There comes a time when the tools are available to complete a task but the way forward isn’t exactly clear. More exotic tools often lack complete or generalized tutorials, and it falls to the individual to find out how to use them for their own purposes without explicit guidance from others. Of course, it doesn’t have to be this way; so here’s another tutorial for you all on how to set up an ARM cross-compilation environment on Linux.
Well, it’s been a while since I’ve posted! Probably time for an update, huh?
As some of you may have figured out, I’ve been working for Google since May. It’s been a good experience, and there’s lots of free food! I’m working on the Commerce Systems/Billing team, creating reporting tools that help our engineers provide even better service for customers. The whole experience has been rather enlightening, and I’m very grateful for the opportunity. I have about a month and a half left on my internship, and then I’ll be heading back to CC for my last year of undergrad study!
But, before I get there, I’m planning on adding some new equipment to my arsenal. I’ve made quite a bit of progress on building a RepRap 3D printer, and I’m quite excited to see it print! I have the frame built, the motors moving, the firmware compiling… The only set back being that I inadvertently burned out one of my Pololu stepper drivers. I’ve got two on order, so hopefully that will be remedied sometime in the next week. In the meantime, I plan on finishing the Cartesian Robot portion of the machine, and testing it with the various host software options to see which I like best. Stay tuned for more on that.
In software news, I’ve started really digging into Python. I’ve bought a copy of “Programming Python”, a beast of a book which covers most of the advanced usage I’m interested in. To that end, I’ve started writing some small scripts to help make things easier day to day. For example, I’ve written one that sends me an email when my server needs to have updates applied. Python is a ton of fun, and I’d highly suggest it to anyone wanting to put some play back into their programming.
To make writing Python scripts easier, I started looking for a new editor. Eclipse is great for larger projects with lots of source and provides some really nice features, but it’s heavy and slow and doesn’t lend itself well to the fast development that Python promotes. I decided having a lighter environment would be beneficial, so I turned to Emacs. I’ve been using it for the past 2 weeks at both work and home, and I’m really enjoying it. I think I might spend some time learning Lisp so I can extend it. I also need to get a good functional language under my belt…
So, in any event, my summer has been pretty good. My only complaint is that Ann Arbor is too far away… My girlfriend was accepted to the University of Michigan’s Artificial Intelligence Laboratory as a PhD student, and she’s been there since June working on a robot navigation system. I’m incredibly proud of her and somewhat jealous!
I’ll try to pay a little more attention to the blog now that things have settled into more of a routine; keep an eye on it for updates on the projects!
(P.S. I’m also on Google+, so feel free to drop me in a circle if you feel so inclined!)
Sometimes, writing software can be a pain. It’s unfortunate, but true. Sometimes there’s a need to be filled, an itch to be scratched; and though it might be quite simple in concept, it’s often hard to translate that idea to code. Luckily, the team at Ubuntu has a tool for that: Quickly.
Quickly isn’t a new tool, but it is a useful one. The idea is to provide a shell command which will help take some of the obstacle out of programming for Ubuntu by automatically generating a PyGTK project’s boilerplate code for you. Just entering quickly create ubuntu-application foo creates a directory foo and adds the basic code needed for a simple GTK+ application. It even initializes a bzr repository for you and commits a first revision.
The tool aims to make some “opinionated decisions” about what is a good way to start. I think that’s a good way to go; it certainly makes getting started easier. Although the choices aren’t necessarily the best in my personal opinion (as you probably guessed, I prefer git), they are reasonable defaults and it’s even possible to change them using Quickly templates, which can be created by the user to match their favorites.
The main downside, however, is the lack of documentation. There is a team working on writing some on Launchpad, but so far it’s rather sparse. Even knowing how to hook up the GUI to your custom code can require a fair amount of research, and it takes a little of the ease out of using the framework. That said, once you’ve familiarized yourself with the workflow and the structure of the generated code, it’s not too hard to ramp into productivity. I’ve even been using it to work on the robot arm’s control software.
Personally, I think it’s a great idea. It would be nice to have a GUI for it (I reflexively close terminals when I’m done with a few commands, and getting back to the right directory is a pain), but that could easily be written using Quickly itself! While it’s not a new language or even a new toolkit, it is a convenient synthesis of extant tools that have the capacity for powerful projects and are easy to use.
I wrote this to help out some of my collaborators on our AI project for class, but I figure it might help some other people get started using version control.
Step 1: Get Eclipse
If you don’t want to work in Eclipse, that’s fine; you can access the source files directly without it. You will, however, need to look up how to generate SSH keys for your platform and how to set up Git on your own. GitHub has a nice tutorial after you sign up; so skip to step 2 and then take it from there.
If you do want to work with Eclipse, download the latest version here: http://www.eclipse.org/downloads/ and get the Eclipse IDE for Java Developers. Once you have it downloaded, extract it to someplace you will want to keep it, and double click on the eclipse icon to start it. We need to install the EGit plugin to use Git from Eclipse, so go to the “Help” menu item and click on “Eclipse Marketplace”. Search for EGit, and install it (it should be the only item that comes up). Restart Eclipse when it prompts you to.
Eclipse is a powerful development environment because it’s open source and has a ton of plugins for development; but that also makes it slow sometimes. Let’s make it go a little quicker. Go to the “Window” menu and click on “Preferences”. In the window that opens up, expand the “General” item, and go to “Startup and Shutdown”. This will show all the plugins that get started with Eclipse. Unselect all of them and click Apply”.
Ok, now that we’re in our settings panel, go to “Network Connections” and expand it. It’s under “General”. Click on “SSH2”, and move to the key management tab. IF YOU ALREADY HAVE A PUBLIC/PRIVATE SSH KEY GENERATED, SKIP THIS STEP. IT WILL OVERWRITE ANY EXISTING KEYS, AND YOU WILL NOT BE ABLE TO USE THEM ANYMORE. Otherwise, click on “Generate RSA Key…” It will create a public/private key for you; copy the public key from the text area and hold onto it. Don’t do anything more with Eclipse at this point; we need to set up our GitHub account before we go further.
If you already have a public/private key pair, you can open up the public key file (should be in /home/yourusername/.ssh/id_rsa.pub on Linux) and copy it for the next step.
Step 2: Getting Your Account Set Up
Ok, first things first: We need to set up a GitHub account. To do this, go to the main page at http://www.github.com and click on “Plans, Pricing and Signup” in the middle of the page. (It’s big and blue.) At the top of the next page, it has a free hosting plan above all the paid ones; click on “Create a free account”. Type in your username, email, and password (Generally, using your real name is a help in these kinds of things, since employers/future project leaders/current collaborators can tell who you are and what you’ve worked on) and click “Create an account”.
Cool! So we have an account. Next thing to do is set up our SSH key. Go to “Account Settings” at the top of the page click on it. On the left sidebar is an option “SSH Public Keys”, click on that. We’ll want to set up another key, so click on “Add another public key”. Give it a descriptive name in case you need to modify it, and paste the public key from Step 1 into the big box. Save the key, and you’re done! If you haven’t saved your key in Eclipse, go back and do that now. Click “Save Private Key”, and put it into the default folder. If you want to put a passphrase on it, I encourage you to do so; if your private key gets stolen the thief has your identity and access to any server that uses that key.
Well, as some of you may know I’m taking Artificial Intelligence this block. We’re coming up on the end (just a week away!), and jumping head first into our final project! What could it be?