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I need help defining what approach to use. I have a SOAP response giving me an xml file. I need to end-up with 3 correlated lists displayed on screen. When you select one item on the first list, the corresponding choices will appear on the second list etc. I am only interested on how to organize efficiently the data after it is extracted from the xml stream. Here's an xml snippet:

<device>
    <manufacturer>Acer</manufacturer>
    <model>A1</model>
    <platform>Android</platform>
</device>
<device>
    <manufacturer>Acer</manufacturer>
    <model>A1</model>
    <platform>J2ME</platform>
</device>
<device>
    <manufacturer>Acer</manufacturer>
    <model>A2</model>
    <platform>Android</platform>
</device>
<device>
    <manufacturer>Samsung</manufacturer>
    <model>E400</model>
    <platform>Android</platform>
</device>

So, I will have something like manufacturer={"Acer", "Acer", "Acer","Samsung"}, model={"A1","A1", "A2", "E400"}, platform={"Android","J2ME","Android","Android"}.

Here comes the fun part: I need to massage the data so that I can use it to display 3 lists. After selecting Android, Acer and Samsung become available. If Acer is selected, then model A1 and A2 are available. All lists need to be sorted. Currently I'm using Sax to parse the data into a vector of objects, containing manufacturer, model, platform fields. All I can think of is a TreeMap like structure. Any suggestions would be appreciated.

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3 Answers 3

up vote 4 down vote accepted

I do not think that hierarchical structure is what you need here. Because user may select first platform or manufacturer. If he selects first Android you want to show 3 devices. If he selects first Acer he will see 2 devices.

So, my suggesting is the following.

  1. create class Device with properties manufacturer, model, platform.
  2. create a plain linked list that contains all these devices.
  3. Create 2 maps: manufaturerIndex and plarformIndex that look like:
    Map<String, Collection<Device>> manufacturerIndex;

  4. Iterate once over the list and populate all indexes maps.

Like this:

for(Device d : devices) {
    Collection<Device> selected = manufacturerIndex.get(d.getManufacturer());
    if (selected == null) {
         selected = new ArrayList<Device>();
         manufactuerIndex.put(d.getManufacturer(), selected);
    }
    selected.add(d);
    // the same for the second index
}

Now you can use the data structure.

manufactuerIndex.get("Nokia") -> returns all Nokia devices.

Pay attention that this data structure is extendable. You can always add as many indexes as you want.

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I like your answer (it was my other idea :-)), so +1 for that. But please learn to format your code properly. I tried to do it for you, but apparently ordered lists and code blocks don't play together well. –  Sean Patrick Floyd Nov 18 '10 at 16:49
    
My users will have to jump through a set of hoops before filling in this info so I can guarantee that the order of their choices is platform/manufacturer/model. I will use this solution as most of it was already implemented. Thank you. –  alex Nov 18 '10 at 20:50
    
For completeness, I used a MultiValueMap from org.apache.commons.collections.map –  alex Nov 25 '10 at 19:14
    
For completeness, I used in the end a MultiValueMap from org.apache.commons.collections.map (example here: taypworm.com/node/81). It allows duplicate keys and returns a collection of values for any key : key1=[v1, v2, v3] –  alex Nov 25 '10 at 19:20

I'd just use a sortable collection of custom objects and then filter that collection based on predicates. I am using Guava for all of this, but there are of course other (usually more complicated) ways to implement this.

Here's my Product Object:

public class Product implements Comparable<Product>{

    private final String manufacturer;
    private final String model;
    private final String platform;

    public Product(final String manufacturer,
        final String model,
        final String platform){
        this.manufacturer = manufacturer;
        this.model = model;
        this.platform = platform;
    }

    public String getManufacturer(){
        return manufacturer;
    }

    public String getModel(){
        return model;
    }

    public String getPlatform(){
        return platform;
    }

    @Override
    public int hashCode(){
        return Objects.hashCode(manufacturer, model, platform);
    }

    @Override
    public boolean equals(final Object obj){
        if(obj instanceof Product){
            final Product other = (Product) obj;
            return Objects.equal(manufacturer, other.manufacturer)
                && Objects.equal(model, other.model)
                && Objects.equal(platform, other.platform);
        }
        return false;
    }

    @Override
    public int compareTo(final Product o){
        return ComparisonChain
            .start()
            .compare(manufacturer, o.manufacturer)
            .compare(model, o.model)
            .compare(platform, o.platform)
            .result();
    }

}

Now I'd just use a TreeSet<Product> and apply views on it. Here's a sample method that returns a live view that is filtered by model:

public static Collection<Product> filterByModel(
    final Collection<Product> products,
    final String model){
    return Collections2.filter(products, new Predicate<Product>(){

        @Override
        public boolean apply(final Product product){
            return product.getModel().equals(model);
        }
    });
}

Use it like this:

Collection<Product> products = new TreeSet<Product>();
// add some products
Collection<Product> filtered = filterByModel(products, "A1");

Update: We can take it even further, using only one collection, backed by chained predicates that are in turn tied to a model backed by your view. Brain hurts? Check this out:

// this is the collection you sent to your view
final Collection<Product> visibleProducts =
    Collections2.filter(products, Predicates.and(Arrays.asList(
        new ManufacturerPredicate(yourViewModel),
        new ModelPredicate(yourViewModel),
        new PlatformModel(yourViewModel)))
);

yourViewModel is an object that is backed by the values returned from your form controller. Each predicate uses a field of this model object to decide whether it applies or not.

e.g. The ModelPredicate checks all products in the collection to see whether their model is among the selected ones. Since this uses and logic, you can make it a hierarchic structure (if the manufacturer predicate returns false, the model and platform predicates are never called).

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excellent, TY for posting this –  Pete Nov 18 '10 at 16:46
    
I never looked at Guava before, but it looks like Google is very serious about plugging in a lot of holes left by Sun/Oracle. I was already implementing a solution along the lines of what AlexR suggested, so he gets the check-mark. However, thank you for introducing me to Guava. –  alex Nov 18 '10 at 20:48
    
Thanks. By the way, check out my update: I have added a much more complete solution to the problem. –  Sean Patrick Floyd Nov 19 '10 at 9:16

I use nested maps for something like that. Use TreeMap to get sorted results:

TreeMap<String, TreeMap<String, Model> manufacturerMap;

TreeMap<String, Model> models = manufacturerMap.get( name );
if( models == null ) {
    models = new TreeMap<String, Model>();
    manufacturerMap.put( name. models );
}

... etc ...
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