def f1(d): return sum(d) def f2(): return [int(input()) for i in range(int(input()))] def f3(x,e): cal=[] for i in x: if i%e == 0: cal.append(i) return cal def f4(): x=f2() print(f1(f3(x, 2))-f1(f3(x, 3))-f1(f3(x, 5))) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) l = [] for _ in range(n): l.append(int(input())) return l def f3(x, e): return [i for i in x if i % e == 0] def f4(): l = f2() print(f1(f3(l, 2)) - f1(f3(l, 3)) - f1(f3(l, 5))) **************************************** def f1(d): return sum(d) def f2(): cnt = int(input()) res = [] for _ in range(cnt): x = int(input()) res.append(x) return res def f3(x, e): return [el for el in x if el%e == 0] def f4(): x = f2() print(f1(f3(x, 2)) - f1(f3(x, 3)) - f1(f3(x, 5))) **************************************** def f1(d): return sum(d) def f2(): a = input() b = [] for i in range(int(a)): b.append(int(input())) return b def f3(x, e): c = [] for i in x: if i%e==0: c.append(i) return c def f4(): a = f2() print(f1(f3(a,2))-f1(f3(a,3))-f1(f3(a,5))) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) return [int(input()) for i in range(n)] def f3(x, e): return [i for i in x if i%e == 0] def f4(): n = int(input()) ans = [int(input()) for i in range(n)] print(sum(f3(ans, 2)) - sum(f3(ans, 3)) - sum(f3(ans, 5))) **************************************** def f1(d) : return sum(d) def f2() : n = int(input()) ; l = list() for i in range(n) : l.append(int(input())) return l def f3(x, e) : d = list() for k in x : if k%e == 0 : d.append(k) return d def f4() : a = f2() print(f1(f3(a,2))-f1(f3(a,3))-f1(f3(a,5))) **************************************** def f1(d): return sum(d) def f2(): z=[] a=int(input()) for i in range(a): z.append(int(input())) return z def f3(x,e): z=[] for i in x: if i%e==0: z.append(i) return z def f4(): z=f2() s=0 s+=sum(f3(z,2)) s-=sum(f3(z,3)) s-=sum(f3(z,5)) print(s) **************************************** def f1(d): a=0 for i in d: a+=i return a def f2(): a=int(input()) B=[] for i in range(a): b=int(input()) B.append(b) return B def f3(x,e): a=[] for i in x: if i%e==0: a.append(i) return a def f4(): a=f2() print(f1(f3(a,2))-f1(f3(a,3))-f1(f3(a,5))) **************************************** def f1(x): return sum(x) def f2() : y=[] x= int(input()) for i in range(x): y.append(int(input())) return y def f3(x, e): y=[] for i in x: if i%e==0: y.append(i) return y def f4(): x=f2() print(f1(f3(x,2))-f1(f3(x,3))-f1(f3(x,5))) **************************************** def f1(d): x=0 for c in d: x+=c return x def f2(): x=[] n=int(input()) for i in range(n): a=int(input()) x.append(a) return x def f3(x,e): d=[] for c in x: if c%e== 0: d.append(c) return d def f4(): d=f2() s=f1(f3(d,2))-f1(f3(d,3))-f1(f3(d,5)) print(s) **************************************** def f1(l): return sum(l) def f2(): n = int(input()) ret = [] for _ in range(n): ret.append(int(input())) return ret def f3(x,e): ret = [] for i in x: if i % e== 0: ret += [i] return ret def f4(): inp = f2() s = sum(f3(inp,2)) - sum(f3(inp,3)) - sum(f3(inp,5)) print(s) **************************************** def f1(d): return sum(d) def f2(): y=[] a=int(input()) for i in range(a): y.append(int(input())) return y def f3(x,e): x1 =[] for i in range(len(x)): if x[i]%e==0: x1.append(x[i]) return x1 def f4(): a = f2() s = f1(f3(a,2)) s = s - f1(f3(a,3)) s = s - f1(f3(a,5)) print(s) **************************************** def f1(d): return sum(d) def f2(): b=[] a = int(input()) for i in range (a) : x=int(input()) b.append(x) return b def f3(x,e): num=[] for i in x: if i % e ==0: num.append(i) return num def f4(): d=f2() a=f3(d,2) b=f3(d,3) c=f3(d,5) ans = f1(a) - f1(b)-f1(c) print(ans) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) c = [] for i in range(n): k = int(input()) c.append(k) return c def f3(x,e): c =[] for k in x: if k%e ==0: c.append(k) return c def f4(): k = f2() print( f1(f3(k,2))-f1(f3(k,3))-f1(f3(k,5))) **************************************** def f1(d): su=0 for i in d: su += i return su def f2(): an=[] n = int(input()) for i in range(n): an+= [int(input())] return an def f3(x, e): an=[] for i in x: if i%e==0: an+= [i] return an def f4(): an=0 x=f2() an+=f1(f3(x,2)) an-=f1(f3(x,3)) an-=f1(f3(x,5)) print(an) **************************************** def f1(d): sum = 0 for i in d: sum += int(i) return(sum) def f2(): n = int(input()) a = [] for i in range(n): a.append(int(input())) return(a) def f3(x, e): a = [] for i in x: if i % e == 0: a.append(i) return(a) def f4(): a = f2() print(f1(f3(a,2)) - f1(f3(a,3)) - f1(f3(a, 5))) **************************************** def f1(d): s = 0 for i in d: s+=i return s def f2(): l = [] n = int(input()) for i in range(n): i = int(input()) l.append(i) return l def f3(x,e): o = [] for i in x: if i%e==0: o.append(i) return o def f4(): a = f2() output = f1(f3(a,2))-f1(f3(a,3))-f1(f3(a,5)) print(output) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) x = [] for i in range(n): a = int(input()) x.append(a) return x def f3(x, e): answer = [] for k in x: if k % e == 0: answer.append(k) return answer def f4(): x = f2() answer = f1(f3(x, 2)) - f1(f3(x, 3)) - f1(f3(x, 5)) print(answer) **************************************** def f1(d): return sum(d) def f2(): x = int(input()) z = [] for i in range(x): if i != x: y = int(input()) z.append(y) return z def f3(x, e): y = [] for i in x: if i%e == 0: y.append(i) return y def f4(): inp = f2() ans = f1(f3(inp,2)) - f1(f3(inp,3)) - f1(f3(inp,5)) print(ans) **************************************** def f1(d): s = 0 for e in d: s += e return s def f2(): n = int(input()) l = [] for i in range(n): p = int(input()) l.append(p) return l def f3(x, e): l = [] for n in x: if n%e == 0: l.append(n) return l def f4(): x = f2() s = f1(f3(x, 2)) - f1(f3(x, 3)) - f1(f3(x, 5)) print(s) **************************************** def f1(d): return sum(d) def f2(): a=input() b=[] for i in range(int(a)): c=int(input()) b.append(c) return(b) def f3(x,e): f=[] for i in range(len(x)): if x[i]%e==0: f.append(x[i]) return f def f4(): a=f2() print(f1(f3(a,2))-f1(f3(a,3))-f1(f3(a,5))) **************************************** def f1(d): s = 0 for i in d: s+=i return s def f2(): d = [] n = int(input()) for i in range(n): x = int(input()) d.append(x) return d def f3(x,e): s = [] for k in x: if k%e==0: s.append(k) return s def f4(): a = f2() a2 = f1(f3(a,2)) a3 = f1(f3(a,3)) a5 = f1(f3(a,5)) print(a2-a3-a5) **************************************** def f1(d): a= sum(d) return a def f2(): a=[] for _ in range(int(input())): a += [int(input())] return a def f3(x,e): a=[] for b in x: if b % e ==0: a.append(b) return a def f4(): ca=f2() ca2=f3(ca,2) ca3=f3(ca,3) ca5=f3(ca,5) print(f1(ca2)-f1(ca3)-f1(ca5)) **************************************** def f1(d): return sum(d) def f2(): k = [] n = int(input()) for i in range(n): t = int(input()) k.append(t) return k def f3(x,e): k = [] for i in x : if i % e == 0: k.append(i) return k def f4(): k = f2() j = sum(f3(k,2)) - sum(f3(k,3)) - sum(f3(k,5)) print(j) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) ans=[] for i in range(n): txt = int(input()) ans.append(txt) return ans def f3(x,e): ans=[] for i in x: if i % e ==0: ans.append(i) return ans def f4(): ans=f2() print(f1(f3(ans,2)) - f1(f3(ans,3)) - f1(f3(ans,5))) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) d = [] for i in range(n): d.append(int(input())) return d def f3(x, e): x_copy = x[:] res = [] for v in x_copy: if v % e == 0: res.append(v) return res def f4(): x = f2() print(f1(f3(x, 2)) - f1(f3(x, 3)) - f1(f3(x, 5))) **************************************** def f1(d): return sum(d) def f2() : n = int(input()) d = [] for i in range(n) : d.append(int(input())) return d def f3(x, e) : d = [] for i in x : if i % e == 0 : d.append(i) return d def f4() : x = f2() s2 = f1(f3(x, 2)) s3 = f1(f3(x, 3)) s5 = f1(f3(x, 5)) print(s2 - s3 - s5) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) out = [] for i in range(n): out += [int(input())] return out def f3(x, e): out = [] for n in x: if n % e == 0: out += [n] return out def f4(): list_num = f2() out = 0 out += f1(f3(list_num, 2)) - f1(f3(list_num, 3)) - f1(f3(list_num, 5)) print(out) return None **************************************** def f1(d): s = sum(d) return s def f2(): n = int(input()) l = [] for i in range(n): x = int(input()) l.append(x) return l def f3(x, e): d = [] for a in x: if a%e == 0: d.append(a) return d def f4(): x = f2() d2 = 0 d3 = 0 d5 = 0 d2 += f1(f3(x, 2)) d3 += f1(f3(x, 3)) d5 += f1(f3(x, 5)) print(d2-d3-d5) **************************************** def f1(d): sum = 0 for i in range(len(d)): sum += d[i] return sum def f2(): l = int(input()) e = [] for i in range(l): e += [int(input())] return e def f3(x,e): l = [] for i in x: if i %e == 0: l.append(i) return l def f4(): d = f2() a = f1(f3(d,2)) b = f1(f3(d,3)) c = f1(f3(d,5)) ans = a-b-c print(ans) **************************************** def f1(d): ans = 0 for i in d: ans+=i return ans def f2(): n=int(input()) ans=[] for i in