I wrote the following program to generate all of the possible schedules I could have for the next three years (I'm on the quarter system) but it's ridiculously inefficient and, as written, wouldn't get me an answer in the next million years.

To clarify, I do have text files already written specifying the classes I'm interested in as well as the numbers, term, and year of each quarter (e.g. Quarter #1 Fall 2013-2014). I want to limit it to generate schedules with 4-5 classes a quarter, as is hopefully reflected in the program.

I know that any way I would write this would be very slow, given the size of the desired result, but if anyone could help me to speed it up somewhat, or at least give me an estimate of how long it will take to complete (24 hours or 24 months) I would be very appreciative.

Two problems which I've identified, but I don't know how to fix, are:

- My compare function (converts a list to a set back to a list and then searches every member of a list for every member of another list)
- The extensive use of lists in general, which according to my research are very memory-intensive (the combinations function I use, for example, produces an iterator object which should be more efficient according to my research than a list, but I don't know how to use the iterator effectively and thus how to reduce memory usage; also the 'GrandMasterLists' method I use towards the end of the program, combined with all of the double for loops and the linearly increasing number of calls of the compare function in each for loop, must also make this much more inefficient than it needs to be).

The following is very long (177 lines) (albeit also repetitive) but if you're looking for a challenge or if you're a programming expert I would be very indebted for your help.

