A collection of (tested) helpers and wrappers used to wrap Cocoa Touch and AppKit code and provide more Ruby like APIs.
gem install bubble-wrap
- Edit the
Rakefile
of your RubyMotion project and add the following require line:
require 'bubble-wrap'
If you use Bundler:
gem 'bubble-wrap', '~> 1.9.7'
BubbleWrap is split into multiple modules so that you can easily choose which parts are included at compile-time.
If you wish to only include the RSS Parser
wrapper:
require 'bubble-wrap/rss_parser'
If you wish to only include the Reactor
wrapper:
require 'bubble-wrap/reactor'
If you wish to only include the UI-related wrappers:
require 'bubble-wrap/ui'
If you wish to only include the Camera
wrapper:
require 'bubble-wrap/camera'
If you wish to only include the Location
wrapper:
require 'bubble-wrap/location'
If you wish to only include the Media
wrapper:
require 'bubble-wrap/media'
If you wish to only include the Mail
wrapper:
require 'bubble-wrap/mail'
If you wish to only include the SMS
wrapper:
require 'bubble-wrap/sms'
If you wish to only include the Motion
(CoreMotion) wrapper:
require 'bubble-wrap/motion'
If you wish to only include the NetworkIndicator
wrapper:
require 'bubble-wrap/network-indicator'
If you want to include everything (ie kitchen sink mode) you can save time and do:
require 'bubble-wrap/all'
You can also do this directly in your Gemfile
like so:
gem 'bubble-wrap', require: %w[bubble-wrap/core bubble-wrap/location, bubble-wrap/reactor]
Note: DON'T use app.files =
in your Rakefile to set up your files once you've required BubbleWrap.
Make sure to append onto the array or use +=
.
- Now, you can use BubbleWrap extension in your app:
class AppDelegate
def application(application, didFinishLaunchingWithOptions:launchOptions)
puts "#{App.name} (#{App.documents_path})"
true
end
end
Note: You can also vendor this repository but the recommended way is to use the versioned gem.
UUID generator:
BubbleWrap.create_uuid
=> "68ED21DB-82E5-4A56-ABEB-73650C0DB701"
Localization (using NSBundle.mainBundle.localizedStringForKey
):
BubbleWrap.localized_string(:foo, 'fallback')
=> "fallback"
Color conversion:
BubbleWrap.rgba_color(23, 45, 12, 0.4)
=> #<UIDeviceRGBColor:0x6db6ed0>
BubbleWrap.rgb_color(23, 45, 12)
=> #<UIDeviceRGBColor:0x8ca88b0>
'blue'.to_color
=> #<UICachedDeviceRGBColor:0xda535c0>
'dark_gray'.to_color
=> #<UICachedDeviceWhiteColor:0x8bb5be0>
'#FF8A19'.to_color
=> #<UIDeviceRGBColor:0x8d54110>
'#88FF8A19'.to_color # ARGB format
=> #<UIDeviceRGBColor:0xca0fe00>
Debug flag:
BubbleWrap.debug?
=> false
BubbleWrap.debug = true
=> true
BubbleWrap.debug?
=> true
A module with useful methods related to the running application
> App.documents_path
# "/Users/mattetti/Library/Application Support/iPhone Simulator/5.0/Applications/EEC6454E-1816-451E-BB9A-EE18222E1A8F/Documents"
> App.resources_path
# "/Users/mattetti/Library/Application Support/iPhone Simulator/5.0/Applications/EEC6454E-1816-451E-BB9A-EE18222E1A8F/testSuite_spec.app"
> App.name
# "testSuite"
> App.identifier
# "io.bubblewrap.testSuite"
> App.alert("BubbleWrap is awesome!")
# creates and shows an alert message.
> App.alert("BubbleWrap is awesome!", {cancel_button_title: "I know it is!", message: "Like, seriously awesome."})
# creates and shows an alert message with optional parameters.
> App.run_after(0.5) { p "It's #{Time.now}" }
# Runs the block after 0.5 seconds.
> App.open_url("http://matt.aimonetti.net")
> App.open_url("tel://123456789")
# Opens the url using the device's browser. Can also open custom URL schemas (accepts a string url or an instance of `NSURL`.)
