Controlling your Hue Lights via API

If you follow my blog, you know that a lot of my projects involve changing the color of Hue lights in response to…ahem…”events”. For example my Sidereal Pipe Light that changes color when your psychic ability is the most powerful! I use the Philips lights API for this and I prefer programming in Python.

In this post, I’m going to step through a quick primer of how you can use Python with your projects to change the color of your lights.

The first step is to get familiar with the API and how it works. Philips has some great documentation here. We’ll be using the Lights API, and for the most part this post will be following this tutorial.

Next step is that you need to know the IP address of your bridge – that’s the device that the lights communicate with and the destination that you will be sending commands.

The bridge is the square device with the blue ring to the right. As of this writing there are two versions of the bridge. My setup is the older version which is round instead of square.

Philips Hue Bulbs and Bridge

The easiest way to find the IP is to lookup the address using your wifi router. The tutorial provides a good writeup on how this is done.

Once you have the bridge IP you can interact with it directly by pointing your browser to the built in API debugger url: https://<IP address>://debug/clip.html

The debugger should look like the below.

Once you can access the debugger you will need to create a username to send commands to the bridge. The username is more akin to a password – you use if for authentication whenever you need to send an API command.

Here’s what to specify when using the debugger to create a username:

URL: /api
BODY: {"devicetype":"<application_name>#<devicename>"}

Creating a username is detailed in the Configuration API documentation. What to use for the “application_name” and the “devicename” is a bit mysterious and not entirely explained. There’s a note in the docs saying that Philips would prefer that “published apps use the name of their app as the devicetype”, but there’s no mention of what the application_name should be.

The doc example uses {“devicetype”:”my_hue_app#iphone peter”}, so use that as a guide.

Update the URL and Body in the clip debugger and then select “Post”. If you’ve done everything right, you should get an output in the command response that tells you to press on the link button on the bridge. When you press the button again and you should see output that looks like the below.

The string with the numbers and letters is your username and you’ll use this going forward for authentication whenever you send API commands.

The Lights API details the all different commands you can send to control your Hue bulb, for the remainder of this post, I’ll describe how to change the color using Python.

One of the first things I discovered when working with the API is that assigning specific colors to the lights is more complicated than it might seem.

There are many ways to represent a color space and quantify a color point of light. Philips uses the CIE color space to represent the available colors of hub bulbs. See my post on how to select a color and what parameters to use when changing the color values.

Now that you know how to send commands to the bridge, have a valid username for authentication, and know the color parameters that you would like to use, the next step is to wrap it all up in a super easy python script that you can run from anywhere (perhaps a raspberry pi) to change the color of your lights.

CIE Color Space

My python script is literally an eight line hack. I’m using Python 2.7 with the urllib2 library. Note: If you’re using Python3 you might need to adapt the import. Here’s my code:


import urllib2

url = ''

payload = '{"xy":[0.5015,0.3530]}'

opener = urllib2.build_opener(urllib2.HTTPHandler)
request = urllib2.Request(url, data=payload)
request.get_method = lambda: 'PUT'
url =

The url variable is the IP address of my bridge along with the “username” that I use for authentication. I’m specifying that I would like to change the state of light #12.

If you have multiple Hue lights, you can determine the # of the light that you would like to update by specifying /api/<username>/lights in the clip debugger URL and clicking on “GET”. This will return info about every light connected to the bridge.

In the “payload” I’m specifying an “xy” value for the color I would like. In this case, “lightsalmon”. Again, see my post on selecting color values if this doesn’t make a lot of sense.

The rest of the script constructs the url and then submits it using the “PUT” method.

And that’s it! If you run this from the command line you should see your light change color. I wrote this for linux, but should work in Windows as well if you replace the path to Python on the first line.

Hopefully you found this post useful. I’d be very grateful if you’d help it spread the word by emailing it to a friend, or sharing on Twitter or Facebook. Thank you!

Philips Hue Lights – Popular XY Color Values

You can use these tables to find the Hue CIE colorspace XY coordinates for popular HTML color codes. This is useful if you’re changing light colors via the API. See the footnote below to learn how I calculated these values.

Note: Some colors fall outside of the addressable Hue color space. In those cases, I just used the closest match.

