############################################################# import sys sys.setrecursionlimit(10**7) from heapq import heappop,heappush from collections import deque,defaultdict,Counter from bisect import bisect_left, bisect_right from itertools import product,combinations,permutations from math import sin,cos #from math import isqrt #DO NOT USE PyPy ipt = sys.stdin.readline iin = lambda :int(ipt()) lmin = lambda :list(map(int,ipt().split())) inf = 1<<30 ############################################################# H,W,K,L,R = lmin() S = [input() for _ in range(H)] if (R-L)%2 == 0: print("No") exit() costs = [[inf]*W for _ in range(H)] costt = [[inf]*W for _ in range(H)] costs[0][0] = 0 costt[H-1][W-1] = 0 d = [(-1,0),(0,-1),(1,0),(0,1)] d1 = [(-1,0,"D"),(0,-1,"R"),(1,0,"U"),(0,1,"L")] d2 = [(-1,0,"U"),(0,-1,"L"),(1,0,"D"),(0,1,"R")] dq = deque([(0,0,0)]) while dq: i,j,c = dq.pop() for di,dj in d: ni,nj = i+di,j+dj if 0 <= ni < H and 0 <= nj < W and S[ni][nj] == ".": if costs[ni][nj] != inf: continue costs[ni][nj] = c+1 dq.appendleft((ni,nj,c+1)) dq = deque([(H-1,W-1,0)]) while dq: i,j,c = dq.pop() for di,dj in d: ni,nj = i+di,j+dj if 0 <= ni < H and 0 <= nj < W and S[ni][nj] == ".": if costt[ni][nj] != inf: continue costt[ni][nj] = c+1 dq.appendleft((ni,nj,c+1)) if costs[H-1][W-1] == inf: print("No") exit() for i in range(H): for j in range(W): r1 = (i+j)%2 r2 = (L-1)%2 r3 = (K-R)%2 r4 = (H+W-i-j)%2 if r1 == r2 and r4 == r3: if L-1 >= costs[i][j] and K-R >= costt[i][j]: if 1 <= j < W-1 and S[i][j-1] == "." and S[i][j] == "." and S[i][j+1] == ".": #print((i,j)) ci,cj = i,j ans = [] while True: #print(ci,cj) if ci == 0 and cj == 0: break for di,dj,u in d1: ni,nj = ci+di,cj+dj if 0 <= ni < H and 0 <= nj < W and S[ni][nj] == ".": if costs[ni][nj] == costs[ci][cj]-1: ci = ni cj = nj ans.append(u) break #print(ans) ans.reverse() for _ in range((L-1-costs[i][j])//2+(K-R-costt[i][j])//2): ans.append("L") ans.append("R") for _ in range((R-L+1)//2): ans.append("L") ans.append("R") #print(ans) ci,cj = i,j while True: if ci == H-1 and cj == W-1: break for di,dj,u in d2: ni,nj = ci+di,cj+dj if 0 <= ni < H and 0 <= nj < W and S[ni][nj] == ".": if costt[ni][nj] == costt[ci][cj]-1: ci = ni cj = nj ans.append(u) break print("Yes") print("".join(ans)) print(len(ans)) exit() if 1 <= i < H-1 and S[i-1][j] == "." and S[i][j] == "." and S[i+1][j] == ".": ci,cj = i,j ans = [] while True: if ci == 0 and cj == 0: break for di,dj,u in d1: ni,nj = ci+di,cj+dj if 0 <= ni < H and 0 <= nj < W and S[ni][nj] == ".": if costs[ni][nj] == costs[ci][cj]-1: ci = ni cj = nj ans.append(u) break ans.reverse() for _ in range((L-1-costs[i][j])//2+(K-R-costt[i][j])//2): ans.append("U") ans.append("D") for _ in range((R-L+1)//2): ans.append("U") ans.append("D") ci,cj = i,j while True: if ci == H-1 and cj == W-1: break for di,dj,u in d2: ni,nj = ci+di,cj+dj if 0 <= ni < H and 0 <= nj < W: if costt[ni][nj] == costt[ci][cj]-1: ci = ni cj = nj ans.append(u) break print("Yes") print("".join(ans)) exit() print("No")