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# (NameError: global name is not defined) error over passing a list to a function

I am sorry to post a long code. I have extracted the parts of my code where the list `lower_lip_under_upper_list_plist` is generated and used. There is an error of linking the functions where this list has been used. The`generate_t_u()` function is called inside `time()` function but `time()` function wouldn't recognize this list as its not been passed there. But if I pass it in this function then I have to make changes in the main as well. And again I will get the same error.

``````def time(transcriptionFile) :
""" This function changes the time values in secs from the transcription file and keeps a list of start time for each phoneme. """
with open("transcriptions.txt", "r") as tFile :
timeList = []
t_u = 0.0
for line in tFile :
li = line.split()
if li :
start_time = (int(li[0]) / 10000000.)
timeList.append(start_time)
#print timeList

generate_t_u(timeList, lower_lip_under_upper_list_plist)

def generate_t_u(timeList, lower_lip_under_upper_list_plist)
""" It generates the regular time intervals t(u) values for sampling. """
i = 0
while i < len(timeList) - 1 :
# if the number is in the range
# do the calculations and move to the next number
if t_u > timeList[i] and t_u < timeList[i + 1] :
#print "\n The t_u value:", t_u, 'is between',
#print "start:", timeList[i], " and end: ", timeList[i+1]
poly = poly_coeff(timeList[i], timeList[i + 1], t_u)
Newton(poly, lower_lip_under_upper_list_plist[i],  lower_lip_under_upper_list_plist[i + 1])
t_u = t_u + 0.04 # regular time interval

# if the number is at the lower boundary of the range, no need of calculation as u = 0
elif t_u == timeList[i] :
#print "\n The t_u value:", t_u, 'is on the boundary of',
#print "start:", timeList[i], " and end: ", timeList[i+1]
#print "u : 0"
lower_lip_under_upper_list_bezier(0, lower_lip_under_upper_list_plist[i], lower_lip_under_upper_list_plist[i + 1])
t_u = t_u + 0.04 # regular time interval

# if the number is at the upper boundary of the range, no need of calculation as u = 1
elif t_u == timeList[i + 1] :
#print "\n The t_u value:", t_u, 'is on the boundary of',
#print "start:", timeList[i], " and end: ", timeList[i+1]
#print " u : 1"
lower_lip_under_upper_list_bezier(1, lower_lip_under_upper_list_plist[i], lower_lip_under_upper_list_plist[i + 1])
t_u = t_u + 0.04 # regular time interval

# if the number isn't in the range, move to the next range
else :
i += 1

def Newton(poly, p0, p3) :
""" Newton's method for finding the root of a polynomial. Here the root is the 'u' value"""
poly_diff = poly_differentiate(poly)
counter = 0
epsilon = 0.000000000001
x = 0.5 # initial guess value

while True:
x_n = x - (float(poly_substitute(poly, x)) / poly_substitute(poly_diff, x))
counter += 1
if abs(x_n - x) < epsilon :
break
x = x_n
#print "\tIteration " , counter , " : ", x_n

print "u:", (x_n)

lower_lip_under_upper_list_bezier(x_n, p0, p3)

def param_lists_separate(pList) :
""" Separating the parameter values of each feature into individual lists """
v = [[inner[1][i] for outer in pList for inner in outer]
for i in range(len(pList[0][0][1]))]

lower_lip_under_upper_list_plist = v[0]
lips_part_plist = v[1]
jaw_open_plist = v[3]
lips_round_plist = v[4]

return lower_lip_under_upper_list_plist

def lower_lip_under_upper_list_bezier(x_n, p0, p3) :
""" Calculating sampling points using rational bezier curve equation"""
u = x_n
p1 = p0
p2 = p3

lower_lip_under_upper_list_p_u = math.pow(1 - u, 3) * p0 + 3 * u * math.pow(1 - u, 2) * p1 \
+ 3 * (1 - u) * math.pow(u, 2) * p2 + math.pow(u, 3) * p3
lower_lip_under_upper_list_p_u = lower_lip_under_upper_list_p_u * w
d = math.pow(1 - u, 3) * w + 3 * u * w * math.pow(1 - u, 2) + 3 * (1 - u) * w * math.pow(u, 2) + math.pow(u, 3) * w
lower_lip_under_upper_list_p_u = lower_lip_under_upper_list_p_u / d

print "\n p(u) values for the feature lower lip under upper list \n"
print "p(u): ", lower_lip_under_upper_list_p_u
return lower_lip_under_upper_list_p_u

if __name__ == "__main__" :
time("transcriptions.txt")
``````

The error is:

NameError: global name 'lower_lip_under_upper_list_plist' is not defined.

This error is on the line `lower_lip_under_upper_list_bezier(0, lower_lip_under_upper_list_plist[i], lower_lip_under_upper_list_plist[i + 1])` from the `time()` function.

