# Invert matrix numbers - loop

First, i have these values.

``````\$Arr1 = array(1/1, 1/2, 3/1);
\$Arr2 = array(1/1, 4/1);
\$Arr3 = array(1/1);
``````

and i need an output with 3 arrays like these:

``````\$a1 = array (1/1, 1/2, 3/1);
\$a2 = array (2/1, 1/1, 4/1);
\$a3 = array (1/3, 1/4, 1,1);
``````

What i am trying is :

``````for (\$i=0; \$i<count(\$Arr1); \$i++) {
\${"a".\$i} = array(
//here, the number of array elements depends to the length of \$a1
);
}
``````

Any help ? thanks

I think this image helps to understand the problem:

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what kind of function / transformation are you using to get the output arrays? how does \$a map to \$a1? –  Brian Glaz Oct 8 '11 at 17:04
@bryan i don't have any output for now. The loop that i can't make, is supposed produce in this case, 4 arrays. –  loops Oct 8 '11 at 17:10
I understand that, but I'm asking how do you compute the values of the new arrays? Like... what is the formula? For example "Multiply every element in \$a by 3 and add 6" or something like that. Do you understand my question? Given \$a, how do you produce \$a1? –  Brian Glaz Oct 8 '11 at 17:13
There is no calculations. For example, \$Arr4 corresponds to \$a4. –  loops Oct 8 '11 at 17:19
Okay that's clear but how do those negative values appear, I think that's what Brian is asking? –  Melsi Oct 8 '11 at 17:25

First off, using a 2D array will make your life a lot easier.

So first, initialize your values like this:

``````\$matrix_size = 3;
\$matrix = array();
for(\$i = 0; \$i < \$matrix_size; \$i++){
\$matrix[\$i] = array_fill(0, \$matrix_size, null);
}

\$matrix[0][0] = 1/1;
\$matrix[0][1] = 1/2;
\$matrix[0][2] = 3/1;

\$matrix[1][1] = 1/1;
\$matrix[1][2] = 4/1;

\$matrix[2][2] = 1/1;
``````

Then you can run a loop like this:

``````foreach(\$x = 0; \$x < \$matrix_size; \$x++){
foreach(\$y = 0; \$y < \$matrix_size; \$y++){
if(is_null(\$matrix[y][x]) && !is_null(\$matrix[x][y])){
\$matrix[y][x] = 1/\$matrix[x][y];
}
}
}
``````

I'm sure there is a much more efficient way to do this, but this is a start for you to explore.

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sorry about the editing in my question, but i think now it is more clearly for all. –  loops Oct 8 '11 at 17:34
my solution should still work –  afuzzyllama Oct 8 '11 at 17:37