Color HTML / CSS
Color Name
Hex Code
Decimal Code
Hue XY
  lightsalmon #FFA07A rgb(255,160,122) (0.5015,0.3530)
  salmon #FA8072 rgb(250,128,114) (0.5347,0.3256)
  darksalmon #E9967A rgb(233,150,122) (0.4849,0.3476)
  lightcoral #F08080 rgb(240,128,128) (0.5065,0.3145)
  indianred #CD5C5C rgb(205,92,92) (0.5475,0.3113)
  crimson #DC143C rgb(220,20,60) (0.6435.0.3045)
  firebrick #B22222 rgb(178,34,34) (0.6554,0.3111)
  red #FF0000 rgb(255,0,0) (0.675,0.322)
  darkred #8B0000 rgb(139,0,0) (0.675,0.322)

Orange colors

Color HTML / CSS
Color Name
Hex Code
Decimal Code
Hue XY
  coral #FF7F50 rgb(255,127,80) (0.5754,0.3480)
  tomato #FF6347 rgb(255,99,71) (0.6111,0.3260)
  orangered #FF4500 rgb(255,69,0) (0.6725,0.3230)
  gold #FFD700 rgb(255,215,0) (0.4852,0.4619)
  orange #FFA500 rgb(255,165,0) (0.5567,0.4091)
  darkorange #FF8C00 rgb(255,140,0) (0.5921,0.3830)

Yellow colors

Color HTML / CSS
Color Name
Hex Code
Decimal Code
Hue XY
  lightyellow #FFFFE0 rgb(255,255,224) (0.3435,0.3612)
  lemonchiffon #FFFACD rgb(255,250,205) (0.3594,0.3756)
  lightgoldenrodyellow #FAFAD2 rgb(250,250,210) (0.3502,0.3715)
  papayawhip #FFEFD5 rgb(255,239,213) (0.3598,0.3546)
  moccasin #FFE4B5 rgb(255,228,181) (0.3913,0.3755)
  peachpuff #FFDAB9 rgb(255,218,185) (0.3948,0.3597)
  palegoldenrod #EEE8AA rgb(238,232,170) (0.3762,0.3978)
  khaki #F0E68C rgb(240,230,140) (0.4023,0.4267)
  darkkhaki #BDB76B rgb(189,183,107) (0.4019,0.4324)
  yellow #FFFF00 rgb(255,255,0) (0.4325,0.5007)

Green colors

Color HTML / CSS
Color Name
Hex Code
Decimal Code
Hue XY
  lawngreen #7CFC00 rgb(124,252,0) (0.4091,0.518)
  chartreuse #7FFF00 rgb(127,255,0) (0.4091,0.518)
  limegreen #32CD32 rgb(50,205,50) (0.4091,0.518)
  lime #00FF00 rgb(0.255.0) (0.4091,0.518)
  forestgreen #228B22 rgb(34,139,34) (0.4091,0.518)
  green #008000 rgb(0,128,0) (0.4091,0.518)
  darkgreen #006400 rgb(0,100,0) (0.4091,0.518)
  greenyellow #ADFF2F rgb(173,255,47) (0.4091,0.518)
  yellowgreen #9ACD32 rgb(154,205,50) (0.4091,0.518)
  springgreen #00FF7F rgb(0,255,127) (0.3883,0.4771)
  mediumspringgreen #00FA9A rgb(0,250,154) (0.3620,0.4250)
  lightgreen #90EE90 rgb(144,238,144) (0.3673,0.4356)
  palegreen #98FB98 rgb(152,251,152) (0.3674,0.4358)
  darkseagreen #8FBC8F rgb(143,188,143) (0.3423,0.3862)
  mediumseagreen #3CB371 rgb(60,179,113) (0.3584,0.4180)
  seagreen #2E8B57 rgb(46,139,87) (0.3580,0.4172)
  olive #808000 rgb(128,128,0) (0.4325,0.5007)
  darkolivegreen #556B2F rgb(85,107,47) (0.3886,0.4776)
  olivedrab #6B8E23 rgb(107,142,35) (0.4091,0.518)

