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Automatically sorted by values map in Java

开发者 https://www.devze.com 2023-04-05 23:13 出处:网络
I need to have an automatically sorted-by-values map in Java - so that It keeps being sorted at any time while I\'m adding new key-value pairs or update the value of an existing key-value pair, or eve

I need to have an automatically sorted-by-values map in Java - so that It keeps being sorted at any time while I'm adding new key-value pairs or update the value of an existing key-value pair, or even delete some entry.

Please also have in mind that this map is going to be really big (100's of thousands, or even 10's of millions of entries in size).

So basically I'm looking for the following functionality:

Supposed that we had a class 'SortedByValuesMap' that implements the aforementioned functionality and we have the following code:

SortedByValuesMap<String,Long> sorted_map = new SortedByValuesMap<String, Long>();
开发者_运维知识库sorted_map.put("apples", 4);
sorted_map.put("oranges", 2);
sorted_map.put("bananas", 1);
sorted_map.put("lemons", 3);
sorted_map.put("bananas", 6);

for (String key : sorted_map.keySet()) {
  System.out.println(key + ":" + sorted_map.get(key));
}

the output should be:

bananas:6
apples:4
lemons:3
oranges:2

In particular, what's really important for me, is to be able to get the entry with the lowest value at any time - using a command like:

smallestItem = sorted_map.lastEntry();

which should give me the 'oranges' entry

EDIT: I am a Java newbie so please elaborate a bit in your answers - thanks

EDIT2: This might help: I am using this for counting words (for those who are familiar: n-grams in particular) in huge text files. So I need to build a map where keys are words and values are the frequencies of those words. However, due to limitations (like RAM), I want to keep only the X most frequent words - but you can't know beforehand which are going to be the most frequent words of course. So, the way I thought it might work (as an approximation) is to start counting words and when the map reaches a top-limit (like 1 mil entries) , the least frequent entry will be deleted so as to keep the map's size to 1 mil always.


Keep 2 data structures:

  • A dictionary of words -> count. Just use an ordinary HashMap<String, Long>.
  • An "array" to keep track of order, such that list[count] holds a Set<String> of words with that count.

    I'm writing this as though it were an array as a notational convenience. In fact, you probably don't know an upper bound on the number of occurrences, so you need a resizable data structure. Implement using a Map<Long, Set<String>>. Or, if that uses too much memory, use an ArrayList<Set<String>> (you'll have to test for count == size() - 1, and if so, use add() instead of set(count + 1)).

To increment the number of occurrences for a word (pseudocode):

// assumes data structures are in instance variables dict and arr
public void tally(final String word)
{
    final long count = this.dict.get(word) or 0 if absent;
    this.dict.put(word, count + 1);
    // move word up one place in arr
    this.arr[count].remove(word);   // This is why we use a Set: for fast deletion here.
    this.arr[count + 1].add(word);
}

To iterate over words in order (pseudocode):

for(int count = 0; count < arr.size; count++)
    for(final String word : this.arr[count])
        process(word, count);


How about using additional index or only TreeMap<Long, TreeSet<String>> or TreeMap<Long, String> if Long values are distinct?

You can also write a Heap.


Guava BiMap Solution:

//Prepare original data
BiMap<String, Integer> biMap = HashBiMap.create();
biMap.put("apples" , 4);
biMap.put("oranges", 2);
biMap.put("bananas", 1);
biMap.put("lemons" , 3);
biMap.put("bananas", 6);

//Create a desc order SortedMap
SortedMap<Integer, String> sortedMap = new TreeMap<Integer, String>(new Comparator<Integer>(){
    @Override public int compare(Integer o1, Integer o2) {
      return o2-o1;
}});

//Put inversed map
sortedMap.putAll(biMap.inverse());
for (Map.Entry<Integer, String> e: sortedMap.entrySet()) {
      System.out.println(e);
}
System.out.println(sortedMap.lastKey()); 


Try the solution posted on http://paaloliver.wordpress.com/2006/01/24/sorting-maps-in-java/ . You have the flexibility of doing sorting ascending or descending too.

Here is what they say

import java.util.Comparator;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.SortedMap;
import java.util.TreeMap;

public class MapValueSort {

    /** inner class to do soring of the map **/
    private static class ValueComparer implements Comparator<String> {
        private Map<String, String>  _data = null;
        public ValueComparer (Map<String, String> data){
            super();
            _data = data;
        }

         public int compare(String o1, String o2) {
             String e1 = (String) _data.get(o1);
             String e2 = (String) _data.get(o2);
             return e1.compareTo(e2);
         }
    }

    public static void main(String[] args){

        Map<String, String> unsortedData = new HashMap<String, String>();
        unsortedData.put("2", "DEF");
        unsortedData.put("1", "ABC");
        unsortedData.put("4", "ZXY");
        unsortedData.put("3", "BCD");


        SortedMap<String, String> sortedData = new TreeMap<String, String>(new MapValueSort.ValueComparer(unsortedData));

        printMap(unsortedData);

        sortedData.putAll(unsortedData);
        System.out.println();
        printMap(sortedData);
    }

    private static void printMap(Map<String, String> data) {
        for (Iterator<String> iter = data.keySet().iterator(); iter.hasNext();) {
            String key = (String) iter.next();
            System.out.println("Value/key:"+data.get(key)+"/"+key);
        }
    }

