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I found an implementation of the thomas algorithm or TDMA in MATLAB.

function x = TDMAsolver(a,b,c,d)
    %a, b, c are the column vectors for the compressed tridiagonal matrix, d is the right vector
    n = length(b); % n is the number of rows

    % Modify the first-row coefficients
    c(1) = c(1) / b(1);    % Division by zero risk.
    d(1) = d(1) / b(1);    % Division by zero would imply a singular matrix.

    for i = 2:n-1
        temp = b(i) - a(i) * c(i-1);
        c(i) = c(i) / temp;
        d(i) = (d(i) - a(i) * d(i-1))/temp;

    d(n) = (d(n) - a(n) * d(n-1))/( b(n) - a(n) * c(n-1));

    % Now back substitute.
    x(n) = d(n);
    for i = n-1:-1:1
        x(i) = d(i) - c(i) * x(i + 1);

I need it in python using numpy arrays, here my first attempt at the algorithm in python.

import numpy

aa = (0.,8.,9.,3.,4.)
bb = (4.,5.,9.,4.,7.)
cc = (9.,4.,5.,7.,0.)
dd = (8.,4.,5.,9.,6.)

ary = numpy.array

a = ary(aa)
b = ary(bb)
c = ary(cc)
d = ary(dd)

n = len(b)## n is the number of rows

## Modify the first-row coefficients
c[0] = c[0]/ b[0]    ## risk of Division by zero.
d[0] = d[0]/ b[0]

for i in range(1,n,1):
    temp = b[i] - a[i] * c[i-1]
    c[i] = c[i]/temp
    d[i] = (d[i] - a[i] * d[i-1])/temp

d[-1] = (d[-1] - a[-1] * d[-2])/( b[-1] - a[-1] * c[-2])

## Now back substitute.
x = numpy.zeros(5)
x[-1] = d[-1]
for i in range(-2, -n-1, -1):
    x[i] = d[i] - c[i] * x[i + 1]

They give different results, so what am I doing wrong?

share|improve this question

There's at least one difference between the two:

for i in range(1,n,1):

in Python iterates from index 1 to the last index n-1, while

for i = 2:n-1

iterates from index 1 (zero-based) to the (last-1) index, since Matlab has one-based indexing.

share|improve this answer
Python's range() function doesn't include the last index, so in this case the for loop would stop after n-1. – voithos Jan 4 '12 at 20:01
@voithos: it does not include n, but n-1 is the last index, since Python has zero-based indexing while Matlab is one-based. – larsmans Jan 4 '12 at 20:05
Ah, good point. I think a key difference (which I failed to realize) is that Python's range() does not go through to the end index specified (which, as you say, is due to Python's indexing from 0), whereas Matlab's x:X syntax does go through the end index. – voithos Jan 4 '12 at 20:23

In your loop, the Matlab version iterates over the second through second-to last elements. To do the same in Python, you want:

for i in range(1,n-1):

(As noted in voithos's comment, this is because the range function excludes the last index, so you need to correct for this in addition to the change to 0 indexing).

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