# python iterative loop gets slower as it continues

I have a for loop like

``````for tot in range(0,100000):
``````

at first iterations it is quite fast but as it reaches toward the middle it gets extremely slow. I don't have such code lines that you say sth gets accumulated and gets large so it's computation takes longer.

It stays the same as the first iteration always, but gets processed slower.

Is it because each time tot goes from beginning of "range" to reach to the proper iteration, and as iterative method continues it takes longer to reach to middle of the "range"?

I have no idea why this happens!!!

Inside loop sample code:

``````for tot in range(0,nt):
for k in range(0,nx):
if k!=0 and k!=nx-1:
for i in range(1,nz-1):
phai0[i,k]=(1.0/dz**2)*(w0[i+1,k]-2.0*w0[i,k]+w0[i-1,k])+(1.0/dx**2)*(w0[i,k+1]-2.0*w0[i,k]+w0[i,k-1])
phai1[i,k]=(1.0/dz**2)*(w1[i+1,k]-2.0*w1[i,k]+w1[i-1,k])+(1.0/dx**2)*(w1[i,k+1]-2.0*w1[i,k]+w1[i,k-1])
phai2[i,k]=(2.0-Ncoef**2*dt**2)*phai1[i,k]-phai0[i,k]+1.0*(Ncoef**2)*(dt**2*1.0/dz**2)*(w1[i+1,k]-2*w1[i,k]+w1[i-1,k])

if k==0:
for i in range(1,nz-1):
phai0[i,k]=(1.0/dz**2)*(w0[i+1,k]-2.0*w0[i,k]+w0[i-1,k])+(1.0/dx**2)*(w0[i,k+1]-2.0*w0[i,k]+w0[i,k-2])
phai1[i,k]=(1.0/dz**2)*(w1[i+1,k]-2.0*w1[i,k]+w1[i-1,k])+(1.0/dx**2)*(w1[i,k+1]-2.0*w1[i,k]+w1[i,k-2])
phai2[i,k]=(2.0-Ncoef**2*dt**2)*phai1[i,k]-phai0[i,k]+1.0*(Ncoef**2)*(dt**2*1.0/dz**2)*(w1[i+1,k]-2*w1[i,k]+w1[i-1,k])

if k==nx-1:
for i in range(1,nz-1):
phai0[i,k]=(1.0/dz**2)*(w0[i+1,k]-2.0*w0[i,k]+w0[i-1,k])+(1.0/dx**2)*(w0[i,1]-2.0*w0[i,k]+w0[i,k-1])
phai1[i,k]=(1.0/dz**2)*(w1[i+1,k]-2.0*w1[i,k]+w1[i-1,k])+(1.0/dx**2)*(w1[i,1]-2.0*w1[i,k]+w1[i,k-1])
phai2[i,k]=(2.0-Ncoef**2*dt**2)*phai1[i,k]-phai0[i,k]+1.0*(Ncoef**2)*(dt**2*1.0/dz**2)*(w1[i+1,k]-2*w1[i,k]+w1[i-1,k])

for N in range(0,N_inner_iteration):
sum_max=0
for k in range(0,nx):
if k!=0 and k!=nx-1:
for i in range(1,nz):
if i!=nz-1:
w21[i,k]=0.5*(dz**2)*(w20[i,k+1]+w20[i,k-1])/(dx**2+dz**2)+0.5*(dx**2)*(w20[i+1,k]+w20[i-1,k])/(dx**2+dz**2)-(0.5/(dx**2+dz**2))*(dx**2*dz**2)*phai2[i,k]
if i==nz-1:
w21[i,k]=1/(1+(p(k*dx,1)/(dx*p(k*dx,2)))+((2/p(k*dx,2)*(p(k*dx,1))**2-p(k*dx,0))/dz)+(p(k*dx,1)/dx/dz))*(((p(k*dx,1)/(dx*p(k*dx,2)))+(p(k*dx,1)/dx/dz))*w0[i,k-1]+(((2/p(k*dx,2)*(p(k*dx,1))**2-p(k*dx,0))/dz)+(p(k*dx,1)/dx/dz))*w0[i-1,k]-((p(k*dx,1)/dx/dz))*w0[i-1,k-1])

sum_max=sum_max+abs(w21[i,k]-w20[i,k])
# w20[i,k]=w21[i,k]

if  k==0:
for i in range(1,nz):
if i!=nz-1:
w21[i,k]=0.5*(dz**2)*(w20[i,1]+w20[i,k-2])/(dx**2+dz**2)+0.5*(dx**2)*(w20[i+1,k]+w20[i-1,k])/(dx**2+dz**2)-(0.5/(dx**2+dz**2))*(dx**2*dz**2)*phai2[i,k]
if i==nz-1:
k=0.00000001
