Calculating the bounding box for geographic coordinates

Given a list of coordinates, how do I calculate the minimum bounding rectangle (MBR), avoiding the global gotchas described in the Unlocking the Mysteries of the Bounding Box?

Google Maps API method `fitBounds()` seems to be handling the gotchas well.

Edit:

Using an example from the article above, let's say I have to calculate a bounding box for two locations in the imaginary country of Boxtopia: `point A(170, 40)` and `point B(-170, 50)`. If construct my bounding box using `xmin, ymin` as the southwest corner and `xmax, ymax` as the northwest corner, I'll get `(-170, 40)` and `(170, 50)` respectively, a box which would span 340 degrees instead of minimum 20 degrees.

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The global gotchas are relative to the data you are trying to represent. What data are we talking about? –  Gustav Jan 9 '12 at 20:01

For the 1D problem, you are looking for the largest empty interval on a 'circle'. Sorting the data, and then looking for the largest gap will provide the answer in O(N.log(N)).

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One easy solution is to sort the x coordinates and incrementally add add 360 to the lowest values and see if it results in a smaller bound.

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