> App.can_open_url("tel://")
# Returns whether the app can open a given URL resource.
> App::Persistence['channels'] # application specific persistence storage
# ['NBC', 'ABC', 'Fox', 'CBS', 'PBS']
> App::Persistence['channels'] = ['TF1', 'France 2', 'France 3']
# ['TF1', 'France 2', 'France 3']
> App.environment
# 'test'
Other available methods:
App.notification_center
App.user_cache
App.states
App.frame
App.delegate
App.shared
App.window
App.current_locale
App.release?
App.test?
App.development?
A collection of useful methods about the current device:
Examples:
> Device.iphone?
# true
> Device.ipad?
# false
> Device.camera.front?
# true
> Device.camera.rear?
# true
> Device.orientation
# :portrait
> Device.interface_orientation
# :portrait
> Device.simulator?
# true
> Device.ios_version
# "6.0"
> Device.retina?
# false
> Device.screen.width
# 320
> Device.screen.height
# 480
> Device.screen.width_for_orientation(:landscape_left)
# 480
> Device.screen.height_for_orientation(:landscape_left)
# 320
> Device.vendor_identifier
# <NSUUID>
Added interface for better camera access:
# Uses the front camera
BW::Device.camera.front.picture(media_types: [:movie, :image]) do |result|
image_view = UIImageView.alloc.initWithImage(result[:original_image])
end
# Uses the rear camera
BW::Device.camera.rear.picture(media_types: [:movie, :image]) do |result|
image_view = UIImageView.alloc.initWithImage(result[:original_image])
end
# Uses the photo library
BW::Device.camera.any.picture(media_types: [:movie, :image]) do |result|
image_view = UIImageView.alloc.initWithImage(result[:original_image])
end
# Lets the user edit the photo (with access to the edited and original photos)
BW::Device.camera.any.picture(allows_editing: true, media_types: [:image]) do |result|
edited_image_view = UIImageView.alloc.initWithImage(result[:edited_image])
original_image_view = UIImageView.alloc.initWithImage(result[:original_image])
end
# Capture a low quality movie with a limit of 10 seconds
BW::Device.camera.front.picture(media_types: [:movie], video_quality: :low, video_maximum_duration: 10) do |result|
video_file_path = result[:media_url]
end
Options include:
:allows_editing
- Boolean; whether a user can edit the photo/video before picking:animated
- Boolean; whether to display the camera with an animation (default true):on_dismiss
- Lambda; called instead of the default dismissal logic:media_types
- Array; containing any of[:movie, :image]
:video_quality
- Symbol; one of:high
,:medium
,low
,"640x480".to_sym
,iframe1280x720
, oriframe960x540
. Defaults to:medium
:video_maximum_duration
- Integer; limits movie recording length. Defaults to 600.
BW::JSON
wraps NSJSONSerialization
available in iOS5 and offers the same API as Ruby's JSON std lib. For apps building for iOS4, we suggest a different JSON alternative, like AnyJSON.
BW::JSON.generate({'foo' => 1, 'bar' => [1,2,3], 'baz' => 'awesome'})
=> "{\"foo\":1,\"bar\":[1,2,3],\"baz\":\"awesome\"}"
BW::JSON.parse "{\"foo\":1,\"bar\":[1,2,3],\"baz\":\"awesome\"}"
=> {"foo"=>1, "bar"=>[1, 2, 3], "baz"=>"awesome"}
Helper methods added to give NSIndexPath
a bit more of a Ruby
interface.
index_path = table_view.indexPathForCell(cell)
index_path + 1 # NSIndexPath for next cell in the same section
=> #<NSIndexPath:0x120db8e0>
Helper methods to give NSNotificationCenter a Ruby-like interface:
def viewWillAppear(animated)
@foreground_observer = App.notification_center.observe UIApplicationWillEnterForegroundNotification do |notification|
loadAndRefresh
end
@reload_observer = App.notification_center.observe 'ReloadNotification' do |notification|
loadAndRefresh
end
end
def viewWillDisappear(animated)
App.notification_center.unobserve @foreground_observer
App.notification_center.unobserve @reload_observer
end
def reload
App.notification_center.post 'ReloadNotification'
end
Helper methods added to the class repsonsible for user preferences used
by the App::Persistence
module shown below.
