When rubygems/test_case is required the default user interaction is a MockGemUi.
Module that defines the default UserInteraction. Any class including this module will have access to the ui method that returns the default UI.
Potentially raised when a specification is validated.
Represents an error communicating via HTTP.
Raised by Resolver when a dependency requests a gem for which there is no spec.
Keyword completion module. This allows partial arguments to be specified and resolved against a list of acceptable values.
Mixin methods for local and remote Gem::Command options.
An Encoding instance represents a character encoding usable in Ruby. It is defined as a constant under the Encoding namespace. It has a name and optionally, aliases:
Encoding::ISO_8859_1.name #=> "ISO-8859-1" Encoding::ISO_8859_1.names #=> ["ISO-8859-1", "ISO8859-1"]
Ruby methods dealing with encodings return or accept Encoding instances as arguments (when a method accepts an Encoding instance as an argument, it can be passed an Encoding name or alias instead).
"some string".encoding #=> #<Encoding:UTF-8> string = "some string".encode(Encoding::ISO_8859_1) #=> "some string" string.encoding #=> #<Encoding:ISO-8859-1> "some string".encode "ISO-8859-1" #=> "some string"
Encoding::ASCII_8BIT is a special encoding that is usually used for a byte string, not a character string. But as the name insists, its characters in the range of ASCII are considered as ASCII characters. This is useful when you use ASCII-8BIT characters with other ASCII compatible characters.
The associated Encoding of a String can be changed in two different ways.
First, it is possible to set the Encoding of a string to a new Encoding without changing the internal byte representation of the string, with String#force_encoding. This is how you can tell Ruby the correct encoding of a string.
string #=> "R\xC3\xA9sum\xC3\xA9" string.encoding #=> #<Encoding:ISO-8859-1> string.force_encoding(Encoding::UTF_8) #=> "R\u00E9sum\u00E9"
Second, it is possible to transcode a string, i.e. translate its internal byte representation to another encoding. Its associated encoding is also set to the other encoding. See String#encode for the various forms of transcoding, and the Encoding::Converter class for additional control over the transcoding process.
string #=> "R\u00E9sum\u00E9" string.encoding #=> #<Encoding:UTF-8> string = string.encode!(Encoding::ISO_8859_1) #=> "R\xE9sum\xE9" string.encoding #=> #<Encoding::ISO-8859-1>
All Ruby script code has an associated Encoding which any String literal created in the source code will be associated to.
The default script encoding is Encoding::UTF-8 after v2.0, but it can be changed by a magic comment on the first line of the source code file (or second line, if there is a shebang line on the first). The comment must contain the word coding or encoding, followed by a colon, space and the Encoding name or alias:
# encoding: UTF-8 "some string".encoding #=> #<Encoding:UTF-8>
The __ENCODING__ keyword returns the script encoding of the file which the keyword is written:
# encoding: ISO-8859-1 __ENCODING__ #=> #<Encoding:ISO-8859-1>
ruby -K will change the default locale encoding, but this is not recommended. Ruby source files should declare its script encoding by a magic comment even when they only depend on US-ASCII strings or regular expressions.
The default encoding of the environment. Usually derived from locale.
see Encoding.locale_charmap, Encoding.find(‘locale’)
The default encoding of strings from the filesystem of the environment. This is used for strings of file names or paths.
see Encoding.find(‘filesystem’)
Each IO object has an external encoding which indicates the encoding that Ruby will use to read its data. By default Ruby sets the external encoding of an IO object to the default external encoding. The default external encoding is set by locale encoding or the interpreter -E option. Encoding.default_external returns the current value of the external encoding.
ENV["LANG"] #=> "UTF-8" Encoding.default_external #=> #<Encoding:UTF-8> $ ruby -E ISO-8859-1 -e "p Encoding.default_external" #<Encoding:ISO-8859-1> $ LANG=C ruby -e 'p Encoding.default_external' #<Encoding:US-ASCII>
The default external encoding may also be set through Encoding.default_external=, but you should not do this as strings created before and after the change will have inconsistent encodings. Instead use ruby -E to invoke ruby with the correct external encoding.
