Firstly, note that calling Latex repeatedly does not always produce a fixed point, so make sure you have a bound on the iterations. Also, some distributions (MikTex) provide Latex versions that automatically run as many times as they need to, so if you use those instead the problem goes away.

**Write your own **`foo_transitive`

command

The easiest way to solve the problem, assuming each run of `foo`

has the same dependencies, is to solve the problem outside the build system. Just write a `foo_transitive`

command, either as a shell script or as a Haskell function, that when supplied an input file produces an output file by running repeatedly and checking if it has reached a fixed point. The build system can now use `foo_transitive`

and there are no issues about dependencies.

**Encode it in the build system**

You need to write two rules, one which makes one step, and one which figures out which step is the right one to use:

```
let step i = "tempfile" <.> show i
"tempfile.*" *> \out -> do
let i = read $ takeExtension out :: Int
if i == 0 then
copyFile "input" out
else
let prev = step (i-1)
need [prev]
-- perhaps require addition dependencies, depending on prev
system' "foo" [prev,out]
"output" *> \out -> do
let f i = do
old <- readFile' $ step (i-1)
new <- readFile' $ step i
if old == new || i > 100 then copyFile (step i) out else f (i+1)
f 1
```

The first rule generates `tempfile.2`

from `tempfile.1`

and so on, so we can `need ["tempfile.100"]`

to get the 100th iteration. If the dependencies change in each step we can look at the previous result to calculate the new dependencies.

The second rule loops round checking each pair of values in the sequence, and stopping when they are equal. If you are implementing this in a production build system you may wish to avoid calling `readFile'`

on each element twice (once as `i-1`

and once as `i`

).