import sys def input(): return sys.stdin.readline().strip() def list2d(a, b, c): return [[c] * b for i in range(a)] def list3d(a, b, c, d): return [[[d] * c for j in range(b)] for i in range(a)] def list4d(a, b, c, d, e): return [[[[e] * d for j in range(c)] for j in range(b)] for i in range(a)] def ceil(x, y=1): return int(-(-x // y)) def INT(): return int(input()) def MAP(): return map(int, input().split()) def LIST(N=None): return list(MAP()) if N is None else [INT() for i in range(N)] def Yes(): print('Yes') def No(): print('No') def YES(): print('YES') def NO(): print('NO') sys.setrecursionlimit(10 ** 9) INF = 10 ** 19 MOD = 10 ** 9 + 7 EPS = 10 ** -10 g, c, p = MAP() S = input() N = len(S) def calc(a, b): if a == b: return 1 if a == 'G' and b == 'C' or a == 'C' and b == 'P' or a == 'P' and b == 'G': return 3 if a == 'G' and b == 'P' or a == 'C' and b == 'G' or a == 'P' and b == 'C': return 0 dp = list3d(g+1, c+1, p+1, 0) nxt = list3d(g+1, c+1, p+1, 0) dp[0][0][0] = 0 for i, s in enumerate(S): for j in range(g+1): for k in range(c+1): for l in range(p+1): if j+1 <= g: nxt[j+1][k][l] = max(nxt[j+1][k][l], dp[j][k][l] + calc('G', s)) if k+1 <= c: nxt[j][k+1][l] = max(nxt[j][k+1][l], dp[j][k][l] + calc('C', s)) if l+1 <= p: nxt[j][k][l+1] = max(nxt[j][k][l+1], dp[j][k][l] + calc('P', s)) dp = nxt nxt = list3d(g+1, c+1, p+1, 0) ans = dp[g][c][p] print(ans)