Offers a way to persist application specific information using a very simple interface:
> App::Persistence['channels'] # application specific persistence storage
# ['NBC', 'ABC', 'Fox', 'CBS', 'PBS']
> App::Persistence['channels'] = ['TF1', 'France 2', 'France 3']
# ['TF1', 'France 2', 'France 3']
> App::Persistence.delete('channels')
# ['TF1', 'France 2', 'France 3']
> App::Persistence['something__new'] # something previously never stored
# nil
> App::Persistence.all
# {'all':'values', 'stored':'by', 'bubblewrap':'as a hash!'}
Since: > version 0.4
You can observe for object's changes and trigger blocks:
class ExampleViewController < UIViewController
include BW::KVO
def viewDidLoad
@label = UILabel.alloc.initWithFrame [[20,20],[280,44]]
@label.text = ""
view.addSubview @label
observe(@label, :text) do |old_value, new_value|
puts "Hello from viewDidLoad!"
end
end
def viewDidAppear(animated)
observe(@label, :text) do |old_value, new_value|
puts "Hello from viewDidAppear!"
end
end
end
You can remove observers using unobserve
method.
Since: > version 1.9.0
Optionally, multiple key paths can be passed to the observer
method:
class ExampleViewController < UIViewController
include BW::KVO
def viewDidLoad
@label = UILabel.alloc.initWithFrame [[20,20],[280,44]]
@label.text = ""
view.addSubview @label
observe(@label, [:text, :textColor]) do |old_value, new_value, key_path|
puts "Hello from viewDidLoad for #{key_path}!"
end
end
end
Also you can use observe!
method to register observer that will immediately
return initial value. Note that in this case only new value will be passed to
the block.
The Ruby String
class was extended to add #camelize
and
#underscore
methods.
> "matt_aimonetti".camelize
=> "MattAimonetti"
> "MattAimonetti".underscore
=> "matt_aimonetti"
The Time
Ruby class was added a class level method to convert a
iso8601 formatted string into a Time instance.
> Time.iso8601("2012-05-31T19:41:33Z")
=> 2012-05-31 21:41:33 +0200
Interface for Ruby-like GPS and compass access (the CoreLocation framework):
> BW::Location.enabled? # Whether location services are enabled on the device
=> true
> BW::Location.authorized? # If your app is authorized to use location services
=> false
BW::Location.get(purpose: 'We need to use your GPS because...') do |result|
p "From Lat #{result[:from].latitude}, Long #{result[:from].longitude}"
p "To Lat #{result[:to].latitude}, Long #{result[:to].longitude}"
end
Note: result[:from]
will return nil
the first time location services are started.
The :previous
key in the BW::Location.get()
result hash will always return an array of zero or more additional CLLocation
objects aside from the locations returned from the :to
and :from
hash keys. While in most scenarios this array will be empty, per Apple's Documentation if there are deferred updates or multiple locations that arrived before they could be delivered, multiple locations will be returned in an order of oldest to newest.
BW::Location.get_compass do |result|
p result[:magnetic_heading] # Heading towards magnetic north
p result[:true_heading] # Heading towards true north
p result[:accuracy] # Potential error between magnetic and true heading
p result[:timestamp] # Timestamp of the heading calculation
end
BW::Location.get_significant
is also available, for monitoring significant location changes.
BW::Location
also supports get_once
-style methods, which will return the first result before ending the search:
BW::Location.get_once(desired_accuracy: :three_kilometers, ...) do |result|
if result.is_a?(CLLocation)
p result.coordinate.latitude
p result.coordinate.longitude
else
p "ERROR: #{result[:error]}"
end
end
BW::Location.get_compass_once do |heading|
p result[:magnetic_heading]
p result[:true_heading]
p result[:accuracy]
p result[:timestamp]
end
iOS 8 introduced stricter location services requirements. Although BubbleWrap will handle most of this for you automatically, you are required to add a few key/value pairs to the Info.plist
. Add these two lines to your Rakefile
(with your descriptions, obviously):
app.info_plist['NSLocationAlwaysUsageDescription'] = 'Description'
app.info_plist['NSLocationWhenInUseUsageDescription'] = 'Description'
Note: you need both keys to use get_once
, so it's probably best to just include both no matter what. See Apple's documentation on iOS 8 location services requirements for more information.