}

Outputs

Value/key:BCD/3
Value/key:DEF/2
Value/key:ABC/1
Value/key:ZXY/4

Value/key:ABC/1
Value/key:BCD/3
Value/key:DEF/2
Value/key:ZXY/4


I found the need of a similar structure to keep a list of objects ordered by associated values. Based on the suggestion from Mechanical snail in this thread, I coded up a basic implementation of such a map. Feel free to use.

import java.util.*;

/**
 * A map where {@link #keySet()} and {@link #entrySet()} return sets ordered
 * with ascending associated values with respect to the the comparator provided
 * at constuction. The order of two or more keys with identical values is not
 * defined.
 * <p>
 * Several contracts of the Map interface are not satisfied by this minimal
 * implementation.
 */
public class ValueSortedMap<K, V> extends HashMap<K, V> {
    protected Map<V, Collection<K>> valueToKeysMap;

    public ValueSortedMap() {
        this((Comparator<? super V>) null);
    }

    public ValueSortedMap(Comparator<? super V> valueComparator) {
        this.valueToKeysMap = new TreeMap<V, Collection<K>>(valueComparator);
    }

    public boolean containsValue(Object o) {
        return valueToKeysMap.containsKey(o);
    }

    public V put(K k, V v) {
        V oldV = null;
        if (containsKey(k)) {
            oldV = get(k);
            valueToKeysMap.get(oldV).remove(k);
        }
        super.put(k, v);
        if (!valueToKeysMap.containsKey(v)) {
            Collection<K> keys = new ArrayList<K>();
            keys.add(k);
            valueToKeysMap.put(v, keys);
        } else {
            valueToKeysMap.get(v).add(k);
        }
        return oldV;
    }

    public void putAll(Map<? extends K, ? extends V> m) {
        for (Map.Entry<? extends K, ? extends V> e : m.entrySet())
            put(e.getKey(), e.getValue());
    }

    public V remove(Object k) {
        V oldV = null;
        if (containsKey(k)) {
            oldV = get(k);
            super.remove(k);
            valueToKeysMap.get(oldV).remove(k);
        }
        return oldV;
    }

    public void clear() {
        super.clear();
        valueToKeysMap.clear();
    }

    public Set<K> keySet() {
        LinkedHashSet<K> ret = new LinkedHashSet<K>(size());
        for (V v : valueToKeysMap.keySet()) {
            Collection<K> keys = valueToKeysMap.get(v);
            ret.addAll(keys);
        }
        return ret;
    }

    public Set<Map.Entry<K, V>> entrySet() {
        LinkedHashSet<Map.Entry<K, V>> ret = new LinkedHashSet<Map.Entry<K, V>>(size());
        for (Collection<K> keys : valueToKeysMap.values()) {
            for (final K k : keys) {
                final V v = get(k);
                ret.add(new Map.Entry<K,V>() {
                    public K getKey() {
                        return k;
                    }

                    public V getValue() {
                        return v;
                    }

                    public V setValue(V v) {
                        throw new UnsupportedOperationException();
                    }
                });
            }
        }
        return ret;
    }
}

This implementation does not honor all the contracts of the Map interface such as reflecting value changes and removals in the returned key set and entry sets in the actual map, but such a solution would be a bit large to include in a forum like this. Perhaps I will work on one and make it available via github or something similar.


Update: You cannot sort maps by values, sorry.

You can use SortedMap implementation like TreeMap with Comparator defining order by values (instead of default - by keys).

Or, even better, you can put elements into a PriorityQueue with predefined comparator by values. It should be faster and take less memory compared to TreeMap.


You may refer to the implementation of java.util.LinkedHashMap. The basic idea is, using a inner linked list to store orders. Here is some details:

Extends from HashMap. In HashMap, each entry has a key and value, that is basic. You can Add a next and a prev pointer to store entries in order by value. And a header and tail pointer to get the first and last entry. For every modification (add, remove, update), you can add your own code to change the list order. It is no more than a linear search and pointer switch.

Sure it will be slow for add/update if there are too many entries because it is a linked list not array. But as long as the list is sorted, I believe there are lots of ways to speedup the search.

So here is what you got: A map that has the same speed with HashMap when retrieving an entry by a key. A linked list which stores entries in order.

We can discuss this further if this solution meets your requirement.


to jtahlborn: As I said, it surely is slow without any optimization. Since we are talking about performance not impl now, lots of things can be done.

One solution is using a tree instead of Linked List, like Red-Black Tree. Then iterate the tree instead of iterator the map.

About the smallest value, it is easier. Just using a member variable to store the smallest, when add or update an element, update the smallest value. When delete, search the tree for the smallest (this is very fast)

if tree is too complex, it is also possible to using another list/array to mark the some positions in the list. for example, maybe 100 element each. Then when search, just search the position list first and then the real list. This list also needs to be maintained, it would be reasonable to recount the position list for certain times of modification, maybe 100.


if all you need is the "min" value, then just use a normal map and keep track of the "min" value anytime it is modified.

EDIT:

so, if you really need value ordering and you want to use out-of-the-box solutions, you basically need 2 collections. One normal map (e.g. HashMap), and one SortedSet (e.g. TreeSet>). you can traverse ordered elements via the TreeSet, and find frequencies by key using the HashMap.

obviously, you could always code up something yourself sort of like a LinkedHashMap, where the elements are locatable by key and traversable by order, but that's pretty much going to be entirely custom code (i doubt anything that specific already exists, but i could be wrong).

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