range(n): inp = int(input()) ans.append(inp) return ans def f3(x,e): ans =[] for i in x: if(i%e==0):ans.append(i) return ans def f4(): ch = f2() mod2=f3(ch,2) mod3=f3(ch,3) mod5=f3(ch,5) print(f1(mod2)-f1(mod3)-f1(mod5)) **************************************** def f1(d): s = 0 for e in d: s += e return s def f2(): n = int(input()) s = [] for i in range(n): s.append(int(input())) return s def f3(x, e): s = [] for i in x: if i%e == 0: s.append(i) return s def f4(): s = f2() a = f1(f3(s, 2)) - f1(f3(s, 3)) - f1(f3(s, 5)) print(a) **************************************** def f1(d): s = 0 for i in d: s += i return s def f2(): b = [] for i in range(int(input())): b.append(int(input())) return b def f3(x, e): a = [] for i in range(len(x)): if x[i] % e == 0: a.append(x[i]) return a def f4(): a = f2() print(f1(f3(a, 2)) - f1(f3(a, 3)) - f1(f3(a, 5))) **************************************** def f1(d): s = 0 for c in d: s += c return s def f2(): c = int(input()) d = [] for i in range(c): e = int(input()) d.append(e) return d def f3(x, e): d = [] for c in x: if c % e == 0: d.append(c) return d def f4(): d = f2() print(f1(f3(d, 2)) - f1(f3(d, 3)) - f1(f3(d, 5))) **************************************** def f1(x): return sum(x) def f2(): list_a = [] n = int(input()) for i in range(n): x = int(input()) list_a.append(x) return list_a def f3(x,e): yes = [] for i in range(len(x)): if x[i] % e == 0: yes.append(x[i]) return yes def f4(): x = f2() s2 = f3(x,2) s3 = f3(x,3) s5 = f3(x,5) sf = f1(s2) - f1(s3) - f1(s5) print(sf) **************************************** def f1(d): a = 0 for e in d: a += int(e) return a def f2(): final=[] a = int(input()) for i in range(a): final.append(int(input())) return final def f3(x, e): final=[] for j in x: if j%e ==0: final.append(j) return final def f4(): a=f2() print(f1(f3(a, 2))-f1(f3(a, 3))-f1(f3(a, 5))) **************************************** def f1(d): sum = 0 for i in range(len(d)): sum += d[i] return sum def f2(): f2 = [] n = int(input()) for e in range(n): f2.append(int(input())) return f2 def f3(x,e): f3 = [] for i in x: if i%e==0 : f3.append(x[x.index(i)]) return f3 def f4(): n = f2() h2 = f3(n,2) h3 = f3(n,3) h5 = f3(n,5) print(f1(h2)-f1(h3)-f1(h5)) **************************************** def f1(d): sm = 0 for i in d: sm+=i return sm def f2(): x = int(input()) p = [] for i in range(x): p.append(int(input())) return p def f3(x,e): p = [] for i in range(len(x)): if x[i]%e==0: p.append(x[i]) return p def f4(): p = f2() a = f1(f3(p,2))-f1(f3(p,3))-f1(f3(p,5)) print(a) **************************************** def f1(d): return sum(d) def f2(): a=int(input()) c=[] for i in range(a): b=int(input()) c.append(b) return c def f3(x, e): c=[] for i in x: if i%e==0: c.append(i) return c def f4(): a=int(input()) c=0 for i in range(a): b=int(input()) if b%2==0: c+=b if b%3==0: c-=b if b%5==0: c-=b print(c) **************************************** def f1(d) : s = 0 for e in d : s += e return s def f2() : x = [] for i in range(int(input())) : x.append(int(input())) return x def f3(x,e) : out = [] for i in x : if i%e == 0 : out.append(i) return out def f4() : x = f2() s = 0 s += f1(f3(x,2)) - f1(f3(x,3)) - f1(f3(x,5)) print(s) **************************************** def f1(d) : s = sum(d) return s def f2() : x = int(input()) i = 0 l = [] while i < x : n = int(input()) l += [n] i += 1 return l def f3(x,e) : lf3 = [] for i in x : if i%e == 0 : lf3 += [i] return lf3 def f4() : l = f2() a = f3(l,2) b = f3(l,3) c = f3(l,5) a = f1(a) b = f1(b) c = f1(c) ans = a-b-c print (ans) **************************************** def f1(d) : return sum(d) def f2() : inp = [] n = int(input()) for i in range(n) : x = int(input()) inp.append(x) return (inp) def f3(x, e) : result = [] for c in x : if c%e == 0 : result.append(c) return result def f4() : inp = f2() c2 = f3(inp, 2) c3 = f3(inp, 3) c5 = f3(inp, 5) summ = f1(c2) - f1(c3) - f1(c5) print(summ) **************************************** def f1(d): c=0 for e in d: c+=int(e) return c def f2(): x=int(input()) y=[] for i in range (x) : y.append(int(input())) return y def f3(x,e): c=[] for i in x : if int(i)%e==0: c.append(i) return c def f4(): x=f2() s=0 s+=f1(f3(x,2)) s-=f1(f3(x,3)) s-=f1(f3(x,5)) print(s) **************************************** def f1(d): return sum(d) def f2(): d=[] n = int(input()) for i in range(n): d.append(int(input())) return d def f3(x,e): d=[] for i in x: if i%e==0:d.append(i) return d def f4(): d=[] x,y,z=0,0,0 n = int(input()) for i in