Interface for the accelerometer, gyroscope, and magnetometer sensors (the
CoreMotion framework). You can access each sensor individually, or you can get
data from all of them at once using the BW::Motion.device
interface, which
delegates to CMMotionManager#deviceMotion
.
Each sensor has an every
and once
method. every
expects a time interval,
and you will need to retain the object it returns and call #stop
on it when
you are done with the data.
The every
and once
methods can accept a :queue
option. The default value
is a queue that runs on the main loop, so that UI updates can be processed in
the block. This is useful, but not recommended by Apple, since the events can
come in at a high rate. If you want to use a background queue, you can either
specify an NSOperationQueue object, or you can use one of these symbols:
:main
-NSOperationQueue.mainQueue
, this is the default value.:background
- BubbleWrap will create a newNSOperationQueue
.:current
- BubbleWrap will useNSOperationQueue.currentQueue
.
If you pass a string instead, a new queue will be created and its name
property will be set to that string.
The CMDeviceMotion
interface (BW::Motion.device
) accepts a :reference
option, which specifies the CMAttitudeReferenceFrame
. The default value is
the same as the one that CMMotionManager
uses, which is returned by the
CMMotionManager#attitudeReferenceFrame
method. This option should be passed
to the repeat
, every
or once
methods.
BW::Motion.accelerometer.available?
BW::Motion.accelerometer.data # returns CMAccelerometerData object or nil
# ask the CMMotionManager to update every 5 seconds
BW::Motion.accelerometer.every(5) do |result|
# result contains the following data (from CMAccelerometerData#acceleration):
p result[:data] # the CMAccelerometerData object
p result[:acceleration] # the CMAcceleration struct
p result[:x] # acceleration in the x direction
p result[:y] # " y direction
p result[:z] # " z direction
end
# every, start, and repeat all need to be stopped later.
BW::Motion.accelerometer.stop
# repeat, but don't set the interval
BW::Motion.accelerometer.repeat do |result|
end
# you can specify a :queue where the operations will be executed. See above for details
BW::Motion.accelerometer.every(5, queue: :background) { |result| ... }
BW::Motion.accelerometer.every(5, queue: :main) { |result| ... }
BW::Motion.accelerometer.every(5, queue: :current) { |result| ... }
BW::Motion.accelerometer.every(5, queue: 'my queue') { |result| ... }
BW::Motion.accelerometer.once do |result|
# ...
end
BW::Motion.gyroscope.available?
BW::Motion.gyroscope.data # returns CMGyroData object or nil
# ask the CMMotionManager to update every second.
BW::Motion.gyroscope.every(1) do |result|
# result contains the following data (from CMGyroData#rotationRate):
p result[:data] # the CMGyroData object
p result[:rotation] # the CMRotationRate struct
p result[:x] # rotation in the x direction
p result[:y] # " y direction
p result[:z] # " z direction
end
BW::Motion.gyroscope.stop
BW::Motion.gyroscope.once do |result|
# ...
end
BW::Motion.magnetometer.available?
BW::Motion.magnetometer.data # returns CMMagnetometerData object or nil
# ask the CMMotionManager to update every second
BW::Motion.magnetometer.every(1) do |result|
# result contains the following data (from CMMagnetometerData#magneticField):
p result[:data] # the CMMagnetometerData object
p result[:field] # the CMMagneticField struct
p result[:x] # magnetic field in the x direction
p result[:y] # " y direction
p result[:z] # " z direction
end
BW::Motion.magnetometer.stop
BW::Motion.magnetometer.once do |result|
# ...
end
This is an amalgam of all the motion sensor data.
BW::Motion.device.available?
