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Google maps api v3 allows "styles" to be applied to the map, including setting the color of various features. However, the color format it uses is HSL (or what seems like it):

  • hue (an RGB hex string)
  • lightness (a floating point value between -100 and 100)
  • saturation (a floating point value between -100 and 100)

(from the docs)

I managed to find RGB to HSL converters online, but I am unsure how to specify the converted values in a way that google maps will accept. For instance, a typical HSL value given by a converter would be: 209° 72% 49%

How does that HSL value map to the parameters I specified from the google maps api? i.e. how does a hue degree value map to an RGB hex string and how does a percentage map to a floating point value between -100 and 100?

I am still uncertain how to do the conversion. I need to, given an RGB value, quickly convert it to what google maps expects so that the color will be identical...

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up vote 7 down vote accepted

Since the hue argument expects RGB, you can use the original color as the hue.

rgb2hsl.py:

#!/usr/bin/env python

def rgb2hsl(r, g, b):
    #Hue: the RGB string
    H = (r<<16) + (g<<8) + b
    H = "0x%06X" % H

    #convert to [0 - 1] range
    r = float(r) / 0xFF
    g = float(g) / 0xFF
    b = float(b) / 0xFF

    #http://en.wikipedia.org/wiki/HSL_and_HSV#Lightness
    M = max(r,g,b)
    m = min(r,g,b)
    C = M - m

    #Lightness
    L = (M + m) / 2

    #Saturation (HSL)
    if L == 0:
        S = 0
    elif L <= .5:
        S = C/(2*L)
    else:
        S = C/(2 - 2*L)

    #gmaps wants values from -100 to 100
    S = int(round(S * 200 - 100))
    L = int(round(L * 200 - 100))

    return (H, S, L)


def main(r, g, b):
    r = int(r, base=16)
    g = int(g, base=16)
    b = int(b, base=16)
    print rgb2hsl(r,g,b)

if __name__ == '__main__':
    from sys import argv
    main(*argv[1:])

Example:

$ ./rgb2hsl.py F0 FF FF
('0xF0FFFF', 100, 94)

Result:

Below is a screenshot showing the body set to a rgb background color (#2800E2 in this case), and a google map with styled road-geometry, using the values calculated as above ('0x2800E2', 100, -11).

It's pretty clear that google uses your styling to create around six different colors centered on the given color, with the outlines being closest to the input. I believe this is as close as it gets.

alt text


From experimentation with: http://gmaps-samples-v3.googlecode.com/svn/trunk/styledmaps/wizard/index.html

For water, gmaps subtracts a gamma of .5. To get the exact color you want, use the calculations above, and add that .5 gamma back.

like:

{
  featureType: "water",
  elementType: "geometry",
  stylers: [
    { hue: "#2800e2" },
    { saturation: 100 },
    { lightness: -11 },
    { gamma: 0.5 },
  ]
}
share|improve this answer
    
This didnt quite work. Looking the comment in your script it looks like you assumed gmaps wants a value from 0-100. Actually, gmaps wants a value from -100 to 100. Maybe you can modify it accordingly? Thanks for your help!! – aeq Aug 24 '10 at 20:13
    
hmm..i tried scaling your solution to a value between -100 to 100 by adding (right before you return L and S): S=2*S-100 and L=2*L-100, but the right colors still didn't show up...maybe derived the formula wrong .. – aeq Aug 24 '10 at 20:26
    
@aeq: I've modified it and updated the example per your description. – bukzor Aug 24 '10 at 22:26
    
hmm..your modification is pretty much the same thing i mentioned in my comment. The converted value shows up on the map pretty close to the original RGB value. But its still a little off. #2800E2 shows up slightly purple for instance...I wonder why its still off – aeq Aug 25 '10 at 13:44
    
Interesting. I'm actually trying to style the color of the water on the map so there isn't really a concept of an outline or border. Strange that they do it this way...thanks – aeq Aug 25 '10 at 19:17

