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def open_marks():
    N = (int(input('how many students? '))* 5)
    students = []
    for line in open('marks.txt').readlines():
       datafile = (line.strip().split('\t')[0].split(','))  
       for n in datafile:
          students.append(int(n))
    students=students[:N]
    return students
def open_marks1():
    students = open_marks()
    students1=students[0::5]#set to return only the first(lowest) marks drawn
    return students1
def open_marks2():
    students = open_marks()
    students2=students[1::5]#set to return only the second marks drawn
    return students2
def open_marks3():
    students = open_marks()
    students3=students[2::5]#set to return only the third marks drawn
    return students3
def open_marks4():
    students = open_marks()
    students4=students[3::5]#set to return only the fourth marks drawn
    return students4
def open_marks5():
    students = open_marks()
    students5=students[4::5]#set to return only the fifth(highest) marks drawn
    return students5


def count_ranges_one():

    students1 = open_marks1()
    print('first number: ',students1)
    range_counts1 = [0] * 12
    for num in students1[:]:#change number to select number of draws
        which_range=int(num//5)
        range_counts1[which_range] = range_counts1[which_range] + 1
    return range_counts1
def count_ranges_two():
    students2 = open_marks2()
    print('second number: ',students2)
    range_counts2 = [0] * 12
    for num in students2[:]:#change number to select number of draws
        which_range=int(num//5)
        range_counts2[which_range] = range_counts2[which_range] + 1
    return range_counts2
def count_ranges_three():
    students3 = open_marks3()
    print('third number: ',students3)
    range_counts3 = [0] * 12
    for num in students3[:]:#change number to select number of draws
        which_range=int(num//5)
        range_counts3[which_range] = range_counts3[which_range] + 1
    return range_counts3
def count_ranges_four():
    students4 = open_marks4()
    print('fourth number: ',students4)
    range_counts4 = [0] * 12
    for num in students4[:]:#change number to select number of draws
        which_range=int(num//5)
        range_counts4[which_range] = range_counts4[which_range] + 1
    return range_counts4
def count_ranges_five():
    students5 = open_marks5()
    print('fifth number: ',students5)
    range_counts5 = [0] * 12
    for num in students5[:]:#change number to select number of draws
        which_range=int(num//5)
        range_counts5[which_range] = range_counts5[which_range] + 1
    return range_counts5

I have a text file with student marks in the format: 7,5,10,25,32 9,15,25,39,18 etc the above groups the marks according to the position (1,2,3,4, or 5) and then there is a routine to 'write' a histogram' to show the distribution of marks. What I have written is terribly clumsy and repetitive, but I cannot figure out looped functions to deliver the data grouped as marks per question and then the number per range for the histogram. Can someone help me with the logic please.

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1 Answer 1

up vote 2 down vote accepted

You know that you can pass arguments to your functions right? The five open_marks[1-5] functions can be generalized as such:

def open_marks_for_student(n):
    students = open_marks()
    return students[n-1::5]

If you now pass e.g. 3 to the function, you'll get the same result as from your old open_marks3 function:

open_marks_for_student(3)

The same principle can be applied to the count_ranges function, just write a generalized function and pass the marks as an argument:

def count_ranges(marks):
    range_counts = [0] * 12
    for num in marks[:]: #change number to select number of draws
        which_range=int(num//5)
        range_counts[which_range] = range_counts1[which_range] + 1
    return range_counts

Now use it like this:

def get_range_counts():
    range_counts = []
    student_nums = [1,2,3,4,5] #or range(1,6)
    for n in student_nums:
        marks = open_marks_for_student(n)
        range_counts.append(count_ranges(marks)) #create histogram, append to list
    return range_counts

There's still a few optimizations one could make, e.g. opening the marks file only once instead of once per student, or removing the slicing on marks in the loop in count_ranges (you only need to iterate over a copy if you plan on modifying the original list in the loop), but this should be enough to get you started.

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Thank you very much. Will go through your suggestions and try to implement –  user1478335 Jan 17 '13 at 8:53
    
I did as you suggested. The problem that occurs is that when one opens IDLE, you are asked for the number of students and after typing get_range_counts(), the programme asks five more times for this information and then gives the correct response. This is obviously because the functions calls open_marks five times. THis is what I cannot get my head around to change –  user1478335 Jan 17 '13 at 11:09

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