# Is there any way to do n-level nested loops in Java?

In other words, can I do something like

``````for() {
for {
for {
}
}
}
``````

Except N times? In other words, when the method creating the loops is called, it is given some parameter N, and the method would then create N of these loops nested one in another?

Of course, the idea is that there should be an "easy" or "the usual" way of doing it. I already have an idea for a very complicated one.

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Can you clarify what parameters would be within each for()? –  Greg Case Jan 9 '09 at 2:43
I'm just curious, what was your "complicated" way of doing n-level loops? –  Dan Herbert Jan 9 '09 at 3:32

It sounds like you may want to look into recursion.

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Got me by 1 second. –  Michael Haren Jan 9 '09 at 2:42
... and learn the meaning of the term "Stack Overflow"! :) –  Sarel Botha Jan 9 '09 at 2:43
Maybe quicksort could be a good example –  Herrmann Jan 9 '09 at 3:06
This still does not answer the question. For-iteration IS a kind of recursion. Perhaps you intend to include an example of mutual recursion? –  Apocalisp Jan 9 '09 at 6:59
Man..I can't think of a good, compact, example –  jjnguy Jan 9 '09 at 14:19

jjnguy is right; recursion lets you dynamically create variable-depth nesting. However, you don't get access to data from the outer layers without a little more work. The "in-line-nested" case:

``````for (int i = lo; i < hi; ++i) {
for (int j = lo; j < hi; ++j) {
for (int k = lo; k < hi; ++k) {
// do something **using i, j, and k**
}
}
}
``````

keeps the variables `i`, `j`, and `k` in scope for the innermost body to use.

Here's one quick hack to do that:

``````public class NestedFor {

public static interface IAction {
public void act(int[] indices);
}

private final int lo;
private final int hi;
private final IAction action;

public NestedFor(int lo, int hi, IAction action) {
this.lo = lo;
this.hi = hi;
this.action = action;
}

public void nFor (int depth) {
n_for (0, new int[0], depth);
}

private void n_for (int level, int[] indices, int maxLevel) {
if (level == maxLevel) {
action.act(indices);
} else {
int newLevel = level + 1;
int[] newIndices = new int[newLevel];
System.arraycopy(indices, 0, newIndices, 0, level);
newIndices[level] = lo;
while (newIndices[level] < hi) {
n_for(newLevel, newIndices, maxLevel);
++newIndices[level];
}
}
}
}
``````

The `IAction` interface stipulates the role of a controlled action which takes an array of indices as the argument to its `act` method.

In this example, each instance of `NestedFor` is configured by the constructor with the iteration limits and the action to be performed by the innermost level. The parameter of the `nFor` method specifies how deeply to nest.

Here's a sample usage:

``````public static void main(String[] args) {
for (int i = 0; i < 4; ++i) {
final int depth = i;
System.out.println("Depth " + depth);
IAction testAction = new IAction() {
public void act(int[] indices) {
System.out.print("Hello from level " + depth + ":");
for (int i : indices) { System.out.print(" " + i); }
System.out.println();
}
};
NestedFor nf = new NestedFor(0, 3, testAction);
nf.nFor(depth);
}
}
``````

and the (partial) output from its execution:

``````Depth 0
Hello from level 0:
Depth 1
Hello from level 1: 0
Hello from level 1: 1
Hello from level 1: 2
Depth 2
Hello from level 2: 0 0
Hello from level 2: 0 1
Hello from level 2: 0 2
Hello from level 2: 1 0
Hello from level 2: 1 1
Hello from level 2: 1 2
Hello from level 2: 2 0
Hello from level 2: 2 1
Hello from level 2: 2 2
Depth 3
Hello from level 3: 0 0 0
Hello from level 3: 0 0 1
Hello from level 3: 0 0 2
Hello from level 3: 0 1 0
...
Hello from level 3: 2 1 2
Hello from level 3: 2 2 0
Hello from level 3: 2 2 1
Hello from level 3: 2 2 2
``````
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This should be the correct answer! –  Skip Head Jan 9 '09 at 4:49

You might want to explain what you really want to do.