range(n): d.append(int(input())) for i in d: if i%2==0:x+=i if i%3==0:y+=i if i%5==0:z+=i print(x-y-z) **************************************** def f1(x): s=0 for i in x: s+=int(i) return s def f2(): n=int(input()) result=[] for i in range(n): k=int(input()) result.append(k) return result def f3(x,e): result=[] for i in x: if i%e==0 : result.append(i) return result def f4(): p=f2() p2=f3(p,2) p3=f3(p,3) p5=f3(p,5) s2=f1(p2) s3=f1(p3) s5=f1(p5) print(s2-s3-s5) **************************************** def f1(d): s = 0 for i in d: s += i return s def f2(): n = int(input()) output = [] for i in range(n): m = int(input()) output.append(m) return output def f3(x, e): output = [] for i in x: if i%e == 0: output.append(i) return output def f4(): lst = f2() a = f1(f3(lst, 2)) b = f1(f3(lst, 3)) c = f1(f3(lst, 5)) print(a - b - c) **************************************** def f1(d): output=0 for i in d: output+=i return output def f2(): output=[] r=int(input()) for i in range(1,r+1): output.append(int(input())) return output def f3(x,e): output=[] for i in x: if i % e == 0: output.append(i) return output def f4(): output=f2() m2=f3(output,2) m3=f3(output,3) m5=f3(output,5) print(f1(m2)-f1(m3)-f1(m5)) **************************************** def f1(d) : sums = 0 for a in d : sums += int(a) return sums def f2() : n = int(input()) ans = [] for i in range(n) : x = int(input()) ans.append(x) return ans def f3(x,e) : ans = [] for a in x : if int(a)%e == 0 : ans.append(int(a)) return ans def f4() : x = f2() x2 = f3(x,2) x3 = f3(x,3) x5 = f3(x,5) print(f1(x2)-f1(x3)-f1(x5)) **************************************** def f1(d): sum = 0 for i in d: sum += i return sum def f2(): n = int(input()) lst = [] for i in range(n): lst.append(int(input())) return lst def f3(x,e): lst = [] for i in x: if i%int(e) == 0: lst.append(i) return lst def f4(): lst = f2() sum2 = f1(f3(lst,2)) sum3 = f1(f3(lst,3)) sum5 = f1(f3(lst,5)) final = sum2 - sum3 -sum5 print(final) **************************************** def f1(d): s = 0 for i in d: s += i return s def f2(): n = int(input()) a = [] for i in range(n): x = int(input()) a.append(x) return a def f3(x, e): a = [] for i in x: if i%e == 0: a.append(i) return a def f4(): a = f2() b2 = f1(f3(a,2)) b3 = f1(f3(a,3)) b5 = f1(f3(a,5)) print(b2-b3-b5) **************************************** def f1(d): sum = 0 for i in range(len(d)): sum += int(d[i]) return sum def f2(): c = int(input()) l = [] for i in range(c): n = int(input()) l.append(n) return l def f3(x, e): r = [] for i in range(len(x)): if int(x[i])%int(e) == 0: r.append(int(x[i])) return r def f4(): x = f2() a = f1(f3(x, 2)) b = f1(f3(x, 3)) c = f1(f3(x, 5)) print(a-b-c) **************************************** def f1(d): total = sum(d) return total def f2(): n = int(input()) lst = [] for i in range(n): x = int(input()) lst.append(x) return lst def f3(x,e): lst = [] for i in range(len(x)): if x[i] % e == 0: lst.append(x[i]) return lst def f4(): a = f2() total = f1(f3(a,2)) - f1(f3(a,3)) - f1(f3(a,5)) print(total) **************************************** def f1(d): sum = 0 for e in d: sum += e return sum def f2(): times = int(input()) L =[] for i in range(times): e = int(input()) L.append(e) return L def f3(x,e): LL=[] for y in x: if y%e==0: LL.append(y) return LL def f4(): LLL=f2() sumtwo=f1(f3(LLL,2)) sumthree=f1(f3(LLL,3)) sumfive=f1(f3(LLL,5)) result = sumtwo-sumthree-sumfive print(result) **************************************** def f1(d): s=0 for e in d: s+=e return s def f2(): n=int(input()) l=[] for i in range (n): x=int(input()) l.append(x) return l def f3(x, e): l=[] for n in x: if n%e==0: l.append(n) return l def f4(): Lin=f2() Sl2=f1(f3(Lin, 2)) Sl3=f1(f3(Lin, 3)) Sl5=f1(f3(Lin, 5)) ans=Sl2-Sl3-Sl5 print(ans) **************************************** def f1(d): d = [int(e) for e in d] return sum(d) def f2(): number = [] n = int(input()) for i in range(n): number.append(int(input())) return number def f3(dlist,e): used = [] for c in dlist: if c%e == 0: used.append(c) return used def f4(): dlist = f2() sums = f1(f3(dlist,2)) - f1(f3(dlist,3)) - f1(f3(dlist,5)) print(sums) **************************************** def f1(d) : c = 0 for i in d : c += i return c def f2() : c = int(input()) o = [] for e in range(c) : i = int(input()) o.append(i) return o def f3(x, e) : l = [] for i in x : if (i/e) - (i//e) == 0 : l.append(i) return l def f4() : l = f2() d2 = f3(l, 2) d3 = f3(l, 3) d5 = f3(l, 5) s2 = f1(d2) s3 = f1(d3) s5 = f1(d5) o = s2 - s3 - s5 