What's the boolean value of `0` in Ruby? - ruby

After looking at the behavior of these expressions:
1 and 0 #=> 0
0 and 1 #=> 1
1 and true #=> true
0 and true #=> true
to me, it is more like ruby returns the right side value of a logic gate regardless of the evaluated result of the logical expression. I am looking for the reason for it.

Two things you need to know:
and (and &&) returns the first operand if it's false, otherwise returns the second operand.
Anything other than false and nil is true, including 0.

TL;DR
Ruby is behaving properly, but might be confusing if you're coming from another language. This confusion is most often caused by:
Not understanding truth-values and false-values in Ruby, especially when evaluating the truthiness of control expressions.
Using a flow-control operator like and to test for equality instead of ==.
Misunderstanding how the parser sees your "comparison" as two separate expressions.
To fix the problem you describe, use an equality operator to test for truthiness. A more detailed explanation follows.
Ruby Returns the Last Expression Evaluated
In Ruby, every expression returns a value. When you evaluate expressions like:
1 and 0 #=> 0
you aren't checking the truthiness of each expression as you would be with an actual Boolean-returning expression such as:
!!(1 and 0) #=> true
Instead, you are simply evaluating two expressions in sequence, unless the first expression evaluates as nil or false and short-circuits the evaluation. Either way, Ruby returns the value of the last expression evaluated. In this case, you could get the same result with:
1; 0 #=> 0
What the Parser Sees
Using Ruby standard libraries, you can see what the parser sees. For example:
require 'pp'
require 'ripper'
pp Ripper.sexp '1 and 0'
#=> [:program, [[:binary, [:#int, "1", [1, 0]], :and, [:#int, "0", [1, 6]]]]]
The S-expression may be a little clearer and easier to read when using the ruby_parser gem instead of Ripper. For example:
require 'pp'
require 'ruby_parser'
pp RubyParser.new.parse '1 and 0'
#=> s(:and, s(:lit, 1), s(:lit, 0))
Either way, since the first expression 1 evaluates as an Integer literal (e.g. something other than nil or false), 0 is then evaluated. The second Integer literal also evaluates as true, and therefore the entire expression is true (which is irrelevant in this context) and returns 0, since 0 was the last expression evaluated.
What You Actually Want
In Ruby, all values other than nil or false are true. Instead of the and operator, you usually want to compare expressions with an equality operator such as == or forcibly-cast an expression into a Boolean context with !!. For example:
# Evaluate equality and return a Boolean result.
1 == 1 #=> true
0 == 1 #=> false
# Evaluate whether an expression is equal to true. In this case,
# the double-negation of `!!` casts each Integer as a Boolean value.
!!1 == true #=> true
!!0 == true #=> true
# Use `and` flow-control operator to evaluate right-hand expression
# if the left-hand side evaluates as truthy.
(1) and (true) #=> true
(1) and (false) #=> false

Related

Why does an empty String returns false when comparing to boolean in ruby?

