Here's something kind of crude in Haskell, which could probably benefit from optimization, memoization, and better heuristics...

The idea is to start with a grid that is all farm and place roads on it, starting with the root and expanding from there. The recursion uses a basic heuristic, where the candidates are chosen from all adjacent straight-two-block segments all along the road/s, and only if they satisfy the requirement that adding the segment will increase the number of farms connected to the road/s (overlapping segments are just added as one block rather than two).

```
import qualified Data.Map as M
import Data.List (nubBy)
-- (row,(rowLength,offset))
grid' = M.fromList [(9,[6])
,(8,[5..7])
,(7,[4..8])
,(6,[3..9])
,(5,[2..10])
,(4,[1..11])
,(3,[2..10])
,(2,[3..9])
,(1,[4..7])]
grid = M.fromList [(19,[10])
,(18,[9..11])
,(17,[8..12])
,(16,[7..13])
,(15,[6..14])
,(14,[5..15])
,(13,[4..16])
,(12,[3..17])
,(11,[2..18])
,(10,[1..19])
,(9,[1..20])
,(8,[1..19])
,(7,[2..18])
,(6,[3..17])
,(5,[4..16])
,(4,[5..15])
,(3,[6..14])
,(2,[7..13])
,(1,[8..11])]
root' = (1,7) --(row,column)
root = (1,11) --(row,column)
isOnGrid (row,col) =
case M.lookup row grid of
Nothing -> False
Just a -> elem col a
isFarm (topLeftRow,topLeftCol) =
and (map isOnGrid [(topLeftRow,topLeftCol),(topLeftRow,topLeftCol + 1)
,(topLeftRow - 1,topLeftCol),(topLeftRow - 1,topLeftCol + 1)])
isNotOnFarm tile@(r,c) farm@(fr,fc) =
not (elem r [fr,fr - 1]) || not (elem c [fc, fc + 1])
isOnFarm tile@(r,c) farm@(fr,fc) =
elem r [fr,fr - 1] && elem c [fc, fc + 1]
farmOnFarm farm@(fr,fc) farm' =
or (map (flip isOnFarm farm') [(fr,fc),(fr,fc + 1),(fr - 1,fc),(fr - 1,fc + 1)])
addRoad tile@(r,c) result@(road,(numFarms,farms))
| not (isOnGrid tile) || elem tile road = result
| otherwise = (tile:road,(length $ nubBy (\a b -> farmOnFarm a b) farms',farms'))
where
newFarms' = filter (isNotOnFarm tile) farms
newFarms = foldr comb newFarms' adjacentFarms
farms' = newFarms ++ adjacentFarms
comb adjFarm newFarms'' =
foldr (\a b -> if farmOnFarm a adjFarm || a == adjFarm then b else a:b) [] newFarms''
adjacentFarms = filter (\x -> isFarm x && and (map (flip isNotOnFarm x) road))
[(r - 1,c - 1),(r - 1,c),(r,c - 2),(r + 1,c - 2)
,(r + 2,c - 1),(r + 2,c),(r + 1,c + 1),(r,c + 1)]
candidates result@(road,(numFarms,farms)) =
filter ((>numFarms) . fst . snd)
$ map (\roads -> foldr (\a b -> addRoad a b) result roads)
$ concatMap (\(r,c) -> [[(r + 1,c),(r + 1,c - 1)],[(r + 1,c),(r + 1,c + 1)]
,[(r,c - 1),(r + 1,c - 1)],[(r,c - 1),(r - 1,c - 1)]
,[(r,c + 1),(r + 1,c + 1)],[(r,c + 1),(r - 1,c + 1)]
,[(r - 1,c),(r - 1,c - 1)],[(r - 1,c),(r - 1,c + 1)]
,[(r + 1,c),(r + 2,c)],[(r,c - 1),(r,c - 2)]
,[(r,c + 1),(r,c + 2)],[(r - 1,c),(r - 2, c)]]) road
solve = solve' (addRoad root ([],(0,[]))) where
solve' result@(road,(numFarms,farms)) =
if null candidates'
then [result]
else do candidate <- candidates'
solve' candidate
where candidates' = candidates result
b n = let (road,(numFarms,farms)) = head $ filter ((>=n) . fst . snd) solve
in (road,(numFarms,nubBy (\a b -> farmOnFarm a b) farms))
```

Output, small grid:

*format: (road/s,(numFarms,farms))*

```
*Main> b 8
([(5,5),(5,4),(6,6),(4,6),(5,6),(4,8),(3,7),(4,7),(2,7),(2,6),(1,7)]
,(8,[(2,4),(3,8),(5,9),(8,6),(6,7),(5,2),(4,4),(7,4)]))
(0.62 secs, 45052432 bytes)
Diagram (O's are roads):
X
XXX
XXXXX
XXXOXXX
XXOOOXXXX
XXXXXOOOXXX
XXXXXOXXX
XXXOOXX
XXXO
```

Output, large grid:

*format: (road/s,(numFarms,farms))*

```
*Main> b 30
([(9,16),(9,17),(13,8),(13,7),(16,10),(7,6),(6,6),(9,3),(8,4),(9,4),(8,5)
,(8,7),(8,6),(9,7),(10,8),(10,7),(11,8),(12,9),(12,8),(14,9),(13,9),(14,10)
,(15,10),(14,11),(13,12),(14,12),(13,14),(13,13),(12,14),(11,15),(11,14)
,(10,15),(8,15),(9,15),(8,14),(8,13),(7,14),(7,15),(5,14),(6,14),(5,12)
,(5,13),(4,12),(3,11),(4,11),(2,11),(2,10),(1,11)]
,(30,[(2,8),(4,9),(6,10),(4,13),(6,15),(7,12),(9,11),(10,13),(13,15),(15,13)
,(12,12),(13,10),(11,9),(9,8),(10,5),(8,2),(10,1),(11,3),(5,5),(7,4),(7,7)
,(17,8),(18,10),(16,11),(12,6),(14,5),(15,7),(10,18),(8,16),(11,16)]))
(60.32 secs, 5475243384 bytes)
*Main> b 31
still waiting....
```