The solution shown below (as a python program) runs in time `O(n lg*(n))`

, where `lg*(n)`

is the nearly-constant iterated-log function often associated with union operations in disjoint-set forests.

In the first pass through all cells, the program creates a disjoint-set forest, using routines called `makeset(), findset(), link(),`

and `union()`

, just as explained in section 22.3 (Disjoint-set forests) of edition 1 of Cormen/Leiserson/Rivest. In later passes through the cells, it counts the number of members of each disjoint forest, checks the depth, etc. The first pass runs in time `O(n lg*(n))`

and later passes run in time `O(n)`

but by simple program changes some of the passes could run in `O(c)`

or `O(b)`

for c caves with a total of b cells.

Note that the code shown below is not subject to the error contained in a previous answer, where the previous answer's pseudo-code contains the line

`if (size==0 and depth!=0) IsolatedCaveCount++`

The error in that line is that a cave with a connection to the surface might have underground rising branches, which the other answer would erroneously add to its total of isolated caves.

The code shown below produces the following output:

`Deepest: 5 Largest: 22 Isolated: 3`

(Note that the count of 24 shown in your diagram should be 22, from 4+9+9.)

```
v=[0b0000010000000000100111000, # Cave map
0b0000000100000110001100000,
0b0000000000000001100111000,
0b0000000000111001110111100,
0b0000100000111001110111101]
nx, ny, nz = 5, 5, 5
inlay, ncells = (nx+1) * ny, (nx+1) * ny * nz
masks = []
for r in range(ny):
masks += [2**j for j in range(nx*ny)][nx*r:nx*r+nx] + [0]
p = [-1 for i in range(ncells)] # parent links
r = [ 0 for i in range(ncells)] # rank
c = [ 0 for i in range(ncells)] # forest-size counts
d = [-1 for i in range(ncells)] # depths
def makeset(x): # Ref: CLR 22.3, Disjoint-set forests
p[x] = x
r[x] = 0
def findset(x):
if x != p[x]:
p[x] = findset(p[x])
return p[x]
def link(x,y):
if r[x] > r[y]:
p[y] = x
else:
p[x] = y
if r[x] == r[y]:
r[y] += 1
def union(x,y):
link(findset(x), findset(y))
fa = 0 # fa = floor above
bc = 0 # bc = floor's base cell #
for f in v: # f = current-floor map
cn = bc-1 # cn = cell#
ml = 0
for m in masks:
cn += 1
if m & f:
makeset(cn)
if ml & f:
union(cn, cn-1)
mr = m>>nx
if mr and mr & f:
union(cn, cn-nx-1)
if m & fa:
union(cn, cn-inlay)
ml = m
bc += inlay
fa = f
for i in range(inlay):
findset(i)
if p[i] > -1:
d[p[i]] = 0
for i in range(ncells):
if p[i] > -1:
c[findset(i)] += 1
if d[p[i]] > -1:
d[p[i]] = max(d[p[i]], i//inlay)
isola = len([i for i in range(ncells) if c[i] > 0 and d[p[i]] < 0])
print "Deepest:", 1+max(d), " Largest:", max(c), " Isolated:", isola
```