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When showing accounts in the GUI, I need to show primary accounts ( for secondary accounts ) There can be multiple secondary accounts for each primary account.

I am trying to save the primary to secondary accounts information in the HashMap. Because, that needs to be retrieved later.

While saving, I also need to save secondary account instruction. So, I need to save two objects with key as Primary account.

1) Secondary Account
2) Secondary Instruction.

I have equals and hashcode overridden for account and instruction objects.

I am trying to use Primary account hashcode as key and value as a List of Object[2]

-- Initialization

private static final Map<Integer, ArrayList<Object[]>> primaryToSecondaryAcct = new ConcurrentHashMap<Integer, ArrayList<Object[]>>();

-- Putting values

final Object[] acctInstr = new Object[2];
acctInstr[0] = acct;
acctInstr[1] = instr;
if(primaryToSecondaryAcct.get(getExistingAccount().hashCode()) != null) {
} else {
    final ArrayList<Object[]> acctInstrList = new ArrayList<Object[]>();
    primaryToSecondaryAcct.put(getExistingAccount().hashCode(), acctInstrList);

I am wondering if this is correct and if there a better way of doing it. Could you suggest?

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4 Answers 4

up vote 5 down vote accepted

Instead of:

Map<Integer, ArrayList<Object[]>>

why not have

Map<Account, SecondaryInfo>

At the moment you're storing a collection against the key, and you have to manage that, iterate through it etc. when you pull it from the Map. I think it's much better to create a suitable abstraction and delegate to it. That abstraction will look after validation, iteration etc. in one location, rather than you having to worry about it each time you access the Map.

Remember - OO is about telling objects to do things for you, not asking them for info and doing it yourself.

I would replace your Integer representation of an account by a specific Account object. otherwise you're going to have to manage lots of integers representing different types, and it's very easy to mix these up. Typing them (albeit using a trivial class) means you can refactor trivially using automated tools and easily determine types without resorting to naming conventions.

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I didn't realize the fact that two objects can have same hashCode. Thanks for the recommendation ( remember stuff )! That helps. –  would_like_to_be_anon Sep 11 '12 at 17:36

I suggest using Account as key, as hashcode can be the same for two different objects.

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Actually, Integer.hashCode() returns the int value of the Integer, so it's impossible to have the same hash for two Integer objects. There's still the possibility for collisions of course (table size isn't equal to the key space), but not because of equal hashes from the Integer objects. –  Brian Sep 11 '12 at 16:29
@Brian He doesn't use Integer.hashCode(), but Account.hashCode(), which is a different thing. –  tibtof Sep 12 '12 at 13:21
In his question, he was using Map<Integer, ArrayList<Object[]>>, so no, he wasn't. In the selected answer, he will be. –  Brian Sep 12 '12 at 14:44
@Brian primaryToSecondaryAcct.put(getExistingAccount().hashCode(), acctInstrList); So the Integer that is used as key is the hashCode of the Account. So it is possible to have two different accounts with the same hashCode and the map would consider them equal. –  tibtof Sep 12 '12 at 15:20
Whoa, how did I miss that? Sorry @tibtof I stand corrected. –  Brian Sep 12 '12 at 16:18

The first thing you want is a MultiMap, which you can find in the Guava library from Google. This is similar to a Map<K, Collection<V>>, and maps a key to multiple values for you so you don't have to reinvent that.

Next, replace Object[] with your own custom class:

public class SecondaryInformation {
    private SecondaryAccount secondaryAccount;
    private SecondaryInstruction secondaryInstruction;

    // Constructors, getters, setters, etc.

So you'll have a MultiMap<Integer, SecondaryInformation>. Here's some wiki info on the MultiMap.

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If for both Primary and Secondary accounts you have classes as follows:

public class PrimaryAccount 
    int id;
    private List<SecondaryAccount> secondaryAccounts;   

public class SecondaryAccount
    int id;
    private List<String> instructions;
    PrimaryAccount primaryAccount;

Then, perhaps you will not even need HashMap. However, you may still want to maintain a Hashmap for quick look up of Accounts: HashMap<Integer,PrimaryAccoount> , where you will store account id and primary account.

This makes the implementation cleaner. How ever you do need write classes for Primary and Secondary accounts.

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