În acest tutorial, vom afla despre clasa Java TreeMap și operațiunile sale cu ajutorul unor exemple.
TreeMap
Clasa cadrului colecțiilor Java prevede punerea în aplicare structura de date arbore.
Implementează interfața NavigableMap.
Crearea unui TreeMap
Pentru a crea un TreeMap
, trebuie să importăm mai java.util.TreeMap
întâi pachetul. Odată ce am importat pachetul, iată cum putem crea un TreeMap
fișier Java.
TreeMap numbers = new TreeMap();
În codul de mai sus, am creat TreeMap
numere numite fără niciun argument. În acest caz, elementele din TreeMap
sunt sortate în mod natural (ordine crescătoare).
Cu toate acestea, putem personaliza sortarea elementelor folosind Comparator
interfața. Vom afla despre aceasta mai târziu în acest tutorial.
Aici,
- Cheie - un identificator unic utilizat pentru a asocia fiecare element (valoare) pe o hartă
- Valoare - elemente asociate tastelor dintr-o hartă
Metode de TreeMap
TreeMap
Clasa oferă diverse metode care ne permit de a efectua operațiuni pe hartă.
Inserați elemente în TreeMap
put()
- inserează maparea cheii / valorilor specificate (intrare) pe hartăputAll()
- inserează toate intrările din harta specificată pe această hartăputIfAbsent()
- inserează maparea cheii / valorilor specificate pe hartă dacă cheia specificată nu este prezentă pe hartă
De exemplu,
import java.util.TreeMap; class Main ( public static void main(String() args) ( // Creating TreeMap of even numbers TreeMap evenNumbers = new TreeMap(); // Using put() evenNumbers.put("Two", 2); evenNumbers.put("Four", 4); // Using putIfAbsent() evenNumbers.putIfAbsent("Six", 6); System.out.println("TreeMap of even numbers: " + evenNumbers); //Creating TreeMap of numbers TreeMap numbers = new TreeMap(); numbers.put("One", 1); // Using putAll() numbers.putAll(evenNumbers); System.out.println("TreeMap of numbers: " + numbers); ) )
Ieșire
TreeMap de numere pare: (Patru = 4, Șase = 6, Doi = 2) TreeMap de numere: (Patru = 4, Unu = 1, Șase = 6, Două = 2)
Accesați elementele TreeMap
1. Utilizarea entrySet (), keySet () și valori ()
entrySet()
- returnează un set de mapare (intrare) a tuturor cheilor / valorilor unui arborekeySet()
- returnează un set de toate tastele unei hărți de copacvalues()
- returnează un set de toate hărțile unei hărți de copac
De exemplu,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("One", 1); numbers.put("Two", 2); numbers.put("Three", 3); System.out.println("TreeMap: " + numbers); // Using entrySet() System.out.println("Key/Value mappings: " + numbers.entrySet()); // Using keySet() System.out.println("Keys: " + numbers.keySet()); // Using values() System.out.println("Values: " + numbers.values()); ) )
Ieșire
TreeMap: (One = 1, Three = 3, Two = 2) Asocieri cheie / valoare: (One = 1, Three = 3, Two = 2) Taste: (One, Three, Two) Valori: (1, 3, 2 )
2. Utilizarea get () și getOrDefault ()
get()
- Returnează valoarea asociată cu cheia specificată. Returnează nul dacă cheia nu este găsită.getOrDefault()
- Returnează valoarea asociată cu cheia specificată. Returnează valoarea implicită specificată dacă cheia nu este găsită.
De exemplu,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("One", 1); numbers.put("Two", 2); numbers.put("Three", 3); System.out.println("TreeMap: " + numbers); // Using get() int value1 = numbers.get("Three"); System.out.println("Using get(): " + value1); // Using getOrDefault() int value2 = numbers.getOrDefault("Five", 5); System.out.println("Using getOrDefault(): " + value2); ) )
Ieșire
TreeMap: (One = 1, Three = 3, Two = 2) Utilizarea get (): 3 Utilizarea getOrDefault (): 5
Aici, getOrDefault()
metoda nu găsește cheia Cinci. Prin urmare, returnează valoarea implicită specificată 5.
