# Why does recursion act differently for different placements of recursive call

I'm trying to understand how recursion works. I have two codes that have different outputs due to the placement of the recursive call. I understand that it's SUPPOSED to have different outputs, but I don't understand WHY the output is what it is.

Code 1 (recursive call placed AFTER print):

``````public class Test {
public static void main(String[] args) {
xMethod(5);
}

public static void xMethod(int n) {
if (n > 0) {
System.out.print(n + " ");
xMethod(n - 1);
}
}
}
``````

The above output is 5 4 3 2 1. I understand why I get this output. It's because first, 5 is printed, then 5 is deducted by 1 and 4 is printed, and so on.

What is I don't understand is the output of the following code, when the recursive call is place before the print.

Code 2 (recursive call placed before print):

``````public class Test {
public static void main(String[] args) {
xMethod(5);
}

public static void xMethod(int n) {
if (n > 0) {
xMethod(n - 1);
System.out.print(n + " ");
}
}
}
``````

The above output is 1 2 3 4 5. I can't figure out why I get this output. I would imagine the output to be 4 3 2 1, as the 5 is deducted, then printed as 4, and so on. But this obviously is not the case.

Can someone help me understand what is going on in the recursive process?

-

In first case printing is done and then call happens.

In second case calls happens in this way :

``````x(5) -> x(4) -> x(3) -> x(2) -> x(1) -> print(1) ->print(2) ->print(3) ->print(4) -> print(5)
``````

Printing starts from the end call.

``````x(5)
|
x(4)                            print(5)
|                             |
x(3)                    print(4)
|                     |
x(2)            print(3)
|             |
x(1)    print(2)
|     |
print(1)
``````

In case of first

``````  print(5)
x(5)
|
print(4)
x(4)
|
print(3)
x(3)
|
print(2)
x(2)
|
print(1)
x(1)
``````
-

In the first script,

``````public static void xMethod(int n) {
if (n > 0) {
System.out.print(n + " ");
xMethod(n - 1);
}
}
``````

The output is printed before the step into the recursive call.

In the second script,

``````public static void xMethod(int n) {
if (n > 0) {
xMethod(n - 1);
System.out.print(n + " ");
}
}
``````

The function keeps stepping "into" the recursion i.e. once xMethod(n-1) is called, the line below it is not executed i.e. the print statement. And this keeps happening until the last recursive call has been executed i.e. when x == 1, then the call goes backward and starts all the print statements beginning with the print statement for x == 1, then the print statement for x == 2 e.t.c. until the last print statement for the first call.

-

I have listed a stack trace of your second snippet's execution flow (Wish I could have aligned the table and 4 columns better)

If you step through your program when debugging it, you will obtain to a similar stack trace that tells you the value of the variables as you step through the program's execution flow, tabulated similar to the info listed below:

## Stack trace| Value of Variable n | Statement executed | Output

```
main
xmethod(5)          5               xmethod(4)
xmethod(4)         4               xmethod(3)
xmethod(3)        3               xmethod(2)
xmethod(2)       2               xmethod(1)
xmethod(1)      1               xmethod(0)
xmethod(0)     0
xmethod(1)      1            System.out.print(1 + " ")                1
xmethod(2)       2            System.out.print(2 + " ")                1 2
xmethod(3)        3            System.out.print(3 + " ")                1 2 3
xmethod(4)         4            System.out.print(4 + " ")                1 2 3 4
xmethod(5)          5            System.out.print(5 + " ")                1 2 3 4 5
```

You should go through this tutorial(http://www.vogella.com/articles/EclipseDebugging/article.html) to get the hang of debugging. Debugging a program will help you to get a head-start to resolve queries like this one, yourself.

-

In the second code the line: `System.out.print(n + " ");` will not be executed unless all the recursive calls get completed.

The recursive function is calling itself before executing the print line.

-