How might I convert an ArrayList<String> object to a String[] array in Java?
List<String> list = ..;
String[] array = list.toArray(new String[0]);
For example:
List<String> list = new ArrayList<String>();
//add some stuff
list.add("android");
list.add("apple");
String[] stringArray = list.toArray(new String[0]);
The toArray() method without passing any argument returns Object[]. So you have to pass an array as an argument, which will be filled with the data from the list, and returned. You can pass an empty array as well, but you can also pass an array with the desired size.
Important update: Originally the code above used new String[list.size()]. However, this blogpost reveals that due to JVM optimizations, using new String[0] is better now.
An alternative in Java 8:
String[] strings = list.stream().toArray(String[]::new);
Java 11+:
String[] strings = list.toArray(String[]::new);
Starting from Java-11, one can use the API Collection.toArray(IntFunction<T[]> generator) to achieve the same as:
List<String> list = List.of("x","y","z");
String[] arrayBeforeJDK11 = list.toArray(new String[0]);
String[] arrayAfterJDK11 = list.toArray(String[]::new); // similar to Stream.toArray
You can use the toArray() method for List:
ArrayList<String> list = new ArrayList<String>();
list.add("apple");
list.add("banana");
String[] array = list.toArray(new String[list.size()]);
Or you can manually add the elements to an array:
ArrayList<String> list = new ArrayList<String>();
list.add("apple");
list.add("banana");
String[] array = new String[list.size()];
for (int i = 0; i < list.size(); i++) {
array[i] = list.get(i);
}
Hope this helps!
ArrayList<String> arrayList = new ArrayList<String>();
Object[] objectList = arrayList.toArray();
String[] stringArray = Arrays.copyOf(objectList,objectList.length,String[].class);
Using copyOf, ArrayList to arrays might be done also.
In Java 8:
String[] strings = list.parallelStream().toArray(String[]::new);
In Java 8, it can be done using
String[] arrayFromList = fromlist.stream().toArray(String[]::new);
If your application is already using Apache Commons lib, you can slightly modify the accepted answer to not create a new empty array each time:
List<String> list = ..;
String[] array = list.toArray(ArrayUtils.EMPTY_STRING_ARRAY);
// or if using static import
String[] array = list.toArray(EMPTY_STRING_ARRAY);
There are a few more preallocated empty arrays of different types in ArrayUtils.
Also we can trick JVM to create en empty array for us this way:
String[] array = list.toArray(ArrayUtils.toArray());
// or if using static import
String[] array = list.toArray(toArray());
But there's really no advantage this way, just a matter of taste, IMO.
You can use Iterator<String> to iterate the elements of the ArrayList<String>:
ArrayList<String> list = new ArrayList<>();
String[] array = new String[list.size()];
int i = 0;
for (Iterator<String> iterator = list.iterator(); iterator.hasNext(); i++) {
array[i] = iterator.next();
}
Now you can retrive elements from String[] using any Loop.
Generics solution to covert any List<Type> to String []:
public static <T> String[] listToArray(List<T> list) {
String [] array = new String[list.size()];
for (int i = 0; i < array.length; i++)
array[i] = list.get(i).toString();
return array;
}
Note You must override toString() method.
class Car {
private String name;
public Car(String name) {
this.name = name;
}
public String toString() {
return name;
}
}
final List<Car> carList = new ArrayList<Car>();
carList.add(new Car("BMW"))
carList.add(new Car("Mercedes"))
carList.add(new Car("Skoda"))
final String[] carArray = listToArray(carList);
List<String> list = new ArrayList<>();
list.add("a");
list.add("b");
list.add("c");
String [] strArry= list.stream().toArray(size -> new String[size]);
Per comments, I have added a paragraph to explain how the conversion works.
First, List is converted to a String stream. Then it uses Stream.toArray to convert the elements in the stream to an Array. In the last statement above "size -> new String[size]" is actually an IntFunction function that allocates a String array with the size of the String stream. The statement is identical to
IntFunction<String []> allocateFunc = size -> {
return new String[size];
};
String [] strArry= list.stream().toArray(allocateFunc);
List <String> list = ...
String[] array = new String[list.size()];
int i=0;
for(String s: list){
array[i++] = s;
}
in case some extra manipulation of the data is desired, for which the user wants a function, this approach is not perfect (as it requires passing the class of the element as second parameter), but works:
import java.util.ArrayList;
import java.lang.reflect.Array;
public class Test {
public static void main(String[] args) {
ArrayList<Integer> al = new ArrayList<>();
al.add(1);
al.add(2);
Integer[] arr = convert(al, Integer.class);
for (int i=0; i<arr.length; i++)
System.out.println(arr[i]);
}
public static <T> T[] convert(ArrayList<T> al, Class clazz) {
return (T[]) al.toArray((T[])Array.newInstance(clazz, al.size()));
}
}
In Java 11, we can use the Collection.toArray(generator) method. The following code will create a new array of strings:
List<String> list = List.of("one", "two", "three");
String[] array = list.toArray(String[]::new)
from java.base's java.util.Collection.toArray().
