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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. Thegenerate_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.)
                #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 :
        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]
    lips_spread_plist = v[2]
    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__" :

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.

share|improve this question
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.

share|improve this answer
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.lips_spread_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)
    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
               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:
            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.

share|improve this answer
@ 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

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