# Creating a recursive algorithm

I have been looking at the current problem on Coding Bat:

"We have triangle made of blocks. The topmost row has 1 block, the next row down has 2 blocks, the next row has 3 blocks, and so on. Compute recursively (no loops or multiplication) the total number of blocks in such a triangle with the given number of rows."

I understand what the problem is asking for, and I understand how recursion works. For example, if I am given a recursion function I can work it out by hand and show what the output will be.

The problem is actually creating the recursion function from a given problem, such as this one. I'm not sure how to actually set this up and do it recursively. Are there some sort of rules to follow when actually setting up a recursion problem? I can only find examples that show you how recursion works, not showing you how to actually solve a recursion problem. Any help understanding how to get ready to write the actually recursion algorithm would be appreciated.

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Try to figure what is happen if you put some value for rows (different from 0 or 1). It be interesting what appear if you put a code like that for a system with drastically limited stack space. – user1929959 Jan 23 '13 at 19:00
Read the first 1/2 of The Little Schemer. it has step-by-step examples and rules for natural recursion. – Nathan Hughes Jan 23 '13 at 19:09

Roughly:

1. Always look at the problem and try to find out if it can be divided into subproblems of the same type. That's a first hint that you can possibly use a recursion. Essentially you are looking for a smaller instances/versions of an actual problem.

Recursion takes therefore a top down approach(from the more complex to simpler problem cases).

2. When you can find such cases then you should find out what is the relation between the "bigger" case and the "smaller" case and you have your recursion step.

3. The final thing is to find out the terminating condition or what is the smallest or last case where you want to stop.

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That's more of the answer I was looking for. Thank you! – Dillon Burton Jan 23 '13 at 21:40
@DillonBurton You are welcome. – Fallup Jan 23 '13 at 21:55

For a `recursion` algorithm,

first design the `base` case, for which the function should start the unwinding of the stack or to return the base value.

Then design the algorithm to be actually done, for each of the `non-base` cases

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Understood. When actually designing the algorithm itself, is there a good criteria or set of steps to follow when it comes to the thinking process for recursion in particularly? – Dillon Burton Jan 23 '13 at 19:04
If you are so new in using recurion, just go through my answer here. Its not about any predefined planning. its just the thought process. stackoverflow.com/questions/14355629/… – Sibi Rajasekaran Jan 23 '13 at 19:07

`if(rows == 1) return 1;` is useless here.

For the recursion global issue, you must disassemble your problem and find:

1. An exit rule (can be an initial value like in your example, or some exit condition on one of the inputs)
2. A stepping process (what do you have to do with the previous input to get the next one)

And assemble them in a function that calls itself.

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I am just going to remove the code so I can get my actual question across. Thank you though. – Dillon Burton Jan 23 '13 at 19:01

Try this code:

``````#include <iostream>
using namespace std;
int sumf(int row,int sum){
if(row==0)     //basecase which ends the recursion.
return sum;
else
{sum=row+sum;
return sumf(--row,sum);   // repeating the process.
}}
int main() {
cout<<"sum is: "<<sumf(5,0)<<endl;
system("pause");
return 0;
}
``````

This is the video which make you understand about recursion.(forget about language just focus on concept.)