| #EXTM3U | |
| #EXTINF:-1,BBC - Radio 1 | |
| http://as-hls-ww-live.akamaized.net/pool_01505109/live/ww/bbc_radio_one/bbc_radio_one.isml/bbc_radio_one-audio%3d96000.norewind.m3u8 | |
| #EXTINF:-1,BBC - Radio 1Xtra | |
| http://as-hls-ww-live.akamaized.net/pool_92079267/live/ww/bbc_1xtra/bbc_1xtra.isml/bbc_1xtra-audio%3d96000.norewind.m3u8 | |
| #EXTINF:-1,BBC - Radio 1Dance | |
| http://as-hls-ww-live.akamaized.net/pool_62063831/live/ww/bbc_radio_one_dance/bbc_radio_one_dance.isml/bbc_radio_one_dance-audio%3d96000.norewind.m3u8 | |
| #EXTINF:-1,BBC - Radio 1 Anthems (UK Only) | |
| http://as-hls-uk-live.akamaized.net/pool_904/live/uk/bbc_radio_one_anthems/bbc_radio_one_anthems.isml/bbc_radio_one_anthems-audio%3d96000.norewind.m3u8 | |
| #EXTINF:-1,BBC - Radio 2 |
| import bpy | |
| import random | |
| import math | |
| # random seed | |
| seed = random.randint(0, 99999); | |
| def main(): |
| #include "DMXSerial.h" | |
| /* | |
| Simple example of using the DMSSerial library in combination with EE's hardware configuration to provide 4 relay outputs that can be used to show game states. | |
| This is using the Arduino relay board from: https://www.seeedstudio.com/item_detail.html?p_id=2440 | |
| */ | |
| void setup() | |
| { | |
| DMXSerial.init(DMXReceiver); |
Code is clean if it can be understood easily – by everyone on the team. Clean code can be read and enhanced by a developer other than its original author. With understandability comes readability, changeability, extensibility and maintainability.
- Follow standard conventions.
- Keep it simple stupid. Simpler is always better. Reduce complexity as much as possible.
- Boy scout rule. Leave the campground cleaner than you found it.
- Always find root cause. Always look for the root cause of a problem.
Several of the programs I write for Sonic Pi push it fairly close to the limit when run on a Raspberry Pi. This note gives some tips on to how to maximise the performance on that platform. Of course, if you run Sonic Pi on Mac OSX,or a Windows PC then the performance is much better on these more powerful platforms and some of the issues may not arise.
By increasing the voltage applied to the Pi processor, and running it at a higher clock frequency than normal it is possible to achive significant gains in performance. The down side is that you may reduce the lifetime of your Pi. There are five levels that can be configured: None, Modest, Medium, High and Turbo. I routinely run my Raspberry Pis with Medium Overclocking and have noticed no ill effects on any of them.
If you wish to apply some over-clocking you do so by running the program raspi-config from the command line. Having logged on, from the command line before you start the gra
| <!doctype html> | |
| <html> | |
| <head> | |
| <meta charset="utf-8"> | |
| <title>The things I love the most </title> | |
| <h1> The things I love the most</h1> | |
| <h2> Singing</h2> | |
| </head> | |
| <body> |
(by @andrestaltz)
If you prefer to watch video tutorials with live-coding, then check out this series I recorded with the same contents as in this article: Egghead.io - Introduction to Reactive Programming.
| /* | |
| * This work is free. You can redistribute it and/or modify it under the | |
| * terms of the Do What The Fuck You Want To Public License, Version 2, | |
| * as published by Sam Hocevar. See the COPYING file for more details. | |
| */ | |
| /* | |
| * Easing Functions - inspired from http://gizma.com/easing/ | |
| * only considering the t value for the range [0, 1] => [0, 1] | |
| */ | |
| EasingFunctions = { |