It might be a dumb question, but can someone please explain this:
if ""
true
else
false
end
=> true (OK)
!!("")
=> true (OK)
"" === true
=> false (OK)
"" == true
=> false (But why?)
Have a nice day!
The basic concept of this question is a deep misunderstanding of Ruby operators. Here's the short of it - there's no such thing as operators in Ruby! All this !, =, == and === that you throw around - these are not operators.
So what's going on?
Ruby is an object oriented language (a real one, not like that fake Java and JavaScript things) and all these fancy character sequences you think of as operators are actually method calls on the object in their left:
== method usually checks for equality - is the object on the right equal in content.
=== method is not used for "strict equality" or "identity" like it is often in other languages - some Ruby objects that implement it use it for "membership" tests, like in ranges ((1..3) === 2 ==> true) or regular expressions (/el/ === "hello" ==> true you can think of regular expressions as the group of all strings that would match), others implement it as equals.
So - how is the if working? Well, if and other "forced boolean contexts" check for "falsehood". In Ruby we recognize two false values - false and nil, everything else will run the truth branch of an if. This is actually the method ! that you also used in your second example. This method is implemented in BasicObject to return true for all objects, except if the object's type is the type of false - FalseClass or the type for nil - NilClass, in which case it returns true.
So your examples actually mean:
Check for the truthiness of "". Because that value's type is neither FalseClass or NilClass, it is always true.
For the value "", call the method ! - which will return false because the object is neither a FalseClass or a NilClass - then call ! on the result, which will return true because false is a FalseClass instance.
For the value "" call the method === with the argument true, but since it is an alias for == - call that instead (see 4).
For the value "" call the method == with the argument true. String's implementation of == will never return true for an argument that isn't a String type.
The only falsy values in Ruby are false and nil. Everything else is "truthy," but not necessarily equal to true. This includes empty objects like a String, Hash, or Array.
Pragmatically, it might help to think of == as "comparably equivalent to" rather than "equals." For example:
1 == 1.0 #=> true
This is true even though one is an Integer and one is a Float because they are comparably equivalent in value, even if they aren't the same object or of the same type.
In the same way, "" is truthy because it is not comparably equivalent to false or nil. However, it's also not the same object type as true, nor comparably equivalent to true. An empty String is simply "not falsy," which makes it truthy but not actually true.
Remember, only false and nil are falsy. Everything else, and I mean everything, is truthy even if it isn't strictly speaking true.
In Ruby, the only "falsey types" are FalseClass and NilClass, which have the instances false and nil respectively. All other values are considered "truthy". This is possibly different to what you'd expect coming from other C-like values, in which we do things like this pretty freely:
int x = get_value();
if (x) { /* implied x != 0 }
So, if you had something like this in Ruby:
puts 0 if 0 # => "0"
puts 1 if "" # => "1"
puts 2 if [] # => "2"
puts 3 if false # => nil
puts 4 if true # => "4"
puts 5 if nil # => "5"
So, if "" acts truthy, why isn't it equal to true? If that were how we defined ==, then this would also need to resolve to true then, since both values are truthy:
"1" == "2"
The difference here is that == is asking if two things are the same, which "" and true are most certainly not. Further, Ruby does not automatically convert types for you (like other languages like JavaScript do), so "" does not automatically get converted to a boolean during its comparison.

With Ruby Booleans, what are you checking for if there are no equality statements?

I am using a tutorial, and it has a conditional like this:
if Restaurant.method1
puts "XXX"
elsif Restaurant.method2
puts "YYY"
end
Both methods return a Boolean value of true or false. Similarly, for variables, I have seen something similar:
if x
puts "XXX"
else
puts "YYY"
end
I am wondering what exactly are you checking for considering that there is no equality operator (==) or assignment operator (=)? There must be some sort of equality check that perhaps hidden by the simplistic nature of Ruby, because I'm thinking this logically in my head and "If x", and "If Restaurant.method" both don't really make any sense as a conditional without some sort of check.
This is a common paradigm in programming, not a Ruby abstraction. You are checking if something is truthy. In ruby in particular, everything is truthy except false and nil. Try it yourself in your console if you want to test this:
!!1 # => true
!!0 # => true
!![] # => true
!!{} # => true
...etc, whereas
!!false # => false
!!nil # => false
Important note: this is only the case for Ruby. Other languages have different rules. For example, in some languages 0 is falsy. It's important to learn these early on when learning a new language.
Ruby has "truthy" statements. That means multiple things can evaluate to true. Everything in Ruby is true except nil and false.

Why do method declarations evaluate to nil in ruby?

Defining a method doesn't seem to evaluate to a truthy value as can be checked by putting one inside an if condition:
if(def some_method; puts "random text"; end) then
puts "declaration evaluates to true"
else
puts "declaration evaluates to false"
end
# => declaration evaluates to false
Why/How does a method declaration evaluate to nil?
It actually evaluates to nil. This makes sense; why would a method creation return anything?
irb(main):001:0> def test; print 'test'; end
=> nil
However, it has to return something, so to return "nothing" would be to return nil.
Every statement in Ruby evaluates to something. The def statement's value is not supposed to be checked and is therefore nil.
You will find the behavior you are looking for in the reflective "meta-programming" method define_method.
class EmptyClass
m = define_method(:newmethod) {p "I am the new method"}
p m # => <Proc:0x50b3f359#E:\NetBeansProjects\RubyApplication1\lib\main.rb:6>
end
From Ruby gotchas:
Boolean evaluation of non-boolean data is strict: 0, "" and [] are all evaluated to true. In C, the expression 0 ? 1 : 0 evaluates to 0 (i.e. false). In Ruby, however, it yields 1, as all numbers evaluate to true; only nil and false evaluate to false. A corollary to this rule is that Ruby methods by convention — for example, regular-expression searches — return numbers, strings, lists, or other non-false values on success, but nil on failure. This convention is also used in Smalltalk, where only the special objects true and false can be used in a boolean expression.
Method definions such as def some_method; puts "random text"; end always return nil.
Now, that means the method is evaluated to nil. According to the Ruby Documentation:
Returns false if obj is nil or false; true otherwise.
Since your method return nil, if will evaluate it as false therefore execute the else statement.