w21[i,k]=1/(1+(p(k*dx,1)/(dx*p(k*dx,2)))+((2/p(k*dx,2)*(p(k*dx,1))**2-p(k*dx,0))/dz)+(p(k*dx,1)/dx/dz))*(((p(k*dx,1)/(dx*p(k*dx,2)))+(p(k*dx,1)/dx/dz))*w0[i,k-2]+(((2/p(k*dx,2)*(p(k*dx,1))**2-p(k*dx,0))/dz)+(p(k*dx,1)/dx/dz))*w0[i-1,k]-((p(k*dx,1)/dx/dz))*w0[i-1,k-2])

sum_max=sum_max+abs(w21[i,k]-w20[i,k])

if k==nx-1:
for i in range(1,nz):
# w21[i,k]=w21[i,0]
# w20[i,k]=w21[i,k]
if i!=nz-1:
w21[i,k]=0.5*(dz**2)*(w20[i,1]+w20[i,k-1])/(dx**2+dz**2)+0.5*(dx**2)*(w20[i+1,k]+w20[i-1,k])/(dx**2+dz**2)-(0.5/(dx**2+dz**2))*(dx**2*dz**2)*phai2[i,k]
if i==nz-1:
w21[i,k]=1/(1+(p(k*dx,1)/(dx*p(k*dx,2)))+((2/p(k*dx,2)*(p(k*dx,1))**2-p(k*dx,0))/dz)+(p(k*dx,1)/dx/dz))*(((p(k*dx,1)/(dx*p(k*dx,2)))+(p(k*dx,1)/dx/dz))*w0[i,k-1]+(((2/p(k*dx,2)*(p(k*dx,1))**2-p(k*dx,0))/dz)+(p(k*dx,1)/dx/dz))*w0[i-1,k]-((p(k*dx,1)/dx/dz))*w0[i-1,k-1])

sum_max=sum_max+abs(w21[i,k]-w20[i,k])
# w20[i,k]=w21[i,k]

w20[:]=w21[:]

if (1.0/(nx*nz))*sum_max<0.0000001:
break

print (1.0/(nx*nz))*sum_max, "N=",N
w0[:]=w1[:]
w1[:]=w20[:]
w_final[:,:,tot]=w1[:]

for ordstep in range(1,num_of_orders+1):
integ_sum2=0
for zstep in range (0,nz):
for xstep in range (0,nx):
integ_sum2=integ_sum2+w1[zstep,xstep]*np.sin(ordstep*(k_z*1.0/m)*zstep*dz)*np.sin(ordstep*(k_x*1.0/n)*xstep*dx-omega*tot*dt)*dx*dz
Amp[ordstep-1,tot]=4.0/(l*h)*integ_sum2/Ampref

if tot%1==0:
Ampsave=np.reshape(Amp[:,tot],(1,5))
with open('test.csv', 'a') as file:
np.savetxt(file,np.array(Ampsave))
# np.save(outfile,Amp)
oldcol = wframe
wframe = ax.plot_surface(X, Z, w1, rstride=2, cstride=2)
if oldcol is not None:
ax.collections.remove(oldcol)
plt.pause(.001)
ax.set_xlabel('(X)')
ax.set_ylabel('(Z)')
ax.set_zlabel('\$ W_{Numerical} \$')
plt.figure('Amplitude Evolution')
plt.axis([0, 40000, -2, 2])
plt.scatter(tot, Amp[0,tot])
plt.scatter(tot, Amp[1,tot])
print Amp[0,tot]
plt.draw()
plt.title('Amplitude Evolution')
plt.xlabel('Time[s]',fontsize=25)
plt.ylabel('Amplitude',fontsize=25)
plt.show()
``````

I have also changed all range to xrange and avoided using np. inside the loops by predefining them.

• It would be helpful if you posted your code that's running inside the loop, as it is likely the culprit here. – zero01alpha Mar 29 '16 at 17:27
• @iMassakre added the code – Soyol Mar 29 '16 at 17:34
• Where does the value of `N_inner_iteration` come from? Does it ever change while the loop executes? – Will R. Mar 29 '16 at 17:48
• no no it is a fixed value – Soyol Mar 29 '16 at 17:58
• Loops that slow down as the iteration count increases are a classic symptom of Schlemiel the Painter-style algorithms. – Iwillnotexist Idonotexist Mar 29 '16 at 18:08

``````for tot in xrange(0,100000): print tot