Eliminați elementele TeeMap
remove(key)
- returnează și elimină intrarea asociată cheii specificate dintr-un TreeMapremove(key, value)
- elimină intrarea de pe hartă numai dacă cheia specificată este asociată cu valoarea specificată și returnează o valoare booleană
De exemplu,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("One", 1); numbers.put("Two", 2); numbers.put("Three", 3); System.out.println("TreeMap: " + numbers); // remove method with single parameter int value = numbers.remove("Two"); System.out.println("Removed value: " + value); // remove method with two parameters boolean result = numbers.remove("Three", 3); System.out.println("Is the entry (Three=3) removed? " + result); System.out.println("Updated TreeMap: " + numbers); ) )
Ieșire
TreeMap: (One = 1, Three = 3, Two = 2) Valoare eliminată = 2 Intrarea (Three = 3) a fost eliminată? True TreeMap actualizat: (unul = 1)
Înlocuiți Elementele TreeMap
replace(key, value)
- înlocuiește valoarea mapată de cheia specificată cu noua valoarereplace(key, old, new)
- înlocuiește vechea valoare cu noua valoare numai dacă vechea valoare este deja asociată cu cheia specificatăreplaceAll(function)
- înlocuiește fiecare valoare a hărții cu rezultatul funcției specificate
De exemplu,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("First", 1); numbers.put("Second", 2); numbers.put("Third", 3); System.out.println("Original TreeMap: " + numbers); // Using replace() numbers.replace("Second", 22); numbers.replace("Third", 3, 33); System.out.println("TreeMap using replace: " + numbers); // Using replaceAll() numbers.replaceAll((key, oldValue) -> oldValue + 2); System.out.println("TreeMap using replaceAll: " + numbers); ) )
Ieșire
Original TreeMap: (First=1, Second=2, Third=3) TreeMap using replace(): (First=1, Second=22, Third=33) TreeMap using replaceAll(): (First=3, Second=24, Third=35)
In the above program notice the statement
numbers.replaceAll((key, oldValue) -> oldValue + 2);
Here, we have passed a lambda expression as an argument.
The replaceAll()
method accesses all the entries of the map. It then replaces all the elements with the new values (returned from the lambda expression).
Methods for Navigation
Since the TreeMap
class implements NavigableMap
, it provides various methods to navigate over the elements of the treemap.
1. First and Last Methods
firstKey()
- returns the first key of the mapfirstEntry()
- returns the key/value mapping of the first key of the maplastKey()
- returns the last key of the maplastEntry()
- returns the key/value mapping of the last key of the map
For example,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("First", 1); numbers.put("Second", 2); numbers.put("Third", 3); System.out.println("TreeMap: " + numbers); // Using the firstKey() method String firstKey = numbers.firstKey(); System.out.println("First Key: " + firstKey); // Using the lastKey() method String lastKey = numbers.lastKey(); System.out.println("Last Key: " + lastKey); // Using firstEntry() method System.out.println("First Entry: " + numbers.firstEntry()); // Using the lastEntry() method System.out.println("Last Entry: " + numbers.lastEntry()); ) )
Output
TreeMap: (First=1, Second=2, Third=3) First Key: First Last Key: Third First Entry: First=1 Last Entry: Third=3
2. Ceiling, Floor, Higher and Lower Methods
- higherKey() - Returns the lowest key among those keys that are greater than the specified key.
- higherEntry() - Returns an entry associated with a key that is lowest among all those keys greater than the specified key.
- lowerKey() - Returns the greatest key among all those keys that are less than the specified key.
- lowerEntry() - Returns an entry associated with a key that is greatest among all those keys that are less than the specified key.
- ceilingKey() - Returns the lowest key among those keys that are greater than the specified key. If the key passed as an argument is present in the map, it returns that key.
- ceilingEntry() - Returns an entry associated with a key that is lowest among those keys that are greater than the specified key. It an entry associated with the key passed an argument is present in the map, it returns the entry associated with that key.
- floorKey() - Returns the greatest key among those keys that are less than the specified key. If the key passed as an argument is present, it returns that key.
- floorEntry() - Returns an entry associated with a key that is greatest among those keys that are less than the specified key. If the key passed as argument is present, it returns that key.
For example,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("First", 1); numbers.put("Second", 5); numbers.put("Third", 4); numbers.put("Fourth", 6); System.out.println("TreeMap: " + numbers); // Using higher() System.out.println("Using higherKey(): " + numbers.higherKey("Fourth")); System.out.println("Using higherEntry(): " + numbers.higherEntry("Fourth")); // Using lower() System.out.println("Using lowerKey(): " + numbers.lowerKey("Fourth")); System.out.println("Using lowerEntry(): " + numbers.lowerEntry("Fourth")); // Using ceiling() System.out.println("Using ceilingKey(): " + numbers.ceilingKey("Fourth")); System.out.println("Using ceilingEntry(): " + numbers.ceilingEntry("Fourth")); // Using floor() System.out.println("Using floorKey(): " + numbers.floorKey("Fourth")); System.out.println("Using floorEntry(): " + numbers.floorEntry("Fourth")); ) )
Output
TreeMap: (First=1, Fourth=6, Second=5, Third=4) Using higherKey(): Second Using higherEntry(): Second=5 Using lowerKey(): First Using lowerEntry(): First=1 Using ceilingKey(): Fourth Using ceilingEntry(): Fourth=6 Using floorkey(): Fourth Using floorEntry(): Fourth=6
3. pollFirstEntry() and pollLastEntry() Methods
pollFirstEntry()
- returns and removes the entry associated with the first key of the mappollLastEntry()
- returns and removes the entry associated with the last key of the map
For example,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("First", 1); numbers.put("Second", 2); numbers.put("Third", 3); System.out.println("TreeMap: " + numbers); //Using the pollFirstEntry() method System.out.println("Using pollFirstEntry(): " + numbers.pollFirstEntry()); // Using the pollLastEntry() method System.out.println("Using pollLastEntry(): " + numbers.pollLastEntry()); System.out.println("Updated TreeMap: " + numbers); ) )
Output
TreeMap: (First=1, Second=2, Third=3) Using pollFirstEntry(): First=1 Using pollLastEntry(): Third=3 Updated TreeMap: (Second=2)
4. headMap(), tailMap() and subMap() Methods
headMap(key, booleanValue)
The headMap()
method returns all the key/value pairs of a treemap before the specified key (which is passed as an argument).
