12

How can I make an IntStream that starts in the middle of a given sequential range, and then streams the next numbers starting in the middle and alternating to the left and right. For example, for a given sequential range of numbers 1 2 3 4 5, the custom sequence would be 3 2 4 1 5 or 3 4 2 5 1 depending whether you start with left or right first.

I basically am trying to iterate through an array starting from the middle and going outward evenly (not going to the left or right fully first).

I have tried this using just for loops but the code is messy and I think it would be much better to just line up a collection or stream of numbers instead of checking for it on the fly (because of all the index out of bounds exceptions that have to be checked for). Here is the original code that I think would be much better as a pre computed stream of ints:

        int middle = myArray.length / 2;
        Object value = myArray[middle]; //have to reference middle since the for loop won't
        //do operation on value
        for (int offset = 1; true; offset++) {
            int nextRight = middle + offset;
            int nextLeft = middle - offset;
            if (nextRight < myArray.length) { // Have to guard against exception, but can't catch exception ahead of time because left or null may not be empty.
                Object value = myArray[nextRight];
                //do operation on value
            }
            if (nextLeft >= 0) {
                Object value = myArray[nextRight];
                //do operation on value
            }
            if (nextRight >= myArray.length) {
                break; //exit logic
            }
            if (nextLeft < 0) {
                break; //exit logic
            }
        }
8
  • Using a for loop but the code is quite messy, let me post it.
    – Zombies
    Dec 30, 2017 at 16:03
  • 1
    Honestly, I don't see the way to do this in the stream manner. I mean, you CAN implement an iterator for IntStream, but ,in this case, it would be unreadable for any future uses.
    – zlakad
    Dec 30, 2017 at 16:07
  • @zlakad I see. If that is the case, I think pre-computing the list (eg: 3 2 4 1 5) ahead of time would be much cleaner as I can just iterate through it without checking against all of the potential out of bounds exceptions that can occur by computing it while iterating (like the above code does for example). It would separate out the business logic (eg: "do operation on value") from the messy custom iteration logic.
    – Zombies
    Dec 30, 2017 at 16:11
  • It seems to me that you must implement TWO iterators, and combine them into the single one. IDK how...
    – zlakad
    Dec 30, 2017 at 16:12
  • 1
    @Eugene well, we like challenges, don't we? :)
    – zlakad
    Dec 30, 2017 at 17:55

7 Answers 7

8

Try this:

import static java.lang.Integer.signum;

static IntStream altSeq(int n) {
    return IntStream.iterate(2 * (n % 2) - 1, i -> -i - signum(i))
                    .map(i -> i / 2 + (n + 1) / 2)
                    .limit(n);
}

For example, altSeq(5) produces:

[3, 2, 4, 1, 5]

and running altSeq(6) produces:

[3, 4, 2, 5, 1, 6]

Briefly, we generate an ascending sequence that alternates sign:

1, -2, 3, -4, 5, ...

That's what the i -> -i - signum(i) expression does. Then, we divide by two in order to get the offsets from the midpoint:

0, -1, 1, -2, 2, ...

That's where the i / 2 in the first term of the map expression comes from. Then we add the midpoint of the range 1..n which is (n + 1) / 2, the second term of the map expression. For n = 5, this gives us

3, 2, 4, 1, 5, ...

Starting at 1 works for odd length sequences. For even lengths, we want to start with -1. The seed expression 2 * (n % 2) - 1 computes the right seed value for both even and odd length sequences.

Finally, we apply limit(n) to terminate the sequence.

0
2

This solution uses iterators and streams:

boolean toLeft = false;
int size = 5;

int half = size % 2 == 0 ? size / 2 : size / 2 + 1;
IntStream inferiorStream = IntStream.iterate (half, x -> x - 1);
IntStream superiorStream = IntStream.iterate (half, x -> x + 1);

OfInt a = toLeft 
          ? inferiorStream.iterator () 
          : superiorStream.iterator ();
OfInt b = toLeft 
          ? superiorStream.skip (1).iterator () 
          : inferiorStream.skip (1).iterator ();

IntStream stream = Stream.generate (() -> IntStream.concat (
    a.hasNext () ? IntStream.of (a.nextInt ()) : IntStream.empty (),
    b.hasNext () ? IntStream.of (b.nextInt ()) : IntStream.empty ()))
    .flatMapToInt (Function.identity ())
    .limit (size);

stream.forEach (System.out :: println);

Output (toLeft = true):

3
4
2
5
1

Output (toLeft = false):

3
2
4
1
5
1
  • 1
    Beware that Stream.generate creates an infinite, unordered stream, so not only there is no guaranty that the result will reflect the desired order, there is not even a guaranty that limit will pick the desired “first” elements of the infinite source. One practical consequence, this stream will break in parallel execution, even if you add the necessary synchronization.
    – Holger
    Jan 2, 2018 at 22:58
2

Well, I can think of this, don't know if it fits your requirements though:

public static IntStream generate(int[] x, boolean direction) {
    int length = x.length / 2;