You can convert List to String array by using this method:
Object[] stringlist=list.toArray();
The complete example:
ArrayList<String> list=new ArrayList<>();
list.add("Abc");
list.add("xyz");
Object[] stringlist=list.toArray();
for(int i = 0; i < stringlist.length ; i++)
{
Log.wtf("list data:",(String)stringlist[i]);
}
private String[] prepareDeliveryArray(List<DeliveryServiceModel> deliveryServices) {
String[] delivery = new String[deliveryServices.size()];
for (int i = 0; i < deliveryServices.size(); i++) {
delivery[i] = deliveryServices.get(i).getName();
}
return delivery;
}
An alternate one-liner method for primitive types, such as double, int, etc.:
List<Double> coordList = List.of(3.141, 2.71);
double[] doubleArray = coordList.mapToDouble(Double::doubleValue).toArray();
List<Integer> coordList = List.of(11, 99);
int[] intArray = coordList.mapToInt(Integer::intValue).toArray();
and so on...
Related
I have an ArrayList<String>, and I want to remove repeated strings from it. How can I do this?
If you don't want duplicates in a Collection, you should consider why you're using a Collection that allows duplicates. The easiest way to remove repeated elements is to add the contents to a Set (which will not allow duplicates) and then add the Set back to the ArrayList:
Set<String> set = new HashSet<>(yourList);
yourList.clear();
yourList.addAll(set);
Of course, this destroys the ordering of the elements in the ArrayList.
Although converting the ArrayList to a HashSet effectively removes duplicates, if you need to preserve insertion order, I'd rather suggest you to use this variant
// list is some List of Strings
Set<String> s = new LinkedHashSet<>(list);
Then, if you need to get back a List reference, you can use again the conversion constructor.
In Java 8:
List<String> deduped = list.stream().distinct().collect(Collectors.toList());
Please note that the hashCode-equals contract for list members should be respected for the filtering to work properly.
Suppose we have a list of String like:
List<String> strList = new ArrayList<>(5);
// insert up to five items to list.
Then we can remove duplicate elements in multiple ways.
Prior to Java 8
List<String> deDupStringList = new ArrayList<>(new HashSet<>(strList));
Note: If we want to maintain the insertion order then we need to use LinkedHashSet in place of HashSet
Using Guava
List<String> deDupStringList2 = Lists.newArrayList(Sets.newHashSet(strList));
Using Java 8
List<String> deDupStringList3 = strList.stream().distinct().collect(Collectors.toList());
Note: In case we want to collect the result in a specific list implementation e.g. LinkedList then we can modify the above example as:
List<String> deDupStringList3 = strList.stream().distinct()
.collect(Collectors.toCollection(LinkedList::new));
We can use parallelStream also in the above code but it may not give expected performace benefits. Check this question for more.
If you don't want duplicates, use a Set instead of a List. To convert a List to a Set you can use the following code:
// list is some List of Strings
Set<String> s = new HashSet<String>(list);
If really necessary you can use the same construction to convert a Set back into a List.
Java 8 streams provide a very simple way to remove duplicate elements from a list. Using the distinct method.
If we have a list of cities and we want to remove duplicates from that list it can be done in a single line -
List<String> cityList = new ArrayList<>();
cityList.add("Delhi");
cityList.add("Mumbai");
cityList.add("Bangalore");
cityList.add("Chennai");
cityList.add("Kolkata");
cityList.add("Mumbai");
cityList = cityList.stream().distinct().collect(Collectors.toList());
How to remove duplicate elements from an arraylist
You can also do it this way, and preserve order:
// delete duplicates (if any) from 'myArrayList'
myArrayList = new ArrayList<String>(new LinkedHashSet<String>(myArrayList));
Here's a way that doesn't affect your list ordering:
ArrayList l1 = new ArrayList();
ArrayList l2 = new ArrayList();
Iterator iterator = l1.iterator();
while (iterator.hasNext()) {
YourClass o = (YourClass) iterator.next();
if(!l2.contains(o)) l2.add(o);
}
l1 is the original list, and l2 is the list without repeated items
(Make sure YourClass has the equals method according to what you want to stand for equality)
this can solve the problem:
private List<SomeClass> clearListFromDuplicateFirstName(List<SomeClass> list1) {
Map<String, SomeClass> cleanMap = new LinkedHashMap<String, SomeClass>();
for (int i = 0; i < list1.size(); i++) {
cleanMap.put(list1.get(i).getFirstName(), list1.get(i));
}
List<SomeClass> list = new ArrayList<SomeClass>(cleanMap.values());
return list;
}
It is possible to remove duplicates from arraylist without using HashSet or one more arraylist.