print(o) **************************************** def f1(d) : c = 0 for e in d : c += e return c def f2() : r = [] n = int(input()) for i in range(n) : x = int(input()) r.append(x) return r def f3(x,e) : r = [] for a in x : if a%e == 0 : r.append(a) return r def f4() : lis = f2() a = f3(lis,2) b = f3(lis,3) c = f3(lis,5) print(f1(a) - f1(b) - f1(c)) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) result = [] for i in range(n): result.append(int(input())) return result def f3(x, e): result = [] for i in x: if i%e == 0: result.append(i) return result def f4(): x = f2() result = 0 for i in x: if i%2 == 0: result += i if i%3 == 0: result -= i if i%5 == 0: result -= i print(result) **************************************** def f1(d): sum_d = 0 for e in d : sum_d += int(e) return sum_d def f2(): n = int(input()) d = [] for i in range(n) : x = int(input()) d.append(x) return d def f3(d,div): d_div = [] for e in d : if e % int(div) == 0 : d_div.append(e) return d_div def f4(): d = f2() d2 = f3(d,2) d3 = f3(d,3) d5 = f3(d,5) result = f1(d2) - f1(d3) - f1(d5) print(result) **************************************** def f1(d): a = 0 for i in d: a += int(i) return(a) def f2(): c = [] a = int(input()) for i in range(a): b = int(input()) c.append(b) return(c) def f3(x, e) : a = [] for i in x: if i % e ==0: a.append(i) return(a) def f4() : a = 0 c = [] b = int(input()) for i in range(b): c.append(int(input())) s = f1(f3(c,2)) - f1(f3(c,3)) - f1(f3(c,5)) print(s) **************************************** def f1(d) : s = 0 for n in d: s += n return(s) def f2() : x = int(input()) tot = [] for i in range(x) : t = int(input()) tot.append(t) return tot def f3(x, e) : tot = [] for ch in x : if ch%e == 0 : tot.append(ch) return tot def f4() : x = f2() s = f1(f3(x,2)) s -= f1(f3(x,3)) s -= f1(f3(x,5)) print(s) **************************************** def f1(d): sum = 0 for i in d: sum+=int(i) return sum def f2(): round_ = int(input()) ans = [] for i in range(round_): ans.append(int(input())) return ans def f3(x, e): ans = [] for i in x: if int(i)%int(e) == 0: ans.append(int(i)) return ans def f4(): data = f2() div2 = f1(f3(data, 2)) div3 = f1(f3(data, 3)) div5 = f1(f3(data, 5)) print(div2 - div3 - div5) **************************************** def f1(d): j = 0 for i in d: j += int(i) return j def f2(): n = int(input()) k = [] for i in range(n): j = int(input()) k.append(j) return k def f3(x, e): k = [] for i in x: if i%e == 0: k.append(i) return k def f4(): l = f2() i = f3(l, 2) j = f3(l, 3) k = f3(l, 5) m = f1(i) - f1(j) - f1(k) print(m) **************************************** def f1(d): result = 0 for i in d: result += i return result def f2(): N = int(input()) a = [] for _ in range(N): b = int(input()) a.append(b) return a def f3(x,e): a = [] for i in x: if i % e == 0: a.append(i) return a def f4(): a = f2() b2 = f1(f3(a,2)) b3 = f1(f3(a,3)) b5 = f1(f3(a,5)) print(b2 - b3 - b5) **************************************** def f1(d): sum_all = sum(d) return sum_all def f2(): lis = [] n = int(input()) for i in range(n): x = int(input()) lis.append(x) return lis def f3(x, e): ans = [] for item in x: if item%e == 0: ans.append(item) return ans def f4(): L = f2() TWO = f3(L,2) THREE = f3(L,3) FIVE = f3(L,5) print(sum(TWO)-sum(THREE)-sum(FIVE)) **************************************** def f1(d): s = 0 for i in d: s += int(i) return s def f2(): n = int(input()) s = [] for i in range(n): x = int(input()) s.append(x) return s def f3(x, e): s = [] for i in x: if i%int(e) == 0: s.append(int(i)) return s def f4(): s = f2() a = f1(f3(s, 2)) b = f1(f3(s, 3)) c = f1(f3(s, 5)) d = a - b - c print(d) **************************************** def f1(d): sum = 0 for n in range(len(d)): sum += int(d[n]) return sum def f2(): times = int(input()) store = [] for i in range(times): store.append(int(input())) return store def f3(x, e): l = [] for i in x: if int(i) % int(e) == 0: l.append(i) return l def f4(): get = f2() num2 = f1(f3(get, 2)) num3 = f1(f3(get, 3)) num5 = f1(f3(get, 5)) print(num2 - num3 - num5) **************************************** def f1(d): total=0 for i in range(len(d)): total+=d[i] return total def f2(): l=[] n=int(input()) for i in range (n): x=int(input()) l.append(x) return l def f3(x,e): ans=[] for i in range(len(x)): if x[i]%e==0: ans.append(x[i]) return ans def f4(): total=0 l=f2() total=f1(f3(l,2))-f1(f3(l,3))-f1(f3(l,5)) print(total) **************************************** def f1(d): s=0 for e in d: s+=e return s def f2(): n=int(input()) a=[] for