# How would you sort 1 million 32-bit integers in 2MB of RAM?

Update: No constraints set on external storage.

Example: Integers are received/sent via network. There is a sufficient space on local disk for intermediate results.

-
Smells like Homework –  Omar Kooheji Sep 25 '08 at 15:59
Homework questions are OK as long as they are general enough where others can find the solution valuable. –  Outlaw Programmer Sep 25 '08 at 16:02
I would have said that getting somone to answer your homework for you defeated the purpose. –  Omar Kooheji Sep 25 '08 at 16:04
I thought newbie (self-research) questions are allowed. It seems I was mistaken. –  J.F. Sebastian Sep 25 '08 at 18:48
I think was many reacts to in that respect is the sentence "Please provide code examples". If it's self-research, you don't need others to do it for you. –  Lasse V. Karlsen Feb 12 '09 at 8:30

1 million 32-bit integers = 4 MB of memory.

You should sort them using some algorithm that uses external storage. Mergesort, for example.

-

Split the problem into pieces small enough to fit into available memory, then use merge sort to combine them.

-
probably best solution, exept you also want to have enough working space in memory to sort them... –  Omar Kooheji Sep 25 '08 at 16:04
I'm interested in code examples (I've already read theoretical aspects in Knuth) –  J.F. Sebastian Sep 25 '08 at 18:52

You need to provide more information. What extra storage is available? Where are you supposed to store the result?

Otherwise, the most general answer: 1. load the fist half of data into memory (2MB), sort it by any method, output it to file. 2. load the second half of data into memory (2MB), sort it by any method, keep it in memory. 3. use merge algorithm to merge the two sorted halves and output the complete sorted data set to a file.

-
I've updated the question. –  J.F. Sebastian Sep 25 '08 at 19:06

As people above mention type int of 32bit 4 MB.

To fit as much "Number" as possible into as little of space as possible using the types int, short and char in C++. You could be slick(but have odd dirty code) by doing several types of casting to stuff things everywhere.

Here it is off the edge of my seat.

anything that is less than 2^8(0 - 255) gets stored as a char (1 byte data type)

anything that is less than 2^16(256 - 65535) and > 2^8 gets stored as a short ( 2 byte data type)

The rest of the values would be put into int. ( 4 byte data type)

You would want to specify where the char section starts and ends, where the short section starts and ends, and where the int section starts and ends.

-
Wouldn't help much. Or wouldn't help at all if all numbers are bigger than 65535. –  gabr Sep 25 '08 at 16:35
You'd waste more space keeping track of types than you'd save! –  Adam Hawes Feb 12 '09 at 8:08
-
then why did you provide it –  Alcott Sep 15 '11 at 14:10
@alcott he was making a joke i think it was something obama said –  Josh Sherick Sep 28 '11 at 0:45

This wikipedia article on External Sorting have some useful information.

-

Dual tournament sort with polyphased merge

``````#!/usr/bin/env python
import random
from sort import Pickle, Polyphase

nrecords = 1000000
available_memory = 2000000 # number of bytes
#NOTE: it doesn't count memory required by Python interpreter

record_size = 24 # (20 + 4) number of bytes per element in a Python list
heap_size = available_memory / record_size
p = Polyphase(compare=lambda x,y: cmp(y, x), # descending order
file_maker=Pickle,
verbose=True,
heap_size=heap_size,
max_files=4 * (nrecords / heap_size + 1))

# put records
maxel = 1000000000
for _ in xrange(nrecords):
p.put(random.randrange(maxel))

# get sorted records
last = maxel
for n, el in enumerate(p.get_all()):
if el > last: # elements must be in descending order
print "not sorted %d: %d %d" % (n, el ,last)
break
last = el

assert nrecords == (n + 1) # check all records read
``````
-

No example, but Bucket Sort has relatively low complexity and is easy enough to implement

-
-
That's suspiciously specific :) –  skaffman Jul 2 '09 at 9:34
• Um, store them all in a file.
• Memory map the file (you said there was only 2M of RAM; let's assume the address space is large enough to memory map a file).
• Sort them using the file backing store as if it were real memory now!
-