**If you're not interested in the background information explaining my reasoning skip to the very bottom for the end of my question.

I have a set of polynomial equations i need to read into my program to perform unit tests of polynomials such as

- Synthetic division
- Addition
- Subtraction
- Scale
- Multiplication
- Roots

so i need to be able to input a wide range of numbers to test the functions used in BRLCAD, though i am having trouble coming up with an efficient solution to read in numbers. My current approach:

Given the command line:

`./unit_test sd 2 3 4 8 1 4 5`

- sd - perform synthetic division
- 2 - degree of first poly
- 3,4,8 - 3x^2 + 4x + 8
- 1 - degree of second poly

writing an algorithm to read a set of numbers in this format is cumbersome and quite confusing for others to understand, plus i have yet to implement two other polynomials to be read in as the answers to be compared with.(as this is an open source file, i would like my work to have some transparency).

```
if(strcmp(argv[1],"sd") == 0){
poly_eqn1.dgr = atoi(argv[2]);
/* start at argv[3], run degree count plus one times */
for(counter = 0; counter < (eqn1.dgr + 1); counter++)
poly_eqn1.cf[counter] = atof(argv[counter+3]);
poly_eqn2.dgr = atoi(argv[4 + poly_eqn1.dgr]);
/* start at end of degree one counter */
for(counter = 0; counter < (dgr2 + 1); counter++)
poly_eqn2.cf[counter] = atof(argv[counter+5+dgr]);
/* grab the answer from end of data */
return test_synthetic(//input proper data...);
}
```

**Would using sscanf be more efficent to read in my polynomial given a maximum degree is set?** After writing the initial method i thought about using sscanf, but i'm unsure if using it in such a manner would be worth it as opposed to writing in two more polynomial read in's from above:

Given the maximum degree is four for a polynomial

`./unit_test sd 2,0,0,2,4,5 1,0,0,0,2,3`

- 2,0,0,2,4,5 - degree 2, 0x^4 + 0x^3 + 2x^2 + 4x + 5