from sys import setrecursionlimit, stdin from collections import defaultdict, deque from itertools import permutations, combinations, product from functools import lru_cache from random import sample, choice, randint, random from heapq import heappush, heappop from math import factorial, gcd, exp from copy import copy, deepcopy from time import time setrecursionlimit(500000) readline = stdin.readline # @lru_cache(maxsize=None) INF = 10 ** 18 MOD = 1000000007 MOD2 = 998244353 DYDX = [(-1, 0), (1, 0), (0, -1), (0, 1)] def I(): return int(readline()) def S(): return readline()[:-1] def LI(): return list(map(int, readline().split())) def SPI(): return map(int, readline().split()) def SPII(): return map(lambda x: int(x)-1, readline().split()) def FIE(x): return [readline()[:-1] for _ in [0] * x] def NODE(x): return [[] for _ in [0] * x] def ranges(*args): return [(i, j) for i in range(args[0]) for j in range(args[-1])] def nynx(y, x, ly = INF, lx = INF): return [(y+dy, x+dx) for dy, dx in DYDX if 0 <= y+dy < ly and 0 <= x+dx < lx] def imax(A, idx=-1, m=-(1<<18)): for i, a in enumerate(A): m, idx = [[m, idx], [a, i]][m < a] return idx def imin(A, idx=-1, m=1<<18): for i, a in enumerate(A): m, idx = [[m, idx], [a, i]][m > a] return idx def cmin(dp, i, x): if x < dp[i]: dp[i] = x def cmax(dp, i, x): if x > dp[i]: dp[i] = x def gen(x, *args): ret = [x] * args[-1] for e in args[:-1][::-1]: ret = [deepcopy(ret) for _ in [0] * e] return ret def puts(E): for e in E: print(e) def pprint(E): print() puts(E) from operator import mul from functools import reduce def nCr(n, r): r = min(r, n - r) numer = reduce(mul, range(n, n - r, -1), 1) denom = reduce(mul, range(1, r + 1), 1) return numer // denom #################################################################### A, B, C, N = SPI() dp = gen(0, A+1, B+1, C+1) dp[A][B][C] = 1 for _ in range(N): for a in range(A+1): for b in range(B+1): for c in range(C+1): k = 1 if a >= 2: t = nCr(a, 2) / nCr(a+b+c, 2) dp[a-1][b][c] += dp[a][b][c] * t k -= t if b >= 2: t = nCr(b, 2) / nCr(a+b+c, 2) dp[a][b-1][c] += dp[a][b][c] * t k -= t if c >= 2: t = nCr(c, 2) / nCr(a+b+c, 2) dp[a][b][c-1] += dp[a][b][c] * t k -= t dp[a][b][c] *= max(0, k) ans = gen(0, 3) for a in range(A+1): for b in range(B+1): for c in range(C+1): ans[0] += dp[a][b][c] * (A-a) ans[1] += dp[a][b][c] * (B-b) ans[2] += dp[a][b][c] * (C-c) print(*ans)