This is the simplest C++ 4-bit (BCD) encoding algorithm I could come up with - wouldn't call it exactly easy, but no rocket science either. Extracts one digit at a time by dividing and then adds them to the string:

```
#include <iostream>
int main() {
const unsigned int ints = 3;
unsigned int a[ints] = {2,34,99}; // these are the original ints
unsigned int bytes_per_int = 6;
char * result = new char[bytes_per_int * ints + 1];
// enough space for 11 digits per int plus comma, 8-bit chars
for (int j=0; j < bytes_per_int * ints; ++j)
{
result[j] = 0xFF; // fill with FF
}
result[bytes_per_int*ints] = 0; // null terminated string
unsigned int rpos = bytes_per_int * ints * 2; // result position, start from the end of result
int i = ints; // start from the end of the array too.
while (i != 0) {
--i;
unsigned int b = a[i];
while (b != 0) {
--rpos;
unsigned int digit = b % 10; // take the lowest decimal digit of b
if (rpos & 1) {
// odd rpos means we set the lowest bits of a char
result[(rpos >> 1)] = digit;
}
else {
// even rpos means we set the highest bits of a char
result[(rpos >> 1)] |= (digit << 4);
}
b /= 10; // make the next digit the new lowest digit
}
if (i != 0 || (rpos & 1))
{
// add the comma
--rpos;
if (rpos & 1) {
result[(rpos >> 1)] = 0x0F;
}
else {
result[(rpos >> 1)] |= 0xF0;
}
}
}
std::cout << result;
}
```

Trimming the bogus data left at the start portion of the result according to rpos will be left as an exercise for the reader.

The subproblem of BCD conversion has also been discussed before: Decimal to BCD conversion

If you want a more efficient algorithm, here's a bunch of lecture slides with conversion from 8-bit ints to BCD: http://edda.csie.dyu.edu.tw/course/fpga/Binary2BCD.pdf