-
Where is the value for `lower_lip_under_upper_list_plist` supposed to come from? – interjay Nov 20 '11 at 12:50
It complains that it's undefined because it is. Do you understand what you're doing, or are you trying to work with someone else's code? – Chris Morgan Nov 20 '11 at 12:59
@interjay The value for lower_lip_under_upper_list_plist comes from the pList passed in param_lists_separate() function. – zingy Nov 20 '11 at 13:17
@Chris It's my code. Like I mentioned in the question, I have just just extracted the parts of the code. – zingy Nov 20 '11 at 13:20
@eryksun If I call pList in time() function then I have to add the argument in main as well where the time() function is called and if I do that I get the same error. – zingy Nov 20 '11 at 13:21

Consider this line in the `time` function:

``````def time(transcriptionFile) :
...
generate_t_u(timeList, lower_lip_under_upper_list_plist)
``````

`lower_lip_under_upper_list_plist` is not defined in the time function, so Python looks for it in the global scope. It is not defined there either, so Python raises a `NameError`, saying the variable `lower_lip_under_upper_list_plist` is not defined.

By the way, the traceback error message includes a line number indicating what line caused the `NameError`. It will help you (and us) zero in on the problem to include the line number.

-
I have edited the question and added a line where the error is generated. I should pass the list "lower_lip_under_upper_list_plist" in the time function as an argument right? And then I have to make the change in main() as well. But I get the same error even when I do that. – zingy Nov 20 '11 at 13:26

Should `lower_lip_under_upper_list_plist` be a return value of `generate_t_u`? Try changing `generate_t_u` to:

``````def generate_t_u(time_list):
lower_lip_under_upper_list_plist = []
# ... the function remains the same
return lower_lip_upper_list_plist
``````

I'm not sure where `param_lists_separate` is called but it looks like the bindings in it are expected to be global as well. A similar problem exists in `generate_t_u` since `t_u` is not bound there -- if this refers to the `t_u` in `time`, then it should probably be passed in as a parameter. If you have a number of related bindings and methods that act upon the data, then you should probably consider creating a class that ties the data and the operations together.

Consider doing something like the following instead:

``````class NewtonsMethod(object):
def __init__(self, file_name):
# change global names into properties of ``self``
self.lower_lip_under_upper_list_plist = []
self.lips_part_plist = []
self.jaw_open_plist = []
self.lips_round_plist = []
self.t_u = 0.0
self.time_list = []
# initialize from the data file
with open(file_name) as file_ref:
for line in file_ref:
data = line.split()
if data:
start_time = (int(data[0]) / 10000000.0)
self.time_list.append(start_time)
def _lower_lip_under_upper_list_bezier(self, x_n, point):
(u, p1, p2) = (x_n, self.lower_lip_under_upper_list_plist[point],
self.lower_lip_under_upper_list_plist[point + 1])
# if lower_lip_under_upper_list_p_u is used elsewhere, then it
# might make sense to change it to a property
lower_lip_under_upper_list_p_u = ...
return lower_lip_under_upper_list_p_u
def _generate_t_u(self):
(i, t_u) = (0, 0.0)
while i < len(self.time_list) - 1:
if t_u > self.time_list[i] and t_u < time_list[i + 1]:
poly = poly_coeff(self.time_list[i], self.time_list[i + 1], t_u)
self._apply_newton(poly, i)
elif t_u == self.time_list[i]:
self._lower_lip_under_upper_list_bezier(0, i)
t_u += 0.04
elif t_u == self.time_list[i + 1]:
self._lower_lip_under_upper_list_bezier(1, i)
t_u += 0.04
else:
i += 1
def _apply_newton(self, poly, point):
poly_diff = poly_differentiate(poly)
(epsilon, x) = (0.0000000001, 0.5)
while True:
x_n = x - (...)
if abs(x_n - x) < epsilon:
break
x = x_n
self._lower_lip_under_upper_list_bezier(x_n, point)
``````

One of the most basic precepts of object-oriented programming is bundling algorithms with the data that they process and/or require. You can apply this idea here. Your global bindings will become properties of the object so they are always available as properties of `self` within instance methods. As you may have noticed, passing the values from `lower_lip_under_upper_list_plist` and the like is no longer necessary. All that you need to do is pass the index into the list since the list itself is a property of the object.

Refactoring your algorithm into a `class` should remove the need for globals everywhere. It will also minimize the number of parameters and let you concentrate on implementing the algorithm in a clean and modular way.

-
@ D.Shawley Thank you. I really appreciate your help. But I am doing python and complex programming for the first time. It is the algorithm for my research. Since I am not really a good programmer, using classes would confuse me further. Therefore I am just using functions and its easy for me to see the flow of the algorithm though its not a good programming practice. Can I explain my code to you in detail so that you can point me towards the right direction? – zingy Nov 20 '11 at 14:18