CSC/ECE 517 Spring 2014/ch1 1w1d mm: Difference between revisions

From Expertiza_Wiki
Jump to navigation Jump to search
No edit summary
No edit summary
Line 185: Line 185:
     2.Use a record separator in order to differentiate between two objects.
     2.Use a record separator in order to differentiate between two objects.


<code>Binary Serialization Example </code>
'''Binary Serialization Example:'''


<code>
<nowiki>
    #Serialization using Marshal
#Serialization using Marshal


class Animal
class Animal
Line 209: Line 209:
   deserialize_cat= Marshal::load(serialize_cat) #deserializes the cat object and loads it back into deserialize_cat
   deserialize_cat= Marshal::load(serialize_cat) #deserializes the cat object and loads it back into deserialize_cat
   puts "\nAfter Deserialization\n #{deserialize_cat}"
   puts "\nAfter Deserialization\n #{deserialize_cat}"
</code>
</nowiki>


'''Output:'''
'''Output:'''
<code>
<code>
Before Serialization
Before Serialization
In Cat C: Kitty Kat 5
In Cat C: Kitty Kat 5


After Serialization:
After Serialization:
oCat:
oCat:
@nameI"Kitty Kat:ET: @agei
@nameI"Kitty Kat:ET: @agei


After Deserialization
After Deserialization
In Cat C: Kitty Kat 5
 
In Cat C: Kitty Kat 5
</code>
</code>



Revision as of 21:05, 10 February 2014

Serialization

Serialization[1] is a process of converting a data structure or an object into a stream of bytes or string to facilitate storage in memory, file(persistence storage) or transmission over a network. The process of Serialization is also referred to as Marshalling[2]. The stream of data has to be in a format that can be understood by both ends of a communication channel so that the object can be marshaled and reconstructed easily.

Basic Advantages of Serialization:

1. Communication between two or more processes on same machine. Object state can be saved and shared in a persistent or in-memory store.

2. Communication between processes on different machines. Serialization facilitates the transmission of an object through a network.

3. Creating a clone of an object.

4. Cross-platform compatibility. Object can be serialized in a common format that is understood by multiple platforms. Eg. JSON, XML.


De-serialization is the process of converting the stream of bytes or string back to objects in memory. It is the process of reconstructing the object later.This process of de-serialization is also referred to as Unmarshalling.


Few Practical Applications for Serialization

1. HTTP Session Replication by sharing session objects across web servers for handling failover scenarios

2. Serialization facilitates communication in Remote Method Invocation or Remote procedure calls

3. Rails Cookie Handling. Cookies are stored marshalled/unmarshalled to and from client machines.


Serialization in Ruby:

Ruby supplies serialization capabilities through its module, Marshal. There are also some other libraries like YAML and JSON which can be used in Ruby to generate serialization for purposes like platform independence and human readable formats.

Types of Serialization

Serialization in Ruby can be done in two ways. During serialization, the object in memory can be converted into Human Readable formats like YAML (YAML Ain’t Markup Language) and JSON (JavaScript Object Notation), or the object can be converted into binary format.

Converting Ruby Objects in Human Readable Formats

The conversion of Ruby objects into YAML and JSON formats are explained below.

Converting Ruby Objects to YAML format

YAML[3] format is a human friendly data serialization standard for all programming languages. YAML (YAML Ain't Markup Language) is perhaps the most common form of serialization in Ruby applications. It is used for configuration files in Rails and other projects, and is nearly ubiquitous. YAML is a plaintext format, as opposed to Marshal's[4] binary format. Objects stored as YAML are completely transparent and editable with nothing more than a text editor. It also has a simple, spartan syntax that's easy to look at and easy to type. It is not encumbered by excessive wordage and symbols seen in XML. In order to use it in Ruby, the yaml.rb file is required to be loaded, using the "require" keyword, which provides methods for converting objects into yaml format and creating .yml files.

Examples of serialization using YAML:


    #Serialization using YAML's to_yaml method
 
  require "yaml"
     class First
     def initialize(name, age, country)
	@name = name
	@age = age
	@country=country
     end
      def to_s
	"In First:\n#{@name}, #{@age}, #{@country}\n"
     end
   end
 
  x = First.new("Tom", 25, "USA")
  puts x
  puts x.to_yaml


Output:

In First:

Tom, 25, USA

--- !ruby/object:First

name: Tom

age: 25

country: USA

The above code displays the object x, first as a string and then in the yaml format.

Saving YAML data into a file:

 # Serialization using YAML::dump

require 'yaml'

f = File.open( 'first.yml', 'w' )
YAML.dump( ["Tom", 25, "USA"], f )
f.close
		
File.open( 'first.yml' ){ |f|	
    $arr= YAML.load(f)
}	

p( $arr )


Output:

["Tom", 25, "USA"]


The dump function can be used to serialize the data and save it into a file in YAML format. As shown in the above example the data in YAML format can be de-serialized using the load function.

YAML libraries also provides an option of selecting only those variables of the object that are needed to be serialized. This is done using the to_yaml_properties method as shown in the below example.


