You are thinking in R terms, and that is often fruitless in Stata (just as it is impossible for a Stata guy to figure out how to do `by ... : regress`

in R; every package has its own paradigm and its own strengths).

There are no objects to add columns to. May be you could say a little bit more as to what you need to do, eventually, with your p-values, so as to find an appropriate solution that your Stata collaborators would sympathize with.

If you really want to add a new column (`generate`

a new variable, speaking Stata), then you might want to look at `tabulate`

and its returned values:

```
clear
input x y f1 f2
0 0 5 10
0 1 7 12
1 0 3 8
1 1 9 5
end
```

I assume that your `A B C D`

stand for two binary variables, and the numbers are frequencies in the data. You have to `clear`

the memory, as Stata thinks about one data set at a time.

Then you could `tabulate`

the results and `generate`

new variables containing p-values, although that would be a major waste of memory to create variables that contain a constant value:

```
tabulate x y [fw=f1], exact
return list
generate p1 = r(p_exact)
tabulate x y [fw=f2], exact
generate p2 = r(p_exact)
```

Here, `[fw=variable]`

is a way to specify frequency weights; I typed `return list`

to find out what kind of information Stata stores as the result of the procedure. **THAT'S** the object-like thing Stata works with. R would return the test results in the `fisher.test()$p.value`

component, and Stata creates returned values, `r(component)`

for simple commands and `e(component)`

for estimation commands.

If you want a loop solution (if you have many sets), you can do this:

```
forvalues k=1/2 {
tabulate x y [fw=f`k'], exact
generate p`k' = r(p_exact)
}
```

That's the scripting capacity in which Stata, IMHO, is way stronger than R (although it can be argued that this is an extremely dirty programming trick). The local macro `k`

takes values from 1 to 2, and this macro is substituted as ``k'`

everywhere in the curly bracketed piece of code.

Alternatively, you can keep the results in Stata short term memory as scalars:

```
tabulate x y [fw=f1], exact
scalar p1 = r(p_exact)
tabulate x y [fw=f2], exact
scalar p2 = r(p_exact)
```

However, the scalars are not associated with the data set, so you cannot save them with the
data.

The immediate commands like `cci`

suggested here would also have returned values that you can similarly retrieve.

HTH, Stas