This is for homework, so I must try to use as little python functions as possible, but still allow for a computer to process a list of 1 million numbers efficiently.
#!/usr/bin/python3 #Find the 10 largest integers #Don't store the whole list import sys import heapq def fOpen(fname): try: fd = open(fname,"r") except: print("Couldn't open file.") sys.exit(0) all = fd.read().splitlines() fd.close() return all words = fOpen(sys.argv) numbs = map(int,words) print(heapq.nlargest(10,numbs)) li= count = 1 #Make the list for x in words: li.append(int(x)) count += 1 if len(li) == 10: break #Selection sort, largest-to-smallest for each in range(0,len(li)-1): pos = each for x in range(each+1,10): if li[x] > li[pos]: pos = x if pos != each: li[each],li[pos] = li[pos],li[each] for each in words: print(li) each = int(each) if each > li: for x in range(0,9): pos = x if each > li[x]: li[x] = each for i in range(x+1,10): li[pos],li[i] = li[i],li[pos] break #Selection sort, largest-to-smallest for each in range(0,len(li)-1): pos = each for x in range(each+1,10): if li[x] > li[pos]: pos = x if pos != each: li[each],li[pos] = li[pos],li[each] print(li)
The code is working ALMOST the way that I want it to. I tried to create a list from the first 10 digits. Sort them, so that it in descending order. And then have python ONLY check the list, if the digits are larger than the smaller one (instead of reading through the list 10(len(x)).
This is the output I should be getting:
>>>[9932, 9885, 9779, 9689, 9682, 9600, 9590, 9449, 9366, 9081]
This is the output I am getting:
>>>[9932, 9689, 9885, 9779, 9682, 9025, 9600, 8949, 8612, 8575]