from functools import reduce

MOD = int( 1e9 ) + 7

H, W, K = map( int, input().split() )

def gcd( a, b ):
  if b == 0: return a
  return gcd( b, a % b )

def is_prime( n ):
  return 1 < n and all( n % i for i in range( 2, int( n ** 0.5 ) + 1 ) )

def get_prime( n ):
  return [ i for i in range( 1, int( n ** 0.5 ) + 1 ) if n % i == 0 and is_prime( i ) ] + [ n // i for i in range( 1, int( n ** 0.5 ) + 1 ) if i * i != n and n % i == 0 and is_prime( n // i ) ]

hp, wp = get_prime( H ), get_prime( W )

def phi( x ):
  if H % x == 0:
    res = x
    for p in hp:
      if x % p == 0:
        res = res // p * ( p - 1 )
    return res
  else:
    res = x
    for p in wp:
      if x % p == 0:
        res = res // p * ( p - 1 )
    return res

def factors( n ):
  return [ i for i in range( 1, int( n ** 0.5 ) + 1 ) if n % i == 0 ] + [ n // i for i in range( 1, int( n ** 0.5 ) + 1 ) if i * i != n and n % i == 0 ]

hf, wf = factors( H ), factors( W )

ans = 0
for a in hf:
  for b in wf:
    ans += pow( K, H // a * W // b * gcd( a, b ) % ( MOD - 1 ), MOD ) * phi( a ) * phi( b )
    ans %= MOD

ans = ans * pow( H * W, MOD - 2, MOD ) % MOD

print( ans )