Cyan colors

Color HTML / CSS
Color Name
Hex Code
Decimal Code
Hue XY
  lightcyan #E0FFFF rgb(224,255,255) (0.3096,0.3216)
  cyan #00FFFF rgb(0,255,255) (0.2857,0.2744)
  aqua #00FFFF rgb(0,255,255) (0.2857,0.2744)
  aquamarine #7FFFD4 rgb(127,255,212) (0.3230,0.3480)
  mediumaquamarine #66CDAA rgb(102,205,170) (0.3231,0.3483)
  paleturquoise #AFEEEE rgb(175,238,238) (0.3032,0.3090)
  turquoise #40E0D0 rgb(64,224,208) (0.3005,0.3036)
  mediumturquoise #48D1CC rgb(72,209,204) (0.2937,0.2902)
  darkturquoise #00CED1 rgb(0,206,209) (0.2834,0.2698)
  lightseagreen #20B2AA rgb(32,178,170) (0.2944,0.2916)
  cadetblue #5F9EA0 rgb(95,158,160) (0.2963,0.2953)
  darkcyan #008B8B rgb(0,139,139) (0.2857,0.2744)
  teal #008080 rgb(0,128,128) (0.2857,0.2744)

Blue colors

Color HTML / CSS
Color Name
Hex Code
Decimal Code
Hue XY
  powderblue #B0E0E6 rgb(176,224,230) (0.3015,0.3057)
  lightblue #ADD8E6 rgb(173,216,230) (0.2969,0.2964)
  lightskyblue #87CEFA rgb(135,206,250) (0.2706,0.2447)
  skyblue #87CEEB rgb(135,206,235) (0.2788,0.2630)
  deepskyblue #00BFFF rgb(0,191,255) (0.2425,0.1892)
  lightsteelblue #B0C4DE rgb(176,196,222) (0.2926,0.2880)
  dodgerblue #1E90FF rgb(30,144,255) (0.2124,0.1297)
  cornflowerblue #6495ED rgb(100,149,237) (0.2355,0.1753)
  steelblue #4682B4 rgb(70,130,180) (0.2491,0.2021)
  royalblue #4169E1 rgb(65,105,225) (0.2051,0.1152)
  blue #0000FF rgb(0,0,255) (0.167,0.04)
  mediumblue #0000CD rgb(0,0,205) (0.167,0.04)
  darkblue #00008B rgb(0,0,139) (0.167,0.04)
  navy #000080 rgb(0,0,128) (0.167,0.04)
  midnightblue #191970 rgb(25,25,112) (0.1821,0.0698)
  mediumslateblue #7B68EE rgb(123,104,238) (0.2186,0.1419)
  slateblue #6A5ACD rgb(106,90,205) (0.2198,0.1443)
  darkslateblue #483D8B rgb(72,61,139) (0.2235,0.1502)

Purple colors

Color HTML / CSS
 Color Name
Hex Code
Decimal Code
Hue XY
  lavender #E6E6FA rgb(230,230,250) (0.3085,0.3071)
  thistle #D8BFD8 rgb(216,191,216) (0.3342,0.2970)
  plum #DDA0DD rgb(221,160,221) (0.3495,0.2545)
  violet #EE82EE rgb(238,130,238) (0.3645,0.2128)
  orchid #DA70D6 rgb(218,112,214) (0.3716,0.2102)
  fuchsia #FF00FF rgb(255,0,255) (0.3826,0.1597)
  magenta #FF00FF rgb(255,0,255) (0.3826,0.1597)
  mediumorchid #BA55D3 rgb(186,85,211) (0.3362,0.1743)
  mediumpurple #9370DB rgb(147,112,219) (0.2629,0.1772)
  blueviolet #8A2BE2 rgb(138,43,226) (0.2524,0.1062)
  darkviolet #9400D3 rgb(148,0,211) (0.2852,0.1086)
  darkorchid #9932CC rgb(153,50,204) (0.2986,0.1335)
  darkmagenta #8B008B rgb(139,0,139) (0.3826,0.1597)
  purple #800080 rgb(128,0,128) (0.3826,0.1597)
  indigo #4B0082 rgb(75,0,130) (0.2485,0.0917)

