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I have been asked to improve the code for singular value decomposition we've been using for years (it's from Numerical Recipes' last edition that was available for Fortran), but someone adapted it for a different real kind type. I have some questions, one concerning precision, and the others concerning floating-point comparison, but first here's some code (only relevant stuff shown):

  implicit real(kind=selected_real_kind(12)) (a-h,o-z)      ! not from Numerical Recipes
  parameter R12 = selected_real_kind(12), eps=tiny(1.0_R12) ! not from Numerical Recipes

  do i=1,n
    if (i.le.m) then 
      do k=i,m
      end do
      if (scale.ne.0.0) then 
  1. scale=0.0 should be scale=0.0_R12, right?
  2. Would it be fine to exchange scale.ne.0.0 for scale.gt.0.0 (as it cannot be < 0) to avoid the explicit .ne.-comparison, or ought I to compare it to some epsilon instead?
  3. Regarding the last point, which of the intrinsic functions tiny and epsilon is preferable for selecting the epsilon-value in the abovementioned comparison?
  4. In case the value that is tested for not being equal to 0 may be both positive and negative, would (value.gt.eps .or. value.lt.-1.0_R12*eps) be a sensible condition?

Thanks for your help!

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Is it an option to use a dedicated optimized library like lapack? –  damienfrancois Nov 21 '13 at 17:01
How exactly would .gt.0.0 be of greater precision than .ne.0.0? I'm amazed by the number of people knowing that comparing floats can lead to false positive/negative, but magically thinking that inequalities would behave better or be immune... If you have some dumb lint rule for .eq. then it must be applied equally to .gt. –  aka.nice Nov 21 '13 at 18:52
notice the implicit statement makes the parameter R12 real. –  agentp Nov 22 '13 at 2:43
@george Thanks for pointing that out! –  canavanin Nov 22 '13 at 11:02
@damienfrancois I doubt it, I think the rest of the team will want to stick to what we've been using for years... –  canavanin Nov 22 '13 at 11:04

1 Answer 1

up vote 3 down vote accepted

To the best of my knowledge,

  1. The compiler ought to fix that for you, but it might be more reasonable to explicitly declare it as 0.0_R12 for future editors of the code. It might be more prudent to define real(r12), parameter :: zero = 0.0_r12 as a global variable
  2. Comparing to something slightly larger machine epsilon probably would be a good idea
  3. I would use epsilon over tiny
  4. If value could be positive or negative, it'd probably make sense to use if(abs(value) > eps) then rather than try comparing two values in a single if statement.

Note that Numerical Recipes is copyrighted material, even after modifying you aren't allowed to distribute it due to this copyright. It's better to use LAPACK or some other GPL/BSD licensed linear algebra package, instead of that (ancient & often slow) material.

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There is no reason to care about kinds for integer values like 0. I would not hesitate to omit the ".0" part altogether. –  Vladimir F Nov 21 '13 at 17:22
+1 I was just waiting for a comment on Numerical Recipes ;-) –  Alexander Vogt Nov 21 '13 at 17:37
@VladimirF: agreed, and in practice I often omit the decimal in my values, but I'm really the only one using my codes, so I do it knowing what I mean. When you're giving your code to someone who is less than familiar with the language, it might come off to that person as meaning an integer. In that regards it might be safer to assume future users/editors are #$%^ing morons. –  Kyle Kanos Nov 21 '13 at 20:10
@AlexanderVogt: It's got to be said. It's useful for learning how to take an equation or two and turn it into a useful subroutine, but it's awful that the authors put such a restrictive copyright on it. –  Kyle Kanos Nov 21 '13 at 20:12
Thanks for addressing all my questions, you've been very helpful indeed! –  canavanin Nov 22 '13 at 11:05

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