Goby’s language design is based on Ruby language’s, slim and shaped up. Differences in syntax between them is very small.

Getting started

Hello world

hello.gb

class Greet
  attr_accessor :audience, :head, :tail
  
  def initialize
    @head = "Hello, "
    @tail = "!"
  end

  def name
    audience.name
  end

  def say
    puts head + name + tail
  end
end

module MyName
  attr_reader :name

  def initialize
    @name = self.class.to_s
  end
end

class World
  include MyName
end

greet = Greet.new
greet.audience = World.new
greet.say

Then run:

$ goby hello.gb
#=> Hello, World!

REPL (igb)

$ goby -i

See igb manual & test script. You can use readline features such as command history by arrow keys.

Variables

Local variable

zip101 = "233-7383"
magic_number = 42

Should be “[a-z][a-z0-9_]+“(snake_case).

Instance variable

module State
  def initialize(state)
    @state = state      # declaring an instance variable by assignment
  end
  def show
    @state              # accessible from other instance methods
  end
end

state = State.new "success"
state.show
#=> success

Should be “@[a-z][a-z0-9_]+“(snake_case).

Multiple assignment

# array literal
a, b, c = [1, 2, 3]

# array with '*'
a = [1, 2, 3]
x, y, z = *a

# array literal with '*'
a, b, c = *[1, 2, 3]

# bare assignment: unsupported
a, b, c = 1, 2, 3  #=> unexpected 3 Line: 0

Black hole variable

# '_' is write-only
a, _ = [1, 2]

Class variable

Unsupported.

Global variable

Unsupported.

Method definition

Method definition and calling

def foo_bar?(baz)
  if baz == "Hi, Goby!"
    true
  else
    false
  end
end

foo_bar? "Hi, Goby!" #=> true

Method name should be “[a-z][a-z0-9_]+\??” (snake_case). You can omit the trailing “()” only if no parameters are taken. Trailing using “!” is unsupported.

Order of method parameter

def foo(normal, default="value", hash={}, ary=[], keyword:, keyword_default:"key", *sprat)
end

If a default value is provided to a parameter, the parameter can be omitted when calling. () can be omitted. The order of parameters in method definition is restricted as follows:

  1. normal parameters (like a)
  2. normal parameters with default value (like a=1)
  3. optional parameters (array or hash, like ary=[] or hs={})
  4. keyword parameters (like kwd:)
  5. keyword parameters with default value (like kwd: 1 or ary: [1,2,3] or hsh: {key: "value"})
  6. splat parameters (like *sp)

Or you will receive an error.

Keyword parameter (WIP)

def foo(process:, verb: :GET, opt:{ csp: :enabled }, ary: [1, 2, 3])
end

Returning value

PI = 3.14
def area(radius)
  radius * PI      # returns the result of evaluation
end

area 6             #=> 18.84

Returning multiple value

def my_array
  [1, 2, 3]
end

my_array   #=> [1, 2, 3]

Instance method

module Foo
  def bar       # defining instance method
    puts "bar"
  end
  
  def baz(count, email: "[email protected]")
    count.times do
      puts email
    end
  end
end

foo = Foo.new
foo.bar     #=> bar
foo.baz(3)  #↓
[email protected]
[email protected]
[email protected]

Singleton method #1

str = "Goby"
def str.foo     #1 singleton method on the object
  self * 2
end

str.foo
#=> GobyGoby

Singleton method #2

module Foo
  def self.bar  #2 singleton method with `self.`
    92
  end
end

Singleton method #3

module Foo  
  def Foo.bar   #3 singleton method with a class name (unrecommended)
    88
  end
end

Singleton method #4

module Foo end

def Foo.bar     #4 singleton methods outside the Foo
  9999
end

Foo.bar #=> 9999

Attribute accessor method

class Foo
  attr_accessor :bar, :baz

  def initialize
    @bar = 42
    @baz = 99
  end
end

foo = Foo.new

foo.bar = 77
foo.baz = 88

You can use the following shorthands to declare attribute accessor methods in classes/modules:

Private method (to be implemented)

class Foo
  def bar
    42
  end
  
  def _baz  # leading '_' means private method
    99
  end
end

Module/Class definition

Module definition and include

module Foo
  def foo
    "Foo's instance method"
  end
end

class Bar
  include Foo   # to include Foo
end

Bar.new.foo     #=> Foo's instance method

Module names should be “[A-Z][A-Za-z0-9_]+” (UpperCamelCase). Modules cannot be inherited.