If the outer `for` loops are doing nothing but controlling a count, then your nested `for` loops are simply a more complicated way of iterating by a count that could be handled by a single `for` loop.

For example:

``````for (x = 0; x < 10; ++x) {
for (y = 0; y < 5; ++y) {
for (z = 0; z < 20; ++z) {
DoSomething();
}
}
}
``````

Is equivalent to:

``````for (x = 0; x < 10*5*20; ++x) {
DoSomething();
}
``````
-
Good answer. This captures the essence of nesting loops. See my answer for a generalization of this idea. –  Apocalisp Jan 9 '09 at 5:27

Problem needs more specification. Maybe recursion will help you, but keep in mind that recursion is almost always an alternative to iteration, and vice versa. It may be that a 2-level nested loop can be sufficient for your needs. Just let us know what problem you're trying to solve.

-

An example that is probably not perfect but pretty close to what I think is being asked would be printing out a directory tree

``````public void printTree(directory) {
for(files in directory) {
print(file);
if(file is directory) {
printTree(file);
}
}
}
``````

this way you end up with a stack of for loops nested inside each other, without the hassle of figuring out exactly how they should go together.

-
Apparently you are supposed to do something not what I did to add code.. –  Wayne Jan 9 '09 at 3:24
@Wayne: I fixed the formatting, just indent your code by four spaces. –  Greg Hewgill Jan 9 '09 at 3:31
Your printTree function doesn't print anything.. –  dancavallaro Jan 9 '09 at 3:34
use your imagination... –  Wayne Jan 9 '09 at 3:42
This is a typical use for recursion, where you are traversing a recursive datastructure. –  Rolf Rander Jan 9 '09 at 8:40

The essential idea behind nesting loops is multiplication.

Expanding on Michael Burr's answer, if the outer `for` loops are doing nothing but controlling a count, then your nested `for` loops over `n` counts are simply a more complicated way of iterating over the product of the counts with a single `for` loop.

Now, let's extend this idea to Lists. If you're iterating over three lists in nested loops, this is simply a more complicated way of iterating over the product of the lists with a single loop. But how do you express the product of three lists?

First, we need a way of expressing the product of types. The product of two types `X` and `Y` can be expressed as a generic type like `P2<X, Y>`. This is just a value that consists of two values, one of type `X`, the other of type `Y`. It looks like this:

``````public abstract class P2<A, B> {
public abstract A _p1();
public abstract B _p2();
}
``````

For a product of three types, we just have `P3<A, B, C>`, with the obvious third method. A product of three lists, then, is achieved by distributing the List functor over the product type. So the product of `List<X>`, `List<Y>`, and `List<Z>` is simply `List<P3<X, Y, Z>>`. You can then iterate over this list with a single loop.

The Functional Java library has a `List` type that supports multiplying lists together using first-class functions and product types (P2, P3, etc. which are also included in the library).

For example:

``````for (String x : xs) {
for (String y : ys) {
for (String z : zs) {
doSomething(x, y, z);
}
}
}
``````

Is equivalent to:

``````for (P3<String, String, String> p : xs.map(P.p3()).apply(ys).apply(zs)) {
doSomething(p._1(), p._2(), p._3());
}
``````

Going further with Functional Java, you can make `doSomething` first-class, as follows. Let's say `doSomething` returns a String:

``````public static final F<P3<String, String, String>, String> doSomething =
new F<P3<String, String, String>, String>() {
public String f(final P3<String, String, String> p) {
return doSomething(p._1(), p._2(), p._3());
}
};
``````

Then you can eliminate the for-loop altogether, and collect the results of all the applications of `doSomething`:

``````List<String> s = xs.map(P.p3()).apply(ys).apply(zs).map(doSomething);
``````
-
``````String fors(int n){
StringBuilder bldr = new StringBuilder();
for(int i = 0; i < n; i++){
for(int j = 0; j < i; j++){
bldr.append('\t');
}
bldr.append("for() {\n");
}
for(int i = n-1; i >= 0; i--){
for(int j = 0; j < i; j++){
bldr.append('\t');
}
bldr.append("}\n");
}
return bldr.toString();
}
``````

Creates a nice nested for-loop skeleton ;-) Not completely serious and i'm aware that a recursive solution would have been more elegant.