Try this code..
ArrayList<String> lst = new ArrayList<String>();
lst.add("ABC");
lst.add("ABC");
lst.add("ABCD");
lst.add("ABCD");
lst.add("ABCE");
System.out.println("Duplicates List "+lst);
Object[] st = lst.toArray();
for (Object s : st) {
if (lst.indexOf(s) != lst.lastIndexOf(s)) {
lst.remove(lst.lastIndexOf(s));
}
}
System.out.println("Distinct List "+lst);
Output is
Duplicates List [ABC, ABC, ABCD, ABCD, ABCE]
Distinct List [ABC, ABCD, ABCE]
There is also ImmutableSet from Guava as an option (here is the documentation):
ImmutableSet.copyOf(list);
Probably a bit overkill, but I enjoy this kind of isolated problem. :)
This code uses a temporary Set (for the uniqueness check) but removes elements directly inside the original list. Since element removal inside an ArrayList can induce a huge amount of array copying, the remove(int)-method is avoided.
public static <T> void removeDuplicates(ArrayList<T> list) {
int size = list.size();
int out = 0;
{
final Set<T> encountered = new HashSet<T>();
for (int in = 0; in < size; in++) {
final T t = list.get(in);
final boolean first = encountered.add(t);
if (first) {
list.set(out++, t);
}
}
}
while (out < size) {
list.remove(--size);
}
}
While we're at it, here's a version for LinkedList (a lot nicer!):
public static <T> void removeDuplicates(LinkedList<T> list) {
final Set<T> encountered = new HashSet<T>();
for (Iterator<T> iter = list.iterator(); iter.hasNext(); ) {
final T t = iter.next();
final boolean first = encountered.add(t);
if (!first) {
iter.remove();
}
}
}
Use the marker interface to present a unified solution for List:
public static <T> void removeDuplicates(List<T> list) {
if (list instanceof RandomAccess) {
// use first version here
} else {
// use other version here
}
}
EDIT: I guess the generics-stuff doesn't really add any value here.. Oh well. :)
public static void main(String[] args){
ArrayList<Object> al = new ArrayList<Object>();
al.add("abc");
al.add('a');
al.add('b');
al.add('a');
al.add("abc");
al.add(10.3);
al.add('c');
al.add(10);
al.add("abc");
al.add(10);
System.out.println("Before Duplicate Remove:"+al);
for(int i=0;i<al.size();i++){
for(int j=i+1;j<al.size();j++){
if(al.get(i).equals(al.get(j))){
al.remove(j);
j--;
}
}
}
System.out.println("After Removing duplicate:"+al);
}
If you're willing to use a third-party library, you can use the method distinct() in Eclipse Collections (formerly GS Collections).
ListIterable<Integer> integers = FastList.newListWith(1, 3, 1, 2, 2, 1);
Assert.assertEquals(
FastList.newListWith(1, 3, 2),
integers.distinct());
The advantage of using distinct() instead of converting to a Set and then back to a List is that distinct() preserves the order of the original List, retaining the first occurrence of each element. It's implemented by using both a Set and a List.
MutableSet<T> seenSoFar = UnifiedSet.newSet();
int size = list.size();
for (int i = 0; i < size; i++)
{
T item = list.get(i);
if (seenSoFar.add(item))
{
targetCollection.add(item);
}
}
return targetCollection;
If you cannot convert your original List into an Eclipse Collections type, you can use ListAdapter to get the same API.
MutableList<Integer> distinct = ListAdapter.adapt(integers).distinct();
Note: I am a committer for Eclipse Collections.
If you are using model type List< T>/ArrayList< T> . Hope,it's help you.
Here is my code without using any other data structure like set or hashmap
for (int i = 0; i < Models.size(); i++){
for (int j = i + 1; j < Models.size(); j++) {
if (Models.get(i).getName().equals(Models.get(j).getName())) {
Models.remove(j);
j--;
}
}
}
If you want to preserve your Order then it is best to use LinkedHashSet.
Because if you want to pass this List to an Insert Query by Iterating it, the order would be preserved.
Try this
LinkedHashSet link=new LinkedHashSet();
List listOfValues=new ArrayList();
listOfValues.add(link);
This conversion will be very helpful when you want to return a List but not a Set.
This three lines of code can remove the duplicated element from ArrayList or any collection.
