# Dynamic Nested Loop

I am relatively new to programming. As the title suggests I require an algorithm that lets me get the same function of a variable nested loop. i.e.

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

The Number of nested loop will vary depending upon user input. What I am trying to achieve is finding all combinations of the numbers (10,9,8,7,6,5,4) Now I have read many. Either I dont understand them fully (I am new to programming world) or It doesnt serve my purpose. I need these combinations later in certain calculations and not just print all the combinations. One way, as I have learnt is to use recursion. I dont understand it fully. I tried to make a recursive function but failed miserably. This is what I want

``````10 10 10
10 10 9
10 10 8
.
.
.
4  4  4
``````

The number can change (like 10 10 10 10 , 10 10 10 9 .. ) These combinations are to be stored in an array as I need them to manipulate later. Please keep it simple and comment.

Preferred language will be java. Any Language will do. A general algorithm is highly recommended. P.S. This is not a homework.

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Pedantically speaking, "10" isn't a digit. You may wish to reword that. –  Aaron Dufour Feb 19 '12 at 20:53
Sorry.. I will change that to numbers.. Thank You –  Oasa Feb 24 '12 at 6:12

Usually when you need "dynamic loops" - it is a strong indication you actually need recursion.

For example, finding all possible combinations of size `n` of digits in array [pseudo code]:

``````findCombinations(array,n,sol):
if (sol.size == n): //stop condition for the recursion
print sol
return
for each x in array:
sol.append(x)
findCombinations(array,n-1,sol) //recursive call
sol.removeLast() //cleaning up environment
``````

The above pseudo-code will find and print all sequences of length `n` made from elements from `array` [each element can appear more then once]

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I don't totally follow the dimensions of sol. Like I said I just dont want them to print but use all of them. (Sorry if I am missing something mainly due to the fact I am new to this). Also in java, can u increase the size of array dynamically ? (i.e. sol.append(x)) Also how to calculate n ? Should I calculate the no.of permutations beforehand ? Thank You. –  Oasa Feb 24 '12 at 6:18
Actually what is sol in this? :( Sorry for being such a noob. –  Oasa Feb 24 '12 at 6:22
I am sure am missing a lot. Please explain. I was wrong. Can you be language specific? I thought I could understand from a general representation. But i was mistaken. Thank You. –  Oasa Feb 24 '12 at 6:32
@Oasa: No apologies needed. `sol` holds the current permtuation [that you are currently working on]. It is initialized to an empty list when the algorithm starts, and it appends elements on the fly. There are many ways to implement this `sol`, but the simplest one is probably using an ArrayList. Note that ArrayList.add(element) appends the element to the end of the list –  amit Feb 24 '12 at 8:41
I understood the concept of ArrayList. Thanks a lot for that. Now sol is an array list I suppose. And initially it is zero.Is "array" is the entire permutation, I suppose. I still did not understand. –  Oasa Feb 24 '12 at 10:40
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So you have one or more (well, maybe three or more) numbers, that should be able to range between 4 and 10? One way of doing that would be to have a simple counter and a function turning your counter into an array of numbers.

In pseudo-code:

``````counter_to_array(counter, positions):
var array = new array(positions)

for 0 <= i < positions:
n = counter % 7
counter = counter // 7  # INTEGER DIVISION
array[i] = 4 + n

return array
``````

That is, your array is implicit in a counter and you can recreate it as needed. That may not be what you actually need and as written the arrays would go "4 4 4" "5 4 4" "6 4 4"..."10 10 9" "10 10 10", but changing that order is as simple as changing the order the array positions are filled.

Worked example: We want to generate a 4-element counter, the 11th.

1. We create a 4-element array, called array.
2. We loop through the array positions:
3. We set array[0] to 8 (4 + (11 mod 7)))
4. We set counter to 1 (11 div 7)
5. We set array[1] to 5 (4 + (1 mod 7))
6. We set counter to 0 (1 div 7)
7. We set array[2] to 4
8. We set array[3] to 4

So, the 11th array would be [8 5 4 4]

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Suppose I call counter_to_array(10,4) It makes a new variable array with a dimension of 4; is that array[4] ? then a loop that goes from 0 to 4. and then n = 3; counter = 3; array[0]=3; array[1]=3; and so on. then i get an array full of 3s ? I am sure am missing a lot. Please explain. I was wrong. Can you be language specific? I thought I could understand from a general representation. But i was mistaken. I did not understand the purpose % 7 :( Thank You. –  Oasa Feb 24 '12 at 6:27
@oasa The counter is divided by 7 on each round, I added a worked example, I hope that helps. –  Vatine Feb 24 '12 at 12:49
I really could not follow. May be because of my noobness. Np. I found it from @amit 's answer. Thank you anyways. Always appreciated. –  Oasa Mar 5 '12 at 13:12