    IntStream right = IntStream.range(1, length + 1)
            .mapToObj(i -> {
                return direction ? new Integer[] { i, -1 * i } : new Integer[] { -1 * i, i };
            })
            .flatMap(Arrays::stream)
            .mapToInt(i -> x[length + i]);

    return IntStream.concat(IntStream.of(x[length]), right);
}
4
  • Could have been replaced with this ? pastebin.com/JZ7QeKeY , toLeft is initialized to false and it's never changed. Dec 30, 2017 at 21:59
  • 2
    @zlakad it's not that difficult actually, if you consider the middle to be zero then you are moving -1, 1 and then -2, 2 and so on...
    – Eugene
    Dec 31, 2017 at 7:12
  • @Holger simpler... it took me quite a while to understand what the hell is going on in those simpler approaches :)
    – Eugene
    Jan 3, 2018 at 10:38
  • There are different types of simplicity. By the way, your code seems to have problems with even array lengths; that’s why my answer uses int mid = (n-1)/2;. Further, you could use int[] instead of Integer[]; you only have to change the subsequent steps to flatMapToInt(…).map(…). Or fuse the mapToObj and subsequent flatMapToInt to a single .flatMap(direction? i -> IntStream.of(i, -i): i -> IntStream.of(-i, i)). Then, you could use IntStream.rangeClosed(1, length) and have a solution that can compete with mine or Stuart Marks’ regarding simplicity.
    – Holger
    Jan 3, 2018 at 11:27
2

Since you said, you want to use the sequence to iterate over an array, I changed it to produce numbers including zero, but excluding n, so you can directly pass in an array length and get valid indices.

Then you can use

static IntStream altSeq(int n) {
    int mid = (n-1)/2;
    return IntStream.rangeClosed(1, n)
                    .map(i -> mid + (i>>>1)*signum(rotateRight(i,1)));
}

The approach is similar to Stuart Marks’ answer, but uses an IntStream.rangeClosed() as base, which creates a sized stream, which works much more efficient than creating an infinite stream (like iterate) and applying a limit, especially for operations like toArray, count, and for parallel streams. In other words, the performance is on par with iterating over the range/array in the usual order.

The natural number range is converted by using the lowest bit as sign, which is alternating for ascending numbers, and shifting the numbers one bit to the right, which is equivalent to dividing the magnitude of the numbers by two.

An alternative notation performing only one bitshift per element would be

static IntStream altSeq(int n) {
    int mid = (n-1)/2;
    return IntStream.rangeClosed(1, n)
                    .map(i -> Integer.rotateRight(i, 1))
                    .map(i -> mid + (i&Integer.MAX_VALUE)*signum(i));
}
0
1

we can customise the IntStream.generate method to generate the IntStream in the sequence we need

public void run(String... args) throws Exception {
    final int[] arr = IntStream.range(0, 9).toArray(); //test data
    int mid = arr.length / 2;
    SeqGen seq = new SeqGen(arr, mid);
    List<Integer> ints = IntStream.generate(() -> seq.gen())
            .limit(arr.length)
            .boxed()
            .collect(Collectors.toList());
    System.out.println(ints);
}

SeqGen

private class SeqGen {
    int[] arr;
    int start;
    int curr;
    boolean flag;

    public SeqGen(int[] arr, int start) {
        this.arr = arr;
        this.start = start;
    }

    public int gen() {
        int ret = -1;
        int l = arr[start + curr];
        int r = arr[arr.length - curr - start - 1];
        if (!flag) {
            ret = l;
            curr++;
        } else {
            ret = r;
        }
        flag = !flag;
        return ret;
    }
}

output

[4, 3, 5, 2, 6, 1, 7, 0, 8]
1
  • This comment applies here too: Stream.generate creates an infinite, unordered stream, so this happens to work with the current implementation in a sequential context, but is not guaranteed to work.
    – Holger
    Jan 4, 2018 at 16:56
1

As you are willing to consider a collection, the following "low tech" approach is quite straightforward:

public static List<Integer> f(int len) {
    int offset = len / 2;

    ArrayList<Integer> indices = new ArrayList<>(len);

    for(int i = 0 ; i < len; i++) {
        int index = offset + i * direction(i);
        indices.add(index);
        offset = index;
    }

    return indices;
}


private static int direction(int size) {
    return (size & 1) == 0 ? 1 : -1;
}

The call to f(5), returns: [2, 1, 3, 0, 4]

The direction ( left to right or right to left ) can be be modified by changing direction(). If you really need 1-based indices, modify f() to have: indices.add(index+1)

1

Used formula to generate stream for any sequential range from start to end

public static IntStream shuffle(int start, int end){
    int size = end - start + 1;
    int center = start + ((size + 1) >> 1) - 1;
    int even = (size + 1) & 1;
    int direction = 1 - (even << 1); //for left first: (even << 1) - 1;
    return IntStream.range(1, size + 1)
            .map(i -> center + (even + i * direction * ((((i + 1) & 1) << 1) - 1)) / 2);
}

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