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following problem: Having a base triple (0,1,0)

Now I try to create a list of changed triples in a given range.

The constraints:

  1. triple[0] and triple[2] have should have a maximum of r, such as r=0.2
  2. sum(triple) = 1
  3. triple[0] needn't to be equals triple[1] and should be increased by a given stepwise-parameter s, such as s= 0.02

In this above mentioned example our methode should create

lst = [(0.0, 1, 0.0),(0.02, 0.98, 0.), (0.04, 0.96,0), (0.04,0.94, 0.02), (0.06,0.94,0), (0.06, 0.92, 0.02), (0.06, 0.9, 0.04), ...]

Is there any pretty way to do this?

Maybe you have an idea to create these list without nested loops (probably with numpy?).

Thanks a lot!

share|improve this question
What exactly are you trying to do? What have you tried? – Jeffrey Greenham May 23 '12 at 17:20
Very complicated in detail but I need this list for a simulation with switching parameters – John Rumpel May 23 '12 at 17:22
You seem to imply constraint of triple[0] > triple[2] .. is that intentional? – Maria Zverina May 23 '12 at 17:24
Actually no constraints in this way. I would simply add reversed tuples if not t[0]=t[2] at the end. Its like: decrease the middle and distribute the values arbitrary to the left and right, constrained by s – John Rumpel May 23 '12 at 17:26
Is there any reason to avoid nested loops? It seems like it would be really easy to iterate the first and third values from 0 to r by steps of size s, then calculate the middle value by subtracting them from 1. – Blckknght May 23 '12 at 17:27
up vote 1 down vote accepted

Here's a list comprehension that should provide all 3-tuples that meet your constraints (as I understand them). Its a bit more clunky than I'd like due to the range function only accepting integers:

r = 0.2
s = 0.02
steps = int(math.ceil(r/s))
lst = [(a*s, 1-(a+b)*s, b*s) for b in range(steps) for a in range(steps)]


>>> lst[0:4]
[(0.0, 1.0, 0.0), (0.02, 0.98, 0.0), (0.04, 0.96, 0.0), (0.06, 0.94, 0.0)]
>>> lst[90:94]
[(0.0, 0.8200000000000001, 0.18), (0.02, 0.8, 0.18), (0.04, 0.78, 0.18), (0.06, 0.76, 0.18)]

The first and last values only go up to 0.18 in this code, and I'm not sure if that's desirable or not (is the constraint < r or <= r?). It shouldn't be too hard to tweak, if you want it the other way.

share|improve this answer
nice use of a comprehension! – James May 23 '12 at 17:54
Nice answer! +1 This is what I've called a 'pretty solution'. I've the check if tweak is only: "steps = int(math.ceil(r/s))+1" Thanks a lot – John Rumpel May 23 '12 at 17:59
I think adding 1 unconditionally will wrong if r is not an exact multiple of s. Try "steps = int(math.floor(r/s))+1". That will get you the next higher integer in all cases (even if you already have an integer after the division). Also, apropos of my comment on the question, its worth noting that the list comprehension (with its two "for _ in _" clauses) is equivalent to a pair of nested loops. – Blckknght May 23 '12 at 20:47

You could create a function that makes the triple as you describe ... something such as:

def make_triple(r=0.2, s=0.02):
    element_one = round(random.uniform(0, r), 2)
    max_s = r/s
    element_three = random.randint(0, max_s) * s
    element_two = round(1 - element_one - element_three, 2)
    return (element_one, element_two, element_three)

And then just create a single loop that calls this function:

list_of_triples = []
for i in range(5):
    list_of_triples.append(make_triple(0.2, 0.02))

And there you go! No nested loops necessary.

share|improve this answer
This function looks nice but doesn't fit the given constraints – John Rumpel May 23 '12 at 17:46
I just edited the max_s variable to fit the constrant of the third element being less than r. Was there another I missed? – James May 23 '12 at 17:53

Another numpy answer just for kicks:

import numpy as np
r = .2
s = .02

a, b = np.mgrid[0:r:s, 0:r:s]
lst = np.dstack([a, 1 - (a+b), b]).reshape(-1, 3)
share|improve this answer

Here's a NumPy solution without for-loops, as requested. It uses a 3D array and NumPy broadcasting rules to assing the scale by row and by column. scale is a 2D array of a single column so it can be conveniently trasposed by .T. In the end, the 3D array is reshaped to 2D.

import numpy as np

r = .2
s = .02

scale = np.arange(r, step=s, dtype=float).reshape(-1,1)
a = np.empty((len(scale),len(scale),3), dtype=float)
a[:,:,0] = scale
a[:,:,2] = scale.T
a[:,:,1] = 1 - a[:,:,0] - a[:,:,2]

print a.reshape(-1,3)
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