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# Thomas Algorithm in Python and Fortran

Python code:

import math
import numpy
n = input('Enter the dimension')
print 'Matrix size',n
dd = [
0, 1, 2, 3, 4, 5, 6, 7, 8, 9,
10,11,12,13,14,15,16,17,18,19,
20,21,22,23,24,25,26,27,28,29,
30,31,
]
k,l,m = input ("enter vectors")
aa=[]
bb=[]
cc=[]
for i in range(n+1):
bb.append(l)
for i in range(n):
aa.append(k)
cc.append(m)
a = numpy.array(aa)
b = numpy.array(bb)
c = numpy.array(cc)
d = numpy.array(dd)
c[0] = c[0]/ b[0]
d[0] = d[0]/ b[0]
for i in range(1,n,1):
c[i] = c[i]/(b[i] - a[i] * c[i-1])
for i in range(1,n,1):
d[i] = (d[i] - a[i] * d[i-1])/(b[i] - a[i] * c[i-1])
d[-1] = (d[-1] - a[-1] * d[-2])/( b[-1] - a[-1] * c[-2])
x = numpy.zeros(n)
x[-1] = d[-1]
for i in range(-2, -n, -1):
x[i] = d[i] - c[i] * x[i + 1]
print x

Fortran code:

integer,parameter::dp=selected_real_kind(15)
integer,intent(in)::n
real(dp),dimension(n),intent(in)::a,b,c,d
real(dp),dimension(n),intent(out)::x
integer::i
real(dp),dimension(n)::c_k,d_k
c_k(1)=c(1)/b(1)
d_k(1)=d(1)/b(1)
do i=2,n-1
c_k(i)=c(i)/(b(i)-c_k(i-1)*a(i))
end do
do i=2,n
d_k(i)=(d(i)-d_k(i-1)*a(i))/(b(i)-c_k(i-1)*a(i))
end do
x(n)=d_k(n)
do i=n-1,1,-1
x(i)=d_k(i)-c_k(i)*x(i+1)
end do
end subroutine thomas_algorithm

I have these codes for the Thomas Algorithm in Python and Fortran respectively. But when Python gives the result

[  0.   1.   1.   1.   2.   2.   2.   3.   3.   3.   4.   4.   4.   5.   5.
5.   6.   6.   6.   7.   7.   7.   8.   8.   8.   9.   9.   9.  10.  10.
10.]

for x, Fortran gives

1 4.996003610813204E-016
2 0.999999999999999
3 1.554312234475219E-015
4 2.00000000000000
5 2.664535259100376E-015
6 3.00000000000000
7 4.440892098500626E-015
8 3.99999999999999
9 6.217248937900877E-015
10 4.99999999999999
11 7.105427357601002E-015
12 5.99999999999999
13 8.881784197001252E-015
14 6.99999999999999
15 1.065814103640150E-014
16 7.99999999999999
17 1.243449787580175E-014
18 6.99999999999999
19 1.421085471520200E-014
20 5.99999999999998
21 1.509903313490213E-014
22 4.99999999999999
23 1.287858708565182E-014
24 3.99999999999999
25 1.021405182655144E-014
26 2.99999999999999
27 7.993605777301127E-015
28 1.99999999999999
29 4.884981308350689E-015
30 0.999999999999997
31 1.613292832658430E-015

What is the reason of this difference?

Note : in Python I am taking sub and main diagonal entries from keyboard.

-
Format it, shorten it, explain what a Thomas algorithm is, state your case... – jcora Jan 4 '12 at 22:02
Please format your code (see {} symbol when you edit), and explain your problem in addition to the code. – Bruno Jan 4 '12 at 22:03
Post the entire fortran code (that subroutine is missing at least the first few rows), preferably with the test program. Put something shorter in fortran's write format. Check for division errors in py code, like Ethan said. ... – Rook Jan 4 '12 at 22:40
Don't forget to accept answers that work for you (click on the green checkmark by them). – Ethan Furman Jan 6 '12 at 23:24