import sys
import math
from bisect import bisect_right, bisect_left
from itertools import *
from collections import *
from heapq import heapify, heappush, heappop
inf = float('inf')
# mod = 1000000007
# mod = 998244353
input = lambda: sys.stdin.readline().rstrip()
def error(*args, sep=' ', end='\n'):
print(*args, sep=sep, end=end, file=sys.stderr)
# sys.setrecursionlimit(10**6)
import random
random.seed = 148
##################
def can_move(x, y, d):
if d == 'U':
if y and v[y-1][x] == 0:
return 1
elif d == 'D':
if y < 19 and v[y][x] == 0:
return 1
elif d == 'L':
if x and h[y][x-1] == 0:
return 1
elif d == 'R':
if x < 19 and h[y][x] == 0:
return 1
return 0
def cannot_move(x, y, d):
if d == 'U':
if y and v[y-1][x] == 1:
return 1
elif d == 'D':
if y < 19 and v[y][x] == 1:
return 1
elif d == 'L':
if x and h[y][x-1] == 1:
return 1
elif d == 'R':
if x < 19 and h[y][x] == 1:
return 1
return 0
def change_yx(y, x, d):
if d == 'U': y -= 1
if d == 'D': y += 1
if d == 'L': x -= 1
if d == 'R': x += 1
return (y, x)
def wall_nasi(res):
dq = deque(res)
nowy, nowx = 0, 0
while dq:
d = dq.popleft()
move(nowx, nowy, d)
nowy, nowx = change_yx(nowy, nowx, d)
def move(x, y, d):
if d == 'U':
v[y-1][x] = 0
if d == 'D':
v[y][x] = 0
if d == 'L':
h[y][x-1] = 0
if d == 'R':
h[y][x] = 0
def wall_ari(res):
dq = deque(res)
nowy, nowx = 0, 0
while dq:
d = dq.popleft()
if cannot_move(nowx, nowy, d):
move1(nowx, nowy, d)
break
nowy, nowx = change_yx(nowy, nowx, d)
def move1(x, y, d):
if d == 'U':
v[y-1][x] = 1
if d == 'D':
v[y][x] = 1
if d == 'L':
h[y][x-1] = 1
if d == 'R':
h[y][x] = 1
H, W, P = map(int, input().split())
h = [[-1]*20 for _ in range(20)]
v = [[-1]*20 for _ in range(20)]
DIRECT = ['U', 'D', 'L', 'R']
dx = [0, 0, -1, 1]
dy = [1, -1, 0, 0]
def bfs(si, sj):
dist = [[-1]*20 for _ in range(20)]
dq = deque([(si, sj)])
dist[si][sj] = 0
while dq:
nowy, nowx = dq.popleft()
d = dist[nowy][nowx] + 1
if can_move(nowx, nowy, 'D') and dist[nowy+1][nowx] == -1:
dq.append((nowy+1, nowx))
dist[nowy+1][nowx] = d
if can_move(nowx, nowy, 'U') and dist[nowy-1][nowx] == -1:
dq.append((nowy-1, nowx))
dist[nowy-1][nowx] = d
if can_move(nowx, nowy, 'R') and dist[nowy][nowx+1] == -1:
dq.append((nowy, nowx+1))
dist[nowy][nowx+1] = d
if can_move(nowx, nowy, 'L') and dist[nowy][nowx-1] == -1:
dq.append((nowy, nowx-1))
dist[nowy][nowx-1] = d
return dist
def get_root(dist, nowy, nowx):
root = []
while True:
d = dist[nowy][nowx]
if d == 0:
break
if nowy+1 < 20 and v[nowy][nowx] == 0 and dist[nowy+1][nowx] == d-1:
root.append('U')
nowy += 1
elif nowy-1 >= 0 and v[nowy-1][nowx] == 0 and dist[nowy-1][nowx] == d-1:
root.append('D')
nowy -= 1
elif nowx+1 < 20 and h[nowy][nowx] == 0 and dist[nowy][nowx+1] == d-1:
root.append('L')
nowx += 1
elif nowx-1 >= 0 and h[nowy][nowx-1] == 0 and dist[nowy][nowx-1] == d-1:
root.append('R')
nowx -= 1
return list(reversed(root))
def same(d1, d2):
if d1 == 'D' and d2 == 'U': return True
if d1 == 'U' and d2 == 'D': return True
if d1 == 'L' and d2 == 'R': return True
if d1 == 'R' and d2 == 'L': return True
return False
breakflag = False
ok = []
trynum = 0
seen = set()
while trynum < 990:
dist = bfs(0, 0)
# solve?
# if dist[19][19] != -1:
# print(get_root(dist, 19, 19), flush=True)
# resnum = input()
# if resnum == -1:
# break
# if dist[4][4] != -1:
# print(get_root(dist, 4, 4), flush=True)
# resnum = input()
# if resnum == -1:
# break
# search
indx = (0, 0)
for i in range(20):
for j in range(20):
if dist[i][j] != -1:
if (i, j) not in seen or random.random() < 0.1:
if i+j > indx[0]+indx[1]:
indx = (i, j)
gy, gx = indx
seen.add((gy, gx))
ans = get_root(dist, gy, gx)
# error(*dist, sep='\n')
# error()
# error(*h, sep='\n')
# error()
# error(*v, sep='\n')
for i in range(4):
res = ans[:]
if res and same(res[-1], DIRECT[i]): continue
res.append(DIRECT[i])
pred = len(res)
print(''.join(res), flush=True)
trynum += 1
resnum = int(input())
if resnum == -1:
breakflag = True
break
if pred == resnum:
wall_nasi(res)
else:
wall_ari(res)
if breakflag:
break