How to set the imaginary part of a complex number to zero?

I need to check if the imaginary part is very small and set it to zero if it is in order to eliminate some floating point errors that result in very small non-zero imaginary parts when it should be zero.

My code is as follows:

kz2 = SQRT((n2*(2.0*PI*eta))**2 - kxarray(p)**2)
kz1 = SQRT((n1*(2.0*PI*eta))**2 - kxarray(p)**2)

if (aimag(kz2) < 0.0005) then
kz2 = (REAL(kz2),0.0)
end if

if (aimag(kz1) < 0.0005) then
kz1 = (REAL(kz1), 0.0)
end if

Unfortunately the compiler just returns:

gaussian1.f90:122.18:

kz2 = (REAL(kz2),0.0)
1
Error: Expected a right parenthesis in expression at (1)

gaussian1.f90:126.18:

kz1 = (REAL(kz1), 0.0)
1
Error: Expected a right parenthesis in expression at (1)

Any advice would be greatly appreciated - am I even going about this problem the right way?

UPDATE: I managed to avoid the problem by using:

if (aimag(kz2) < 0.0005) then
kz2 = real(kz2)
end if

if (aimag(kz1) < 0.0005) then
kz1 = real(kz1)
end if

But what would I do if I wanted to set the imaginary part to a non-zero amount?

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I think you are looking for the CMPLX function, which converts real or integer arguments to a complex number. So it you example you should be able to do something like this:

kz1 = cmplx(real(kz1), 0.)

The (1.0,1.0) style parenthesis notation you have tried is only valid for constant values, not forming a complex number from the values held in variables.

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Thanks - that seems exactly what I want. I guess the assignment of a complex variable can only take parameters then not variables or expressions as arguments? I'm used to programming in C/Python/Matlab previously so the fact that I'd have to set it using a function rather than just direct assignment wasn't obvious to me. Sorry for such a trivial question. –  Alex McMurray Mar 16 '12 at 11:28
@AlexMcMurray: Yes, the ( , ) notation for complex assignment only works for constants. You need the cmplx function to use quantities which are not known at compile time. I will update my answer to include this. If this answer solved your problem, you might consider accepting it. –  talonmies Mar 16 '12 at 11:57

In Fortran 2008 there are even more possibilities. You can access real and imaginary parts as derived type components, e.g.

a = c%re
b%im = 5

So, to set imaginary part of z to zero in new compilers you can try z%im = 0 .

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