(Also I realize that a lot of what I'm trying to do at each point might not be very transparent-- it was difficult for me at many points to try and come up with code that matches what I want to do-- so please ask me questions if you need clarification.)

```
import itertools
class Course:
def __init__(self, NAME, TERM, YEAR):
self.term=TERM
self.year=YEAR
self.name=NAME
class Quarter:
def __init__(self, NUMBER, TERM, YEAR):
self.term=TERM
self.year=YEAR
self.number=NUMBER
courselist=[]
def coursegen(NAME, TERM, YEAR):
return Course(NAME, TERM, YEAR)
f=open('classlist.txt', 'r')
for line in f:
courselist.append(coursegen(line.rstrip().split(';')[0],line.rstrip().split(';') [1].split(','),line.rstrip().split(';')[2].split(',')))
f.close()
def quartergen(NUMBER,TERM,YEAR):
return Quarter(NUMBER,TERM,YEAR)
m=open('quarterlist.txt', 'r')
line1=m.readline()
line2=m.readline()
line3=m.readline()
line4=m.readline()
line5=m.readline()
line6=m.readline()
line7=m.readline()
line8=m.readline()
line9=m.readline()
Quarter1=quartergen(line1.rstrip().split(';')[0],line1.rstrip().split(';')[1].split(','),line1.rstrip().split(';')[2].split(','))
Quarter2=quartergen(line2.rstrip().split(';')[0],line2.rstrip().split(';')[1].split(','),line2.rstrip().split(';')[2].split(','))
Quarter3=quartergen(line3.rstrip().split(';')[0],line3.rstrip().split(';')[1].split(','),line3.rstrip().split(';')[2].split(','))
Quarter4=quartergen(line4.rstrip().split(';')[0],line4.rstrip().split(';')[1].split(','),line4.rstrip().split(';')[2].split(','))
Quarter5=quartergen(line5.rstrip().split(';')[0],line5.rstrip().split(';')[1].split(','),line5.rstrip().split(';')[2].split(','))
Quarter6=quartergen(line6.rstrip().split(';')[0],line6.rstrip().split(';')[1].split(','),line6.rstrip().split(';')[2].split(','))
Quarter7=quartergen(line7.rstrip().split(';')[0],line7.rstrip().split(';')[1].split(','),line7.rstrip().split(';')[2].split(','))
Quarter8=quartergen(line8.rstrip().split(';')[0],line8.rstrip().split(';')[1].split(','),line8.rstrip().split(';')[2].split(','))
Quarter9=quartergen(line9.rstrip().split(';')[0],line9.rstrip().split(';')[1].split(','),line9.rstrip().split(';')[2].split(','))
m.close()
def compare(x, y):
if set(x).isdisjoint(set(y))==False:
return True
else:
return False
def offeredcoursegen(Quarter, courselist):
offered=[]
for course in courselist:
if compare(course.year, Quarter.year)==True and compare(course.term, Quarter.term)==True:
offered.append(course)
return offered
def combo(x, courselist):
return list(itertools.combinations(offeredcoursegen(x,courselist), 4))+list(itertools.combinations(offeredcoursegen(x,courselist), 5))
Combo1=combo(Quarter1, courselist)
Combo2=combo(Quarter2, courselist)
Combo3=combo(Quarter3, courselist)
Combo4=combo(Quarter4, courselist)
Combo5=combo(Quarter5, courselist)
Combo6=combo(Quarter6, courselist)
Combo7=combo(Quarter7, courselist)
Combo8=combo(Quarter8, courselist)
Combo9=combo(Quarter9, courselist)
GrandMasterList=[]
for i in Combo1:
for j in Combo2:
if compare(i, j)==False:
GrandMasterList.append([i,j])
GrandMasterList2=[]
for i in GrandMasterList:
for j in Combo3:
if compare(i[0],j)==False and compare(i[1],j)==False:
GrandMasterList2.append(i+[j])
GrandMasterList3=[]
for i in GrandMasterList2:
for j in Combo4:
if compare(i[0],j)==False and compare(i[1],j)==False and compare(i[2],j)==False:
GrandMasterList3.append(i+[j])
GrandMasterList4=[]
for i in GrandMasterList3:
for j in Combo5:
if compare(i[0],j)==False and compare(i[1],j)==False and compare(i[2],j)==False and compare(i[3],j)==False:
GrandMasterList4.append(i+[j])
GrandMasterList5=[]
for i in GrandMasterList4:
for j in Combo6:
if compare(i[0],j)==False and compare(i[1],j)==False and compare(i[2],j)==False and compare(i[3],j)==False and compare(i[4],j)==False:
GrandMasterList5.append(i+[j])
GrandMasterList6=[]
for i in GrandMasterList5:
for j in Combo7:
if compare(i[0],j)==False and compare(i[1],j)==False and compare(i[2],j)==False and compare(i[3],j)==False and compare(i[4],j)==False and compare(i[5],j)==False:
GrandMasterList6.append(i+[j])
GrandMasterList7=[]
for i in GrandMasterList6:
for j in Combo8:
if compare(i[0],j)==False and compare(i[1],j)==False and compare(i[2],j)==False and compare(i[3],j)==False and compare(i[4],j)==False and compare(i[5],j)==False and compare(i[6],j)==False:
GrandMasterList7.append(i+[j])
GrandMasterList8=[]
for i in GrandMasterList7:
for j in Combo9:
if compare(i[0],j)==False and compare(i[1],j)==False and compare(i[2],j)==False and compare(i[3],j)==False and compare(i[4],j)==False and compare(i[5],j)==False and compare(i[6],j)==False and compare(i[7], j)==False:
GrandMasterList8.append(i+[j])
for i in range(len(GrandMasterList8)):
print 'Schedule %d \n' % (i)
print 'Quarter 1'
for j in range(len(GrandMasterList8[i][0])):
print '%s ' % (GrandMasterList8[i][0][j].name)
print '\n Quarter 2'
for j in range(len(GrandMasterList8[i][1])):
print '%s ' % (GrandMasterList8[i][1][j].name)
print '\n Quarter 3'
for j in range(len(GrandMasterList8[i][2])):
print '%s ' % (GrandMasterList8[i][2][j].name)
print '\n Quarter 4'
for j in range(len(GrandMasterList8[i][3])):
print '%s ' % (GrandMasterList8[i][3][j].name)
print '\n Quarter 5'
for j in range(len(GrandMasterList8[i][4])):
print '%s ' % (GrandMasterList8[i][4][j].name)
print '\n Quarter 6'
for j in range(len(GrandMasterList8[i][5])):
print '%s ' % (GrandMasterList8[i][5][j].name)
print '\n Quarter 7'
for j in range(len(GrandMasterList8[i][6])):
print '%s ' % (GrandMasterList8[i][6][j].name)
print '\n Quarter 8'
for j in range(len(GrandMasterList8[i][7])):
print '%s ' % (GrandMasterList8[i][7][j].name)
print '\n Quarter 9'
for j in range(len(GrandMasterList8[i][8])):
print '%s ' % (GrandMasterList8[i][8][j].name)
print '\n \n \n'
```

`class Course(object):`

. Also, while lists aren't as memory efficient as iterators, it doesn't look to me like that is worth worrying about in this program. – Joshua D. Boyd Dec 21 '12 at 1:44