   #Custom Serialization using YAML
 
  require "yaml"
     class First
     def initialize(name, age, country)
	@name = name
	@age = age
	@country=country
     end
     def to_s
	"In First:\n#{@name}, #{@age}, #{@country}\n"
     end
      def to_yaml_properties
	   ["@name","@age"]  #@country will not be serialized
     end
   end
 
  x = First.new("Tom", 25, "USA")
  puts x
  puts x.to_yaml
  

Output:

In First:

Tom, 25, USA

--- !ruby/object:First

name: Tom

age: 25


Converting Ruby Objects to JSON format:

JSON[5] is a light-weight data interchange format. JSON is typically generated by web applications and can be quite daunting, with deep hierarchies that are difficult to navigate. Any Ruby object can easily be serialized into JSON format. On Ruby 1.8.7, you'll need to install a gem. However, in Ruby 1.9.2, the json gem is bundled with the core Ruby distribution. So, if you're using 1.9.2, you're probably all set. If you're on 1.8.7, you'll need to install a gem.[6] The JSON library can be installed using Ruby Gems[7] like shown below:

# gem install json

We can create a JSON string for serialization by using the JSON.generate method as below:

       require 'json'
       my_hash = {:Welcome => "Ruby"}
       puts JSON.generate(my_hash) => "{\"WELCOME\":\"RUBY\"}"

Output:

{"{\"Welcome\":\"Ruby\"}"=>"{\"WELCOME\":\"RUBY\"}"}

We can parse the JSON string received from another program by using JSON.parse Ruby thus converts String to Hash.

       require 'json'
       my_hash = JSON.parse('{"Welcome": "Ruby"}')
       puts my_hash["Welcome"] => "Ruby"

Converting Ruby Objects to Binary Formats

Binary Serialization is another form of serialization in Ruby which is not in human readable form. Binary Serialization is used when high performance serialization and de-serialization process is required and when the contents are not required to be in readable format. Binary Serialization is done using Marshal[8] which is built into Ruby and the code for it is written in Ruby's Marshal module(marshal.c) and thus no additional files are required in order to use it. The _dump and _load methods defined in marshal are used for serialization. Although it has some exceptions, as the Marshal module's document says "If the objects to be dumped include bindings, procedure or method objects, instances of class IO, or singleton objects, a TypeError will be raised."

Since the Binary Serialized data is not in human readable form, there are two essential guidelines that need to be followed. They are :

    1.Use print[9] instead of puts[10] when serialized objects are written to a file in order to avoid new line characters to be written 
      in the file.
    
    2.Use a record separator in order to differentiate between two objects.

Binary Serialization Example:

#Serialization using Marshal class Animal def initialize name, age @name = name @age=age end end class Cat < Animal def to_s "In Cat C: #{@name} \t #{@age}" end end c = Cat.new("Kitty Kat",5) puts "Before Serialization" puts c #puts d serialize_cat= Marshal.dump(c) #dumps the serialized cat object into serialize_cat puts "\nAfter Serialization:\n #{serialize_cat}" deserialize_cat= Marshal::load(serialize_cat) #deserializes the cat object and loads it back into deserialize_cat puts "\nAfter Deserialization\n #{deserialize_cat}"

Output:

Before Serialization

In Cat C: Kitty Kat 5


After Serialization:

oCat: @nameI"Kitty Kat:ET: @agei


After Deserialization

In Cat C: Kitty Kat 5

Serialization in OOLS Languages: Comparison

Sl.No Ruby Java .Net Framework C++
1 Ruby provides a built in module called Marshal for serialization Java uses an Interface named Serializable interface for classes to implement .Net provides a Serializable Attribute Although, there is no built in support for serialization in C++, it can be achieved by using Boost libraries
2 The built in module of Ruby (Marshal) does not support platform independence, however, it can be achieved by using external libraries like YAML and JSON Similarly, Java's built in serialization is also not platform independent and in order to use serialization in Java across Ruby platform, jruby library should be used. .Net used Remoting technology to make it platform independent. Serialization using the Boost libraries is not platform independent.
3 YAML provides a method (to_yaml_properties) which can be used to select the variables who's value is need to be serialized. With Marshal, we need to write a method named marshal_dump defining the variables of an object that has to be serialized. Provides an option for serializing only the required attributes to be serialized for an object. Use the keyword Transient to ignore certain data that doesn’t need to be serialized XML Serializer sets XmlIgnoreProperty to true to ignore the default serialization of a field or a property Serialization using the Boost libraries is custom and thus the user can specify the part of the objects to be serialized.

See Also

1. Serialization in Ruby JSON

2. Serialization in Rails

3. Article on Rails Serialization

References

1. Serilization in General

2. YAML

3. JSON

4. Serializing and De-serializing in Ruby

5. Serialization and De-serialization

6. Marshal

7. Object Serialization Techniques

8. XML Serialization

9. Java Serialization

10.Serialization in .Net

11.JSON

12.Serialization in Ruby YAML

13.Installing JSON gem