When you know that the actual encoding of the data of an IO object is not the default external encoding, you can reset its external encoding with IO#set_encoding or set it at IO object creation (see IO.new options).
To process the data of an IO object which has an encoding different from its external encoding, you can set its internal encoding. Ruby will use this internal encoding to transcode the data when it is read from the IO object.
Conversely, when data is written to the IO object it is transcoded from the internal encoding to the external encoding of the IO object.
The internal encoding of an IO object can be set with IO#set_encoding or at IO object creation (see IO.new options).
The internal encoding is optional and when not set, the Ruby default internal encoding is used. If not explicitly set this default internal encoding is nil meaning that by default, no transcoding occurs.
The default internal encoding can be set with the interpreter option -E. Encoding.default_internal returns the current internal encoding.
$ ruby -e 'p Encoding.default_internal' nil $ ruby -E ISO-8859-1:UTF-8 -e "p [Encoding.default_external, \ Encoding.default_internal]" [#<Encoding:ISO-8859-1>, #<Encoding:UTF-8>]
The default internal encoding may also be set through Encoding.default_internal=, but you should not do this as strings created before and after the change will have inconsistent encodings. Instead use ruby -E to invoke ruby with the correct internal encoding.
IO encoding example In the following example a UTF-8 encoded string “Ru00E9sumu00E9” is transcoded for output to ISO-8859-1 encoding, then read back in and transcoded to UTF-8:
string = "R\u00E9sum\u00E9" open("transcoded.txt", "w:ISO-8859-1") do |io| io.write(string) end puts "raw text:" p File.binread("transcoded.txt") puts open("transcoded.txt", "r:ISO-8859-1:UTF-8") do |io| puts "transcoded text:" p io.read end
While writing the file, the internal encoding is not specified as it is only necessary for reading. While reading the file both the internal and external encoding must be specified to obtain the correct result.
$ ruby t.rb raw text: "R\xE9sum\xE9" transcoded text: "R\u00E9sum\u00E9"
Raised when a feature is not implemented on the current platform. For example, methods depending on the fsync or fork system calls may raise this exception if the underlying operating system or Ruby runtime does not support them.
Note that if fork raises a NotImplementedError, then respond_to?(:fork) returns false.
EncodingError is the base class for encoding errors.
Use the Monitor class when you want to have a lock object for blocks with mutual exclusion.
require 'monitor' lock = Monitor.new lock.synchronize do # exclusive access end
Copyright © 2000-2007 Minero Aoki
This program is free software. You can distribute/modify this program under the same terms of ruby.
FileUtils Namespace for several file utility methods for copying, moving, removing, etc.
Module Functions require 'fileutils' FileUtils.cd(dir, options) FileUtils.cd(dir, options) {|dir| block } FileUtils.pwd() FileUtils.mkdir(dir, options) FileUtils.mkdir(list, options) FileUtils.mkdir_p(dir, options) FileUtils.mkdir_p(list, options) FileUtils.rmdir(dir, options) FileUtils.rmdir(list, options) FileUtils.ln(target, link, options) FileUtils.ln(targets, dir, options) FileUtils.ln_s(target, link, options) FileUtils.ln_s(targets, dir, options) FileUtils.ln_sf(target, link, options) FileUtils.cp(src, dest, options) FileUtils.cp(list, dir, options) FileUtils.cp_r(src, dest, options) FileUtils.cp_r(list, dir, options) FileUtils.mv(src, dest, options) FileUtils.mv(list, dir, options) FileUtils.rm(list, options) FileUtils.rm_r(list, options) FileUtils.rm_rf(list, options) FileUtils.install(src, dest, options) FileUtils.chmod(mode, list, options) FileUtils.chmod_R(mode, list, options) FileUtils.chown(user, group, list, options) FileUtils.chown_R(user, group, list, options) FileUtils.touch(list, options)
The options parameter is a hash of options, taken from the list :force, :noop, :preserve, and :verbose. :noop means that no changes are made. The other three are obvious. Each method documents the options that it honours.
All methods that have the concept of a “source” file or directory can take either one file or a list of files in that argument. See the method documentation for examples.