We coded a tool which exactly does want you want. It takes hexadecimal RGB values and generates the needed HSL code. It comes with a preview and Google Map JavaScript API V3 code output. Enjoy ;D

http://googlemapscolorizr.stadtwerk.org/

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YOU GUYS, this is the best answer!! ICH LIEBE EUCH, STADT.WERK!!! I spent an entire hour trying to make the script in the accepted answer to work, it never did, this one worked in the first attempt. – lfborjas Nov 10 '11 at 9:13
    
This worked perfectly for me. – traday Dec 29 '11 at 23:39

From the linked page:

Note: while hue takes an HTML hex color value, it only uses this value to determine the basic color (its orientation around the color wheel), not its saturation or lightness, which are indicated separately as percentage changes. For example, the hue for pure green may be defined as "#00ff00" or "#000100" within the hue property and both hues will be identical. (Both values point to pure green in the HSL color model.) RGB hue values which consist of equal parts Red, Green and Blue — such as "#000000" (black) and "#FFFFFF" (white) and all the pure shades of grey — do not indicate a hue whatsoever, as none of those values indicate an orientation in the HSL coordinate space. To indicate black, white or grey, you must remove all saturation (set the value to -100) and adjust lightness instead.

At least as I read it, that means you need to convert your angle based on a color wheel. For example, let's assume 0 degrees is pure red, 120 degrees is pure blue and 240 degrees is pure green. You'd then take your angle, figure out which two primaries it falls between, and interpolate to determine how much of each primary to use. In theory you should probably use a quadratic interpolation -- but chances are that you can get by reasonably well with linear.

Using that, 90 degrees (for example) is 90/120 = 3/4ths of the way from red to blue, so your hex number for the hue would be 0x00010003 -- or any other number that had green set to 0, and a 1:3 ratio between red and blue.

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If one is using an RGB to HSL converter to calculate the angle, then one already has the RGB value... The RGB value could just be hexified and sent as-is as the H value, and then just use the converter for S, L. Or am I misunderstanding. – Andrew Shelansky Aug 12 '10 at 21:26
    
I have a related design question. If the system that wants HSL colors accepts an RGB value as the H, why on earth does it need an S and an L to go with... it seems like if it is going to do colorspace conversion to calculate the H, it might as well just use the color specified Or does using HSL in this manner provide something that is missing in the RGB space? – Andrew Shelansky Aug 12 '10 at 21:27
    
@Andrew: as to using the RGB value directly, maybe -- but maybe not. In particular, I'm pretty sure it really expects at least one of the components to be set to 0, which won't normally be the case for a raw RGB color. – Jerry Coffin Aug 12 '10 at 21:31
    
I suspect they're using HSL for (a degree of) device independence. An RGB value (by itself) is basically referenced to the colors produced by a given device, so 0,0,0 means the darkest black it can produce, and 255,255,255 means the brightest white it can produce -- but (for example) those will vary quite a bit between a monitor and a printer (and even on the same printer will vary depending on the paper you feed it). An HSL value is a bit easier to reference to some "neutral" color space (CIE XYZ is better for that but harder to visualize, explain, or convert to/from RGB). – Jerry Coffin Aug 12 '10 at 21:36

I needed to match colors exactly. So I used the tool that @stadt.werk offers (http://googlemapscolorizr.stadtwerk.org/) to get close.

But then I ran into the problem explained by @bukzor where the Google Maps API creates variations on your shade, none of which seem to be exactly what I specified.

So I pulled up the map in a browser, took a screenshot of just the area with the two shades that weren't quite matching, opened it up in an image editor (pixlr.com, in my case), used the color-sucker tool to get the saturation and lightness for the shade, adjusted my saturation and/or lightness in the Google API call by 1, and repeated until I got something that seems to match perfectly.

It is possible, of course, that Google Maps API will do different things with the colors on different devices/browsers/etc., but so far, so good.

Tedious, yes, but it works.

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