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I know there are other questions similar to this one, but most of them deal with only converting one to the other. But I am searching for a algorithms that convert to and from each other. Simply using one of each has not produced the desired results.

For my purposes a unit sphere is more then acceptable. Any radius value would be 1.

Here are my current methods for performing this, in simple psudocode.

From latitude and longitude to a point on a unit sphere.

x = cos( longitude ) * sin( latitude )
y = sin( longitude ) * sin( latitude )
z = cos( latitude )

From 3D coordinates on a unit sphere to latitude and longitude.

latitude = acos( z )
longitude = atan2( x, y )

However these are not reversible and my trigonometry is not what it should be.

  • Many computer languages have an atan2(y, x) function, which may be what you need. – Andrew Morton Dec 17 '13 at 19:20
  • Yes, but that doesn't solve the inherent reversibility problem. – Chase Dec 17 '13 at 19:21
  • What is the reversibility problem you are seeing? Atan2 returns an angle in the correct quadrant, whereas atan won't necessarily do that. – Andrew Morton Dec 17 '13 at 19:23
  • What do you mean that these are not reversible? You just reversed the conversion from xyz to lat/long yourself in the question. The only detail is the fact that atan won't return the angle in the correct quadrant, which is what atan2 is for. – SirGuy Dec 17 '13 at 19:25
  • Edited the algorithm, but the problem remains. Try it with a latitude of 0 and a longitude of say 1 (which is about 57 degrees). The first produces 0,0,1, and feeding 0,0,1 into the second produces 0,0. Not reversible. – Chase Dec 17 '13 at 19:42
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Converting from lat/long to xyz is always possible, but going from xyz to lat/long fails when sin(lat) == 0. There is no solution to this in lat/long space so just stay away from it.
Other than that your formula just has a small error where atan2 takes y then x instead of x then y.

  • "going from lat/long to xyz fails when sin(lat) = 0" - because it's at a pole. Also, some computer languages take the arguments in the order (x, y); e.g. Excel and OpenOffice Calc. – Andrew Morton Dec 17 '13 at 20:37
  • @AndrewMorton I figured some languages took them in the order that (I think) makes more sense, but I'm accustomed to C++, Java and Python which use y,x. – SirGuy Dec 17 '13 at 20:40
  • You can also use x,y if the 0° location is up, rather than to the right. I have done that for years due to a wonky game that does it like that. – Chase Dec 17 '13 at 20:46
  • The order (x,y) sort-of makes sense, but as it's calculating atan(y/x) I can see why the order is usually (y,x). I got the exceptions from the Wikipedia page I linked to earlier. – Andrew Morton Dec 17 '13 at 20:47
  • @GuyGreer I think you mean the opposite - that Lon/Lat to XYZ is always possible, but XYZ to Lon/Lat is ambiguous. Every Lon/Lat pair defines a unique XYZ coordinate, though multiple Lon/Lat pairs may map to the same coordinate, e.g. at a pole. This results in ambiguity when going the other direction. – MooseBoys Dec 17 '13 at 23:03

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