Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

In Google Earth you can use the "Sunlight" layer to view shadows cast by the terrain at any given DateTime: http://i.stack.imgur.com/YFGMj.png

However, I have not been able to find any way to access the sunlight/luminosity/shadow/etc values from the API.

I'm looking for a way to supply Lat, Long and DateTime to determine if an area is in sunlight (taking terrain shadows in to account, there are countless services that will provide simple Sunrise and Sunset times, but these do not consider terrain). This can be done manually with Google Earth, but I'm looking for a programatic method.

Thanks for any thoughts, ideas, leads...

share|improve this question

2 Answers 2

up vote 0 down vote accepted

I am not sure about determining whether an AOI in in the sun or shade at a certain time, however you can set the SUN to be on or off in the API by using



Using the GE-plugin, create a LookAt with your desired AOI lat/long where the view is directly above looking straight down. Depending on the size of you actual AOI I would keep the view as low to the ground as possible.

Then capture a screenshot/image - I do not think this is possible through GE (if anyone knows a way I would like to find out), so maybe use javascript to take it - I found this Q on SO that provides some insight.

Take a screenshot with GESun.setVisibility set ON and then another with it OFF

Compare the two images for darkness/lightness or something and determine if your AOI is in the shade or not. You might find it better to surround your AOI in a Polygon of some sort in order to help your program distinguish it from the rest of the image - depending on the height the LookAt was taken from etc etc....

I do not have any ideas on how to compare the images, but yet again another search on SO resulted in this (I would presume finding the values of COLOR_BLACK in PHP ImageMagick) and this (Color Buckets idea). Depending on your method of choice, it might help to alter your images to black/white before doing the comparing.

share|improve this answer
Thanks, but that doesn't really help. –  MCM Oct 8 '12 at 2:25
To quote - 'However, I have not been able to find any way to access the sunlight/luminosity/shadow/etc values from the API.' - I told you the only way to turn sunlight on and off. I also have an idea on how you could use GESun to determine what you want, albeit requires a lot of coding. Down voted though, so I am not going to waste any more time. Good luck. –  lifeIsGood Oct 8 '12 at 3:08
A lot of coding is OK. I did not down vote you (i cannot down vote until I get a higher rank). Please share you idea. I need to access the sunlight/luminosity/shadow/etc VALUES, as in how to determine sunset/sunrise including terrain shadows. I do not need to turn on or off the GESun feature. Using Google Earth is not required. I'm looking for a way to supply Lat, Long and DateTime to determine if an area is in sunlight. –  MCM Oct 8 '12 at 6:14
see edit to my answer –  lifeIsGood Oct 8 '12 at 17:06
Very interesting idea. I might be able to make that work. thank you! –  MCM Oct 8 '12 at 21:13

I realise that this is an old question, but it surfaced in a google search I just did, and I liked the focus.

Since you're looking for a programmatic way of determining if a point on earth given by a longitude and latitude tuple is exposed to sun at a given time, I can't help you right now. However, I'm in a position to be able to set up such an API quite easily if we see that this is a feature that many people need. At suncurves.com we calculate sunrise and sunset times accounting for terrain. The solution we've set up so far is a web interface where a user can search for an address or drag and drop the icon on a map to get sunrise and sunset times through the year for that exact spot accounting for terrain. We want to create an API to our data, but we do not have a clear specification of the scope of this API yet. What you ask for requires that we need to:

  1. Calculate the apparent horizon from the viewing point of the longitude and latitude. This means scanning the terrain data in a search radius of 30-50 km around your point.
  2. Calculate the sun's position at the specified time.
  3. Calculate the sun's position at the specified time. Determine if the sun is under or over the horizon as given by the terrain surrounding your point accounting for atmospheric refraction.

Here's an example from Chamonix, France where the common flat terrain versions of sunrise, sunset times are pretty worthless.


share|improve this answer
Thanks for the response Paul. I tried out your software, it is interesting. –  MCM Mar 8 '14 at 6:07
My goal was to create a web service that used the Zillow API to list homes for sale in an area sorted by hours of sunshine per year. I worked on it for a weekend and was able to build something that suited my needs, however it needs lot of polishing before it could be ready as commercial product (right now it's google-earth creating a database). If you could tie your calculations in to Zillow I'd bet there is a market there, let me know if you would like to chat about it more. The rough program I made does automate Google Earth, which provides an awesome visual aid, fyi. –  MCM Mar 8 '14 at 6:24
What database and indexing are you using over the global terrain dataset to be able to get the apparent horizon 360 times so quickly? –  Knightsy May 11 at 11:30

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.