BW::Motion.device.data # returns CMDeviceMotion object or nil
BW::Motion.device.every(1) do |result|
# result contains the following data:
p result[:data] # the CMDeviceMotion object
# orientation data, from CMDeviceMotion#attitude
p result[:attitude] # the CMAttitude struct
p result[:roll]
p result[:pitch]
p result[:yaw]
# rotation data, from CMDeviceMotion#rotationRate
p result[:rotation] # the CMRotationRate struct
p result[:rotation_x]
p result[:rotation_y]
p result[:rotation_z]
# gravity+acceleration vector, from CMDeviceMotion#gravity
p result[:gravity] # the CMAcceleration struct
p result[:gravity_x]
p result[:gravity_y]
p result[:gravity_z]
# just the acceleration vector, from CMDeviceMotion#userAcceleration
p result[:acceleration] # the CMAcceleration struct
p result[:acceleration_x]
p result[:acceleration_y]
p result[:acceleration_z]
# the magnetic data, from CMDeviceMotion#magneticField
p result[:magnetic] # the CMCalibratedMagneticField struct
p result[:magnetic_field] # the CMMagneticField struct from the CMCalibratedMagneticField
p result[:magnetic_x]
p result[:magnetic_y]
p result[:magnetic_z]
p result[:magnetic_accuracy] # this will be a symbol, :low, :medium, :high, or nil if the magnetic data is uncalibrated
# less useful data from CMAttitude, unless you're into the whole linear algebra thing:
p result[:matrix] # CMAttitude#rotationMatrix
p result[:quarternion] # CMAttitude#quarternion
end
# the reference frame should be one of the CMAttitudeReferenceFrame constants...
ref = CMAttitudeReferenceFrameXArbitraryZVertical
# ... or one of these symbols: :arbitrary_z, :corrected_z, :magnetic_north, :true_north
ref = :corrected_z
BW::Motion.device.every(1, queue: :background, reference: ref) { |result| ... }
BW::Motion.device.once do |result|
# ...
end
Added wrapper for playing remote and local media. Available are modal
and custom presentation styles:
# Plays in your custom frame
local_file = NSURL.fileURLWithPath(File.join(NSBundle.mainBundle.resourcePath, 'test.mp3'))
BW::Media.play(local_file) do |media_player|
media_player.view.frame = [[10, 100], [100, 100]]
self.view.addSubview media_player.view
end
# Plays in an independent modal controller
BW::Media.play_modal("http://www.hrupin.com/wp-content/uploads/mp3/testsong_20_sec.mp3")
Wrapper for showing an in-app mail composer view.
You should always determine if the device your app is running on is configured to send mail before displaying a mail composer window. BW::Mail.can_send_mail?
will return true
or false
.
# Opens as a modal in the current UIViewController
BW::Mail.compose(
delegate: self, # optional, defaults to rootViewController
to: [ "tom@example.com" ],
cc: [ "itchy@example.com", "scratchy@example.com" ],
bcc: [ "jerry@example.com" ],
html: false,
subject: "My Subject",
message: "This is my message. It isn't very long.",
animated: false
) do |result, error|
result.sent? # => boolean
result.canceled? # => boolean
result.saved? # => boolean
result.failed? # => boolean
error # => NSError
end
Wrapper for showing an in-app message (SMS) composer view.
You should always determine if the device your app is running on can send SMS messages before displaying a SMS composer window. BW::SMS.can_send_sms?
will return true
or false
.
# Opens as a modal in the current UIViewController
BW::SMS.compose (
{
delegate: self, # optional, will use root view controller by default
to: [ "1(234)567-8910" ],
message: "This is my message. It isn't very long.",
animated: false
}) {|result, error|
result.sent? # => boolean
result.canceled? # => boolean
result.failed? # => boolean
error # => NSError
}
Wrapper for showing and hiding the network indicator (the status bar spinner).
BW::NetworkIndicator.show # starts the spinner
BW::NetworkIndicator.hide # stops it
# the nice thing is if you call 'show' multiple times, the 'hide' method will
# not have any effect until you've called it the same number of times.
BW::NetworkIndicator.show
# ...somewhere else
BW::NetworkIndicator.show
# ...down the line
BW::NetworkIndicator.hide
# indicator is still visible
BW::NetworkIndicator.hide
# NOW the indicator is hidden!
# If you *really* want to hide the indicator immediately, you can call `reset!`
# but this is in no way encouraged.
BW::NetworkIndicator.reset!
# and for completeness, a check to see if the indicator is visible
BW::NetworkIndicator.visible?
