Our C/C++ Ruby implementation is based on original Ruby C code, 1.9 release and support such core classes and module as:
BasicObject, Object, Module, Class, Integer, Float, Numeric, Bignum, Rational, Complex, Math, String, StringScanner, StringIO, Array, Hash, Struct, Regexp, RegexpError, MatchData, Data, NilClass, TrueClass, FalseClass, Comparable, Enumerable, Enumerator, Converter, Marshal, IO, Dir, Time, Date, Signal, Mutex, Thread, ThreadGroup, Process, Fiber, FiberError, Method, UnboundMethod, Binding, RubyVM, GC, Exception, SystemExit, fatal, SignalException, Interrupt, StandardError, TypeError, ArgumentError, IndexError, KeyError, RangeError, ScriptError, SyntaxError, LoadError, NotImplementedError, NameError, NoMethodError, RuntimeError, SecurityError, NoMemoryError, EncodingError, CompatibilityError, SystemCallError, Errno, ZeroDivisionError, FloatDomainError, IOError, EOFError, ThreadError
We are using Rubinius specs to test Ruby compatibility across different platforms.
In order to strike a balance between functionality and size, some Ruby libraries are available as extensions instead of being compiled into your application by default. Available extensions are located within the rhodes-4.x.x gem in lib/extensions
. To use any of them in your application, all you need to do is add its name to the extensions
section in build.yml
. For example:
extensions: ["pdf-writer"]
If you are adding more than one, separate them with commas:
extensions: ["pdf-writer", "json", "net-http"]
Some extensions are specific to a particular platform. If an extension has an ext.yml
file, open it and look for a platforms
line listing the supported platforms. For example, the serialport
extension is only available for Windows Mobile and desktop Windows.
For parsing use Rho::JSON.parse, no extension required.
Ruby code example: :::ruby parsed = Rho::JSON.parse(“[{\"count\”:10}]“)
If you need to generate (not parse) JSON, add the json
extension.
Add to build.yml:
extensions: ["json"]
Ruby code example: :::ruby require ‘json’ json_data = ::JSON.generate(some_object)
See JSON tests in Rhodes System API Samples application as an example.
There are two ways of handling XML directly in Rhodes. The Rexml library and the much faster RhoXML library.
Add to build.yml:
extensions: ["rexml", "set"]
Ruby code example: :::ruby require ‘rexml/document’ file = File.new(“bibliography.xml”) doc = REXML::Document.new(file) puts doc
This is a reduced version of rexml. Rhoxml has the same syntax as rexml, but smaller in size and faster.
Change rexml to rhoxml in build.yml:
extensions: ["rhoxml"]
No more changes required.
Rhoxml limitations:
To process xml faster (without building DOM xml tree in memory) you can use StreamParser: :::ruby class MyStreamListener
def initialize(events) @events = events end def tag_start name, attrs #puts "tag_start: #{name}; #{attrs}" @events << attrs if name == 'event' end def tag_end name #puts "tag_end: #{name}" end def text text #puts "text: #{text}" end def instruction name, instruction end def comment comment end def doctype name, pub_sys, long_name, uri end def doctype_end end def attlistdecl element_name, attributes, raw_content end def elementdecl content end def entitydecl content end def notationdecl content end def entity content end def cdata content #puts "cdata: #{content}" end def xmldecl version, encoding, standalone end end def parse_xml(str_xml) @events = [] list = MyStreamListener.new(@events) REXML::Document.parse_stream(str_xml, list) ...
It supported in RhoXml and Rexml extensions. For example see : <rhodes>\spec\phone_spec\app\spec\xml_spec.rb
(“should stream parse” spec) and rexml stream parser documentation
Add to build.yml:
extensions: ["net-http", "thread", "timeout", "uri"]
Add to build.yml:
extensions: ["hmac", "digest", "digest-sha1"]
Example: :::ruby require ‘base64’ require ‘hmac-sha1’
def test_hmac key = '1234' signature = 'abcdef' hmac = HMAC::SHA1.new(key) hmac.update(signature) puts Rho::RhoSupport.url_encode(Base64.encode64("#{hmac.digest}\n")) end
Add to build.yml:
extensions: ["fileutils"]
DryRun, NoWrite and Verbose are commented out modules since they use the eval
function, which is not available in RhoMobile.
