from Queue import * # Queue, LifoQueue, PriorityQueue
from bisect import * #bisect, insort
from collections import * #deque, Counter,OrderedDict,defaultdict
#set([]) 
import math
import copy
import itertools
import string
import sys
import re
myread = lambda : map(int,raw_input().split())
def calc(nums, plus, minus):
    op = plus + minus
    s = ""
    for i in xrange(len(nums)-op):
        s += nums[i]
    for i in xrange(plus):
        s += '+'
        s += nums[len(nums) - op + i]
    for i in xrange(minus):
        s += '-'
        s += nums[len(nums) - minus + i]
    s = re.sub(r'\b0+(?!\b)', '', s)
    return eval(s)

def calc2(nums, plus, minus):
    s = ""
    if minus > 0:
        op = plus + minus
        for i in xrange(plus):
            s += nums[i]
            s += '+'
        for i in xrange(minus):
            s += nums[plus + i]
            s += '-'
        for i in xrange(len(nums)-op):
            s += nums[-i-1]
    else:
        numsx = ["" for _ in xrange(plus+1)]
        for i in xrange(len(nums)):
            c = i % (plus + 1)
            numsx[c] += nums[i]
        for i in xrange(plus+1):
            if i != 0:
                s += "+"
            s += numsx[i]
    s = re.sub(r'\b0+(?!\b)', '', s)
    return eval(s)

def solver():
    N = int(raw_input())
    plus,minus = 0,0
    nums = []
    S = raw_input().split()
    for i in xrange(N):
        if S[i] == '+':
            plus += 1
        elif S[i] == '-':
            minus += 1
        else:
            nums.append(S[i])
    nums.sort()
    minv = calc2(nums,plus,minus)
    nums.reverse()
    maxv = calc(nums,plus,minus)
    print maxv,minv

if __name__ == "__main__":
    solver()