Module definition and extend

module Foo
  def foo
    "Foo's instance method will be a singleton method"
  end
end

class Bar
  extend Foo   # to extend Foo  
end

Bar.foo        #=> Foo's instance method will be a singleton method

extend is to use the instance methods in the specified modules as singleton methods in your class or module.

Module instantiation

module Foo   #module definition
  def foo   
    99
  end
end

Foo.new.foo  #=> 99

Actually, Goby’s module can be even instantiated via “new” like “Foo.new”.

Class definition and inheritance

class Foo       # class definition
  def bar
    99
  end
end

class Baz < Foo # inheritance
end

Baz.new.bar  #=> 99

Class names should be “[A-Z][A-Za-z0-9]+” (UpperCamelCase). Inheritance with “<” is supported.

Constants

HTTP_ERROR_404 = 404
HTTP_ERROR_404 = 500    # error

Constants should be “[A-Z][A-Za-z0-9_]+” (UPPER_SNAKECASE). Constants are not reentrant and the scope is global.

Redefining class/modules

class Foo
  def bar
    99
  end
end

class Foo
  def bar  # redefining is possible
    77
  end
end

Namespaces

class Foo
  module Bar
    MAGIC = 99
    def baz
      99
    end
  end
end

Foo::Bar.new.baz     # Use '::' for namespacing
Foo::Bar::MAGIC      # Use '::' for namespacing

Load library

require

require("uri")   # to activate URL class

u = URI.parse("http://example.com")
u.scheme   #=> "http"

require_relative

require_relative("bar")  # loading the local bar.gb

class Foo
  def self.bar(x)
    Bar.foo do |ten|
      x * ten
    end
  end

  def self.baz
    yield(100)
  end
end

Literal

Keyword

def, true, false, nil, if, elsif, else, case, when, return, self, end, while, do, yield, get_block, next, class, module, break

String literal

"double quote"
'single quote'

Double and single quotation can be used.

Symbol literal

:symbol           # equivalent to "symbol"
{ symbol: "value" }

Goby’s symbol (using :) is always String class.

Numeric literal

year   =  2018   # Integer
offset = -42     # Integer
PI     = 3.14    # Float
G      = -9.8    # Float

Array literal

[1, 2, 3, "hello", :goby, { key: "value"}]
[1, 2, [3, 4], 5, 6]

Hash literal

h = { key: "value", key2: "value2" }
h[:key2]   #=> value2

Hash literal’s keys should always be symbol literals.

Range literal

(1..10).each do |x|    # '..' represents a range
  puts x*x
end

Boolean and nil

true       # Boolean class
false      # Boolean class
nil        # Null class

!nil  #=> true

Any objects except nil and false will be treated as true on conditionals.

Operator

Arithmetic/logical/assignment operators

+           # unary
**          # power
-           # unary
* / %       # multiplication, division, modulus
+ -         # addition, subtraction
!           # logical inversion
> >= < <=   # inequality comparison
== !=       # equality comparison, negative comparison
&&          # logical AND
||          # logical OR
+= -=       # shorthand of addition/subtraction
=           # assignment

*Priority of operators are TBD

Other operators

()          # chaning priority of interpretation
[]          # array literal
*           # multiple assignment
..          # range

*Priority of operators are TBD

Delimiter

class Foo; end   # ';' to delimit

class Bar end    # recommended

String interpolation (to be implemented)

puts "Error: #{error_message}"  # double quotation is required

Comment

puts "Goby"    # comments

Use the annotations to keep the comments concise.

I/O

Flow control

if, else, elsif

def foo(str)
  if str.size > 10
    puts "too big!"
  elsif str.size < 3
    puts "too short!"
  else
    puts "moderate"
  end
end

then is not supported.

Break

def foo(tail)
  (5..tail).each do |t|
    if t % 2 == 0 && t % 5 == 0
      puts "ouch!"
      break       # finish the block
    else
      puts t
    end
  end
  puts "out of the block"
end

foo 20
#=> 5 6 7 8 9
#=> ouch!
#=> out of the block

Case

def foo(str)
  case str
  when "Elf"
    puts "You might be Aragorn II!"
  when "Aragorn"
    puts "Long time no see, Aragorn!"
  when "Frodo", "Sam", "Gandalf"
    puts "One of us!"
  else
    puts "You're not yourself"
  end
end

While

decr = 10
while decr do
  if decr < 1
    break
  end
  puts decr
  decr -= 1
end

while, conditional and a do/end block can be used for a loop.

Rescue

Under construction. Join #605.

