2

I have some random outcomes, and I want to simulate the random outcomes.

outcomes_mapping = {0.10:"Outcome A", 0.60:"Outcome B", 0.30:"Outcome C"}

Outcome A should happen 10% of the time, outcome B 60% of the time, outcome C 30% of the time.

Currently, my solution is something like this:

def random_encounter():
    roll = np.random.rand()        
    if roll <= 0.1:
         return "Outcome A"
    if roll > 0.1 and roll <=0.6:
         return "Outcome B"

Is there some smarter way to do this? My solution obviously involves a lot of hard coding. Should I be using cumulative probabilities instead? Even if I did, my function would still be in a if roll > 0.1, return this, else return that format. If possible, I would like to maintain a master "outcomes mapping" dictionary which I can reference in my function.

6
  • I am trying to find a better way to write my function to "fish" out random encounters, as it currently involves a lot of hard coding.
    – Gen Tan
    Jul 23, 2018 at 7:05
  • @rahultyagi No it doesnt.
    – Rohi
    Jul 23, 2018 at 7:06
  • You can merge them in one line with list comprehension, if you change the outcomes_mapping slightly abit. Jul 23, 2018 at 7:27
  • @rahultyagi Can you elaborate what are the levels this code is wrong? Thanks
    – Gen Tan
    Jul 23, 2018 at 7:29
  • Why would it not? np.random.rand returns random samples from a uniform distribution over [0, 1). Can you help me understand your thinking? Thanks.
    – Gen Tan
    Jul 23, 2018 at 7:37

3 Answers 3

2

You can use weights parameter in random.choices:

from collections import Counter
import random

outcomes_mapping = {0.10:"Outcome A", 0.60:"Outcome B", 0.30:"Outcome C"}

c = Counter()
for i in range(1000):
    c.update( random.choices([*outcomes_mapping.values()], weights=outcomes_mapping.keys()) )

print(c)

Prints:

Counter({'Outcome B': 596, 'Outcome C': 317, 'Outcome A': 87})
3
  • This seems like a good solution. I forgot to indicate that i am on Python 2.7, which doesn't have random.choices
    – Gen Tan
    Jul 23, 2018 at 7:23
  • 1
    @JamesSoh In Python 2.7 you can create a list that is representing your disambiguation of choices, e.g. X = ['A'] + 6*['B'] + 3*['C'], and then call random.choice(X) Jul 23, 2018 at 9:40
  • 1
    @JamesSoh ... or you can use numpy-package. There is the method numpy.random.choice, which provides the argument p, that has the same influence on the output as weights for random.choices in Python 3.x. Jul 23, 2018 at 10:06
0

My take on this, when mapping of outcomes looks like this, where keys hold lower and upper limit for each possibility:

mapping = {(0.0, 0.1) : "A", (0.1, 1) : "B"}

def roll(mapping, roll):
    for limit, val in mapping.items():
        if limit[0] < roll <= limit[1]:
            return val

Output:

roll(mapping, 0.1)
'A'

roll(mapping, 0.2)
'B'

Depending on what range do you want, and what input value for roll would be, you could use either slightly changed mapping (0.0 to -0.1 for example) or other check for ranges.

0

since you already have a dictionary with the values, you could do something like

cumulative = 0
for k in outcomes_mapping: 
    cumulative += k
    if roll <= cumulative:
        return outcomes_mapping[k]

That way, you only have to update the dictionary when changing or adding values.

The reason you need to keep the cumulative count is that your map contains absolute probabilities: Outcome B will show up 60% of the time, but that is rolled range "0.1 to 0.7", so we need to add the 10% from outcome A (thank you for pointing this out @marcus.aurelianus).

1
  • Guess your code will not fullfill 'Outcome A should happen 10% of the time, outcome B 60% of the time, outcome C 30% of the time'. Jul 23, 2018 at 7:05

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