Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have created some code:

 import numpy as np
 Length=(2.7)*10**-3
 Nx=4
 x = np.linspace(0, Length, Nx+1)   # mesh points in space
 t1=110
 t2=100
 m=((t2-t1)/Length)
 T=5
 N=5        
 t = np.linspace(0, T, N+1)
 Coeff=0.5
 b=0.2
 tamb = 20
 u = np.zeros(Nx+1)
 u_1 = np.zeros(Nx+1)
 for i in range(0, Nx+1):
   u_1[i] = m*(x[i])+t1
 #print u_1
 r=[]
 for n in range(0, N+1):
 # Compute u at inner mesh points
 for i in range(0,1):
    u[i] = 2*Coeff*(u_1[i+1]+b*tamb)+(1-2*Coeff-2*b*Coeff)*u_1[i]
 for i in range(1,Nx):
    u[i] = Coeff*(u_1[i+1]+u_1[i-1])+(1-2*Coeff)*u_1[i]
 for i in range(Nx,Nx+1):
    u[i] = 2*Coeff*(u_1[i-1])+(1-2*Coeff)*u_1[i]
 # Switch variables before next step
 u_1, u = u, u_1
 r.append(u.copy()) 
 print r[5]

Output for code:

 [  78.1562   94.1595   96.82    102.6375  102.125 ]

Using the code I have created a function to apply to an array:

def function(data,time):
  import numpy as np
  Values=data[n]
  Length=(Values[2])*10**-3
  Nx=4
  x = np.linspace(0, Length, Nx+1)   # mesh points in space
  t1=Values[0]
  t2=Values[1]
  m=((t2-t1)/Length)
  T=time[5]
  N=5        
  t = np.linspace(0, T, N+1)
  Coeff=0.5
  b=0.2
  tamb = 20
  u = np.zeros(Nx+1)
  u_1 = np.zeros(Nx+1)
  for i in range(0, Nx+1):
      u_1[i] = m*(x[i])+t1
    #print u_1
  r=[]
  for n in range(0, N+1):
  # Compute u at inner mesh points
      for i in range(0,1):
        u[i] = 2*Coeff*(u_1[i+1]+b*tamb)+(1-2*Coeff-2*b*Coeff)*u_1[i]
      for i in range(1,Nx):
        u[i] = Coeff*(u_1[i+1]+u_1[i-1])+(1-2*Coeff)*u_1[i]
      for i in range(Nx,Nx+1):
        u[i] = 2*Coeff*(u_1[i-1])+(1-2*Coeff)*u_1[i]
  # Switch variables before next step
      u_1, u = u, u_1
      r.append(u.copy()) 
  return r
import numpy as np

#arrays
data=np.array(((110,100,2.5),(112,105,2.6),(115,109,2.7)))
time=np.array((0,1,2,3,4,5))
#apply function to array
for n in range(len(data)):
   r = function(data,time)
   print r[5]

The 1st code works fine but when I apply the code using a function (2nd Code) if I tell I get the following error:

Traceback (most recent call last):
File "C:/Users/a/Desktop/functiontrial3.py", line 39, in <module>
r = function(data,time)
File "C:/Users/a/Desktop/functiontrial3.py", line 3, in function
Values=data[n]
UnboundLocalError: local variable 'n' referenced before assignment

What do I have to do to get the following code to work?

share|improve this question
up vote 0 down vote accepted

Change your function signature:

def function(data,time,n):

and call it like this:

for n in xrange(len(data)):
   r = function(data,time,n)
share|improve this answer
    
Your solution worked – Jay Jun 3 '13 at 12:48

You're using the global n here

Values=data[n]

You're using n as a local variable here

for n in range(0, N+1):

Python won't let you use n as both a global and local in the same scope.

Is it supposed to be the same n or is it just a bad reuse of a variable name?

There are several ways to fix this error, but it depends on your intent.

share|improve this answer
    
Your explanation was very helpful – Jay Jun 3 '13 at 12:49

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.