Extra methods on UIView
for working with gesture recognizers. A gesture recognizer can be added using a normal Ruby block, like so:
view.when_tapped do
UIView.animateWithDuration(1,
animations:lambda {
# animate
# @view.transform = ...
})
end
There are similar methods for pinched
, rotated
, swiped
, panned
, and pressed
(for long presses). All of the methods return the actual recognizer object, so it is possible to set the delegate if more fine-grained control is needed.
In order to prevent retain cycles due to strong references within the passed block, use the use_weak_callbacks flag so the blocks do not retain a strong reference to self:
BubbleWrap.use_weak_callbacks = true
A custom method was added to UIViewController
to return the content
frame of a view controller.
Helper methods to give UIButton
a Ruby-like interface. Ex:
button.when(UIControlEventTouchUpInside) do
self.view.backgroundColor = UIColor.redColor
end
The #when
method also accepts bitwise combinations of events:
button.when(UIControlEventTouchUpInside | UIControlEventTouchUpOutside) do
self.view.backgroundColor = UIColor.redColor
end
You can use symbols for events (but won't work with the bitwise operator):
button.when(:touch_up_inside) do
self.view.backgroundColor = UIColor.redColor
end
button.when(:value_changed) do
self.view.backgroundColor = UIColor.blueColor
end
Set the use_weak_callbacks flag so the blocks do not retain a strong reference to self:
BubbleWrap.use_weak_callbacks = true
BW::UIBarButtonItem
is a subclass of UIBarButtonItem
with an natural Ruby syntax.
Instead specifying a target-action pair, each constructor method accepts an optional block. When the button is tapped, the block is executed.
BW::UIBarButtonItem.system(:save) do
# ...
end
title = "Friends"
BW::UIBarButtonItem.styled(:plain, title) do
# ...
end
image = UIImage.alloc.init
BW::UIBarButtonItem.styled(:bordered, image) do
# ...
end
image = UIImage.alloc.init
landscape = UIImage.alloc.init
BW::UIBarButtonItem.styled(:bordered, image, landscape) do
# ...
end
view = UIView.alloc.init
BW::UIBarButtonItem.custom(view) do
# ...
end
# NOTE: The block is attached to the view as a single tap gesture recognizer.
The .new
constructor provides a flexible, builder-style syntax.
options = { :system => :save }
BW::UIBarButtonItem.new(options) do
# ...
end
options = { :styled => :plain, :title => "Friends" }
BW::UIBarButtonItem.new(options) do
# ...
end
options = { :styled => :bordered, :image => UIImage.alloc.init }
BW::UIBarButtonItem.new(options) do
# ...
end
options = {
:styled => :bordered,
:image => UIImage.alloc.init,
:landscape => UIImage.alloc.init
}
BW::UIBarButtonItem.new(options) do
# ...
end
options = { :custom => UIView.alloc.init }
BW::UIBarButtonItem.new(options) do
# ...
end
# NOTE: The block is attached to the view as a single tap gesture recognizer.
The .styled
button types are:
:plain
:bordered
:done
And the .system
button types are:
:done
:cancel
:edit
:save
:add
:flexible_space
:fixed_space
:compose
:reply
:action
:organize
:bookmarks
:search
:refresh
:stop
:camera
:trash
:play
:pause
:rewind
:fast_forward
:undo
:redo
:page_curl
BW::UIActivityViewController
is a subclass of UIActivityViewController
with an natural Ruby syntax.
You can initiate a UIActivityViewController
with or without a completion handler block. For more information on UIActivityViewController
s, see Apple's documentation.
# Without a completion handler
BW::UIActivityViewController.new(
items: "Some Text", # or ["Some Text", NSURL.URLWithString('http://www.rubymotion.com')] or a UIImage
animated: true, # Defaults to true
excluded: :add_to_reading_list # One item or an array
)
# With completion handler
BW::UIActivityViewController.new(
items: "Some Text",
animated: true,
excluded: [:add_to_reading_list, :print, :air_drop]
) do |activity_type, completed|
puts "completed with activity: #{activity_type} - finished?: #{completed}"
end
Built in activities that can be passed to the excluded
option are defined as UIActivity
class UIActivityType
constants:
:post_to_facebook
:post_to_twitter
:post_to_weibo
:message
:mail
:print
:copy_to_pasteboard
:assign_to_contact
:save_to_camera_roll
:add_to_reading_list
:post_to_flickr
:post_to_vimeo
:post_to_tencent_weibo
:air_drop
Since: > version 1.0.0
The RSS Parser provides an easy interface to consume RSS feeds in an asynchronous (non blocking) way.
feed_parser = BW::RSSParser.new("http://feeds2.feedburner.com/sdrbpodcast")
feed_parser.parse do |item|
# called asynchronously as items get parsed
p item.title
end
The yielded RSS item is of type RSSParser::RSSItem
and has the
following attributes:
- title
- description
- link
- guid
- pubDate
- enclosure
The item can be converted into a hash by calling to_hash
on it.
