// Based on Isaac Gouy's fannkuchredux.csharp extern mod std; fn fannkuch(n: int) -> int { fn perm1init(i: uint) -> int { return i as int; } let perm = vec::to_mut(vec::from_elem(n as uint, 0)); let perm1 = vec::to_mut(vec::from_fn(n as uint, perm1init)); let count = vec::to_mut(vec::from_elem(n as uint, 0)); let mut f = 0; let mut i = 0; let mut k = 0; let mut r = 0; let mut flips = 0; let mut nperm = 0; let mut checksum = 0; r = n; while r > 0 { i = 0; while r != 1 { count[r - 1] = r; r -= 1; } while i < n { perm[i] = perm1[i]; i += 1; } // Count flips and update max and checksum f = 0; k = perm[0]; while k != 0 { i = 0; while 2 * i < k { let t = perm[i]; perm[i] = perm[k - i]; perm[k - i] = t; i += 1; } k = perm[0]; f += 1; } if f > flips { flips = f; } if nperm & 0x1 == 0 { checksum += f; } else { checksum -= f; } // Use incremental change to generate another permutation let mut go = true; while go { if r == n { io::println(fmt!("%d", checksum)); return flips; } let p0 = perm1[0]; i = 0; while i < r { let j = i + 1; perm1[i] = perm1[j]; i = j; } perm1[r] = p0; count[r] -= 1; if count[r] > 0 { go = false; } else { r += 1; } } nperm += 1; } return flips; } fn main(args: ~[~str]) { let args = if os::getenv(~"RUST_BENCH").is_some() { ~[~"", ~"10"] } else if args.len() <= 1u { ~[~"", ~"8"] } else { args }; let n = int::from_str(args[1]).get(); io::println(fmt!("Pfannkuchen(%d) = %d", n, fannkuch(n))); }