What is the best explanation for Ruby blocks that you can share?

Both usage and writing code that can take a block?

  • 1
    Are you looking for an introduction to the concept of blocks, or an exhaustive reference on them?
    – Phrogz
    Feb 6, 2011 at 19:21
  • 17
    Or are you just trolling for rep by asking questions that you don't need the answers to, don't intend to accept, and don't intend to even participate in the discussion of? We'll see if you reply.
    – Phrogz
    Feb 6, 2011 at 19:22
  • This is a useful thread: reactive.io/tips/2008/12/21/…
    – Lucio
    Sep 21, 2015 at 23:18

7 Answers 7


I offer up my own explanation from this answer, slightly modified:

"Blocks" in Ruby are not the same as the general programming terms "code block" or "block of code".

Pretend for a moment that the following (invalid) Ruby code actually worked:

def add10( n )
  puts "#{n} + 10 = #{n+10}"

def do_something_with_digits( method )
  1.upto(9) do |i|

do_something_with_digits( add10 )
#=> "1 + 10 = 11"
#=> "2 + 10 = 12"
#=> "9 + 10 = 19"

While that code is invalid, its intent—passing some code to a method and having that method run the code—is possible in Ruby in a variety of ways. One of those ways is "Blocks".

A Block in Ruby is very, very much like a method: it can take some arguments and run code for those. Whenever you see foo{ |x,y,z| ... } or foo do |x,y,z| ... end, those are blocks that take three parameters and run the ... on them. (You might even see that the upto method above is being passed a block.)

Because Blocks are a special part of the Ruby syntax, every method is allowed to be passed a block. Whether or not the method uses the block is up to the method. For example:

def say_hi( name )
  puts "Hi, #{name}!"

say_hi("Mom") do
  puts "YOU SUCK!"
#=> Hi, Mom!

The method above is passed a block that is ready to issue an insult, but since the method never calls the block, only the nice message is printed. Here's how we call the block from a method:

def say_hi( name )
  puts "Hi, #{name}!"
  if block_given?
    yield( name )

say_hi("Mridang") do |str|
  puts "Your name has #{str.length} letters."
#=> Hi, Mridang!
#=> Your name has 7 letters.

We use block_given? to see whether or not a block was passed along or not. In this case we passed an argument back to the block; it's up to your method to decide what to pass to the block. For example:

def say_hi( name )
  puts "Hi, #{name}!"
  yield( name, name.reverse ) if block_given?

say_hi("Mridang"){ |str1, str2| puts "Is your name #{str1} or #{str2}?" }
#=> Hi, Mridang!
#=> Is your name Mridang or gnadirM?

It's just a convention (and a good one, and one you want to support) for some classes to pass the instance just created to the block.

This is not an exhaustive answer, as it does not cover capturing blocks as arguments, how they handle arity, un-splatting in block parameters, etc. but intends to serve as a Blocks-Are-Lambdas intro.

  • Surprised to see, there are only 29(including mine) upvotes for the answer in more than 7 years. The concept can be known. But the way you explain, "KUDOS!". Definitely recommended for beginners. Apr 19, 2018 at 12:18

Ruby blocks are a way of creating Proc objects which represent code that can be used by other code. Proc objects are instructions between curly braces {} (or do...end phrases for multiline blocks, which have lower precedence than curly braces) which may optionally take arguments and return values (e.g. {|x,y| x+y}). Procs are first-class objects and can be constructed explicitly or attained implicitly as method pseudo-arguments:

  1. Construction as a Proc object (or using the lambda keyword):

    add1 = Proc.new {|x| x+1} # Returns its argument plus one.
    add1.call(1) # => 2
  2. Passed as a method pseudo argument, either explicitly using the special & last-argument syntax sugar operator or implicitly using a block_given?/yield pair:

    def twice_do(&proc) # "proc" is the block given to a call of this method.
      2.times { proc.call() } if proc
    twice_do { puts "OK" } # Prints "OK" twice on separate lines.
    def thrice_do() # if a block is given it can be called with "yield".
      3.times { yield } if block_given?
    thrice_do { puts "OK" } # Prints "OK" thrice on separate lines.

