9

I want to flatten nested arrays like:

[[[1],2],[3]],4] -> [1,2,3,4] 

manually in java I can't find a clue ! :S

I have tried a manual java script guide but it doesn't get a solution

8
  • 6
    This is a javascript question. This doesn't make sense in Java.
    – dotvav
    Aug 6, 2015 at 9:14
  • I want to solve it in any language, java or javascript
    – mhGaber
    Aug 6, 2015 at 9:15
  • we really want to help but I, for one, don't understand what your asking for. cn you give a Java example for input and desired output? Aug 6, 2015 at 9:16
  • 2
    But the method of solving that will be entirely different in Java than in JavaScript... Aug 6, 2015 at 9:16
  • Java does not have mixed-type arrays (where an item could be either an int or an int[]). It has List objects though...
    – dotvav
    Aug 6, 2015 at 9:18

7 Answers 7

17

Java 8’s Stream API offers a compact and flexible solution. Using the method

private static Stream<Object> flatten(Object[] array) {
    return Arrays.stream(array)
                 .flatMap(o -> o instanceof Object[]? flatten((Object[])o): Stream.of(o));
}

you can perform the operation as

Object[] array = { 1, 2, new Object[]{ 3, 4, new Object[]{ 5 }, 6, 7 }, 8, 9, 10 };
System.out.println("original: "+Arrays.deepToString(array));

Object[] flat = flatten(array).toArray();
System.out.println("flat:     "+Arrays.toString(flat));

or when you assume the leaf objects to be of a specific type:

int[] flatInt = flatten(array).mapToInt(Integer.class::cast).toArray();
System.out.println("flat int: "+Arrays.toString(flat));
5
  • Sadly, this doesn't work if the inner arrays are of primitive type like int[], because the o instanceof Object[] check fails and primitive arrays cannot be cast to object arrays.
    – Doopy
    Aug 29, 2018 at 12:03
  • 1
    @DQQpy for primitive arrays, no recursion is necessary, as primitive arrays can’t contain arrays, so you could use .flatMap(o -> o instanceof int[]? Arrays.stream((int[])o).boxed(): o instanceof Object[]? flatten((Object[])o): Stream.of(o)); or, to invariably map to int values, public static IntStream flattenToInt(Object o) { return o instanceof int[]? Arrays.stream((int[])o): o instanceof Object[]? Arrays.stream((Object[])o) .flatMapToInt(x -> flattenToInt(x)): IntStream.of(((Number)o).intValue()); }
    – Holger
    Aug 29, 2018 at 12:29
  • 1
    If the input type is a regular array like int[][][], the operation would be even simpler, as no recursion would be necessary, you just need n-1 flatMap steps for n dimensions, static IntStream flatten(int[][][] array) { return Arrays.stream(array).flatMap(Arrays::stream) .flatMapToInt(Arrays::stream); }
    – Holger
    Aug 29, 2018 at 12:34
  • Good point, but if the inner arrays are of mixed types it becomes really complicated with all the case differentations. I can't find a better solution though
    – Doopy
    Aug 29, 2018 at 13:24
  • 2
    @DQQpy you can handle all array types generically using java.lang.reflect.Array, if you wish: static Stream<Object> flatten(Object o) { return o != null && o.getClass().isArray()? IntStream.range(0, Array.getLength(o)).mapToObj(ix -> Array.get(o, ix)).flatMap(x -> flatten(x)): Stream.of(o); }
    – Holger
    Aug 29, 2018 at 13:40
9

I created a class to solve this using Java, the code is also shown below.

Solution:

package com.conorgriffin.flattener;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

/**
 * Flattens an array of arbitrarily nested arrays of integers into a flat array of integers.
 * <p/>
 * @author conorgriffin
 */
public class IntegerArrayFlattener {

    /**
     * Flatten an array of arbitrarily nested arrays of integers into a flat array of integers. e.g. [[1,2,[3]],4] -> [1,2,3,4].
     *
     * @param inputArray an array of Integers or nested arrays of Integers
     * @return flattened array of Integers or null if input is null
     * @throws IllegalArgumentException
     */
    public static Integer[] flatten(Object[] inputArray) throws IllegalArgumentException {

        if (inputArray == null) return null;

        List<Integer> flatList = new ArrayList<Integer>();

        for (Object element : inputArray) {
            if (element instanceof Integer) {
                flatList.add((Integer) element);
            } else if (element instanceof Object[]) {
                flatList.addAll(Arrays.asList(flatten((Object[]) element)));
            } else {
                throw new IllegalArgumentException("Input must be an array of Integers or nested arrays of Integers");
            }
        }
        return flatList.toArray(new Integer[flatList.size()]);
    }
}

Unit Tests:

package com.conorgriffin.flattener;

import org.junit.Assert;
import org.junit.Test;

/**
 * Tests IntegerArrayFlattener
 */
public class IntegerArrayFlattenerTest {

    Integer[] expectedArray = new Integer[]{1, 2, 3, 4, 5, 6, 7, 8, 9, 10};

    @Test
    public void testNullReturnsNull() throws IllegalArgumentException {
        Assert.assertNull(
                "Testing a null argument",
                IntegerArrayFlattener.flatten(null)
        );
    }

    @Test
    public void testEmptyArray() throws IllegalArgumentException {
        Assert.assertArrayEquals(
                "Testing an empty array",
                new Integer[]{},
                IntegerArrayFlattener.flatten(new Object[]{})
        );
    }

    @Test
    public void testFlatArray() throws IllegalArgumentException {
        Assert.assertArrayEquals(
                "Testing a flat array",
                expectedArray,
                IntegerArrayFlattener.flatten(new Object[]{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})
        );
    }

