- Ruby Basics
- Ruby - Home
- Ruby - Overview
- Ruby - Environment Setup
- Ruby - Syntax
- Ruby - Classes and Objects
- Ruby - Variables
- Ruby - Operators
- Ruby - Comments
- Ruby - IF...ELSE
- Ruby - Loops
- Ruby - Methods
- Ruby - Blocks
- Ruby - Modules
- Ruby - Strings
- Ruby - Arrays
- Ruby - Hashes
- Ruby - Date & Time
- Ruby - Ranges
- Ruby - Iterators
- Ruby - File I/O
- Ruby - Exceptions
- Ruby Advanced
- Ruby - Object Oriented
- Ruby - Regular Expressions
- Ruby - Database Access
- Ruby - Web Applications
- Ruby - Sending Email
- Ruby - Socket Programming
- Ruby - Ruby/XML, XSLT
- Ruby - Web Services
- Ruby - Tk Guide
- Ruby - Ruby/LDAP Tutorial
- Ruby - Multithreading
- Ruby - Built-in Functions
- Ruby - Predefined Variables
- Ruby - Predefined Constants
- Ruby - Associated Tools
- Ruby Useful Resources
- Ruby - Quick Guide
- Ruby - Useful Resources
- Ruby - Discussion
- Ruby - Ruby on Rails Tutorial
Ruby - Variables, Constants and Literals
Variables are the memory locations, which hold any data to be used by any program.
There are five types of variables supported by Ruby. You already have gone through a small description of these variables in the previous chapter as well. These five types of variables are explained in this chapter.
Ruby Global Variables
Global variables begin with $. Uninitialized global variables have the value nil and produce warnings with the -w option.
Assignment to global variables alters the global status. It is not recommended to use global variables. They make programs cryptic.
Here is an example showing the usage of global variable.
#!/usr/bin/ruby $global_variable = 10 class Class1 def print_global puts "Global variable in Class1 is #$global_variable" end end class Class2 def print_global puts "Global variable in Class2 is #$global_variable" end end class1obj = Class1.new class1obj.print_global class2obj = Class2.new class2obj.print_global
Here $global_variable is a global variable. This will produce the following result −
NOTE − In Ruby, you CAN access value of any variable or constant by putting a hash (#) character just before that variable or constant.
Global variable in Class1 is 10 Global variable in Class2 is 10
Ruby Instance Variables
Instance variables begin with @. Uninitialized instance variables have the value nil and produce warnings with the -w option.
Here is an example showing the usage of Instance Variables.
#!/usr/bin/ruby class Customer def initialize(id, name, addr) @cust_id = id @cust_name = name @cust_addr = addr end def display_details() puts "Customer id #@cust_id" puts "Customer name #@cust_name" puts "Customer address #@cust_addr" end end # Create Objects cust1 = Customer.new("1", "John", "Wisdom Apartments, Ludhiya") cust2 = Customer.new("2", "Poul", "New Empire road, Khandala") # Call Methods cust1.display_details() cust2.display_details()
Here, @cust_id, @cust_name and @cust_addr are instance variables. This will produce the following result −
Customer id 1 Customer name John Customer address Wisdom Apartments, Ludhiya Customer id 2 Customer name Poul Customer address New Empire road, Khandala
Ruby Class Variables
Class variables begin with @@ and must be initialized before they can be used in method definitions.
Referencing an uninitialized class variable produces an error. Class variables are shared among descendants of the class or module in which the class variables are defined.
Overriding class variables produce warnings with the -w option.
Here is an example showing the usage of class variable −
#!/usr/bin/ruby class Customer @@no_of_customers = 0 def initialize(id, name, addr) @cust_id = id @cust_name = name @cust_addr = addr end def display_details() puts "Customer id #@cust_id" puts "Customer name #@cust_name" puts "Customer address #@cust_addr" end def total_no_of_customers() @@no_of_customers += 1 puts "Total number of customers: #@@no_of_customers" end end # Create Objects cust1 = Customer.new("1", "John", "Wisdom Apartments, Ludhiya") cust2 = Customer.new("2", "Poul", "New Empire road, Khandala") # Call Methods cust1.total_no_of_customers() cust2.total_no_of_customers()
Here @@no_of_customers is a class variable. This will produce the following result −
Total number of customers: 1 Total number of customers: 2
Ruby Local Variables
Local variables begin with a lowercase letter or _. The scope of a local variable ranges from class, module, def, or do to the corresponding end or from a block's opening brace to its close brace {}.
When an uninitialized local variable is referenced, it is interpreted as a call to a method that has no arguments.
Assignment to uninitialized local variables also serves as variable declaration. The variables start to exist until the end of the current scope is reached. The lifetime of local variables is determined when Ruby parses the program.
In the above example, local variables are id, name and addr.
Ruby Constants
Constants begin with an uppercase letter. Constants defined within a class or module can be accessed from within that class or module, and those defined outside a class or module can be accessed globally.