The second form is typically used for Visitor patterns; data can be passed to the special block arguments as arguments to the call or yield methods.

  • 4
    Braces have a high precedence; do has a low precedence. If the method invocation has parameters that are not enclosed in parentheses, the brace form of a block will bind to the last parameter, not to the overall invocation. The do form will bind to the invocation.
    – Green
    Apr 5, 2013 at 23:22
  • 2
    English, please! ......"Ruby blocks are syntax literals for Proc objects...." - if people don't know what a block is, I am guessing they won't know what "syntax literals for Proc objects" means either. try to explain as if readers were 5 years old.
    – BenKoshy
    Oct 21, 2015 at 21:07
  • What is a syntax literal? Nov 18, 2015 at 3:55
  • 1
    @DerrickMar: by "syntax literal" i meant essentially "the arrangement of language tokens in their most basic sense". For example, in JavaScript, the sequence of characters /\d+/ is a syntax literal meaning "a regular expression matching one or more digits". Similarly, blocks are a direct way of defining procedures in Ruby which can be passed around as first-class objects (arguments-to and return-values-from other methods and procedures in Ruby).
    – maerics
    Nov 18, 2015 at 4:44

From Why's (poignant) guide to ruby:

Any code surrounded by curly braces is a block.

2.times { print "Yes, I've used chunky bacon in my examples, but never again!" } is an example.

With blocks, you can group a set of instructions together so that they can be passed around your program. The curly braces give the appearance of crab pincers that have snatched the code and are holding it together. When you see these two pincers, remember that the code inside has been pressed into a single unit. It’s like one of those little Hello Kitty boxes they sell at the mall that’s stuffed with tiny pencils and microscopic paper, all crammed into a glittery transparent case that can be concealed in your palm for covert stationary operations. Except that blocks don’t require so much squinting. The curly braces can also be traded for the words do and end, which is nice if your block is longer than one line.

loop do
  print "Much better."    
  print "Ah. More space!"
  print "My back was killin' me in those crab pincers."

Block arguments are a set of variables surrounded by pipe characters and separated by commas.

|x|, |x,y|, and |up, down, all_around| are examples.

Block arguments are used at the beginning of a block.

{ |x,y| x + y }

In the above example, |x,y| are the arguments. After the arguments, we have a bit of code. The expression x + y adds the two arguments together. I like to think of the pipe characters as representing a tunnel. They give the appearance of a chute that the variables are sliding down. (An x goes down spread eagle, while the y neatly crosses her legs.) This chute acts as a passageway between blocks and the world around them. Variables are passed through this chute (or tunnel) into the block.

  • 18
    "Any code surrounded by curly braces is a block" unless it is a hash.
    – Meltemi
    May 9, 2011 at 19:53
  • 1
    You don't explain what these examples return. I don't get it. Jul 28, 2014 at 23:17
  • Please be my tutor! Thank you for explaining it in such a straightforward and clear way.
    – Benjamints
    Jul 14, 2017 at 19:51

For anybody coming to this question from a C# background (or other langs really), this might help:

Ruby blocks are like lambda expressions and anonymous methods in C#. They are what C# calls delegates (and Ruby calls Procs), which is to say that they are essentially functions that can be passed as values. In both Ruby and C#, they can also behave as closures.

Ruby: { |x| x + 1 }

C#: x => x + 1

Ruby: { |name| puts "Hello there #{name}" }

C#: name => { Console.WriteLine("Hello there {0}", name); }

Both C# and Ruby offer alternative ways to write the above example.


do |name|
   puts "Hello there #{name}"


delegate(string name)
   Console.WriteLine("Hello there {0}", name);

In both Ruby and C#, multiple statements are allowed, In Ruby, the second syntax above is required for this.

These concepts are available in many other languages that have been influenced by the ideas behind functional programming.