-
So you propose generating code at runtime? –  Paŭlo Ebermann Aug 22 '11 at 10:43
no, i'm just saying the question is not clear. The whole issue could also be something like "how do i get my IDE to give me a n-level for-loop template". My code is pretty far away from generating code at runtime, it was meant as code-generation at development-time, aka templates. Btw. the author has not once said he wanted to execute the loops right away. I am just interpreting the question a little different than the other people who answered it before me. –  Michael Kutschke Aug 22 '11 at 11:12
You can always generate a perl file from java code and then execute it. :) And we are totally serious about doing so. :) –  Ajeet Feb 18 '13 at 8:20
``````public void recursiveFor(Deque<Integer> indices, int[] ranges, int n) {

if (n != 0) {

for (int i = 0; i < ranges[n-1]; i++) {

indices.push(i);
recursiveFor(indices, ranges, n-1);
indices.pop();
}
}

else {

// inner most loop body, access to the index values thru indices
System.out.println(indices);
}
}
``````

Sample call:

``````int[] ranges = {2, 2, 2};

recursiveFor(new ArrayDeque<Integer>(), ranges, ranges.length);
``````
-

In the interest of conciseness I am putting my code here :

``````void variDepth(int depth, int n, int i) {
cout<<"\n d = "<<depth<<" i = "<<i;
if(!--depth) return;
for(int i = 0;i<n;++i){
variDepth(depth,n,i);
}
}
void testVariDeapth()
{   variDeapth(3, 2,0);
}
``````

Output

`````` d = 3 i = 0
d = 2 i = 0
d = 1 i = 0
d = 1 i = 1
d = 2 i = 1
d = 1 i = 0
d = 1 i = 1
``````
-

To demonstrate that recursion is not the only way of doing such a thing, here's another pretty simple way. This allows you to simply set a range for each for-loop variable, as well as maintain access to all of them at any level:

``````public class NNestedForLoop {

// Number of for loops.
static int n;

// Arrays of length 'n'.
static int[] indices; // Keeps each index in for loops.
static int[] ranges;  // Range of each index in for loops.

public static void main(String[] args) {

// Change the variables here.
n = 3;
ranges = new int[] {2,3,2};

indices = new int[n];

// Start off at indices = [0,...,0]
System.out.println( java.util.Arrays.toString(indices) );
do {
System.out.println( java.util.Arrays.toString(indices) );
}
while( !allMaxed() );

}

// Advances 'indices' to the next in sequence.

for(int i=n-1; i>=0; i--) {
if(indices[i]+1 == ranges[i]) {
indices[i] = 0;
}
else {
indices[i] += 1;
break;
}
}

}

// Tests if indices are in final position.
static boolean allMaxed() {

for(int i=n-1; i>=0; i--) {
if(indices[i] != ranges[i]-1) {
return false;
}
}
return true;

}

}
``````

Output:

``````[0, 0, 0]
[0, 0, 1]
[0, 1, 0]
[0, 1, 1]
[0, 2, 0]
[0, 2, 1]
[1, 0, 0]
[1, 0, 1]
[1, 1, 0]
[1, 1, 1]
[1, 2, 0]
[1, 2, 1]
``````

Obviously, you could do something more interesting than print the indices at each step. If you need to do something after, say, the n-1th for loop, but still in the nth: you can use:

``````if( indices[(n-1) -1] == 0 ) {
// Do something inspirational...
}
``````
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