def Decomposition(self,mole,oldMol,index,shiftcost,flowcost,N):
operator = Operators()
newMol1, newMol2 = operator.Decomposition(oldMol)
#print('DEcom ',newMol1,'\n',newMol2)
pe1 = CRO().CalculatePE(newMol1,shiftcost,flowcost,N)
pe2 = CRO().CalculatePE(newMol2,shiftcost,flowcost,N)
mole.moleculeTable.append(newMol1)
mole.moleculeTable.append(newMol2)
#print(mole.moleculeTable)
mole.PE.append(pe1)
mole.PE.append(pe2)
e_dec = 0
gamma1 = 0
gamma2 = 0
gamma3 = 0
gamma1 = random.uniform(0,1)
gamma2 = random.uniform(0,1)
if ((mole.PE[index] + mole.KE1[index]) >= (pe1+pe2)):
e_dec = (mole.PE[index] + mole.KE1[index]) - (pe1 + pe2)
else:
e_dec = (mole.PE[index] + mole.KE1[index]) + gamma1 * gamma2 * self.buffer - (pe1 + pe2)
# endif
mole.KE1.append(e_dec * gamma3)
if (e_dec>=0):
self.buffer = self.buffer * (1 -( gamma1*gamma2))
gamma3 = random.uniform(0,1)
#mole.moleculeTable[index] = newMol1
#mole.PE[index] = pe1
mole.KE1[index] = e_dec * gamma3
#mole.numHit[index] = 0
#mole.minHit[index] = 0
#mole.minStruct[index] = newMol1
#mole.minPE[index] = pe1
#mole.moleculeTable.append(newMol1)
#mole.PE.append(pe1)
#mole.KE1.append(e_dec * gamma3)
mole.numHit.append(0)
mole.minHit.append(0)
mole.minStruct.append(newMol1)
mole.minPE.append(pe1)
def Decomposition(self, mole, oldMol, index):
operator = Operators()
newMol1, newMol2 = operator.Decomposition(oldMol)
pe1 = CRO().CalculatePE(mole, newMol1)
pe2 = CRO().CalculatePE(mole, newMol2)
e_dec = 0
gamma1 = 0
gamma2 = 0
gamma3 = 0
gamma1 = random.uniform(0, 1)
gamma2 = random.uniform(0, 1)
if ((mole.PE1[index] + mole.KE1[index]) >= (pe1 + pe2)):
e_dec = (mole.PE1[index] + mole.KE1[index]) - (pe1 + pe2)
else:
e_dec = (mole.PE1[index] + mole.KE1[index]
) + gamma1 * gamma2 * self.buffer - (pe1 + pe2)
# endif
if (e_dec >= 0):
self.buffer = self.buffer * (1 - (gamma1 * gamma2))
gamma3 = random.uniform(0, 1)
mole.moleculeTable[index] = newMol1
mole.PE1[index] = pe1
mole.KE1[index] = e_dec * gamma3
mole.numHit[index] = 0
mole.minHit[index] = 0
mole.minStruct[index] = newMol1
mole.minPE[index] = pe1
mole.moleculeTable.append(newMol1)
mole.PE1.append(pe1)
mole.KE1.append(e_dec * gamma3)
mole.numHit.append(0)
mole.minHit.append(0)
mole.minStruct.append(newMol1)
mole.minPE.append(pe1)
else:
mole.numHit[index] = mole.numHit[index] + 1
