You'll need to add a Python program called setup.py to the same directory that you Activity program is in. Every setup.py is exactly the same as every other setup.py. The copies in our Git repository look like this:
#!/usr/bin/env python # Copyright (C) 2006, Red Hat, Inc. # # This program is free software; you can redistribute it # and/or modify it under the terms of the GNU General # Public License as published by the Free Software # Foundation; either version 2 of the License, or (at # your option) any later version. # # This program is distributed in the hope that it will # be useful, but WITHOUT ANY WARRANTY; without even # the implied warranty of MERCHANTABILITY or FITNESS # FOR A PARTICULAR PURPOSE. See the GNU General # Public License for more details. # # You should have received a copy of the GNU General # Public License along with this program; if not, # write to the Free Software Foundation, Inc., # 51 Franklin St, Fifth Floor, Boston, MA # 02110-1301 USA from sugar3.activity import bundlebuilder bundlebuilder.start()
Be sure and copy the entire text above, including the comments.
The setup.py program is used by sugar for a number of purposes. If you run setup.py from the command line you'll see the options that are used with it and what they do.
[james@olpc mainline]$ ./setup.py Available commands: build Build generated files dev Setup for development dist_xo Create a xo bundle package dist_source Create a tar source package fix_manifest Add missing files to the manifest (OBSOLETE) genpot Generate the gettext pot file install Install the activity in the system (Type "./setup.py <command> --help" for help about a particular command's options.
We'll be running some of these commands later on. Don't be concerned about the fix_manifest command being obsolete. Earlier versions of the bundle builder used a file named MANIFEST and the current one doesn't need it. It isn't anything you need to worry about.
Next create a directory within the one your progam is in and name it activity. Create a file named activity.info within that directory and enter the lines below into it. Here is the one for our first Activity:
[Activity] name = Read ETexts II bundle_id = net.flossmanuals.ReadEtextsActivity icon = read-etexts exec = sugar-activity ReadEtextsActivity.ReadEtextsActivity show_launcher = no activity_version = 1 mime_types = text/plain;application/zip license = GPLv2+ summary = Read plain text ebooks from Project Gutenberg.
This file tells Sugar how to run your Activity. The properties needed in this file are:
|name||The name of your Activity as it will appear to the user.
||A unique name that Sugar will use to refer to your Activity. Any Journal entry created by your Activity will have this name stored in its metadata, so that when someone resumes the Journal entry Sugar knows to use the program that created it to read it. This property used to be called service_name and you may run into old code that still uses that name. If you do, you'll need to change it to bundle_id.
||The name of the icon file you have created for the Activity. Since icons are always .svg files the icon file in the example is named read-etexts.svg.
|exec||This tells Sugar how to launch your Activity. What it says is to create an instance of the class ReadEtextsActivity which it will find in file ReadEtextsActivity.py.
|show_launcher||There are two ways to launch an Activity. The first is to click on the icon in the Activity view. The second is to resume an entry in the Journal. Activities that don't create Journal entries can only be resumed from the Journal, so there is no point in putting an icon in the Activity ring for them. Read Etexts is an Activity like that.
|activity_version||An integer that represents the version number of your program. The first version is 1, the next is 2, and so on.
|mime_types||Generally when you resume a Journal entry it launches the Activity that created it. In the case of an e-book it wasn't created by any Activity, so we need another way to tell the Journal which Activity it can use. A MIME type is the name of a common file format. Some examples are text/plain, text/html, application/zip and application/pdf. In this entry we're telling the Journal that our program can handle either plain text files or Zip archive files.
|license||Owning a computer program is not like buying a car. With a car, you're the owner and you can do what you like with it. You can sell it, rent it out, make it into a hot rod, whatever. With a computer program there is always a license that tells the person receiving the program what he is allowed to do with it. GPLv2+ is a popular standard license that can be used for Activities, and since this is my program that is what goes here. When you're ready to distribute one of your Activities I'll have more to say about licenses.|
|summary||A description of what the Activity does.|
Next we need to create an icon named read-etexts.svg and put it in the activity subdirectory. ⁞ We're going to use Inkscape to create the icon. From the New menu in Inkscape select icon_48x48. This will create a drawing area that is a good size.
