# Evenly distribute collection into new Arrays

I'm trying to create an method to evenly distribute an array into X numbers of new arrays, where there is only allowed 15 items pr array, and you are only allowed to create a new array, if the previous have 10 items, except if the array has less than 10 items.

EDIT

To make my question more understandable for future readers.

• This is just like a fabric.
• You need to build X number of products.
• One product takes T amount to build for an employee.

How many employees do you need and how do you share the work load between them?

END EDIT

`````` Max allowed number in array = 15;
Min allowed number in array = 10;

Number = Numbers of Items in the Collection.

Number  5 =>   [5]
Number 13 =>   [13]
Number 16 =>   [10] [6]
Number 29 =>   [15] [14]
Number 30 =>   [15] [15]
Number 31 =>   [11] [10] [10]
Number 32 =>   [12] [10] [10]
Number 33 =>   [11] [11] [11]
``````

I'm trying to solve this in C#.

This is my code so far, but it fails at numbers like 16 = [16], 29 = [19][10], 38 = [18][10][10]

``````const int maxAllowedOrderLines = 15;
const int minAllowedOrderLines = 10;
var optimalOrderDisp = new List<int>();

Console.WriteLine("Number of OrderLines");

if (linjer <= maxAllowedOrderLines)
else
{
for (var i = maxAllowedOrderLines; i > 0; i--)
{
var maxOrderLines = linjer%i;
if (maxOrderLines == 0 || i <= minAllowedOrderLines || linjer < maxAllowedOrderLines)
{
Console.WriteLine("Optimal number of order lines {0}--{1}", i, (double) linjer/(double) i);

var optimalNumberOfOrders = linjer/i;
for (var orderNumber = 0; orderNumber < optimalNumberOfOrders; orderNumber++)
{
}

if (maxOrderLines != 0)
optimalOrderDisp[0] += maxOrderLines;
break;
}
}
}
foreach (var i1 in optimalOrderDisp)
{
Console.Write("[{0}]", i1);
}
Console.WriteLine();
``````
-
Is this homework? – Adam Houldsworth Jul 13 '12 at 10:56
And you would want us to do what? Haw it fails? It looks like homework :) – Rafal Jul 13 '12 at 10:57
Why isn't 31 - `Number 31 => [15][10][6]` ? – El Ronnoco Jul 13 '12 at 10:58
#Adam Houldsworth Nope :-) It's been years since I was in school. – gulbaek Jul 13 '12 at 10:58
Ah - because it will always try to conform to the min/max constraints... – El Ronnoco Jul 13 '12 at 10:59

Erm ...

``````const double bucketSize = 15.0;
var totalItems = (double)linjer;
var optimumBuckets = Math.Ceiling(totalItems / bucketSize);
var itemsPerBucket = (int)Math.Ceiling(totalItems / optimumBuckets);

var buckets = new int[(int)optimumBuckets];

var itemsLeft = (int)totalItems
for (var i = 0; i < buckets.length; i++)
{
if (itemsLeft < itemsPerBucket)
{
buckets[i] = itemsLeft;
}
else
{
buckets[i] = itemsPerBucket;
}
itemsLeft -= itemsPerBucket;
}
``````

seems to do what you want.

-
Notice he also has a lower limit for the bucket size - in his case 10. You solution does not account for that. – Simon Ejsing Jul 13 '12 at 11:41
@SimonEjsing Its not necessary, unless you want to throw an exception if the condition cannot be satisfied. – Jodrell Jul 13 '12 at 11:43
the question says: Number 16 => [10] [6] wouldn't your solution produce [8] [8]? – Simon Ejsing Jul 13 '12 at 11:50
@Jodrell just testing it right now, and I looks like the lowest item count i could find is 8. So I think I'm going to use your solution, since its the most simple. Though Simon Ejsing solution produces the correct result. – gulbaek Jul 13 '12 at 11:51
@SimonEjsing you are correct. I think `[8] [8]` is a better answer but not to the exact question. I've voted accordingly. – Jodrell Jul 13 '12 at 11:56

Fun question. I've given it a go:

``````    const int maxAllowedOrderLines = 15;
const int minAllowedOrderLines = 10;

static List<int> optimalOrderDisp = new List<int>();

static void Main(string[] args)
{

int MinNumberOfBuckets = (int) Math.Ceiling((double) Lines / minAllowedOrderLines);
int RemainingLines = Lines;
int BucketLines = Lines / MinNumberOfBuckets;

// Distribute evenly
for (int i = 0; i < MinNumberOfBuckets; i++)
{
optimalOrderDisp.Add(i != MinNumberOfBuckets - 1 ? BucketLines : RemainingLines);
RemainingLines -= BucketLines;
}

// Try to remove first bucket
while (RemoveBucket())
{
}

// Re-balance
Lines = optimalOrderDisp.Sum();
RemainingLines = Lines;
BucketLines = (int) Math.Round((double) Lines / (optimalOrderDisp.Count));
for (int i = 0; i < optimalOrderDisp.Count; i++)
{
optimalOrderDisp[i] = (i != optimalOrderDisp.Count - 1 ? BucketLines : RemainingLines);
RemainingLines -= BucketLines;
}

// Re-balance to comply to min size
for (int i = 0; i < optimalOrderDisp.Count - 1; i++)
if (optimalOrderDisp[i] < minAllowedOrderLines)
{
int delta = minAllowedOrderLines - optimalOrderDisp[i];

optimalOrderDisp[i] += delta;
optimalOrderDisp[optimalOrderDisp.Count - 1] -= delta;
}

Console.WriteLine(String.Join("\n", optimalOrderDisp.ToArray()));
}

static bool RemoveBucket()
{
if (optimalOrderDisp.Sum() > maxAllowedOrderLines * (optimalOrderDisp.Count - 1))
return false;

int Lines = optimalOrderDisp[0];
int RemainingLines = Lines;
int BucketLines = Lines / (optimalOrderDisp.Count - 1);

// Remove bucket and re-distribute content evenly
// Distribute evenly
for (int i = 1; i < optimalOrderDisp.Count; i++)
{
optimalOrderDisp[i] += (i != optimalOrderDisp.Count - 1 ? BucketLines : RemainingLines);
RemainingLines -= BucketLines;
}

optimalOrderDisp.RemoveAt(0);
return true;
}
``````
-
Notice, I'm flipping it a bit around by pessimisticly distributing and then repeatedly removing buckets one by one if it will fit. It's probably not the optimal solution, but I tried the numbers you reported that were tricky and it works. My solution places the spare values in the last bucket. You can just flip the array if you need it to be in the first. – Simon Ejsing Jul 13 '12 at 11:31