Evaluate many boolean expressions like Array#join in Ruby

In Ruby, you can use Array#join to simple join together multiple strings with an optional delimiter.
[ "a", "b", "c" ].join #=> "abc"
[ "a", "b", "c" ].join("-") #=> "a-b-c"
I'm wondering if there is nice syntactic sugar to do something similar with a bunch of boolean expressions. For example, I need to && a bunch of expressions together. However, which expressions will be used is determined by user input. So instead of doing a bunch of
cumulative_value &&= expression[:a] if user[:input][:a]
I want to collect all the expressions first based on the input, then && them all together in one fell swoop. Something like:
be1 = x > y
be2 = Proc.new {|string, regex| string =~ regex}
be3 = z < 5 && my_object.is_valid?
[be1,be2.call("abc",/*bc/),be3].eval_join(&&)
Is there any such device in Ruby by default? I just want some syntatic sugar to make the code cleaner if possible.
Try Array#all?. If arr is an Array of booleans, this works by itself:
arr.all?
will return true if every element in arr is true, or false otherwise.
You can use Array#any? in the same manner for joining the array on ||, that is, it returns true if any element in the array is true and false otherwise.
This will also work if arr is an array of Procs, as long as you make sure to pass the correct variables to Proc#call in the block (or use class, instance, or global variables).
You can use #all?, #any? and #none? to achieve this:
[true, false].any?
=> true
[true, false].all?
=> false
And don't forget, that all values other than nul and false evaluate to true.
['', [], {}].all?
=> true
In this particular case, you just want to filter your expressions hash by those which the user has selected, and then test if all those expressions are truthy:
cumulative_value = expression.select {|k, v| user[:input][k] }.values.all?
This will first select all members from expression for which there is a matching user[:input] key, then it will use Array#all? to test if all the values from the selected expressions are truthy. Your cumulative_value is then either true or false.
Since your expression values may be procs, you would then have to evaluate all procs from the filtered expression list, and build a results array from that, which you can call all? on:
cumulative_value = expression.select {|k, v| user[:input][k] }.
values.map {|value| value.is_a?(Proc) ? value.call : value }.all?
Hardly "syntactic sugar", but it gets the job done without being horribly complex.

What's the difference between equal?, eql?, ===, and ==?

