|
12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849505152535455565758596061626364656667686970717273747576777879808182838485868788899091 |
- ---
- layout: post
- title: EarwigBot and Toolserver Updates
- tags: ["Wikipedia", "Status report"]
- description: More progress on EarwigBot and the Toolserver site rewrite, including dynamic backgrounds
- ---
-
- Haven't really said much in a while, so I felt it appropriate to make a new
- blog post. No, I'm not dead, and yes, I _am_ busy working on my Wikipedia
- responsibilities, including EarwigBot and my Toolserver site (which I'll go
- into detail about in a bit). Progress is not as quick now as it was over the
- summer, and you can blame school for the delay in getting things done. My
- primary to-do list for Wikipedia right now looks like this:
-
- 1. Finish copyvio detection in the new EarwigBot
- 2. Integrate EarwigBot's copyvio detection with the new Toolserver site
-
- \#1 has a good portion of its work done, but I still have to finish the actual
- detection. I've isolated the work down to a few methods of
- `earwigbot.wiki.copyright.CopyrightMixin`: `_copyvio_strip_html()`, to
- extract the "text" (i.e. content inside <p> tags) from an HTML document
- (I'll probably use something like
- [Beautiful Soup](http://www.crummy.com/software/BeautifulSoup/) for this);
- `_copyvio_strip_article()`, to extract the "text" from an article (that is,
- stripping templates, quotes, references); and `_copyvio_chunk_article()`, to
- divide a stripped article into a list of web-searchable queries. Everything
- else, including the Task class for `afc_copyvios` is done.
-
- \#2 is very simple once #1 is done. I've already written the code to load
- EarwigBot's wiki toolset from `copyvios.mako`, and the config file is written,
- so running the detector is trivial once it works. The only thing left here is
- to have the tool produce relatively eye-pleasing output, perhaps with a
- "details" section showing the Markov chains formed from the two sources and
- comparing them visually. Not necessary at all, but a nice touch.
-
- Unfortunately, there's still a bit more work to do on EarwigBot before he's
- ready for his first release (0.1!). Aside from the copyvio stuff above, which
- is integrated directly as a function of `Page`, I want to finish porting over
- the remaining tasks from old EarwigBot that are still running via cron, improve
- the Wiki Toolset such that new sites can be added programmatically, and improve
- config such that it can be created by the bot and not only by hand. This is the
- main barrier stopping other people from running EarwigBot, and thus the primary
- concern before v0.1 is good. Of course, none of this urgent; getting copyvio
- detection finished is my primary concern.
-
- ## Dynamic Backgrounds
-
- Now that that's covered, let's look at something (mostly unrelated) I finished
- a couple days ago: dynamic backgrounds for
- [my new toolserver site](http://toolserver.org/~earwig/rewrite)! You can see it
- in action a bit better on [this page](http://toolserver.org/~earwig/earwigbot).
- The background is the the [Wikimedia Commons](//commons.wikimedia.org/)
- [Picture of the Day](//commons.wikimedia.org/wiki/Commons:Picture_of_the_day),
- loaded and displayed with JavaScript.
- [Here's the code for it](//github.com/earwig/toolserver/blob/master/static/js/potd.js),
- a good deal more code than I had expected to write.
-
- Here's what we have to do:
-
- 1. Query Commons' API for the content of the template \{\{Potd/YYY-MM-DD}}.
- 2. Parse that content for the filename of the image, which will be hidden in
- something like \{\{Potd filename|1=Foo.png}}.
- 3. Query Commons' API again for Foo.png's URL and dimensions.
- 4. Since we want the image to "cover" the background (that is, be the smallest
- size possible while leaving none of the background color visible), we need
- to calculate the image's aspect ratio and our own aspect ratio, then
- determine the width of the thumbnail we want. If the image is shorter than
- our screen, the necessary width is our screen's width, but if the image is
- longer than our screen, the necessary width is our screen's height
- multiplied by the image's aspect ratio.
- 5. If the width of our desired thumbnail is less than the width of the image,
- we'll alter the image's URL (insert a `/thumb/` in the middle somewhere and
- add a resolution at the end) and set that as our `body`'s `background-image`
- property. This is better than loading the full image and downscaling it,
- because less bandwidth is required.
- 6. If the width of our desired thumbnail is _greater_ than (or equal to) the
- width of the image, we load the full image and upscale it (gasp! horror!)
- using the CSS bit `background-size: cover;`.
-
- All of the images I tested looked decent when displayed under this method, some
- better than others, but all acceptable. I figured this code provided a nice
- touch to an otherwise drab webpage (like the one you're viewing now, it
- wouldn't have been very pretty), which is why I did it, but I couldn't help but
- wonder if there was an... easier... method that still saved bandwidth and
- didn't resort to ugly scaling/cropping/repeating/whatever, but I could come up
- with nothing. It was a fun project in a language I almost never use, though, so
- worth it in the end.
-
- That's all for now!
-
- : —earwig
|