    @Test
    public void testNestedArray() throws IllegalArgumentException {
        Assert.assertArrayEquals(
                "Testing nested array",
                expectedArray,
                IntegerArrayFlattener.flatten(new Object[]{1, 2, 3, 4, new Object[]{5, 6, 7, 8}, 9, 10})
        );
    }

    @Test
    public void testMultipleNestedArrays() throws IllegalArgumentException {
        Assert.assertArrayEquals(
                "Testing multiple nested arrays",
                expectedArray,
                IntegerArrayFlattener.flatten(new Object[]{1, 2, new Object[]{3, 4, new Object[]{5}, 6, 7}, 8, 9, 10})
        );
    }

    @Test(expected = IllegalArgumentException.class)
    public void throwsExceptionForObjectInArray() throws IllegalArgumentException {
        IntegerArrayFlattener.flatten(
                new Object[]{new Object()}
        );
    }

    @Test(expected = IllegalArgumentException.class)
    public void throwsExceptionForObjectInNestedArray() throws IllegalArgumentException {
        IntegerArrayFlattener.flatten(
                new Object[]{1, 2, new Object[]{3, new Object()}}
        );
    }

    @Test(expected = IllegalArgumentException.class)
    public void throwsExceptionForNullInArray() throws IllegalArgumentException {
        IntegerArrayFlattener.flatten(
                new Object[]{null}
        );
    }

    @Test(expected = IllegalArgumentException.class)
    public void throwsExceptionForNullInNestedArray() throws IllegalArgumentException {
        IntegerArrayFlattener.flatten(
                new Object[]{1, 2, new Object[]{3, null}}
        );
    }

}
3

If it's a primitive array with only two levels, you could do:

Arrays.stream(array)
  .flatMapToInt(o -> Arrays.stream(o))
  .toArray()

to get the corresponding boxed array (which you can unbox if necessary)

2

That's the way I would solve it. Don't know which kind of efficiency you are looking for. But yeah. that does the job in JavaScript.

arr.toString().split(',').filter((item) => item).map((item) => Number(item))

A probably more efficient way to do this would be to use reduce and concat method from arr and recursion.

function flattenDeep(arr1) {
   return arr1.reduce((acc, val) => Array.isArray(val) ? acc.concat(flattenDeep(val)) : acc.concat(val), []);
}
1
  • You can just do array.flat(Infinity), which is much shorter.
    – Johann
    May 24, 2021 at 8:03
1

This is how I solved this problem in Java:

public class ArrayUtil {

    /**
     * Utility to flatten an array of arbitrarily nested arrays of integers into
     * a flat array of integers. e.g. [[1,2,[3]],4] -> [1,2,3,4]
     * @param inputList
     */
    public static Integer[] flattenArray(ArrayList<Object> inputList) {

        ArrayList<Integer> flatten = new ArrayList<Integer>();
        if (inputList.size() <= 0) {
            return new Integer[0];                          // if the inputList is empty, return an empty Integer[] array.
        }

        for (Object obj : inputList) {
            recursiveFlatten(flatten, obj);                 // otherwise we can recursively flatten the input list.
        }

        Integer [] flatArray = new Integer[flatten.size()];
        return flatArray = flatten.toArray(flatArray);      
    }

    /**
     * Recursively flatten a nested array.
     * @param flatten
     * @param o
     */
    private static void recursiveFlatten(ArrayList<Integer> flatten, Object o){
        if(isInteger(o)){                               // if the object is of type Integer, just add it into the list.
            flatten.add((Integer)o);
        } else if(o instanceof ArrayList){              // otherwise, we need to call to recursively flatten the array
            for(Object obj : (ArrayList<Object>) o){    // for the case where there are deeply nested arrays.
                recursiveFlatten(flatten, obj);
            }
        }
    }

    /**
     * Return true if object belongs to Integer class,
     * else return false.
     * @param obj
     * @return
     */
    private static boolean isInteger(Object obj) {
        return obj instanceof Integer;
    }

}
1

It could be flattened by iterative approach.

static class ArrayHolder implements Iterator<Object> {
    private final Object[] elements;
    private int index = -1;

    public ArrayHolder(final Object[] elements) {
        this.elements = elements;
    }

    @Override
    public boolean hasNext() {
        return Objects.nonNull(elements) && ++index < elements.length;
    }

    @Override
    public Object next() {
        if (Objects.isNull(elements) || (index == -1 || index > elements.length))
            throw new NoSuchElementException();

        return elements[index];
    }
}


private static boolean hasNext(ArrayHolder current) {
    return Objects.nonNull(current) && current.hasNext();
}

private void flat(Object[] elements, List<Object> flattened) {
    Deque<ArrayHolder> stack = new LinkedList<>();
    stack.push(new ArrayHolder(elements));

    ArrayHolder current = null;
    while (hasNext(current)
            || (!stack.isEmpty() && hasNext(current = stack.pop()))) {
        Object element = current.next();

        if (Objects.nonNull(element) && element.getClass().isArray()) {
            Object[] e = (Object[]) element;
            stack.push(current);
            stack.push(new ArrayHolder(e));
            current = null;
        } else {
            flattened.add(element);
        }
    }
}

You can find the full source here You can use recursion to solve this problem.

private void flat(Object[] elements, List<Object> flattened) {
    for (Object element : elements)
    {
        if (Objects.nonNull(element) && element.getClass().isArray())
        {
            flat((Object[])element, flattened);
        }
        else
        {
            flattened.add(element);
        }
    }
}

Here is the link for recursion.

-4

you can try this code:

String a = "[[[1],2],[3]],4] ";
a= a.replaceAll("[(\\[|\\])]", "");
String[] b = a.split(",");
1
  • 1
    OP has array, not string and you return String instead of array.
    – Michu93
    Apr 26, 2018 at 12:12

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