# what does this piece of fortran mean?

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
enddo
i = 2
j = 1
k = 3
s = - s

if (s.lt.0.d0) 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`" ?

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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. –  Jean-Claude Arbaut Aug 22 '13 at 8:20

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 (s.lt.0.d0) 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.

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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). –  Jean-Claude Arbaut 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. –  Jean-Claude Arbaut 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