Block

Block

def foo(ary: [1, 2, 3])
  ary.each do |s|      # start of the block with |block variable|
    puts s
  end                  # end of the block
end

{ } cannot be used for forming a block.

yield

def foo
  yield(10)  # executes the block given
end

foo do |ten|
  ten + 20
end

Block object and call

b = Block.new do
  100
end

b.call  #=> 100

Block.new can take a block and then call.

Passing a block

def baz
  1000
end

class Foo
  def exec_block(block)
	block.call
  end

  def baz
    100
  end
end

b = Block.new do
  baz
end

f = Foo.new
f.exec_block(b)

Passing a block with block arguments

b = Block.new do |arg, offset|
  arg + 1000 - offset
end

b.call(49, 500) #=> 549

Special get_block keyword

def bar(block)
  # runs the block object and the block arg simultaneously
  block.call + get_block.call
end

def foo
  bar(get_block) do # passes two blocks to `bar`
    20
  end
end

foo do
  10
end

get_block is not a method but a keyword to retrive a given block argument as a block object. By this, you can pass around or call the given block arguments as block objects.

Closure

count = 0          # the declaration is used
b = Block.new do
  count += 1       # the block looks preserving the `count`
end

class Foo
  def bar(blk)
    count = 9      # (does not affect)
    puts blk.call  # local variable is resolved to the one above
  end
end

Foo.new.bar b  #=> 1
Foo.new.bar b  #=> 2
Foo.new.bar b  #=> 3

Native class (Primary)

Goby’s most “native” classes cannot instantiate with new in principle.

Object

Bar.ancestors
#» [Bar, Foo, Object]
Bar.singleton_class.ancestors
#» [#<Class:Bar>, #<Class:Object>, Class, Object]

Object is actually just for creating singleton classes. See Class.

Class

String.ancestors      #=> [String, Object]

Class and Objectcan actually be regarded as the same and you don’t need to distinguish them in almost all the cases.

String

puts "Hello" + ' ' + 'world'  #=> Hello world

Fixed to UTF-8 with mb4 support.

Integer

37037 * 27      #=> 999999

Array

[1, "2", :card, [4, 5], { john: "doe" }]

Hash

h = { key: "value" }
h = { "key": "value" }  #=> error

h["key"]  #=> value
h[:key]   #=> value

Keys in hash literals should be symbol literals, while Hash index can be either string or symbol literals.

Range

(1..10).each do |i|
  puts i ** 2
end

Block

b = Block.new do
  100
end

b.call  #=> 100

Native class (secondary)

Float

1.1 + 1.1   # => -2.2
2.1 * -2.1  # => -4.41

Float literals like 3.14 or -273.15. Float class is based on Golang’s float64 type.

Decimal

"3.14".to_d            # => 3.14
"-0.7238943".to_d      # => -0.7238943
"355/113".to_d         
# => 3.1415929203539823008849557522123893805309734513274336283185840

a = "16.1".to_d
b = "1.1".to_d
e = "17.2".to_d
a + b # => 0.1
a + b == e # => true

('16.1'.to_d  + "1.1".to_d).to_s #=> 17.2
('16.1'.to_f  + "1.1".to_f).to_s #=> 17.200000000000003

Experimental: the size is arbitrary and internally a fraction from Golang’s big.Rat type. Decimal literal is TBD for now and you can get Decimal number via to_d method from Integer/Float/String.

Regexp

a = Regexp.new("orl")
a.match?("Hello World")   #=> true
a.match?("Hello Regexp")  #=> false

b = Regexp.new("😏")
b.match?("🤡 😏 😐")    #=> true
b.match?("😝 😍 😊")    #=> false

c = Regexp.new("居(ら(?=れ)|さ(?=せ)|る|ろ|れ(?=[ばる])|よ|(?=な[いかくけそ]|ま[しすせ]|そう|た|て))")
c.match?("居られればいいのに")  #=> true
c.match?("居ずまいを正す")      #=> false

Using / / is to be implemented.

MatchData

# numbered capture
'abcd'.match(Regexp.new('(b.)'))
#=> #<MatchData 0:"bc" 1:"bc">

# named capture
'abcd'.match(Regexp.new('a(?<first>b)(?<second>c)'))
#=> #<MatchData 0:"abc" first:"b" second:"c">

# converting to hash
» 'abcd'.match(Regexp.new('a(?<first>b)(?<second>c)')).to_h
#» { 0: "abc", first: "b", second: "c" }

The number keys in the captures are actually String class.The key 0 is the mached string.