There are some ‘low level’ methods, which do not accept any option:
FileUtils.copy_entry(src, dest, preserve = false, dereference_root = false, remove_destination = false) FileUtils.copy_file(src, dest, preserve = false, dereference = true) FileUtils.copy_stream(srcstream, deststream) FileUtils.remove_entry(path, force = false) FileUtils.remove_entry_secure(path, force = false) FileUtils.remove_file(path, force = false) FileUtils.compare_file(path_a, path_b) FileUtils.compare_stream(stream_a, stream_b) FileUtils.uptodate?(file, cmp_list)
FileUtils::Verbose This module has all methods of FileUtils module, but it outputs messages before acting. This equates to passing the :verbose flag to methods in FileUtils.
FileUtils::NoWrite This module has all methods of FileUtils module, but never changes files/directories. This equates to passing the :noop flag to methods in FileUtils.
FileUtils::DryRun This module has all methods of FileUtils module, but never changes files/directories. This equates to passing the :noop and :verbose flags to methods in FileUtils.
In concurrent programming, a monitor is an object or module intended to be used safely by more than one thread. The defining characteristic of a monitor is that its methods are executed with mutual exclusion. That is, at each point in time, at most one thread may be executing any of its methods. This mutual exclusion greatly simplifies reasoning about the implementation of monitors compared to reasoning about parallel code that updates a data structure.
You can read more about the general principles on the Wikipedia page for Monitors
require 'monitor.rb' buf = [] buf.extend(MonitorMixin) empty_cond = buf.new_cond # consumer Thread.start do loop do buf.synchronize do empty_cond.wait_while { buf.empty? } print buf.shift end end end # producer while line = ARGF.gets buf.synchronize do buf.push(line) empty_cond.signal end end
The consumer thread waits for the producer thread to push a line to buf while buf.empty?. The producer thread (main thread) reads a line from ARGF and pushes it into buf then calls empty_cond.signal to notify the consumer thread of new data.
Class include require 'monitor' class SynchronizedArray < Array include MonitorMixin def initialize(*args) super(*args) end alias :old_shift :shift alias :old_unshift :unshift def shift(n=1) self.synchronize do self.old_shift(n) end end def unshift(item) self.synchronize do self.old_unshift(item) end end # other methods ... end
SynchronizedArray implements an Array with synchronized access to items. This Class is implemented as subclass of Array which includes the MonitorMixin module.
The Singleton module implements the Singleton pattern.
To use Singleton, include the module in your class.
class Klass include Singleton # ... end
This ensures that only one instance of Klass can be created.
a,b = Klass.instance, Klass.instance a == b # => true Klass.new # => NoMethodError - new is private ...
The instance is created at upon the first call of Klass.instance().
class OtherKlass include Singleton # ... end ObjectSpace.each_object(OtherKlass){} # => 0 OtherKlass.instance ObjectSpace.each_object(OtherKlass){} # => 1
This behavior is preserved under inheritance and cloning.
This above is achieved by:
Making Klass.new and Klass.allocate private.
Overriding Klass.inherited(sub_klass) and Klass.clone() to ensure that the Singleton properties are kept when inherited and cloned.
Providing the Klass.instance() method that returns the same object each time it is called.
Overriding Klass._load(str) to call Klass.instance().
Overriding Klass#clone and Klass#dup to raise TypeErrors to prevent cloning or duping.
Singleton and Marshal By default Singleton’s _dump(depth) returns the empty string. Marshalling by default will strip state information, e.g. instance variables and taint state, from the instance. Classes using Singleton can provide custom _load(str) and _dump(depth) methods to retain some of the previous state of the instance.
require 'singleton' class Example include Singleton attr_accessor :keep, :strip def _dump(depth) # this strips the @strip information from the instance Marshal.dump(@keep, depth) end def self._load(str) instance.keep = Marshal.load(str) instance end end a = Example.instance a.keep = "keep this" a.strip = "get rid of this" a.taint stored_state = Marshal.dump(a) a.keep = nil a.strip = nil b = Marshal.load(stored_state) p a == b # => true p a.keep # => "keep this" p a.strip # => nil
define UnicodeNormalize module here so that we don’t have to look it up