You don't need to be an expert in Inkscape to create an icon. In fact the less fancy your icon is the better. When drawing your icon remember the following points:
When you're done making your icon you need to modify it so it can work with Sugar. Specifically, you need to make it show Sugar can use its own choice of stroke color and fill color. The SVG file format is based on XML, which means it is a text file with some special tags in it. This means that once we have finished editing it in Inkscape we can load the file into Eric and edit it as a text file.
I'm not going to put the entire file in this chapter because most of it you'll just leave alone. The first part you need to modify is at the very beginning.
<?xml version="1.0" encoding="UTF-8" standalone="no"?> <!-- Created with Inkscape (http://www.inkscape.org/) --> <svg
<?xml version="1.0" ?> <!DOCTYPE svg PUBLIC '-//W3C//DTD SVG 1.1//EN' 'http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd' [ <!ENTITY stroke_color "#000000"> <!ENTITY fill_color "#FFFFFF"> ]><svg
Now in the body of the document you'll find references to fill and stroke as part of an attribute called style. Every line or shape you draw will have these, like this:
<rect style="fill:#ffffff;stroke:#000000;stroke-opacity:1" id="rect904" width="36.142857" height="32.142857" x="4.1428571" y="7.1428571" />
You need to change each one to look like this:
<rect style="fill:&fill_color;;stroke:&stroke_color; ;stroke-opacity:1" id="rect904" width="36.142857" height="32.142857" x="4.1428571" y="7.1428571" />
Note that &stroke_color; and &fill_color; both end with semicolons (;), and semicolons are also used to separate the properties for style. Because of this it is an extremely common beginner's mistake to leave off the trailing semicolon because two semicolons in a row don't look right. Be assured that the two semicolons in a row are intentional and absolutely necessary! Second, the value for style should all go on one line. We split it here to make it fit on the printed page; do not split it in your own icon!
There's just one more thing to do before we can test our Activity under the Sugar emulator. We need to install it, which in this case means making a symbolic link between the directory we're using for our code in the ~/Activities/ directory. The symbol ~ refers to the "home" directory of the user we're running Sugar under, and a symbolic link is a way to make a file or directory appear to be located in more than one place without copying it. We make this symbolic link by running setup.py again:
Now at last we can run our Activity under Sugar. To do that we need to learn how to run sugar-emulator or sugar-runner. sugar-runner replaces sugar-emulator and is available in Fedora 20 or later. Everything before that uses sugar-emulator.
Fedora puts a Sugar menu item under the Education menu in Xfce or GNOME 2. You can also run it from the command line:
If your screen resolution is smaller than the default size sugar-emulator runs at it will run full screen. This is not convenient for testing, so you may want to specify your own size:
sugar-emulator -i 800x600
sugar-runner is similar, but it defaults to running in full screen mode if you run it from the menu or without parameters. To get it to run in a window you need to specify a --resolution parameter:
sugar-runner --resolution 800x600
When you run sugar-emulator or sugar-runner a window opens up and the Sugar environment starts up and runs inside it. It looks like this:
To test our Activity we're going to need to have a book in the Journal, so use the Browse Activity to visit Project Gutenberg again and download the book of your choice. This time it's important to download the book in Zip format, because Browse cannot download a plain text file to the Journal. Instead, it opens the file for viewing as if it was a web page. If you try the same thing with the Zip file it will create an entry in the Journal.
We can't just open the file with one click in the Journal because our program did not create the Journal entry and there are several Activities that support the MIME type of the Journal entry. We need to use the Start With menu option like this:
When we do open the Journal entry this is what we see:
Technically, this is the first iteration of our Activity. (Iteration is a vastly useful word meaning something you do more than once. In this book we're building our Activity a bit at a time so I can demonstrate Activity writing principles, but actually building a program in pieces, testing it, getting feedback, and building a bit more can be a highly productive way of creating software. Using the word iteration to describe each step in the process makes the process sound more formal than it really is).
While this Activity might be good enough to show your own mother, we really should improve it a bit before we do that. That part comes next.
There has been error in communication with Booktype server. Not sure right now where is the problem.
You should refresh this page.