List<Entity> entities = repository.findByUserId(userId);
Set<Entity> s = new LinkedHashSet<Entity>(entities);
entities.clear();
entities.addAll(s);
for(int a=0;a<myArray.size();a++){
for(int b=a+1;b<myArray.size();b++){
if(myArray.get(a).equalsIgnoreCase(myArray.get(b))){
myArray.remove(b);
dups++;
b--;
}
}
}
When you are filling the ArrayList, use a condition for each element. For example:
ArrayList< Integer > al = new ArrayList< Integer >();
// fill 1
for ( int i = 0; i <= 5; i++ )
if ( !al.contains( i ) )
al.add( i );
// fill 2
for (int i = 0; i <= 10; i++ )
if ( !al.contains( i ) )
al.add( i );
for( Integer i: al )
{
System.out.print( i + " ");
}
We will get an array {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10}
Code:
List<String> duplicatList = new ArrayList<String>();
duplicatList = Arrays.asList("AA","BB","CC","DD","DD","EE","AA","FF");
//above AA and DD are duplicate
Set<String> uniqueList = new HashSet<String>(duplicatList);
duplicatList = new ArrayList<String>(uniqueList); //let GC will doing free memory
System.out.println("Removed Duplicate : "+duplicatList);
Note: Definitely, there will be memory overhead.
ArrayList<String> city=new ArrayList<String>();
city.add("rajkot");
city.add("gondal");
city.add("rajkot");
city.add("gova");
city.add("baroda");
city.add("morbi");
city.add("gova");
HashSet<String> hashSet = new HashSet<String>();
hashSet.addAll(city);
city.clear();
city.addAll(hashSet);
Toast.makeText(getActivity(),"" + city.toString(),Toast.LENGTH_SHORT).show();
you can use nested loop in follow :
ArrayList<Class1> l1 = new ArrayList<Class1>();
ArrayList<Class1> l2 = new ArrayList<Class1>();
Iterator iterator1 = l1.iterator();
boolean repeated = false;
while (iterator1.hasNext())
{
Class1 c1 = (Class1) iterator1.next();
for (Class1 _c: l2) {
if(_c.getId() == c1.getId())
repeated = true;
}
if(!repeated)
l2.add(c1);
}
LinkedHashSet will do the trick.
String[] arr2 = {"5","1","2","3","3","4","1","2"};
Set<String> set = new LinkedHashSet<String>(Arrays.asList(arr2));
for(String s1 : set)
System.out.println(s1);
System.out.println( "------------------------" );
String[] arr3 = set.toArray(new String[0]);
for(int i = 0; i < arr3.length; i++)
System.out.println(arr3[i].toString());
//output: 5,1,2,3,4
List<String> result = new ArrayList<String>();
Set<String> set = new LinkedHashSet<String>();
String s = "ravi is a good!boy. But ravi is very nasty fellow.";
StringTokenizer st = new StringTokenizer(s, " ,. ,!");
while (st.hasMoreTokens()) {
result.add(st.nextToken());
}
System.out.println(result);
set.addAll(result);
result.clear();
result.addAll(set);
System.out.println(result);
output:
[ravi, is, a, good, boy, But, ravi, is, very, nasty, fellow]
[ravi, is, a, good, boy, But, very, nasty, fellow]
This is used for your Custom Objects list
public List<Contact> removeDuplicates(List<Contact> list) {
// Set set1 = new LinkedHashSet(list);
Set set = new TreeSet(new Comparator() {
#Override
public int compare(Object o1, Object o2) {
if (((Contact) o1).getId().equalsIgnoreCase(((Contact) o2).getId()) /*&&
((Contact)o1).getName().equalsIgnoreCase(((Contact)o2).getName())*/) {
return 0;
}
return 1;
}
});
set.addAll(list);
final List newList = new ArrayList(set);
return newList;
}
As said before, you should use a class implementing the Set interface instead of List to be sure of the unicity of elements. If you have to keep the order of elements, the SortedSet interface can then be used; the TreeSet class implements that interface.
import java.util.*;
class RemoveDupFrmString
{
public static void main(String[] args)
{
String s="appsc";
Set<Character> unique = new LinkedHashSet<Character> ();
for(char c : s.toCharArray()) {
System.out.println(unique.add(c));
}
for(char dis:unique){
System.out.println(dis);
}
}
}
public Set<Object> findDuplicates(List<Object> list) {
Set<Object> items = new HashSet<Object>();
Set<Object> duplicates = new HashSet<Object>();
for (Object item : list) {
if (items.contains(item)) {
duplicates.add(item);
} else {
items.add(item);
}
}
return duplicates;
}
ArrayList<String> list = new ArrayList<String>();
HashSet<String> unique = new LinkedHashSet<String>();
HashSet<String> dup = new LinkedHashSet<String>();
boolean b = false;
list.add("Hello");
list.add("Hello");
list.add("how");
list.add("are");
list.add("u");
list.add("u");
for(Iterator iterator= list.iterator();iterator.hasNext();)
{
String value = (String)iterator.next();
System.out.println(value);
if(b==unique.add(value))
dup.add(value);
else
unique.add(value);
}
System.out.println(unique);
System.out.println(dup);
If you want to remove duplicates from ArrayList means find the below logic,
public static Object[] removeDuplicate(Object[] inputArray)
{
long startTime = System.nanoTime();
int totalSize = inputArray.length;
Object[] resultArray = new Object[totalSize];
int newSize = 0;
for(int i=0; i<totalSize; i++)
{
Object value = inputArray[i];
if(value == null)
{
continue;
}
for(int j=i+1; j<totalSize; j++)
{
if(value.equals(inputArray[j]))
{
inputArray[j] = null;
}
}
resultArray[newSize++] = value;
}
long endTime = System.nanoTime()-startTime;
System.out.println("Total Time-B:"+endTime);
return resultArray;
}
I have a list that contains ("One.two.three", "one.two.four"). I want to save then in a string array as
One
two
three
one
two
four
What is the logic behind it?
