import numpy as np

f=open('PopIII_haloes_0038_type5.txt','r')
f1=open('PopIII_haloes_0038_type1.txt','r')

f2=open('Overlaped_haloes_list.txt','r')
overlayed=[]
line=f2.readline()
while line !='':
   overlayed.append(int(line))
   line=f2.readline()

fo = open('PopIII_haloes.txt','w')
line = f.readline()
line1 = f1.readline()
j=0
while line !='':
   mass = line.split()[1]
   line = f.readline()
   line1 = f1.readline()
   pn = line.split()[0] 
   pn1 = line1.split()[0]
   m0 = [];m1 = []  # m0 for renmants m1 for living stars
   for i in xrange(int(pn)):
     line=f.readline()
     starmass = float(line.split()[1])
     if starmass > 1e20: 
         starmass=starmass/1e20
         if starmass > 5:
            m1.append(starmass)
     elif starmass > 5:
        m0.append(starmass)
   for i in xrange(int(pn1)):
     line1=f1.readline()
     starmass = float(line1.split()[1])
     if starmass > 5:
       m0.append(starmass)
   if len(m0) == 0: 
      pm = 0; pms =0
   else:
      pm=np.array(m0).mean()
      pms=np.array(m0).std()
   if len(m1) == 0:
      pm1 = 0; pms1 =0
   else:
      pm1=np.array(m1).mean()
      pms1=np.array(m1).std()
   if j not in overlayed:
      fo.write(str(mass)+" "+str(len(m0))+" "+str(pm)+" "+str(pms)+" "+str(len(m1))+" "+str(pm1)+" "+str(pms1)+"\n")
   f.readline();f.readline();f1.readline();f1.readline()
   line = f.readline()
   line1 = f1.readline()
   j=j+1

f.close()
f1.close()
fo.close()