Pink colors

Color HTML / CSS
Color Name
Hex Code
Decimal Code
Hue XY
  pink #FFC0CB rgb(255,192,203) (0.3947,0.3114)
  lightpink #FFB6C1 rgb(255,182,193) (0.4105,0.3102)
  hotpink #FF69B4 rgb(255,105,180) (0.4691,0.2468)
  deeppink #FF1493 rgb(255,20,147) (0.5388,0.2464)
  palevioletred #DB7093 rgb(219,112,147) (0.4657,0.2773)
  mediumvioletred #C71585 rgb(199,21,133) (0.4997,0.2247)

White colors

Color HTML / CSS
Color Name
Hex Code
Decimal Code
Hue XY
  white #FFFFFF rgb(255,255,255) (0.3227,0.3290)
  snow #FFFAFA rgb(255,250,250) (0.3280,0.3286)
  honeydew #F0FFF0 rgb(240,255,240) (0.3210,0.3441)
  mintcream #F5FFFA rgb(245,255,250) (0.3162,0.3346)
  azure #F0FFFF rgb(240,255,255) (0.3125,0.3274)
  aliceblue #F0F8FF rgb(240,248,255) (0.3098,0.3220)
  ghostwhite #F8F8FF rgb(248,248,255) (0.3098,0.3220)
  whitesmoke #F5F5F5 rgb(245,245,245) (0.3227,0.3290)
  seashell #FFF5EE rgb(255,245,238) (0.3385,0.3353)
  beige #F5F5DC rgb(245,245,220) (0.3401,0.3559)
  oldlace #FDF5E6 rgb(253,245,230) (0.3377,0.3376)
  floralwhite #FFFAF0 rgb(255,250,240) (0.3349,0.3388)
  ivory #FFFFF0 rgb(255,255,240) (0.3327,0.3444)
  antiquewhite #FAEBD7 rgb(250,235,215) (0.3546,0.3488)
  linen #FAF0E6 rgb(250,240,230) (0.3410,0.3386)
  lavenderblush #FFF0F5 rgb(255,240,245) (0.3357,0.3226)
  mistyrose #FFE4E1 rgb(255,228,225) (0.4212,0.1823)

Calculating Hue Values

Colors get complicated…

Philips says In their own words, that when working with their API, that “colors get complicated”. This is certainly true, as there are a lot of different ways to represent a color space and quantify a color point of light.

Philips uses the CIE color space to represent the available colors for Hue bulbs. The three triangles outline the colors which hue can address.

The Lights API specifies three different parameters that you can set a color: xy, color temperature (ct) or hue and saturation (hs). I’ve worked with all three and found that using the xy parameter is the most intuitive. It’s easy to picture how the values relate to a specific color and the API only requires a single field to be updated.

As you can see in the diagram above, it’s straight forward to get an idea of what xy value to use for a color – just look for where the two points intersect on the diagram. For example, “xy”:[0.675,0.322] is red.

What’s not intuitive, is if you have an exact color in mind – perhaps an RGB or hex color value and you need to know what the corresponding hue xy value would be. I was surprised that this mapping was not available in the API documentation – or essentially anywhere.

To build my own table and calculate the xy values from the html hex codes, I used this excellent tool from github: hue-python-rgb-converter. There’s some fancy math happening under the covers and this does the conversion seamlessly.

Here’s a quick script that I put togher below that uses the library. All you need to do is pull down the converter from git, unpack and then run from the hue-python-rgb-converter-master folder passing a hex color code as a value.

from rgbxy import Converter
import sys
val = sys.argv[1]
print val
converter = Converter()
xy = converter.hex_to_xy(val)
print xy

If you found this post useful, I’d be very grateful if you’d help it spread the word by emailing it to a friend, or sharing on Twitter or Facebook. Thank you!

Journal of Scientific Exploration – Experiments Investigating the Influence of Intention on Random and Pseudorandom Events

Dean Radin and Jessica Utts – 1989

Abstract: Eight of 27 experiments using a random event generator provided statistical evidence supporting a claimed correlation between intention and the distribution of random events. Twelve control tests produced results conforming closely to chance expectation.

Schmidt Random Event Generator used for the experiments described in the article.