**See update below...**

I'm writing a Python simulation that assigns an arbitrary number of imaginary players one goal from an arbitrary pool of goals. The goals have two different levels or proportions of scarcity, `prop_high`

and `prop_low`

, at approximately a 3:1 ratio.

For example, if there are 16 players and 4 goals, or 8 players and 4 goals, the two pools of goals would look like this:

```
{'A': 6, 'B': 6, 'C': 2, 'D': 2}
{'A': 3, 'B': 3, 'C': 1, 'D': 1}
```

...with goals A and B occurring 3 times as often as C and D. 6+6+2+2 = 16, which corresponds to the number of players in the simulation, which is good.

I want to have a pool of goals equal to the number of players and distributed so that there are roughly three times as many `prop_high`

goals as there are `prop_low`

goals.

**What's the best way to build an allocation algorithm according to a rough or approximate ratio—something that can handle rounding?**

**Update:**

Assuming 8 players, here's how the distributions from 2 to 8 goals should hopefully look (`prop_high`

players are starred):

```
A B C D E F G H
2 6* 2
3 6* 1 1
4 3* 3* 1 1
5 3* 2* 1 1 1
6 2* 2* 1* 1 1 1
7 2* 1* 1* 1 1 1 1
8 1* 1* 1* 1* 1 1 1 1
```

These numbers don't correspond to players. For example, with 5 goals and 8 players, goals A and B have a high proportion in the pool (3 and 2 respectively) while goals C, D, and E are more rare (1 each).

When there's an odd number of goals, the last of the `prop_high`

gets one less than the others. As the number of goals approaches the number of players, each of the `prop_high`

items gets one less until the end, when there is one of each goal in the pool.

What I've done below is assign quantities to the high and low ends of the pool and then make adjustments to the high end, subtracting values according to how close the number of goals is to the number of players. It works well with 8 players (the number of goals in the pool is always equal to 8), but that's all.

I'm absolutely sure there's a better, more Pythonic way to handle this sort of algorithm, and I'm pretty sure it's a relatively common design pattern. I just don't know where to start googling to find a more elegant way to handle this sort of structure (instead of the brute force method I'm using for now)

```
import string
import math
letters = string.uppercase
num_players = 8
num_goals = 5
ratio = (3, 1)
prop_high = ratio[0] / float(sum(ratio)) / (float(num_goals)/2)
prop_low = ratio[1] / float(sum(ratio)) / (float(num_goals)/2)
if num_goals % 2 == 1:
is_odd = True
else:
is_odd = False
goals_high = []
goals_low = []
high = []
low = []
# Allocate the goals to the pool. Final result will be incorrect.
count = 0
for i in range(num_goals):
if count < num_goals/2: # High proportion
high.append(math.ceil(prop_high * num_players))
goals_high.append(letters[i])
else: # Low proportion
low.append(math.ceil(prop_low * num_players))
goals_low.append(letters[i])
count += 1
# Make adjustments to the pool allocations to account for rounding and odd numbers
ratio_high_total = len(high)/float(num_players)
overall_ratio = ratio[1]/float(sum(ratio))
marker = (num_players / 2) + 1
offset = num_goals - marker
if num_players == num_goals:
for i in high:
high[int(i)] -= 1
elif num_goals == 1:
low[0] = num_players
elif ratio_high_total == overall_ratio and is_odd:
high[-1] -= 1
elif ratio_high_total >= overall_ratio: # Upper half of possible goals
print offset
for i in range(offset):
index = -(int(i) + 1)
high[index] -= 1
goals = goals_high + goals_low
goals_quantities = high + low
print "Players:", num_players
print "Types of goals:", num_goals
print "Total goals in pool:", sum(goals_quantities)
print "High pool:", goals_high, high
print "Low pool:", goals_low, low
print goals, goals_quantities
print "High proportion:", prop_high, " || Low proportion:", prop_low
```

`prop_high`

goals as there are`prop_low`

goals. The ordering isn't important; it's all going to be random eventually. – Andrew Dec 31 '11 at 0:50