Before adding the FileUtils extension, consider using the built-in Ruby class Dir
whenever possible.
Create folder ‘extensions’ under application root if it does not exist already.
Copy the folder with the Ruby library to the ‘extensions’ folder. This will work for “pure ruby” extensions. Extensions which are implemented in c/c++ or such, you will have to compile as native extensions for the target platform.
Add extension with folder library name to build.yml:
extensions: ["myext"]
This library will be available for require: :::ruby require ‘myext’
Using this technique you can easily remove extension from application or include some extension for particular platform:
iphone: extensions: ["mspec", "fileutils"] wm: extensions: ["json"]
During the course of your app development you might need to add an external ruby library with extra features that the rhodes framework doesn’t provide. While we don’t guarantee that all ruby libraries will work on the mobile device, you can follow the steps below to add and test libraries as needed.
In RhoMobile, the require path is relative to the “app” subdirectory, since this is what gets bundled with the application.
Assuming your application is called “mynewapp”, create a directory called lib
(if it does not exist already) and, within it, a directory to store the library:
$ cd mynewapp $ mkdir lib $ mkdir lib/my_lib
Add your ruby files to this directory: :::term $ cp /path/to/my_lib.rb lib/my_lib/my_lib.rb
Now, in your application (controller.rb for example), you can load this library with a simple require
statement:
require 'rho/rhocontroller' require 'lib/my_lib' class TicketController < Rho::RhoController def use_lib @a = MyLib.new ... end end
Please note that “rubygems” are not loaded on the device Ruby VM because of size constraints, see the next section “Adding an external gem” for instructions therefore all third-party ruby library source files must be put into the extensions directory as described above.
Although other gems in your computer are not available within a RhoMobile application by default, some gems can be added and used:
lib
or, in some cases, a directory with the same name as the gem. This is the directory we are interested inOnce you locate the directory with the library, copy it to your application following the procedure outlined above in “Adding Libraries to Your Rhodes Application”.
Many gems will not work out of the box in a RhoMobile application because gems are often developed with desktop/server computers in mind, not mobile devices and tend to use features that are simply not available within RhoMobile. In particular, gems requiring access to external libraries (.so/.dll) or platform-specific features will not work. You have a better chance of success if the gem is simple and has few or no dependencies; the more complex the code, the higher the possibility that it uses a module that is not available on a mobile device. Some gems with platform-native © code can be made to work if you convert them into a native extension.
If you find yourself using the same library in most of your applications, you can add it directly to the base framework so that it is available by default when building any application.
There are two ways to add Ruby libraries to the RhoMobile framework:
gem env
in a terminal.For example, a user on Linux might place additional libraries in the following directory:
/usr/local/lib/ruby/gems/1.9/gems/rhodes-x.x.x/lib/framework
Similarly, a user on Mac OSX running the recommended RVM setup might place them here:
~/.rvm/gems/ruby-1.9.x-pxxx/gems/rhodes-x.x.x/lib/framework
For Windows, this location might be:
C:/ruby/lib/ruby/gems/1.9/gems/rhodes-x.x.x/lib/framework
If you are using a clone of the Rhodes Git repository, you can put additional libraries in the following directory (preferably on your own github fork):
<rhodes-clone>/lib/framework
Including the library into your application is simple once the library is in the proper directory.
Assuming the library has been added to the correct location, require the library from a controller in your Rhodes application: :::ruby require ‘libname’
You can now use the added library to access additional functionality not provided by the RhoMobile framework.
The same notice applies no matter the location. Some libraries will simply not work on a RhoMobile application due to assumptions they make about the environment/operating system.
If you follow this procedure, remember that you will have to redo the steps whenever you upgrade to a new version of RhoMobile
digest, digest-sha1, digest-md5
Add to build.yml:
extensions: ["digest", "digest-sha1", "digest-md5"]
digest should be included in extensions list to use digest-base libraries |
openssl, ezcrypto
Add to build.yml:
extensions: ["openssl.so", "openssl", "digest-sha2", "ezcrypto"]
digest-sha2
Add to build.yml:
extensions: ["openssl.so", "openssl", "digest", "digest-sha2" ]
openssl.so is native c-library and should be included in extensions list to use openssl-base libraries |