Since: > version 1.0.0
You can also designate a delegate to the parser and implement change state callbacks:
feed_parser = BW::RSSParser.new("http://feeds.feedburner.com/sdrbpodcast")
feed_parser.delegate = self
feed_parser.parse do |item|
p item.title
end
# Delegate method
def when_parser_initializes
p "The parser is ready!"
end
def when_parser_parses
p "The parser started parsing the document"
end
def when_parser_is_done
p "The feed is entirely parsed, congratulations!"
end
def when_parser_errors
p "The parser encountered an error"
ns_error = feed_parser.parserError
p ns_error.localizedDescription
end
These delegate methods are optional, however, you might find the
when_parser_is_done
callback useful if you collected all the items and
want to process all at once for instance.
You have the choice to initialize a parser instance with a string
representing an URL, an instance of NSURL
or my specifying that the
passed param is some data to parse directly.
# string representing an url:
feed_parser = BW::RSSParser.new("http://feeds2.feedburner.com/sdrbpodcast")
# a NSURL instance:
url = NSURL.alloc.initWithString("http://matt.aimonetti.net/atom.xml")
feed_parser = BW::RSSParser.new(url)
# Some data
feed = File.read('atom.xml')
feed_parser = BW::RSSParser.new(feed, true)
Since: > version 1.0.0
BW::Reactor
is a simplified, mostly complete implementation of
the Event Machine API. In fact
BW::Reactor
is aliased to EM
in the runtime environment.
BubbleWrap provides both a Deferrable
mixin and a DefaultDeferrable
class, which simply mixes in deferrable behaviour if you don't want to
implement your own.
A deferrable is an object with four states: unknown, successful, failure and timeout. When you initially create a deferrable it is in an unknown state, however you can assign callbacks to be run when the object changes to either successful or failure state.
Using delegate
, errback_delegate
and callback_delegate
you can link
deferrables together.
By default, callbacks will be made on the thread that the deferrable succeeds/fails on. For multithreaded environments, it can be useful to use EM::ThreadAwareDeferrable so that callbacks will be made on the threads they are declared on.
> d = EM::DefaultDeferrable.new
=> #<BW::Reactor::DefaultDeferrable:0x6d859a0>
> d.callback { |what| puts "Great #{what}!" }
=> [#<Proc:0x6d8a1e0>]
> d.succeed "justice"
Great justice!
=> nil
> d = EM::DefaultDeferrable.new
=> #<BW::Reactor::DefaultDeferrable:0x8bf3ee0>
> d.errback { |what| puts "Great #{what}!" }
=> [#<Proc:0x8bf3ef0>]
> d.fail "sadness"
Great sadness!