i in range(n): x=int(input()) a.append(x) return a def f3(x,e): a=[] for c in x: if int(c)%e==0: a.append(c) return a def f4(): n=int(input()) a=[] s=0 t=0 u=0 for i in range(n): x=int(input()) if x%2==0: s+=x if x%3==0: t+=x if x%5==0: u+=x print(s-t-u) **************************************** def f1(x) : sum = 0 for i in x : sum += i return sum def f2() : ans = [] n = int(input()) for i in range(n) : a = int(input()) ans.append(a) return ans def f3(x,e): ans = [] for i in x : if i % e == 0 : ans.append(i) return ans def f4() : list1 = f2() ans = f1(f3(list1,2)) - f1(f3(list1,3)) - f1(f3(list1,5)) print(ans) **************************************** def f1(d) : return sum(d) def f2() : y = [] n = int(input()) while n != len(y) : y.append(int(input())) return y def f3(x,e) : show = [] for a in x : if a % e == 0 : show.append(a) return show def f4() : info = [] n = int(input()) while n != len(info) : info.append(int(input())) print(sum(f3(info,2)) - sum(f3(info,3)) - sum(f3(info,5))) **************************************** def f1(d) : s = 0 for i in range(len(d)) : s += d[i] return s def f2() : x = int(input()) a = [] for i in range(x) : a.append(int(input())) return a def f3(x,e) : a = [] for i in range(len(x)) : if x[i]%e == 0 : a.append(x[i]) return a def f4() : x = f2() a = f1(f3(x,2)) b = f1(f3(x,3)) c = f1(f3(x,5)) s = a - b - c print(s) **************************************** def f1(d): a = 0 for i in range(len(d)): a += d[i] return a def f2(): a = int(input()) c = [] for i in range(a): b = int(input()) c.append(b) return c def f3(x, e): a = [] for i in range(len(x)): if x[i]%e == 0: a.append(x[i]) return a def f4(): x = f2() a = 0 a += f1(f3(x, 2)) a -= f1(f3(x, 3)) a -= f1(f3(x, 5)) print(a) **************************************** def f1(d): s = 0 for i in range(len(d)): s += d[i] return(s) def f2() : k = [] n = int(input()) for i in range(n) : x = int(input()) k += [x] return k def f3(x, e): k = [] for i in range(len(x)): if x[i] % e == 0: k += [x[i]] return k def f4() : n = f2() sum1 = f1(f3(n,2)) sum2 = f1(f3(n,3)) sum3 = f1(f3(n,5)) print(sum1 - sum2 - sum3) **************************************** def f1(d): k = 0 for i in range(len(d)): k += d[i] return k def f2(): n = int(input()) d =[] for i in range(n): x = int(input()) d.append(x) return d def f3(x, e): d = [] for z in x: if z % e == 0: d.append(z) return d def f4(): d = f2() f = f3(d, 2) j = f3(d, 3) l = f3(d, 5) kf = f1(f) kj = f1(j) kl = f1(l) print(kf-kj-kl) **************************************** def f1(d): s = 0 for i in range(len(d)): s += int(d[i]) return s def f2(): x = int(input()) t = [] for i in range(x): a = int(input()) t.append(a) return t def f3(x,e): t = [] for i in x: if i%e == 0: t.append(i) return t def f4(): n = int(input()) x = [] for i in range(n): a = int(input()) x.append(a) s = 0 s += f1(f3(x, 2)) s -= f1(f3(x, 3)) s -= f1(f3(x, 5)) print(s) **************************************** def f1(d): c = 0 for i in d: c +=i return c def f2(): l=[] n = int(input()) for i in range(n): l.append(int(input())) return l def f3(x,e): l = [] for i in x: if i%e==0: l.append(i) return l def f4(): l = [] n = int(input()) for i in range(n): l.append(int(input())) sum_ = 0 for i in l: if i%2==0: sum_ += i if i%3==0: sum_ -= i if i%5==0: sum_ -= i print(sum_) **************************************** def f1(d): c = 0 for i in d: c += i return c def f2(): n = int(input()) y = [] for i in range(n): a = int(input()) y.append(a) return y def f3(x,e): a = [] for i in x: if i%e == 0: a.append(i) return a def f4(): n = int(input()) y = [] for i in range(n): a = int(input()) y.append(a) y1 = f3(y,2) y11 = f1(y1) y2 = f3(y,3) y21 = f1(y2) y3 = f3(y,5) y31 = f1(y3) print(y11-y21-y31) **************************************** def f1(d): sum = 0 for e in d: sum += int(e) return sum def f2(): n = int(input()) all = [] for i in range(n): ch = int(input()) all.append(ch) return all def f3(x, e): show = [] for j in x: if j%e == 0: show.append(j) return show def f4(): a = f2() x2 = f3(a,2) x3 = f3(a,3) x5 = f3(a,5) sum = f1(x2) - f1(x3) - f1(x5) print(sum) return sum **************************************** def f1(d): sum = 0 for e in d: sum += e return sum def f2(): n = int(input()) x = [] for i in range(n): inp = int(input()) x.append(inp) return x def f3(x, e): d = [] for i in x: if i % e == 0: d.append(i) return d def f4(): n= int(input()) x = 0 for i in range(n): inp = int(input()) if inp % 2 == 0: x += inp if inp % 3 == 0: x -= inp if inp % 