You should be using java 8 to run this code. Just take those strings and split them on "."
split method of java need regex so to match "." you need "\.".Then transform array to list, then add words to list.
public static void main(String[] args) {
List<String> words = new ArrayList<String>();
List<String> list = new ArrayList<String>();
list.add("One.two.three");
list.add("one.two.four");
list.stream().forEach(str -> {
words.addAll(Arrays.asList(str.split("\\.")));
});
System.out.println(words.toString());
//output : [One, two, three, one, two, four]
}
For java 8+, you can use flatmap as -
String[] words = list.stream().flatMap(str -> Arrays.stream(str.split("\\."))).toArray(String[]::new);
If you are talking about the static arrays it is important to know array size to avoid "index is out of bounds" exception.
This way, I provide the solution that counts the number of words and then creates output s array to save every word.
We can use the String.split() function to get the single words we adding to output array:
String[] a = {"One.two.three", "one.two.four"};
int count = 0;
for (int i = 0; i < a.length; i++) { //skip this loop if you know the wanted array size
count += a[i].split("\\.").length;
}
String[] s = new String[count];
int k = 0;
for (int i = 0; i < a.length; i++) {
String[] b = a[i].split("\\.");
for (int j = 0; j < b.length; j++) {
s[k++] = b[j];
}
}
for (int i = 0; i < s.length; i++) {
System.out.println(s[i]);
}
Try this.
FOR JAVA 1.8+
public static void main(String[] args) {
List<String> list = new ArrayList<String>();
list.add("One.two.three");
list.add("One.two.four");
List<String> newList = new ArrayList<String>();
list.forEach(string -> {
String[] stringArr = string.split("\\.");
for (String innerString : stringArr) {
newList.add(innerString);
}
});
String[] stringArr = newList.toArray(new String[newList.size()]);
System.out.println(Arrays.toString(stringArr));
}
UPTO JAVA 1.7
public static void main(String[] args) {
List<String> list = new ArrayList<String>();
list.add("One.two.three");
list.add("One.two.four");
List<String> newList = new ArrayList<String>();
for (String string : list) {
String[] stringArr = string.split("\\.");
for (String innerString : stringArr) {
newList.add(innerString);
}
}
String[] stringArr = newList.toArray(new String[newList.size()]);
System.out.println(Arrays.toString(stringArr));
}
If you are below Java 8 you can use this snippet:
public class Main {
public static void main(String[] args) throws Exception {
List<String> originalList = new ArrayList();
List<String> finalList = new ArrayList();
originalList.add("One.two.three");
originalList.add("One.two.four");
for(String myString : originalList) {
//The \\ is to scape the dot
finalList.addAll(Arrays.asList(myString.split("\\.")));
}
//Creates an array from the list
String[] theArray = finalList.toArray(new String[finalList.size()]);
}
}
Finally, theArray will contain:
[One, two, three, one, two, four]
Take a look at the docs about splitting an string into parts
I have an ArrayList<String>, and I want to remove repeated strings from it. How can I do this?
If you don't want duplicates in a Collection, you should consider why you're using a Collection that allows duplicates. The easiest way to remove repeated elements is to add the contents to a Set (which will not allow duplicates) and then add the Set back to the ArrayList:
Set<String> set = new HashSet<>(yourList);
yourList.clear();
yourList.addAll(set);
Of course, this destroys the ordering of the elements in the ArrayList.
Although converting the ArrayList to a HashSet effectively removes duplicates, if you need to preserve insertion order, I'd rather suggest you to use this variant
// list is some List of Strings
Set<String> s = new LinkedHashSet<>(list);
Then, if you need to get back a List reference, you can use again the conversion constructor.
In Java 8:
List<String> deduped = list.stream().distinct().collect(Collectors.toList());
Please note that the hashCode-equals contract for list members should be respected for the filtering to work properly.
Suppose we have a list of String like:
List<String> strList = new ArrayList<>(5);
// insert up to five items to list.
Then we can remove duplicate elements in multiple ways.