=> nil
> d = EM::DefaultDeferrable.new
=> #<BW::Reactor::DefaultDeferrable:0x8bf3ee0>
> delegate = EM::DefaultDeferrable.new
=> #<BW::Reactor::DefaultDeferrable:0x8bf5910>
> d.delegate delegate
=> #<BW::Reactor::DefaultDeferrable:0x8bf3ee0>
> delegate.callback { |*args| puts args }
=> [#<Proc:0x8bf3ef0>]
> d.succeed :passed
=> nil
=> [:passed]
DependentDeferrable
depends on children deferrables. A DependentDeferrable
succeeds only when every child succeeds and fails immediately when any child
fails
> d1 = EM::DefaultDeferrable.new
=> #<BubbleWrap::Reactor::DefaultDeferrable:0x10c713750>
> d2 = EM::DefaultDeferrable.new
=> #<BubbleWrap::Reactor::DefaultDeferrable:0x10370bb10>
> d = EM::DependentDeferrable.on(d1, d2)
=> #<BubbleWrap::Reactor::DependentDeferrable:0x106c17b80>
> d.callback {|a, b| puts "a: #{a} b: #{b}"}
=> [#<Proc:0x103075210>]
> d1.succeed 'one', 'one more'
> d2.succeed :two
a: ["one", "one more"] b: [:two]
> d = EM::ThreadAwareDeferrable.new
=> #<BW::Reactor::ThreadAwareDeferrable:0x8bf3ee0>
> queue = Dispatch::Queue.new(:deferrable.to_s)
> queue.async do
> d.callback do |*args|
> Dispatch::Queue.current == queue
> => true # this is normally false
> end
> end
> d.succeed true
> d = EM::DefaultDeferrable.new
=> #<BW::Reactor::DefaultDeferrable:0x8bf5910>
> d.errback { puts "Great scott!" }
=> [#<Proc:0x8bf6350>]
> d.timeout 2
=> #<BW::Reactor::Timer:0x6d920a0 @timer=#<__NSCFTimer:0x6d91990>>
# wait...
> Great scott!
All timers can be cancelled using EM.cancel_timer
.
> EM.add_timer 1.0 do
> puts "Great scott!"
> end
=> 146335904
> Great scott!
> count = 0
=> 0
> timer = EM.add_periodic_timer 1.0 do
> count = count + 1
> puts "Great scott!"
> (count < 10) || EM.cancel_timer(timer)
> end
=> 146046832
> Great scott!
Great scott!
Great scott!
Great scott!
Great scott!
Great scott!
Great scott!
Great scott!
Great scott!
Great scott!
You can use EM.schedule
to schedule blocks to be executed
asynchronously. BubbleWrap deviates from the EventMachine
API here in that it also provides EM.schedule_on_main
which
makes sure that the task is run asynchronously, but on the
application's main thread - this is necessary if you are
updating the user interface.
> EM.schedule { puts Thread.current.object_id }
146027920
=> nil
> EM.schedule_on_main { puts Thread.current.object_id }
112222480
=> nil
You can also use EM.defer
in much the same way as EM.schedule
with one important difference, you can pass in a second proc
which will be called when the first has completed, and be passed
it's result as an argument. Just like EM.schedule
, EM.defer
also has an EM.defer_on_main
version.
> operation = proc { 88 }
=> #<Proc:0x6d763c0>
> callback = proc { |speed| puts speed >= 88 ? "Time travel!" : "Conventional travel!" }
=> #<Proc:0x8bd3910>
> EM.defer(operation, callback)
=> nil
Time travel!
Although not part of the EventMachine API, BubbleWrap provides
an Eventable
mixin for use instrumenting objects with simple
event triggering behaviour. BW::Reactor
uses this
behind the scenes in several places, and as it's a very handy
idiom it is available as a public API.
> o = Class.new { include EM::Eventable }.new
=> #<#<Class:0xab63f00>:0xab64430>
> o.on(:november_5_1955) { puts "Ow!" }
=> [#<Proc:0xad9bf00>]
> flux = proc{ puts "Flux capacitor!" }
=> #<Proc:0xab630f0>
> o.on(:november_5_1955, &flux)
=> [#<Proc:0xad9bf00>, #<Proc:0xab630f0>]
> o.trigger(:november_5_1955)
Ow!
Flux capacitor!
=> [nil, nil]
> o.off(:november_5_1955, &flux)
=> #<Proc:0xab630f0>
> o.trigger(:november_5_1955)
Ow!
=> [nil]
> o.on(:november_5_1955) { puts "Ow!" }
> o.on(:november_5_1955) { puts "Another Ow!" }
> o.off(:november_5_1955)
=> nil
Do you have a suggestion for a specific wrapper? Feel free to open an issue/ticket and tell us about what you are after. If you have a wrapper/helper you are using and are thinking that others might enjoy, please send a pull request with tests. If you need help writing the tests, send the pull request anyways and we'll try to help you out with that.
- Create an issue in GitHub to make sure your PR will be accepted
- Fork the BubbleWrap repository
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Write tests for your changes and ensure they pass locally (
bundle exec rake spec && bundle exec rake spec osx=true
) - Push to the branch (
git push origin my-new-feature
) - Create new Pull Request