d(t), c(t) and z(t) are t-dependent column vectors
L(t) is a t-dependent matrix of size m*m