I saw an earlier post which is trying to do a similar sort of thing in Python.
Here is a boiled down example of what I want. Let us say I have List.
public class MyObject {
private String purchase;
private Double price;
}
Let us say that a typical List<MyObject>
will hold:
Bike 95.00
Clothes 24.99
Clothes 10.76
Food 6.35
Food 91.46
I want all of the items with same purchase value to be combined into a single item with the price summed for that item. For example, clothes would be a single item with price 35.75 (if I have done the addition correctly).
The way I thought about doing it was:
Collections.sort
the list by purchase for O(n log n)- Walk the sorted list (it is an
ArrayList
I am using) as same items will be consecutive and perform a merge on 2 items at a time O(n)
Giving a total runtime of O(n log n).
Now that sounds reasonable to me, however is there a library out there which at the very least beats the pants of my constants? I always support going with a streamlined version if one exists. So are there any existing implementations that I should think about using or improvements over my algorithm?
EDIT
After thinking about my boiled down case as I went home yesterday, yes I easily saw it is a map. All I had to do is reduce it to the simpler problem I posted and it became very obvious. My real structure is
public class MyObject {
Map bucketOfStuff;
}
In reality, bucketOfStuff is really Map<String, Object>
where sometimes the value is a String and sometimes the value is a Double (it can also be an Integer sometimes, but hey I can treat it as double). For all of the objects which are of type String, they would be used to form the key in this problem. So If I had
- color => Red
- size => Small
- texture => Smooth
Then I could encode all into a single String such as Red,Small,Smooth
because I know comma will not be a character present in any of the values so I can use it as a delimiter.
For the value for our hypothetical new Map, it would be List because I have to perform (mathematical) vector addition on all of the bucketOfStuff
values which are doubles. So the proposed new Map would either be Map<List<String>, List<Double>>
or simply Map<String, List<Double>>
if I used the delimiter as above.
Another thing which corrupted my thought process is that in the end the collection has to be a List to pass on so I was in a narrow-minded way thinking List all the way. So I have to be able to reconstruct the original object which is a bit involved, but not impossible. Thanks all for the help and nice catch.
EDIT
I have to modify my description slightly because I just recalled that I should maintain the original ordering of the List<MyObject>
, therefore my original solution would have been incorrect anyway since I was doing the sort. Because of this, I shall continue to follow the path of assistance offered and use a LinkedHashMap<String, List<Double>>
. Coming from Java 6 API "This linked list defines the iteration ordering, which is normally the order in which keys were inserted into the map (insertion-order)".
HashMap
, then walk through the array, and either insert into the map, or update the prices as necessary. Single walk - O(n). Single access in aHashMap
is O(1) (... I think?), N times (So, O(n)?). Something like that I guess.... Then just calltoArray()
if necessary.