Prior to Java 8
List<String> deDupStringList = new ArrayList<>(new HashSet<>(strList));
Note: If we want to maintain the insertion order then we need to use LinkedHashSet in place of HashSet
Using Guava
List<String> deDupStringList2 = Lists.newArrayList(Sets.newHashSet(strList));
Using Java 8
List<String> deDupStringList3 = strList.stream().distinct().collect(Collectors.toList());
Note: In case we want to collect the result in a specific list implementation e.g. LinkedList then we can modify the above example as:
List<String> deDupStringList3 = strList.stream().distinct()
.collect(Collectors.toCollection(LinkedList::new));
We can use parallelStream also in the above code but it may not give expected performace benefits. Check this question for more.
If you don't want duplicates, use a Set instead of a List. To convert a List to a Set you can use the following code:
// list is some List of Strings
Set<String> s = new HashSet<String>(list);
If really necessary you can use the same construction to convert a Set back into a List.
Java 8 streams provide a very simple way to remove duplicate elements from a list. Using the distinct method.
If we have a list of cities and we want to remove duplicates from that list it can be done in a single line -
List<String> cityList = new ArrayList<>();
cityList.add("Delhi");
cityList.add("Mumbai");
cityList.add("Bangalore");
cityList.add("Chennai");
cityList.add("Kolkata");
cityList.add("Mumbai");
cityList = cityList.stream().distinct().collect(Collectors.toList());
How to remove duplicate elements from an arraylist
You can also do it this way, and preserve order:
// delete duplicates (if any) from 'myArrayList'
myArrayList = new ArrayList<String>(new LinkedHashSet<String>(myArrayList));
Here's a way that doesn't affect your list ordering:
ArrayList l1 = new ArrayList();
ArrayList l2 = new ArrayList();
Iterator iterator = l1.iterator();
while (iterator.hasNext()) {
YourClass o = (YourClass) iterator.next();
if(!l2.contains(o)) l2.add(o);
}
l1 is the original list, and l2 is the list without repeated items
(Make sure YourClass has the equals method according to what you want to stand for equality)
this can solve the problem:
private List<SomeClass> clearListFromDuplicateFirstName(List<SomeClass> list1) {
Map<String, SomeClass> cleanMap = new LinkedHashMap<String, SomeClass>();
for (int i = 0; i < list1.size(); i++) {
cleanMap.put(list1.get(i).getFirstName(), list1.get(i));
}
List<SomeClass> list = new ArrayList<SomeClass>(cleanMap.values());
return list;
}
It is possible to remove duplicates from arraylist without using HashSet or one more arraylist.
Try this code..
ArrayList<String> lst = new ArrayList<String>();
lst.add("ABC");
lst.add("ABC");
lst.add("ABCD");
lst.add("ABCD");
lst.add("ABCE");
System.out.println("Duplicates List "+lst);
Object[] st = lst.toArray();
for (Object s : st) {
if (lst.indexOf(s) != lst.lastIndexOf(s)) {
lst.remove(lst.lastIndexOf(s));
}
}
System.out.println("Distinct List "+lst);
Output is
Duplicates List [ABC, ABC, ABCD, ABCD, ABCE]
Distinct List [ABC, ABCD, ABCE]
There is also ImmutableSet from Guava as an option (here is the documentation):
ImmutableSet.copyOf(list);
Probably a bit overkill, but I enjoy this kind of isolated problem. :)
This code uses a temporary Set (for the uniqueness check) but removes elements directly inside the original list. Since element removal inside an ArrayList can induce a huge amount of array copying, the remove(int)-method is avoided.
public static <T> void removeDuplicates(ArrayList<T> list) {
int size = list.size();
int out = 0;
{
final Set<T> encountered = new HashSet<T>();
for (int in = 0; in < size; in++) {
final T t = list.get(in);
final boolean first = encountered.add(t);
if (first) {
list.set(out++, t);
}
}
}
while (out < size) {
list.remove(--size);
}
}
While we're at it, here's a version for LinkedList (a lot nicer!):
public static <T> void removeDuplicates(LinkedList<T> list) {
final Set<T> encountered = new HashSet<T>();
for (Iterator<T> iter = list.iterator(); iter.hasNext(); ) {
final T t = iter.next();
final boolean first = encountered.add(t);
if (!first) {
iter.remove();
}
}
}
Use the marker interface to present a unified solution for List:
public static <T> void removeDuplicates(List<T> list) {
if (list instanceof RandomAccess) {
// use first version here
} else {
// use other version here
}
}
EDIT: I guess the generics-stuff doesn't really add any value here.. Oh well. :)
public static void main(String[] args){
ArrayList<Object> al = new ArrayList<Object>();
al.add("abc");
al.add('a');
al.add('b');
al.add('a');
al.add("abc");
al.add(10.3);
al.add('c');
al.add(10);
al.add("abc");
al.add(10);
System.out.println("Before Duplicate Remove:"+al);
for(int i=0;i<al.size();i++){
for(int j=i+1;j<al.size();j++){
if(al.get(i).equals(al.get(j))){
al.remove(j);
j--;
}
}
}
System.out.println("After Removing duplicate:"+al);
}
If you're willing to use a third-party library, you can use the method distinct() in Eclipse Collections (formerly GS Collections).
