I have an array of **nearly** sorted values 28 elements long. I need to find the set of values that sums to a target value provided to the algorithm (or if exact sum cannot be found, the closest sum **Below** the target value).

I currently have a simple algorithm that does the job but it doesn't always find the best match. It works under ideal circumstances with a specific set of values, but I need a more robust and accurate solution that can handle a wider variety of data sets.

The algorithm must be written in C, not C++, and is meant for an embedded system so keep that in mind.

Here's my current algorithm for reference. It iterates starting at the highest value available. If the current value is less than the target sum, it adds the value to the output and subtracts it from the target sum. This repeats until the sum has been reached or it runs out of values. It asumes a nearly ascending sorted list.

```
//valuesOut will hold a bitmask of the values to be used (LSB representing array index 0, next bit index 1, etc)
void pickValues(long setTo, long* valuesOut)
{
signed char i = 27;//last index in array
long mask = 0x00000001;
(*valuesOut) = 0x00000000;
mask = mask<< i;//shift to ith bit
while(i>=0 && setTo > 0)//while more values needed and available
{
if(VALUES_ARRAY[i] <= setTo)
{
(*valuesOut)|= mask;//set ith bit
setTo = setTo - VALUES_ARRAY[i]._dword; //remove from remaining }
//decrement and iterate
mask = mask >> 1;
i--;
}
}
```

A few more paramters:

The array of values is

**likely**to be Nearly Sorted ascending, but that cannot be enforced so assume that there is not sorting. In fact, there may also be duplicate values.It is quite possible that the array will hold a set of values that cannot create every sum within its range. If the exact sum cannot be found, the algorithm should return values that create the next

**Lowest**Sum.