# Efficient method for generating these sequence

Problem: I need to generate the following sequence. I have the order of the matrix as input.

Example:
I need to generate the sequence of position of its elements.

`````` (0,0),(0,1),(1,0),(1,1) ->for order 2
(0,0),(0,1),(0,2),(1,0),(1,1),(1,2),(2,0),(2,1),(2,2) -> for order 3.
``````

I need to have function which does this for me. When I call this function it should calculate for me on the fly. I don't want to store the sequence in the memory.

Eg:

``````first_call - > return value (0,0)
second_call to function - > return value ( 0,1)
...and so on...
``````

You can store these values in some global variables.

PS:
The function has to be thread-safe as the application is multi-threaded. I know this condition doesn't make difference. Just wanted to convey the entire problem.

Precision:
I have tried my solution but I think its in efficient. I am looking for an efficient method to do that. You can just mention the steps. I don't need implementation in any particular language. Please let me know if more info is required for the question.

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I dont want to store the sequence in the memory. Eg: first_call - > return value (0,0) second_call to function - > return value ( 0,1)...and so on... You can store these values in some global variables. -- what? –  IVlad Sep 28 '12 at 17:21
IVIad....I appreciate for your effort...I got my solution...thanks again! –  anup.stackoverflow Sep 28 '12 at 17:39

Use a global variable to store the number of times you have called the function. Call it `t`. If order is `order`, then

f = (`t` div `order`, `t` mod `order`)

Where `div` is the integer division (e.g. 5 `div` 3 = 1) and `mod` is the modulus (i.e. remainder of the division). (e.g. 5 `mod` 3 = 2).

So in Java for example:

``````public class MyCounter {

private static int t = 0;

public static int[] myFunction(int order) {
return new int[] { t / order , t++ % order };
}

public static void main(String[] args) {
int order = 3;
for(int i=0; i<order*order; i++) {
int[] k = myFunction(order);
System.out.println("("+k[0]+", "+k[1]+")");
}
}
}
``````
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mprivat ....excellent...Thanks!!!..got your response in less than 5 mins....stackoverflow rocks!! –  anup.stackoverflow Sep 28 '12 at 17:37
stackoverflow rocks because of users who help each other. Now that you've gotten your answer, don't forget to come back and scan other questions you may know the answer to. –  mprivat Sep 28 '12 at 18:49
``````#define MATRIX_ORDER 3

void NextPosition(int aIndex, int& aRow, int& aColumn)
{
if (aColumn == MATRIX_ORDER - 1)
{
aRow++;
aColumn = 0;
} else {
aColumn++;
}
}

void SomeFunction()
{
int index = 0;
int row = 0;
int column = -1;

while (index < (MATRIX_ORDER * MATRIX_ORDER))
{
NextPosition(index, row, column);
printf("index: %d, row: %d, column: %d\n", index, row, column);
index++;
}
}
``````

Output:

``````index: 0, row: 0, column: 0
index: 1, row: 0, column: 1
index: 2, row: 0, column: 2
index: 3, row: 1, column: 0
index: 4, row: 1, column: 1
index: 5, row: 1, column: 2
index: 6, row: 2, column: 0
index: 7, row: 2, column: 1
index: 8, row: 2, column: 2
``````
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Here's a Python solution using a generator:

``````def sequence_gen(order=2):
for i in range(order*order):
yield divmod(i, order)

for val in sequence_gen(2):
print(val)

#(0, 0)
#(0, 1)
#(1, 0)
#(1, 1)

for val in sequence_gen(3):
print(val)

#(0, 0)
#(0, 1)
#(0, 2)
#(1, 0)
#(1, 1)
#(1, 2)
#(2, 0)
#(2, 1)
#(2, 2)
``````
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