This relates to both physical programming as well as Ruby running on a web server. I have an array of RGB leds, which is 5x5 so a total of 25 leds. They are numbered and individually addressable as such:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
Here is a photo:
The led's are sent commands via serial with a command as such:
@sp.write ["\x01", led, "\x04\x00", "c", color]
Which writes the byte array out to serial using ruby's Serialport gem, the variables "led" and "color" are substituted with the hex of each, so for example if I wanted to make led number 8 turn red, my output would read:
@sp.write ["\x01","\x08", "\x04\x00", "c", "\xff\x00\x00"]
So far all of this works wonders, and I'm really happy with what I have, now my question relates pretty much to general mathematics and simple programming, but somehow the implementation goes over my head.
Here is a sample of such animation. Mostly I'm interesting in how one could animate patterns using ruby here. I recall certain "processing" animation scripts, just looping over a function using the array as an object and affecting the elements of the array creating interesting animations just due to the mathematics of the output.
Does anyone have any idea on how I could get started with something like that? I'm currently able to affect the LED's one at a time with my script, and I can string them together with
sleep x after each command and manually build animations, but how could I make one run indefinitely with some sort of procedural animation?
I really didn't describe the bytecode array in its entirety, here are what each part does:
@sp.write ["\x01", led, "\x04\x00", "c", color] ^ ^ ^ ^ ^ ^ a b c d e f a. start byte (not important, tells serial that it is the start of a command) b. hex for LED address, ex. `\x07` is led 7 c. length of command (starting at "e") d. bytes to be read (always 0 in our case) e. the "fade to color" command f. the color we want to fade to in rrggbb hex format.