# Computing the sum of values after a give algorithm

I have to implement an algorithm in PHP and I got stuck.

I have the following table: http://cl.ly/image/1Z0K1g0z2c3y

For each iteration, the (S) value is computed as such:

S1 = V1 - P1

S2 = (V1 - P1) + (V2 - P2)

S3 = (V1 - P1) + (V2 - P2) + (V3 - P3)

and so forth.

My array of values looks like this:

``````Array
(
[0] => Array
(
[v] => 131.44
[p] =>
)

[1] => Array
(
[v] => 155.00
[p] =>
)

[2] => Array
(
[v] => 168.64
[p] =>
)

[3] => Array
(
[v] => 131.44
[p] => 131.44
)

[4] => Array
(
[v] => 280.00
[p] => 280.00
)

[5] => Array
(
[v] => 117.80
[p] => 117.80
)

[6] => Array
(
[v] => 70.68
[p] => 70.68
)

[7] => Array
(
[v] => 58.90
[p] => 58.90
)
``````

Is it possible to compute this sum for each iteration using a for() loop?

-
Why wouldn't it be? It looks like you could just put the values from the table into a multidimensional array and iterate over it with `for` (or `foreach`). – octern Feb 23 '13 at 18:55
I have updated the post with the array example. – Psyche Feb 23 '13 at 19:08

Edit:

Assuming the array you've updated to is called \$table:

``````// \$S is array for S where sums are stored
\$S = array();
\$S[0] = \$table[0][v] - \$table[0][p]; // Perform the first row
for (\$i=1; \$i< count(\$table); \$i++) { // Start at 2nd and continue on
\$S[\$i] = \$S[(\$i-1)] + (\$table[\$i][v] - \$table[\$i][p]);
}
``````

Now all the \$S values are populated as such. If you want to add to the table:

``````\$table[0][s] = \$table[0][v] - \$table[0][p]; // Perform the first row
for (\$i=1; \$i< count(\$table); \$i++) { // Start at 2nd and continue on
\$table[\$i][s] = \$table[\$i-1][s] + (\$table[\$i][v] - \$table[\$i][p]);
}
``````

Yes you can, considering you want the S values of 1, 2, 3 ... then yes. I assume V is an array and P is an array so you'll have to change accordingly, since each S can be based off the previous, I keep a running_sum value so that we don't have to iterate over previous values of V and P, we just use the last value of S:

``````// \$V is array for V and \$P is array for P and
// \$S is array for S where sums are stored
if (count(\$V) == count(\$P)) { // Check both V and P are same length
\$running_sum = 0;
for (\$i=0; \$i< count(\$V); \$i++) {
\$running_sum += (\$V[\$i] - \$P[\$i]);
\$S[\$i] = \$running_sum;
}
}
``````

We really don't need the running sum variable though but I used it to make the logic clear, here it is without it:

``````// \$V is array for V and \$P is array for P and
// \$S is array for S where sums are stored
if (count(\$V) == count(\$P)) { // Check both V and P are same length
\$S[0] = \$V[0] - \$P[0]; // Perform the first row
for (\$i=1; \$i< count(\$V); \$i++) { // Start at 2nd and continue on
\$S[\$i] = \$S[(\$i-1)] + (\$V[\$i] - \$P[\$i]);
}
}
``````
-
I have updated the post with the array example. – Psyche Feb 23 '13 at 19:05
In the first code block, in the for loop, doesn't it have to be (\$table[\$i][v] - \$table[\$i][p]) instead of (\$table[0][v] - \$table[0][p]) ? – Psyche Feb 23 '13 at 19:31
Yes, you're correct, sorry I copy pasted incorrectly. – richardhsu Feb 24 '13 at 0:24