5 == 0: x -= inp print(x) **************************************** def f1(d): return sum(d) def f2(): n = int(input().strip()) list1 = [] for i in range(n): a = int(input().strip()) list1.append(a) return list1 def f3(x, e): list1 = [] for a in x: if a%e == 0: list1.append(a) return list1 def f4(): n = int(input().strip()) list1 = [] for i in range(n): a = int(input().strip()) list1.append(a) x = f1(f3(list1,2)) y = f1(f3(list1,3)) z = f1(f3(list1,5)) print(x-y-z) **************************************** def f1(d): sum = 0 for ch in d: sum += ch return sum def f2(): n = int(input()) list_n = [] c = 0 while c < n: list_n.append(int(input())) c += 1 return list_n def f3(x, e): r0 = [] for ch in x: if ch%e == 0: r0.append(ch) return r0 def f4(): list_n = f2() d2 = f3(list_n, 2) d3 = f3(list_n, 3) d5 = f3(list_n, 5) sum2 = f1(d2) sum3 = f1(d3) sum5 = f1(d5) result = sum2 - sum3 - sum5 print(result) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) x = [] for i in range(n): x.append(int(input())) return x def f3(x, e): a = [] for i in x: if i%e==0: a.append(i) return a def f4(): n = int(input()) x = [] a = [] b = [] c = [] for i in range(n): x.append(int(input())) for i in x: if i%2==0: a.append(i) if i%3==0: b.append(i) if i%5==0: c.append(i) print(sum(a)-sum(b)-sum(c)) **************************************** def f1(d): return sum(d) def f2(): n=int(input()) ans = [] for i in range (n): a = int(input()) ans.append(a) return ans def f3(x, e): ans = [] for i in x: if i%e == 0: ans.append(i) return ans def f4(): li = f2() d2 = [] d3 = [] d5 = [] ans = 0 for e in li: if e%2 == 0: d2.append(e) if e%3 == 0: d3.append(e) if e%5 == 0: d5.append(e) ans = sum(d2) - sum(d3) - sum(d5) print(ans) **************************************** def f1(d): val=sum(d) return val def f2(): n=int(input()) lst=list() for i in range(n): lst.append(input()) lst=[int(i) for i in lst] return lst def f3(x,e): check=[j for j in x if j%e==0] return check def f4(): n=int(input()) func=0 lst=list() for i in range(n): lst.append(input()) lst=[int(i) for i in lst] for i in lst: if i%2==0: func+=i if i%3==0: func-=i if i%5==0: func-=i print(func) **************************************** def f1(d): sum=0 for e in d: sum=sum+e return sum def f2(): line = int(input()) lst=[] for i in range(line): inp=int(input()) lst.append(inp) return lst def f3(x, e): lst=[] for n in x: if n%e==0: lst.append(n) return lst def f4(): mainlist=f2() divtwo=f3(mainlist,2) divthree=f3(mainlist,3) divfive=f3(mainlist,5) sumtwo=f1(divtwo) sumthree=f1(divthree) sumfive=f1(divfive) print(sumtwo-sumthree-sumfive) **************************************** def f1(d) : summ = 0 for e in d : summ += int(e) return summ def f2() : d = [] n = int(input()) for k in range(n) : x = int(input()) d.append(x) return d def f3(x,e) : d = [] for k in x : if k % e == 0 : d.append(k) return d def f4() : inputt = f2() summ_2 = f1(f3(inputt,2)) summ_3 = f1(f3(inputt,3)) summ_5 = f1(f3(inputt,5)) print(summ_2 - summ_3 - summ_5) **************************************** def f1(d): x=0 for i in range(len(d)): x+=d[i] return x def f2(): n=int(input()) a=[] for i in range(n): d=int(input()) a.append(d) return a def f3(x,e): c=[] for i in range(len(x)): if x[i]%e==0: c.append(x[i]) return c def f4(): g=f2() x=0 d=f3(g,2) for i in range(len(d)): x+=d[i] z=f3(g,3) y=0 for i in range(len(z)): y+=z[i] v=0 b=f3(g,5) for i in range(len(b)): v+=b[i] print(x-y-v) **************************************** def f1(d): r = 0 for n in d: r += n return r def f2(): l = [] n = int(input()) for i in range(n): k = int(input()) l.append(k) return l def f3(x, e): l = [] for i in range(len(x)): if x[i] % e == 0: l.append(x[i]) return l def f4(): l = f2() l1 = f3(l, 2) l2 = f3(l, 3) l3 = f3(l, 5) n1 = f1(l1) n2 = f1(l2) n3 = f1(l3) r = n1 - n2 - n3 print(r) **************************************** def f1(d): sum = 0 for i in range(len(d)): sum = sum + d[i] return sum def f2(): a = [] n = int(input()) for i in range(n): x = int(input()) a.append(x) return a def f3(x,e): b = [] for i in range(len(x)): if x[i]%e==0: b.append(x[i]) return b def f4(): ls = f2() mod2 = f1(f3(ls,2)) mod3 = f1(f3(ls,3)) mod5 = f1(f3(ls,5)) ans = mod2 - mod3 - mod5 print(ans) **************************************** def f1(d) : return sum(d) def f2() : a=[] n=int(input()) for i in range(n): s=int(input()) a+=[s] return a def f3(x,e) : a=[] for i in x : if i%e ==0: a+=[i] return a def f4() : a2=[] a3=[] a5=[] n=int(input()) for i in range(n): g=int(input()) if