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I'm a first year computer science student. I am trying to teach myself hash tables for an interview. After reading a few pieces about them, I thought the best way of seeing if I'd got it would be to implement my own hash table in Python. So that's what I've done. Please could somebody look at it and let me know what you think? Have I correctly understood what it is I am meant to be doing with a hash table?

storage_array = []

def show_menu():
    menu_option = int(raw_input("Enter 1 to store data, Enter 2 to retrieve data: "))
    if (menu_option == 1):
        store_data()
    elif (menu_option == 2):
        retrieve_data()

def store_data():
    key_for_data = raw_input("Please enter the key for the data you want to store: ")
    actual_data = raw_input("Please enter the data you want to store: ")
    ascii_count = generate_hash(key_for_data)
    print ascii_count
    storage_array[ascii_count] = actual_data
    print "The data:'", actual_data, "'has been stored at index:'", ascii_count, "' which is the ascii count of:'", key_for_data, "'"
    show_menu()

def retrieve_data():
    key_for_data = raw_input("Enter the key for the data you want to retrieve: ")
    ascii_count = generate_hash(key_for_data)
    if (storage_array[ascii_count] == None):
        print "No data was stored under this key"
    else:
        print "The data you requested for key:'", key_for_data, "'with ASCII count:'", ascii_count, "' is:'", storage_array[ascii_count], "'"
    show_menu()

def generate_hash(input):
    character_list = list(input)
    ascii_count = 0
    for character_index in range(0,len(character_list)):
        ascii_count += ord(character_list[character_index])
    return ascii_count

def initiate_list():
    for repeat_index in range(0,1000):
        storage_array.append(None)
    print "List initiated with index's to 1000"

initiate_list()
show_menu()


##Or is it meant to hash the key like a dictionary and then store
##the value for that key in the hashed value in the hash table?
share|improve this question
6  
Please post the code, don't post a screenshot. –  alex Nov 25 '12 at 23:36
1  
You posted a picture of text. Post text instead. –  vicvicvic Nov 25 '12 at 23:38
2  
@Sam What if I want to paste it into my editor and run the Python code myself? What if the code should be indexable by search engines? –  alex Nov 25 '12 at 23:38
1  
The link to "code" is also an image. Just post the code. –  stranac Nov 25 '12 at 23:40
3  
As for the actual question, do you think you should be handling hash collisions? –  alex Nov 25 '12 at 23:45

3 Answers 3

up vote 2 down vote accepted

It looks like you have the general concept correct. The hash table takes an arbitrary key and turns it into an index into an array via some special method.

A couple points:

First, and most important: your generate_hash function can return an index that is invalid if the sum of the ord()s of the key is greater than 1000.

To fix this, have generate_hash return ascii_count % 1000. If you don't know what % means, go read up on the modulus operator (don't worry, it's not too complicated).

Second, also important: think about what happens if you use the following two keys: ab and ba. What you're doing isn't necessarily wrong, but it's important to understand the behavior of your hash table when different keys collide.

Third, less important: your for loops don't have to work like they do in C/C++. You could change

for character_index in range(0,len(character_list)):
        ascii_count += ord(character_list[character_index])

to

for character in character_list:
        ascii_count += ord(character)

Python for loops are pretty fancy :)

All in all, it looks great!

share|improve this answer
    
Thanks very much! –  Sam Heather Nov 26 '12 at 0:05

You have a hashing function (which I assume produces the same hash for the same input) and you use the hash produced from the hashing function on your key as an index into your array to access the data associated with the key, so yes it appears you have the gist of hash tables.

A good thing to keep in mind is that you should choose a hashing function that operates quickly on the input and is written well enough to reasonably avoid collisions (cases where two keys produce the same hash).

share|improve this answer
    
Same as below re: collisions, thanks. RE: 'operates quickly', is what's I've got something that operates quickly? How would I work out something that works quickly to something that doesn't in this scenario? –  Sam Heather Nov 25 '12 at 23:52
1  
The "ultimate feature" of hash functions is that they have (mostly) O(1) lookup time, which means that the time that it takes to get a value doesn't depend on the number of things in the hashtable. "Operating quickly" is mostly an extension of that. People use hashtables because they're fast, and a lot of time goes into optimizing the hash function that creates the indices. I wouldn't worry too much about the speed of your hash function in this case. –  Dane Larsen Nov 25 '12 at 23:59

Your generate_hash() function can return hash values that fall outside your table.

You should also have a strategy for dealing with collisions. You will always get collisions eventually with a hash table.

Your generate_hash function can be written more simply

def generate_hash(s):
    return sum(ord(c) for c in s)

If you use modulus 1000, you can avoid the problem of hash values falling outside the table

def generate_hash(s):
    return sum(ord(c) for c in s)%1000

retrieve_data() has a bug. Because you haven't thought about collisions, If I store something with the key 'ad' I can retrieve it using the key 'cb'

share|improve this answer
    
Hi. Thanks for the answer. Just trying to get a really basic understanding first but yes - thanks. –  Sam Heather Nov 25 '12 at 23:51
    
It's probably worse mentioning that the hash will have lots of collisions. For instance, generate_hash("ab") will be the same as generate_hash("ba"). –  Blckknght Nov 25 '12 at 23:51
    
@Blckknght, it'll have lots of collisions just because the keyspace is quite small. It happens that it's easy to deliberately find collisions with the particular hash being used here. –  John La Rooy Nov 26 '12 at 0:33

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