We have a relatively simple assignment that I understand in theory but I think I just don't quite understand Prolog's syntax enough to get that into code. Basically, we have a list of English notations that represent operations in C. They're stored as a list when they're passed to our Prolog program. For example:

```
add 4 to 3
```

is

```
[add, 4, to, 3]
```

We need to write a function that takes that list an returns the equivalent. So if I called

```
english2C([add,4,to,3], C).
C = 4+3
```

It would bind C to the result. So the data structure itself would be something like +(4(3)). We have a list of such English notation we have to translate, so it's a finite number. It's not like we have to account for all possibilities. There are also combinations, where they take two operations and combine them (with a comma in between)

```
english2C([add,3,to,5,',',then,subtract,7], C).
C = 3+5-7
```

I'm just somewhat confused as to how to start. I know I can take the very first element of the list and that will always be an operator (+,-,*, etc etc) and then I can just recursively go through the list looking for the operands. The problem there is for things that require order of operations, like "add 3 to 5 then multiply by 4", which should be represented as (3+5)*4 but if you just translate it directly you get 3+5*4.

Oh and we have to see if we can get it to run backwards (give it a C statement (3+5) and translate back to english (add 3 to 5)). That part I don't really have an idea for at all.

EDIT: There's a large enough permutations of possible English notations that I can't just pattern match everything. I get the idea that what I need to do is match the first operator with it's corresponding arithmetic symbol then find the operands. For a combinational statement, that would be the first part (so I would have 3+5) and then there would be a comma followed by the next statement. By the way, the combinational statements can be as long as they want, so it's not just two statements and I'm done.