# Recursive algorithm to select ascending noncontiguous numbers from a list

I need to write a function which finds the longest, not necessarily contiguous, ascending sub-sequence in a list of numbers. The function needs to be recursive.

I have a problem with my algorithm and I cannot figure out how to fix it. Here's an example starting list:

[88, 1, 22, 3, 34, 6, 54, 9, 19]

The correct result is:

[1, 3, 6, 9, 19]

and I want to print on the screen the length of this sub-sequence, in this case, 5.

My function:

``````int subseires(int arraysub[], int small, int i, int j, int coun){
if( i==size ) return 0;

if( arraysub[i]>arraysub[j] )
subseires(arraysub, small, i+1, j+1, coun);

if( arraysub[i]<arraysub[j] )
subseires(arraysub, small, i, j+1, coun+1);

return coun;
}
``````

Can anyone help by pointing out the problems with my procedure?

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I fail to see the relation between `88, 1, 22, 3, 34, 6, 54, 9, 19` and the expected output `1,3,6,9,19`. And what is `%d: 5`? Is this homework? –  Fredrik Pihl Dec 25 '11 at 22:17
The largest ascending (not necessarily contiguous) sub-series –  Amir Afghani Dec 25 '11 at 22:18
Where's the question? –  outis Dec 25 '11 at 22:27
first try to write the function without recursion... –  Fredrik Pihl Dec 25 '11 at 22:30
recursion is tricky business! first write it without recursion with loops the get the algorithm working; then you can translate it to a recursive one. AND post the complete code that can be compiled, i.e. including the `main` –  Fredrik Pihl Dec 25 '11 at 22:46

What you need to do is for each member of the aray-if you can select it(it's not less than the previous one you have selected) then check two options recursivelly: to select it or not to select it. This way you go until the end of the array and return the total length. In the end you print the longest length.

Try to implement this algorithm in a C function.

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i am not found the problem in my function, you can help me please? –  improc1 Dec 25 '11 at 22:32

So you only need to print the length of the list, not the list itself? That helps, because it simplifies memory management (which is an issue for c).

This is really just a glorified search. At each point you need to know (1) the current value (if any); (2) the current length (if any); (3) the position in the list; (4) the largest length known. Using a length of zero helps track when you have no current value (so you don't need a "magic" initial value). The return value should be the largest length.

On each recursion you can either skip the current number or include it in the list (but only if it is less than the current value).

so the code is just:

``````#include <stdio.h>

int max(int a, int b) {
return a > b ? a : b;
}

int find(int* data, int total_length, int offset, int previous,
int run_length, int max_length) {
// update max length if it has improved
if (run_length > max_length) max_length = run_length;
// if we are at the end, return max
if (offset == total_length) return max_length;
// if the current value is too small, we cannot include it
if (run_length && data[offset] <= previous)
return find(data, total_length, offset+1, previous, run_length, max_length);
// otherwise, we want the best of either including it or not
return max(
// try including it
find(data, total_length, offset+1, data[offset], run_length+1, max_length),
// try excluding it
find(data, total_length, offset+1, previous, run_length, max_length));
}

// test
int main(int argc, char *argv) {
int data[] = { 88, 1, 22, 3, 34, 6, 54, 9, 19 };

printf("%d\n", find(data, 9, 0, 0, 0, 0));
return 0;
}
```
```

obviously this is terrible c code (not because I didn't use array initialization, which someone "kindly" fixed (although they didn't bother to vote this answer - I guess they think I am motivated to post here by learning from their deep knowledge of C syntax) but because it uses the call stack where it would be more efficient to use a separate memory structure).

(also, I have to say, writing something like this is much easier as a recursive function than as doing it in a loop, because you just write down what you want to happen - if you had a loop then you would need to worry about changing values and resetting them and all that mess. The problem is that it abuses the stack horribly).

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`return 0` from main() in C. You could use `int data[] = {88, 1, 22, 3, 34, 6, 54, 9, 19};`. –  J.F. Sebastian Dec 25 '11 at 23:46
Does 'ascending' mean 'non-descending' or 'strictly ascending'? Your code implies that 'ascending' == 'strictly ascending'. –  J.F. Sebastian Dec 25 '11 at 23:54
fixed return value, thanks. –  andrew cooke Dec 26 '11 at 0:30

The recursive function you need will look like this

``````void dfs (int curr, int length){
if (length > max )max = length;
if (curr >= index)
return ;
for (int I=curr+1;I <= index; I++){
if (array[I] >= array[curr]){
dfs (I, length+1);
}
}
}
``````

Here array[] is integer array. Numbers are filled with index 1 to index n. 'curr' is current index and 'length' is the length of maximum sub-sequence with ascending numbers. 'max' is maximum such length. To compute the length you should call

``````dfs(0, 0);
``````

For full working Java code : http://pastebin.com/H315si0K

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