# Calculations of ranges of numbers in PHP

and first of all, thank you for taking the time to read my question.

I am trying to write a script, and I've come across an issue which I am finding hard to solve. I am working with a pair of numbers (for example, 1000 and 2000), and I have an array of pairs of numbers:

``````\$pairs = array(
array(800, 1100),
array(1500, 1600),
array(1900, 2100)
)
``````

What I am trying to find, is how to get the ranges not covered by the number pairs, between 1000 and 2000. In this example, 1000-1100 is covered by array(800, 1100), 1500-1600 is covered by array(1500, 1600) and 1900-2000 is covered by array(1900, 2100), which leaves me with 1101-1499 and 1599-1899 left to cover. I hope I am being clear enough.

What I am wondering is how I would make PHP return to me an array of the ranges not covered by the \$pairs variable. In this example it would return:

``````array(
array(1101, 1499),
array(1599, 1899)
)
``````

Do you have any idea what would be the best way to do this?

-

Well, firstly you have to define the problem:

1. Are the pairs sorted?
2. Do pairs overlap?
3. You want to find the missing ranges for a particular range (this seems to be the case)?

If pairs aren't sorted, first sort them:

``````usort(\$pairs, 'cmp_pair');

function cmp_pair(\$a, \$b) {
if (\$a[0] == \$b[0]) {
if (\$a[1] == \$b[1]) {
return 0;
} else {
return \$a[1] < \$b[1] ? -1 : 1;
}
} else {
return \$a[0] < \$b[0] ? -1 : 1;
}
}
``````

If overlapping ranges are allowed, transform the list of pairs to a non-overlapping set. Here's one suggestion on how to do that:

``````\$prev = false;
\$newpairs = array();
foreach (\$pairs as \$pair) {
if (\$prev) {
// this also handles the case of merging two ranges
// eg 100-199 with 200 to 250 to 100-250
if (\$prev[1] >= \$pair[0]-1) {
\$prev = array(\$prev[0], max(\$prev[1], \$pair[1]));
} else {
\$newpairs[] = \$prev;
}
}
\$prev = \$pair;
}
\$pairs = \$newpairs;
``````

Now there shouldn't be any overlapping pairs so the problem becomes a little simpler as you've also got a sorted array.

``````function missing(\$start, \$end, \$pairs) {
\$missing = array();
\$prev = false;
foreach (\$pairs as \$pair) {
// if the current pair starts above the end, we're done
if (\$pair[0] > \$end) {
break;
}

// we can ignore any pairs that end before the start
if (\$pair[1] < \$start) {
continue;
}

// if the pair encompasses the whole range, nothing is missing
if (\$pair[0] <= \$start && \$pair[1] >= \$end) {
break;
}

// if this is our first overlapping pair and it starts above
// the start we can backfill the missing range
if (\$pair[0] > \$start && !\$missing) {
\$missing[] = array(\$start, \$pair[0]);
}

// compare this pair to the previous one (if there is one) and
// fill in the missing range
if (\$prev) {
\$missing[] = array(\$prev[1]+1, \$pair[0]-1);
}

// set the previous
\$prev = \$pair;
}

// if this never got set the whole range is missing
if (!\$prev) {
\$missing[] = array(\$start, \$end);

// if the last overlapping range ended before the end then
// we are missing a range from the end of it to the end of
// of the relevant range
} else if (\$prev[1] < \$end) {
\$missing[] = array(\$prev[1]+1, \$end);
}

// done!
return \$missing;
}
``````

Hope that helps.

-
This answer worked perfectly for me, thank you :) The only correction I have to make is that "if (\$prev)..." should go before if (\$pair[0} > \$start && !\$missing), because for 800-1100, the function only sets \$prev, which means that when it gets to the second pair, it still thinks it's the first pair (thus everything from 1000-1500 is taken as being missing). Thank you very much for your help, cletus :) –  Bruno De Barros Nov 30 '09 at 17:03

I would do something like that:

``````begin = 1000
end   = 2000
uncovered = ()
foreach pairs as pair
if (pair[0] > begin)
push (uncovered, begin, pair[0])
begin = pair[1]
end if
end foreach
``````

This is only an idea, but here is the point: Consider you have a big segment (from 1000 to 2000) and small one. You want to get each segments of the big one that are not covered by the small one. Imagine you have a pen!

Init the beginning. Iterate on each "small segment" you have. If you are after (strictly) the beginning, then there is a "hole", so you must memorise than from begin to the beginning of the current segment.

Hope this helps, and that this is correct!

-
``````// your original arrays of integers
\$pairs = array(
array(800, 1100),
array(1500, 1600),
array(1900, 2100)
);

// first, normalize the whole thing into a giant list of integers that
// are included in the array pairs, combine and sort numerically
\$numbers_in_pairs = array();
foreach(\$pairs as \$set) {
\$numbers_in_pairs = array_merge(\$numbers_in_pairs, range(\$set[0], \$set[1]));
}
sort(\$numbers_in_pairs);

// find the min
\$min = \$numbers_in_pairs[0];

// find the max
\$max = \$numbers_in_pairs[count(\$numbers_in_pairs)-1];
``````

Find the array difference

``````// create an array of all numbers inclusive between the min and max
\$all_numbers = range(\$min, \$max);

// the numbers NOT included in the set can be found by doing array_diff
// between the two arrays, we need to sort this to assure no errors when
// we iterate over it to get the maxes and mins
\$not_in_set = array_diff(\$all_numbers, \$numbers_in_pairs);
sort(\$not_in_set);
``````

``````// gather metadata about the numbers that are not inside the set
// \$not_in_set_meta['min'] = lowest integer
// \$not_in_set_meta['max'] = highest integer
// \$not_in_set_meta['mins'] = min boundary integer
// \$not_in_set_meta['maxes'] = max boundary integer
\$not_in_set_meta = array();
for(\$i=0;\$i<count(\$not_in_set);\$i++) {
if (\$i == 0) {
\$not_in_set_meta['min'] = \$not_in_set[\$i];
\$not_in_set_meta['mins'][] = \$not_in_set[\$i];
} else if (\$i == count(\$not_in_set)-1 ) {
\$not_in_set_meta['max'] = \$not_in_set[\$i];
\$not_in_set_meta['maxes'][] = \$not_in_set[\$i];
} else {
// in the event that a number stands alone
// that it can be BOTH the min and the max
if ((\$not_in_set[\$i+1] - \$not_in_set[\$i]) > 1) {
\$not_in_set_meta['maxes'][] = \$not_in_set[\$i];
}
if ((\$not_in_set[\$i] - \$not_in_set[\$i-1]) > 1) {
\$not_in_set_meta['mins'][] = \$not_in_set[\$i];
}
}
}
``````

Final output:

``````// The final variable which we'll dump the ranges not covered into:
\$non_sets = array();

while(count(\$not_in_set_meta['mins']) > 0 && count(\$not_in_set_meta['maxes'])) {
\$non_sets[] = array(array_shift(\$not_in_set_meta['mins']),
array_shift(\$not_in_set_meta['maxes']));
}
// print it out:
print var_export(\$non_sets);
``````

Result:

``````array (
0 =>
array (
0 => 1101,
1 => 1499,
),
1 =>
array (
0 => 1601,
1 => 1899,
),
)

?>
``````
-