ListIterable<Integer> integers = FastList.newListWith(1, 3, 1, 2, 2, 1);
Assert.assertEquals(
FastList.newListWith(1, 3, 2),
integers.distinct());
The advantage of using distinct() instead of converting to a Set and then back to a List is that distinct() preserves the order of the original List, retaining the first occurrence of each element. It's implemented by using both a Set and a List.
MutableSet<T> seenSoFar = UnifiedSet.newSet();
int size = list.size();
for (int i = 0; i < size; i++)
{
T item = list.get(i);
if (seenSoFar.add(item))
{
targetCollection.add(item);
}
}
return targetCollection;
If you cannot convert your original List into an Eclipse Collections type, you can use ListAdapter to get the same API.
MutableList<Integer> distinct = ListAdapter.adapt(integers).distinct();
Note: I am a committer for Eclipse Collections.
If you are using model type List< T>/ArrayList< T> . Hope,it's help you.
Here is my code without using any other data structure like set or hashmap
for (int i = 0; i < Models.size(); i++){
for (int j = i + 1; j < Models.size(); j++) {
if (Models.get(i).getName().equals(Models.get(j).getName())) {
Models.remove(j);
j--;
}
}
}
If you want to preserve your Order then it is best to use LinkedHashSet.
Because if you want to pass this List to an Insert Query by Iterating it, the order would be preserved.
Try this
LinkedHashSet link=new LinkedHashSet();
List listOfValues=new ArrayList();
listOfValues.add(link);
This conversion will be very helpful when you want to return a List but not a Set.
This three lines of code can remove the duplicated element from ArrayList or any collection.
List<Entity> entities = repository.findByUserId(userId);
Set<Entity> s = new LinkedHashSet<Entity>(entities);
entities.clear();
entities.addAll(s);
for(int a=0;a<myArray.size();a++){
for(int b=a+1;b<myArray.size();b++){
if(myArray.get(a).equalsIgnoreCase(myArray.get(b))){
myArray.remove(b);
dups++;
b--;
}
}
}
When you are filling the ArrayList, use a condition for each element. For example:
ArrayList< Integer > al = new ArrayList< Integer >();
// fill 1
for ( int i = 0; i <= 5; i++ )
if ( !al.contains( i ) )
al.add( i );
// fill 2
for (int i = 0; i <= 10; i++ )
if ( !al.contains( i ) )
al.add( i );
for( Integer i: al )
{
System.out.print( i + " ");
}
We will get an array {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10}
Code:
List<String> duplicatList = new ArrayList<String>();
duplicatList = Arrays.asList("AA","BB","CC","DD","DD","EE","AA","FF");
//above AA and DD are duplicate
Set<String> uniqueList = new HashSet<String>(duplicatList);
duplicatList = new ArrayList<String>(uniqueList); //let GC will doing free memory
System.out.println("Removed Duplicate : "+duplicatList);
Note: Definitely, there will be memory overhead.
ArrayList<String> city=new ArrayList<String>();
city.add("rajkot");
city.add("gondal");
city.add("rajkot");
city.add("gova");
city.add("baroda");
city.add("morbi");
city.add("gova");
HashSet<String> hashSet = new HashSet<String>();
hashSet.addAll(city);
city.clear();
city.addAll(hashSet);
Toast.makeText(getActivity(),"" + city.toString(),Toast.LENGTH_SHORT).show();
you can use nested loop in follow :
ArrayList<Class1> l1 = new ArrayList<Class1>();
ArrayList<Class1> l2 = new ArrayList<Class1>();
Iterator iterator1 = l1.iterator();
boolean repeated = false;
while (iterator1.hasNext())
{
Class1 c1 = (Class1) iterator1.next();
for (Class1 _c: l2) {
if(_c.getId() == c1.getId())
repeated = true;
}
if(!repeated)
l2.add(c1);
}
LinkedHashSet will do the trick.