File

f = File.new("../test_fixtures/file_test/size.gb")
f.name  #=> "../test_fixtures/file_test/size.gb"

Native class (Golang-oriented)

GoMap

h = { foo: "bar" }
m = GoMap.new(h)    # to pass values to Golang's code
h2 = m.to_hash
h2[:foo]   #=> "bar"

Channel

c = Channel.new

1001.times do |i| # i start from 0 to 1000
  thread do
  	c.deliver(i)
  end
end

r = 0
1001.times do
  r = r + c.receive
end

r #=> 500500

Channel class is to hold channels to work with #thread. See thread.

Enumerator & lazy

Pretty new experimental library.

LazyEnumerator

# creating a lazy enumerator
enumerator = LazyEnumerator.new(ArrayEnumerator.new([1, 2, 3])) do |value|
	2 * value
end
result = []

enumerator.each do |value|
	result.push(value)
end

result   #=> [2, 4, 6]

A shorthand #lazy method is also provided in Array and Range by now. See “Tips & tricks” below.

ArrayEnumerator

iterated_values = []

enumerator = ArrayEnumerator.new([1, 2, 4])

while enumerator.has_next? do
	iterated_values.push(enumerator.next)
end

iterated_values   #=> [1, 2, 4]

RangeEnumerator

iterated_values = []

enumerator = RangeEnumerator.new((1..4))

while enumerator.has_next? do
	iterated_values.push(enumerator.next)
end

iterated_values   #=> [1, 2, 3, 4]

Special class

Boolean

true.class  #=> Boolean
false.class #=> Boolean

A special class that just to hold true and false. Cannot be instantiate.

Null

nil.class   #=> Null

A special class that just to hold nil. Cannot be instantiate.

Method

(A special dummy class that just holds methods defined by Goby code.)

Diggable

Provides #dig method. Currently. Array and Hash classes’ instance can be Diggable.

[1, 2].dig(0, 1)  #=> TypeError: Expect target to be Diggable, got Integer

Testing framework

Spec

require "spec"

Spec.describe Spec do
  it "fails and exit with code 1" do
	expect(1).to eq(2)
  end
end

Spec.run

Tips & tricks

Showing methods

» "string".methods
#» ["!=", "*", "+", "<", "<=>", "==", "=~", ">", "[]", "[]=", "capitalize", "chop", "concat", "count", "delete", "downcase", "each_byte", "each_char", "each_line", "empty?", "end_with?", "eql?", "fmt", "include?", "insert", "length", "ljust", "match", "new", "replace", "replace_once", "reverse", "rjust", "size", "slice", "split", "start_with", "strip", "to_a", "to_bytes", "to_d", "to_f", "to_i", "to_s", "upcase", "!", "block_given?", "class", "exit", "instance_eval", "instance_variable_get", "instance_variable_set", "is_a?", "methods", "nil?", "object_id", "puts", "raise", "require", "require_relative", "send", "singleton_class", "sleep", "thread"]

Showing class

» "string".class
#» String

Showing singleton class

» "moji".singleton_class
#» #<Class:#<String:842352325152>>

» "moji".class.singleton_class
#» #<Class:String>

Showing ancestors

» Integer.ancestors
#» [Integer, Object]

» "moji".class.ancestors
#» [String, Object]

Showing singleton classes’ ancestors

» "moji".class.singleton_class.ancestors
#» [#<Class:String>, #<Class:Object>, Class, Object]

Showing object’s id

» "moji".object_id
#» 842352977920

#to_json

h = { a: 1, b: [1, "2", [4, 5, nil]]}
h.to_json         # converts hash to JSON
#=> {"a":1, "b":[1, "2", [4, 5, null]]}

Customize #to_json

Overwrite the #to_json in your class:

class JobTitle
  def initialize(name)
    @name = name
  end

  def to_json
    { title: @name }.to_json
  end
end

class Person
  def initialize(name, age)
    @name = name
    @age = age
    @job = JobTitle.new("software engineer")
  end

  def to_json
    { name: @name, age: @age, job: @job }.to_json
  end
end

stan = Person.new("Stan", 23)
h = { person: stan }
h.to_json #=> {"person":{"name":"Stan","job":{"title":"software engineer"},"age":23}}

Lazy enumeration

To avoid N + 1 query.

enumerator = [1, 2, 3].lazy.map do |value|
	2 * value
end
result = []

enumerator.each do |value|
	result.push(value)
end

result  #=> [2, 4, 6]

You can call #lazy.map on Array, Range, or JSON objects.

Styling

Quick style guide

Document notation

Syntax highlighting

Ready for Vim and Sublime text. You can also use Ruby’s syntax highlighting so far.

References

Official

Readings for Goby developers

JP resource

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