The booleanValue parameter is optional. Its default value is false
.
If true
is passed as a booleanValue, the method also includes the key/value pair of the key
which is passed as an argument.
For example,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("First", 1); numbers.put("Second", 2); numbers.put("Third", 3); numbers.put("Fourth", 4); System.out.println("TreeMap: " + numbers); System.out.println("Using headMap() Method:"); // Using headMap() with default booleanValue System.out.println("Without boolean value: " + numbers.headMap("Fourth")); // Using headMap() with specified booleanValue System.out.println("With boolean value: " + numbers.headMap("Fourth", true)); ) )
Output
TreeMap: (First=1, Fourth=4, Second=2, Third=3) Using headMap() Method: Without boolean value: (First=1) With boolean value: (First=1, Fourth=4)
tailMap(key, booleanValue)
The tailMap()
method returns all the key/value pairs of a treemap starting from the specified key (which is passed as an argument).
The booleanValue is an optional parameter. Its default value is true
.
If false
is passed as a booleanValue, the method doesn't include the key/value pair of the specified key
.
For example,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("First", 1); numbers.put("Second", 2); numbers.put("Third", 3); numbers.put("Fourth", 4); System.out.println("TreeMap: " + numbers); System.out.println("Using tailMap() Method:"); // Using tailMap() with default booleanValue System.out.println("Without boolean value: " + numbers.tailMap("Second")); // Using tailMap() with specified booleanValue System.out.println("With boolean value: " + numbers.tailMap("Second", false)); ) )
Output
TreeMap: (First=1, Fourth=4, Second=2, Third=3) Using tailMap() Method: Without boolean value: (Second=2, Third=3) With boolean value: (Third=3)
subMap(k1, bV1, k2, bV2)
The subMap()
method returns all the entries associated with keys between k1 and k2 including the entry of k1.
The bV1 and bV2 are optional boolean parameters. The default value of bV1 is true
and the default value of bV2 is false
.
If false
is passed as bV1, the method returns all the entries associated with keys between k1 and k2 without including the entry of k1.
If true
is passed as bV2, the method returns all the entries associated with keys between k1 and k2 including the entry of k2.
For example,
import java.util.TreeMap; class Main ( public static void main(String() args) ( TreeMap numbers = new TreeMap(); numbers.put("First", 1); numbers.put("Second", 2); numbers.put("Third", 3); numbers.put("Fourth", 4); System.out.println("TreeMap: " + numbers); System.out.println("Using subMap() Method:"); // Using subMap() with default booleanValue System.out.println("Without boolean value: " + numbers.subMap("Fourth", "Third")); // Using subMap() with specified booleanValue System.out.println("With boolean value: " + numbers.subMap("Fourth", false, "Third", true)); ) )
Output
TreeMap: (First=1, Fourth=2, Second=2, Third=3) Using subMap() Method: Without boolean value: (Fourth=4, Second=2) With boolean value: (Second=2, Third=3)
Other Methods of TreeMap
Method | Description |
---|---|
clone() | Creates a copy of the TreeMap |
containsKey() | Searches the TreeMap for the specified key and returns a boolean result |
containsValue() | Searches the TreeMap for the specified value and returns a boolean result |
size() | Returns the size of the TreeMap |
clear() | Removes all the entries from the TreeMap |
TreeMap Comparator
In all the examples above, treemap elements are sorted naturally (in ascending order). However, we can also customize the ordering of keys.
For this, we need to create our own comparator class based on which keys in a treemap are sorted. For example,
import java.util.TreeMap; import java.util.Comparator; class Main ( public static void main(String() args) ( // Creating a treemap with a customized comparator TreeMap numbers = new TreeMap(new CustomComparator()); numbers.put("First", 1); numbers.put("Second", 2); numbers.put("Third", 3); numbers.put("Fourth", 4); System.out.println("TreeMap: " + numbers); ) // Creating a comparator class public static class CustomComparator implements Comparator ( @Override public int compare(String number1, String number2) ( int value = number1.compareTo(number2); // elements are sorted in reverse order if (value> 0) ( return -1; ) else if (value < 0) ( return 1; ) else ( return 0; ) ) ) )
Output
TreeMap: (Third=3, Second=2, Fourth=4, First=1)
În exemplul de mai sus, am creat o hartă de arbore care trece clasa CustomComparator ca argument.
Clasa CustomComparator implementează Comparator
interfața.
Apoi, anulăm compare()
metoda pentru a sorta elementele în ordine inversă.
Pentru a afla mai multe, vizitați Java Comparator (documentație oficială Java).