String[] arr2 = {"5","1","2","3","3","4","1","2"};
Set<String> set = new LinkedHashSet<String>(Arrays.asList(arr2));
for(String s1 : set)
System.out.println(s1);
System.out.println( "------------------------" );
String[] arr3 = set.toArray(new String[0]);
for(int i = 0; i < arr3.length; i++)
System.out.println(arr3[i].toString());
//output: 5,1,2,3,4
List<String> result = new ArrayList<String>();
Set<String> set = new LinkedHashSet<String>();
String s = "ravi is a good!boy. But ravi is very nasty fellow.";
StringTokenizer st = new StringTokenizer(s, " ,. ,!");
while (st.hasMoreTokens()) {
result.add(st.nextToken());
}
System.out.println(result);
set.addAll(result);
result.clear();
result.addAll(set);
System.out.println(result);
output:
[ravi, is, a, good, boy, But, ravi, is, very, nasty, fellow]
[ravi, is, a, good, boy, But, very, nasty, fellow]
This is used for your Custom Objects list
public List<Contact> removeDuplicates(List<Contact> list) {
// Set set1 = new LinkedHashSet(list);
Set set = new TreeSet(new Comparator() {
#Override
public int compare(Object o1, Object o2) {
if (((Contact) o1).getId().equalsIgnoreCase(((Contact) o2).getId()) /*&&
((Contact)o1).getName().equalsIgnoreCase(((Contact)o2).getName())*/) {
return 0;
}
return 1;
}
});
set.addAll(list);
final List newList = new ArrayList(set);
return newList;
}
As said before, you should use a class implementing the Set interface instead of List to be sure of the unicity of elements. If you have to keep the order of elements, the SortedSet interface can then be used; the TreeSet class implements that interface.
import java.util.*;
class RemoveDupFrmString
{
public static void main(String[] args)
{
String s="appsc";
Set<Character> unique = new LinkedHashSet<Character> ();
for(char c : s.toCharArray()) {
System.out.println(unique.add(c));
}
for(char dis:unique){
System.out.println(dis);
}
}
}
public Set<Object> findDuplicates(List<Object> list) {
Set<Object> items = new HashSet<Object>();
Set<Object> duplicates = new HashSet<Object>();
for (Object item : list) {
if (items.contains(item)) {
duplicates.add(item);
} else {
items.add(item);
}
}
return duplicates;
}
ArrayList<String> list = new ArrayList<String>();
HashSet<String> unique = new LinkedHashSet<String>();
HashSet<String> dup = new LinkedHashSet<String>();
boolean b = false;
list.add("Hello");
list.add("Hello");
list.add("how");
list.add("are");
list.add("u");
list.add("u");
for(Iterator iterator= list.iterator();iterator.hasNext();)
{
String value = (String)iterator.next();
System.out.println(value);
if(b==unique.add(value))
dup.add(value);
else
unique.add(value);
}
System.out.println(unique);
System.out.println(dup);
If you want to remove duplicates from ArrayList means find the below logic,
public static Object[] removeDuplicate(Object[] inputArray)
{
long startTime = System.nanoTime();
int totalSize = inputArray.length;
Object[] resultArray = new Object[totalSize];
int newSize = 0;
for(int i=0; i<totalSize; i++)
{
Object value = inputArray[i];
if(value == null)
{
continue;
}
for(int j=i+1; j<totalSize; j++)
{
if(value.equals(inputArray[j]))
{
inputArray[j] = null;
}
}
resultArray[newSize++] = value;
}
long endTime = System.nanoTime()-startTime;
System.out.println("Total Time-B:"+endTime);
return resultArray;
}
Do I have to loop through each element to convert ArrayList<String[]> to String[][] or is there a more efficient way?
Just get the contents as an array
List<String[]> list = new ArrayList<>();
...
String[][] array = list.toArray(new String[0][0]); // the size here is not important, the array is just an indication of the type to use
You can use .toArray(T[]) for this.
public static void main(String[] args) {
List<String[]> l = new ArrayList<String[]>();
String[] a = {"lala", "lolo"};
String[] b = {"lili", "lulu"};
l.add(a);
l.add(b);
String[][] r = new String[l.size()][];
r = l.toArray(r);
for(String[] s : r){
System.out.println(Arrays.toString(s));
}
}
Output:
[lala, lolo]
[lili, lulu]
Is this correct method to sort ArrayList?
The problem is that the list is not sorted.
out = new StringTokenizer(input.toString());
n = (out.countTokens());
for (int i = 0; i < n; i++) {
String[] words = { out.nextToken().toString() };
final List<String> wordList = Arrays.asList(words);
Collections.sort(wordList);
System.out.println(wordList.toString());
}
Each of your words[] arrays is composed of a single string, obtained from the next token of your StringTokenizer. And you are iterating in exact order of the tokenization. So yes, your output will not be sorted. I presume you wanted to do something like this:
out = new StringTokenizer(input.toString());
int count = out.countTokens():
List<String> wordList = new ArrayList<String>(count);
for(int i = 0; i < count; i++) {
wordList.add(out.nextToken());
}
Collections.sort(wordList);
But, don't use the tokenizer class, its legacy. The following code will serve you better:
List<String> wordList = Arrays.asList(input.split("\\s"));
Collections.sort(wordList);
out.nextToken().toString() give you one string. Your array length should be 1, I presume.
Even if you put this into a loop, you sort at each loop, you have to sort outside the loop.
StringTokenizer out = new StringTokenizer( input.toString());
List<String> wordList = new ArrayList< String >();
while( out.hasMoreTokens()) {
wordList.add( out.nextToken());
}
Collections.sort( wordList );
System.out.println(wordList.toString());