The book "Programming Ruby" has a great explanation of blocks and using them.

In 1.9+, the parameter list passed into a block became more sophisticated, allowing local variables to be defined:

do |a,b;c,d| 

;c,d declare two new local variables inside the block, that do not receive values from the called-routine's yield statement. Ruby 1.9+ guarantees that, if the variables existed outside the block, that they will not be stomped on by the same-named variables inside the block. This is new behavior; 1.8 would stomp on them.

def blah
  yield 1,2,3,4

c = 'foo'
d = 'bar'

blah { |a, *b; c,d|
  c = 'hello'
  d = 'world'
  puts "a: #{a}", "b: #{b.join(',')}", "c: #{c}", "d: #{d}" 

puts c, d
# >> a: 1
# >> b: 2,3,4
# >> c: hello
# >> d: world
# >> foo
# >> bar

There's also the "splat" operator *, which works in the list of parameters:

do |a,*b| 

Would assign the first of multiple values to "a", and all the rest would be captured in "b" which would be treated like an array. The * could be on the a variable:

do |*a,b| 

would capture all passed in variables except the last one, which would be passed to b. And, similarly to the two previous:

do |a,*b,c| 

would assign the first value to a, the last value to c and all/any intervening values to b.

I think that's pretty powerful and slick.

For instance:

def blah
  yield 1,2,3,4

blah { |a, *b| puts "a: #{a}", "b: #{b.join(',')}" }
# >> a: 1
# >> b: 2,3,4

blah { |*a, b| puts "a: #{a.join(',')}", "b: #{b}" }
# >> a: 1,2,3
# >> b: 4

blah { |a, *b, c| puts "a: #{a}", "b: #{b.join(',')}", "c: #{c}" }
# >> a: 1
# >> b: 2,3
# >> c: 4

Blocks are lightweight literals for anonymous first-class procedures with some annoying limitations. They work the same way in Ruby as they work in pretty much every other programming language, modulo the afore-mentioned limitations, which are:

  • blocks can only appear in argument lists
  • at most one block can appear in an argument list (and it must be the last argument)
  • Good answer but the relationship to Proc objects seems essential, no?
    – maerics
    Feb 6, 2011 at 7:20
  • @maerics Essential to an exhaustive resource on Blocks? Yes. Essential to an explanation of blocks (which I interpret as being an introduction to them for the novice)? Definitely not, IMO.
    – Phrogz
    Feb 6, 2011 at 19:20
  • Thanks. Yours is the only answer that helped me understand why {puts "hello"} does not work. Not allowed at all? That's weird. Aug 15, 2015 at 19:45

Blocks are a way of grouping code in Ruby. There are two ways to write blocks. One is using the do..end statement and the other is surrounding the code in curly braces: {}. Blocks are considered objects in the Ruby programming language, and by default all functions accept an implicit block argument.

Here are two examples of blocks that do the same thing:

2.times { puts 'hi' }
2.times do
  puts 'hi'

Blocks can receive lists of comma-separated arguments inside vertical bars ||. For example:

[1,2].map{ |n| n+2 } # [3, 4]

Blocks (in ruby 1.9.2) can explicitly have local variables:

x = 'hello'
2.times do |;x|
  x = 'world'
  puts x

=> world
=> world

Local variables can be combined with parameters:

[1,2].map{ |n;x| n+2 }

All functions can receive a default block argument:

def twice

twice { puts 'hello' }
=> hello
=> hello

What is the difference between do..end and {} blocks? By convention {} blocks are on a single line and do..end blocks span multiple lines, since they are each easier to read this way. The main difference has to do with precedence though:

array = [1,2]

puts array.map{ |n| n*10 } # puts (array.map{ |n| n*10 })
=> 10
=> 20

puts array.map do |n| n*10 end # (puts array.map) do |n| n*10 end
=> <Enumerator:0x00000100862670>

Not the answer you're looking for? Browse other questions tagged or ask your own question.