g%2==0: a2+=[g] if g%3==0: a3+=[g] if g%5==0: a5+=[g] suma2=sum(a2) suma3=sum(a3) suma5=sum(a5) t=suma2-suma3-suma5 print(t) **************************************** def f1(d): return sum(d) def f2(): res = [] for _ in range(int(input())): res.append(int(input())) return res def f3(x, e): return [i for i in x if i % e == 0] def f4(): lst = [] for _ in range(int(input())): lst.append(int(input())) divide_two = [i for i in lst if i % 2 == 0] divide_three = [i for i in lst if i % 3 == 0] divide_five = [i for i in lst if i % 5 == 0] res = sum(divide_two) - sum(divide_three) - sum(divide_five) print(res) **************************************** def f1(d): return sum(d) def f2(): n = int(input()) return [int(input()) for _ in range(n)] def f3(x, e): return [v for v in x if v % e == 0] def f4(): n = int(input()) sum_no_2 = 0 sum_no_3 = 0 sum_no_5 = 0 for _ in range(n): i = int(input()) if i % 2 == 0: sum_no_2 += i if i % 3 == 0: sum_no_3 += i if i % 5 == 0: sum_no_5 += i print(sum_no_2 - sum_no_3 - sum_no_5) **************************************** def f1(d): s=sum(d) return s def f2(): n=int(input());result=[] for i in range(n): result.append(int(input())) return result def f3(x, e): result=[] for i in x: if i%e==0: result.append(i) return result def f4(): n=int(input());two=0;th=0;fi=0 for i in range(n): x=int(input()) if x%2==0: two+=x else:pass if x%3==0: th+=x else:pass if x%5==0: fi+=x else:pass print(two-th-fi) **************************************** def f1(d): return sum(d) def f2(): list1 = [] a = int(input()) for i in range(a): b = int(input()) list1.append(b) return list1 def f3(x,e): list2 = [] for i in range(len(x)): if x[i]%e == 0: list2.append(x[i]) return list2 def f4(): list1 = [] a = int(input()) for i in range(a): b = int(input()) list1.append(b) sumx = f1(f3(list1,2)) - f1(f3(list1,3)) - f1(f3(list1,5)) print(sumx) **************************************** def f1(d): sum=0 for i in range(len(d)): sum+=d[i] return sum def f2(): a=int(input()) b=0 list=[] while b!=a: x=int(input()) b+=1 list.append(x) return list def f3(x, e): list=[] for i in range(len(x)): if x[i]%e==0: list.append(x[i]) return list def f4(): x=f2() x1=f3(x,2) x2=f3(x,3) x3=f3(x,5) sum1=f1(x1) sum2=f1(x2) sum3=f1(x3) sum=sum1-sum2-sum3 print(sum) **************************************** def f1(d): sum = 0 for e in d: sum += e return sum def f2(): n = int(input()) ans = [] for e in range(n): a = int(input()) ans.append(a) return ans def f3(x, e): ans = [] for i in x: if i % e == 0: ans.append(i) else: pass return ans def f4(): a = f2() b2 = f3(a, 2) b3 = f3(a, 3) b5 = f3(a, 5) x2 = f1(b2) x3 = f1(b3) x5 = f1(b5) ans = x2 - x3 - x5 print(ans) **************************************** def f1(d): s = 0 for e in d: s += int(e) return s def f2(): ans = [] x = input() for e in range(int(x)): y = input() ans.append(int(y)) return ans def f3(x, e): ans = [] for n in x: if int(n)%e == 0 : ans.append(n) return ans def f4(): ans = [] x = input() for e in range(int(x)): y = input() ans.append(y) a = f3(ans,2) b = f3(ans,3) c = f3(ans,5) print (f1(a) - f1(b) - f1(c)) **************************************** def f1(d): return sum(d) def f2(): row = int(input()) x = [] for i in range(row): x.append(int(input())) return x def f3(x,e): listx = [] for i in x: if i%e == 0: listx.append(i) return listx def f4(): row = int(input()) total = 0 for i in range(row): x = int(input()) if x%2 == 0: total += x if x%3 == 0: total -= x if x%5 == 0: total -= x print(total) **************************************** def f1(d): sumX = sum(d) return sumX def f2(): n = int(input()) numbers = [] for i in range(n): num = int(input()) numbers.append(num) return numbers def f3(x, e): modlist = [] for k in x: if k % e == 0: modlist.append(k) return modlist def f4(): inputlist = f2() modtwo = f3(inputlist, 2) part1 = f1(modtwo) modthree = f3(inputlist, 3) part2 = f1(modthree) modfive = f3(inputlist, 5) part3 = f1(modfive) ans = part1 - part2 - part3 print(ans) **************************************** def f1(d): a =0 for i in d: a += int(i) return a def f2(): a = int(input()) b =[] for i in range(a): c = int(input()) b.append(c) return b def f3(x,e): b=[] for i in x: if int(i) % int(e) == 0: b.append(i) return b def f4(): a = int(input()) b =[] for i in range(a): c = int(input()) b.append(c) c = f3(b,2) d = f3(b,3) e = f3(b,5) x = f1(c) - f1(d) - f1(e) print(x) **************************************** def f1(d) : return sum(d) def f2() : x = int(input()) c=0 num = [] while c