Constants may not be defined within methods. Referencing an uninitialized constant produces an error. Making an assignment to a constant that is already initialized produces a warning.
#!/usr/bin/ruby class Example VAR1 = 100 VAR2 = 200 def show puts "Value of first Constant is #{VAR1}" puts "Value of second Constant is #{VAR2}" end end # Create Objects object = Example.new() object.show
Here VAR1 and VAR2 are constants. This will produce the following result −
Value of first Constant is 100 Value of second Constant is 200
Ruby Pseudo-Variables
They are special variables that have the appearance of local variables but behave like constants. You cannot assign any value to these variables.
self − The receiver object of the current method.
true − Value representing true.
false − Value representing false.
nil − Value representing undefined.
__FILE__ − The name of the current source file.
__LINE__ − The current line number in the source file.
Ruby Basic Literals
The rules Ruby uses for literals are simple and intuitive. This section explains all basic Ruby Literals.
Integer Numbers
Ruby supports integer numbers. An integer number can range from -230 to 230-1 or -262 to 262-1. Integers within this range are objects of class Fixnum and integers outside this range are stored in objects of class Bignum.
You write integers using an optional leading sign, an optional base indicator (0 for octal, 0x for hex, or 0b for binary), followed by a string of digits in the appropriate base. Underscore characters are ignored in the digit string.
You can also get the integer value, corresponding to an ASCII character or escape the sequence by preceding it with a question mark.
Example
123 # Fixnum decimal 1_234 # Fixnum decimal with underline -500 # Negative Fixnum 0377 # octal 0xff # hexadecimal 0b1011 # binary ?a # character code for 'a' ?\n # code for a newline (0x0a) 12345678901234567890 # Bignum
NOTE − Class and Objects are explained in a separate chapter of this tutorial.
Floating Numbers
Ruby supports floating numbers. They are also numbers but with decimals. Floating-point numbers are objects of class Float and can be any of the following −
Example
123.4 # floating point value 1.0e6 # scientific notation 4E20 # dot not required 4e+20 # sign before exponential
String Literals
Ruby strings are simply sequences of 8-bit bytes and they are objects of class String. Double-quoted strings allow substitution and backslash notation but single-quoted strings don't allow substitution and allow backslash notation only for \\ and \'
Example
#!/usr/bin/ruby -w puts 'escape using "\\"'; puts 'That\'s right';
This will produce the following result −
escape using "\" That's right
You can substitute the value of any Ruby expression into a string using the sequence #{ expr }. Here, expr could be any ruby expression.
#!/usr/bin/ruby -w puts "Multiplication Value : #{24*60*60}";
This will produce the following result −
Multiplication Value : 86400
Backslash Notations
Following is the list of Backslash notations supported by Ruby −
Notation | Character represented |
---|---|
\n | Newline (0x0a) |
\r | Carriage return (0x0d) |
\f | Formfeed (0x0c) |
\b | Backspace (0x08) |
\a | Bell (0x07) |
\e | Escape (0x1b) |
\s | Space (0x20) |
\nnn | Octal notation (n being 0-7) |
\xnn | Hexadecimal notation (n being 0-9, a-f, or A-F) |
\cx, \C-x | Control-x |
\M-x | Meta-x (c | 0x80) |
\M-\C-x | Meta-Control-x |
\x | Character x |
For more detail on Ruby Strings, go through Ruby Strings.
Ruby Arrays
Literals of Ruby Array are created by placing a comma-separated series of object references between the square brackets. A trailing comma is ignored.
Example
#!/usr/bin/ruby ary = [ "fred", 10, 3.14, "This is a string", "last element", ] ary.each do |i| puts i end
This will produce the following result −
fred 10 3.14 This is a string last element
For more detail on Ruby Arrays, go through Ruby Arrays.
Ruby Hashes
A literal Ruby Hash is created by placing a list of key/value pairs between braces, with either a comma or the sequence => between the key and the value. A trailing comma is ignored.
Example
#!/usr/bin/ruby hsh = colors = { "red" => 0xf00, "green" => 0x0f0, "blue" => 0x00f } hsh.each do |key, value| print key, " is ", value, "\n" end
This will produce the following result −
red is 3840 green is 240 blue is 15
For more detail on Ruby Hashes, go through Ruby Hashes.
Ruby Ranges
A Range represents an interval which is a set of values with a start and an end. Ranges may be constructed using the s..e and s...e literals, or with Range.new.
Ranges constructed using .. run from the start to the end inclusively. Those created using ... exclude the end value. When used as an iterator, ranges return each value in the sequence.
A range (1..5) means it includes 1, 2, 3, 4, 5 values and a range (1...5) means it includes 1, 2, 3, 4 values.
Example
#!/usr/bin/ruby (10..15).each do |n| print n, ' ' end
This will produce the following result −
10 11 12 13 14 15
For more detail on Ruby Ranges, go through Ruby Ranges.