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im trying to go through a little algorithm in fortran (im not a fortran programmer unfortunately) but i need to understand what its doing: here it is,

  omega = 0.d0
  s = 1.d0
  i = 1
  j = 2
  k = 3
101 do iperm = 1, 3
     omega = omega + s * a1 (i) * a2 (j) * a3 (k)
     l = i
     i = j
     j = k
     k = l
  i = 2
  j = 1
  k = 3
  s = - s

  if ( goto 101

  omega = abs (omega) * alat**3

a1,a2,a3 are vectors (three elements each, real values, representing vectors in 3d space) s is a unit integer (can be 1 or -1 alternately) and i,j,k are integers while omega (which is what i need to understand how its arrived at) is a floating point value, so is alat. Now what is going on up there? especially the iperm =1,3 part, is that a vector being created? at first i thought iperm might be some fancy function/routine or iterator, but after some search i think thats not the case, whats the purpose of the iperm? is there some looping over iperm between "do" and "enddo" ?

share|improve this question
When I googled "fortran do" the first several links explained what the do/enddo construct does. You should first attempt a google search for such basic questions about the language, then post questions here if you still don't understand. – bdforbes Aug 16 '13 at 17:27
If s is "a unit integer," why is it (a) given a double-precision value 1.d0 and (b) compared to a double-precision value 0.d0? – Kyle Kanos Aug 21 '13 at 15:09
it should simply be a unit value (can be positive or negative), not sure why the writer chose to use a floating point to represent it, but i would imagine its neccessary for it to have a sign, so that seems like as good a choice as any. – user22866 Aug 21 '13 at 18:04
See my comment on Mark's answer. – user1220978 Aug 22 '13 at 8:20
up vote 3 down vote accepted

All you've got is a sequence of assignments with a loop thrown in for fun. I guess you understand that statement such as

lhs = rhs

evaluates rhs and assigns the result to the variable lhs.

The line

101 do iperm = 1, 3

starts a do loop. The 101 is a statement label, it's used later. The loop comprises all the statements from that line to the line enddo. The loop will be executed 3 times (once for each of the integers in the sequence starting at 1 and ending at 3). The loop control variable iperm is assigned these values in turn. The loop is a little unusual in that the loop variable is not used inside the loop. The statement

omega = omega + s * a1 (i) * a2 (j) * a3 (k)

updates the value of omega. The term a1(i) (the space in your original is immaterial) means the i-th element of array a1. et cetera

When the line

if ( goto 101

is executed if s is less than 0 control goes bak to the line labelled 101.

Finally, the term alat**3 calculates the cube of alat.

So now get a piece of paper and figure out what value omega gets.

share|improve this answer
Without paper, nor executing the code, it looks like an astute way of computing the determinant of three vectors. And last line assigns to omega the volume of a parallelepiped, where alat is probably a scale factor. Nice piece of code, although not the most efficient (there are 12 multiplications, but Laplace expansion would do it with only 9). – user1220978 Aug 22 '13 at 6:03
By the way, it comes from Quantum ESPRESSO, available here. See in the end of latgen.f90 here or there. Except there is no scaling factor in the last assignment to omega. – user1220978 Aug 22 '13 at 6:36
@arbautjc yes its from QE, i eventually figured out its used to calculate the volume of a primitive unit cell, (i was looking specifically at flib/volume.f90). thanks! – user22866 Aug 22 '13 at 9:58

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