I am trying to understand the difference between these four methods. I know by default that == calls the method equal? which returns true when both operands refer to exactly the same object.
=== by default also calls == which calls equal?... okay, so if all these three methods are not overridden, then I guess
===, == and equal? do exactly the same thing?
Now comes eql?. What does this do (by default)? Does it make a call to the operand's hash/id?
Why does Ruby have so many equality signs? Are they supposed to differ in semantics?
I'm going to heavily quote the Object documentation here, because I think it has some great explanations. I encourage you to read it, and also the documentation for these methods as they're overridden in other classes, like String.
Side note: if you want to try these out for yourself on different objects, use something like this:
class Object
def all_equals(o)
ops = [:==, :===, :eql?, :equal?]
Hash[ops.map(&:to_s).zip(ops.map {|s| send(s, o) })]
end
end
"a".all_equals "a" # => {"=="=>true, "==="=>true, "eql?"=>true, "equal?"=>false}
== — generic "equality"
At the Object level, == returns true only if obj and other are the same object. Typically, this method is overridden in descendant classes to provide class-specific meaning.
This is the most common comparison, and thus the most fundamental place where you (as the author of a class) get to decide if two objects are "equal" or not.
=== — case equality
For class Object, effectively the same as calling #==, but typically overridden by descendants to provide meaningful semantics in case statements.
This is incredibly useful. Examples of things which have interesting === implementations:
Range
Regex
Proc (in Ruby 1.9)
So you can do things like:
case some_object
when /a regex/
# The regex matches
when 2..4
# some_object is in the range 2..4
when lambda {|x| some_crazy_custom_predicate }
# the lambda returned true
end
See my answer here for a neat example of how case+Regex can make code a lot cleaner. And of course, by providing your own === implementation, you can get custom case semantics.
eql? — Hash equality
The eql? method returns true if obj and other refer to the same hash key. This is used by Hash to test members for equality. For objects of class Object, eql? is synonymous with ==. Subclasses normally continue this tradition by aliasing eql? to their overridden == method, but there are exceptions. Numeric types, for example, perform type conversion across ==, but not across eql?, so:
1 == 1.0 #=> true
1.eql? 1.0 #=> false
So you're free to override this for your own uses, or you can override == and use alias :eql? :== so the two methods behave the same way.
equal? — identity comparison
Unlike ==, the equal? method should never be overridden by subclasses: it is used to determine object identity (that is, a.equal?(b) iff a is the same object as b).
This is effectively pointer comparison.
I love jtbandes answer, but since it is pretty long, I will add my own compact answer:
==, ===, eql?, equal?
are 4 comparators, ie. 4 ways to compare 2 objects, in Ruby.
As, in Ruby, all comparators (and most operators) are actually method-calls, you can change, overwrite, and define the semantics of these comparing methods yourself. However, it is important to understand, when Ruby's internal language constructs use which comparator:
== (value comparison)
Ruby uses :== everywhere to compare the values of 2 objects, eg. Hash-values:
{a: 'z'} == {a: 'Z'} # => false
{a: 1} == {a: 1.0} # => true
=== (case comparison)
Ruby uses :=== in case/when constructs. The following code snippets are logically identical:
case foo
when bar; p 'do something'
end
if bar === foo
p 'do something'
end
eql? (Hash-key comparison)
Ruby uses :eql? (in combination with the method hash) to compare Hash-keys. In most classes :eql? is identical with :==.
Knowledge about :eql? is only important, when you want to create your own special classes:
class Equ
attr_accessor :val
alias_method :initialize, :val=
def hash() self.val % 2 end
def eql?(other) self.hash == other.hash end
end
h = {Equ.new(3) => 3, Equ.new(8) => 8, Equ.new(15) => 15} #3 entries, but 2 are :eql?
h.size # => 2
h[Equ.new(27)] # => 15
Note: The commonly used Ruby-class Set also relies on Hash-key-comparison.
equal? (object identity comparison)
Ruby uses :equal? to check if two objects are identical. This method (of class BasicObject) is not supposed to be overwritten.
obj = obj2 = 'a'
obj.equal? obj2 # => true
obj.equal? obj.dup # => false
Equality operators: == and !=
The == operator, also known as equality or double equal, will return true if both objects are equal and false if they are not.
"koan" == "koan" # Output: => true
The != operator, also known as inequality, is the opposite of ==. It will return true if both objects are not equal and false if they are equal.
"koan" != "discursive thought" # Output: => true
Note that two arrays with the same elements in a different order are not equal, uppercase and lowercase versions of the same letter are not equal and so on.
When comparing numbers of different types (e.g., integer and float), if their numeric value is the same, == will return true.
2 == 2.0 # Output: => true
equal?
Unlike the == operator which tests if both operands are equal, the equal method checks if the two operands refer to the same object. This is the strictest form of equality in Ruby.
Example:
a = "zen"
b = "zen"
a.object_id # Output: => 20139460
b.object_id # Output :=> 19972120
a.equal? b # Output: => false
In the example above, we have two strings with the same value. However, they are two distinct objects, with different object IDs. Hence, the equal? method will return false.
Let's try again, only this time b will be a reference to a. Notice that the object ID is the same for both variables, as they point to the same object.
a = "zen"
b = a
a.object_id # Output: => 18637360
b.object_id # Output: => 18637360
a.equal? b # Output: => true
eql?
In the Hash class, the eql? method it is used to test keys for equality. Some background is required to explain this. In the general context of computing, a hash function takes a string (or a file) of any size and generates a string or integer of fixed size called hashcode, commonly referred to as only hash. Some commonly used hashcode types are MD5, SHA-1, and CRC. They are used in encryption algorithms, database indexing, file integrity checking, etc. Some programming languages, such as Ruby, provide a collection type called hash table. Hash tables are dictionary-like collections which store data in pairs, consisting of unique keys and their corresponding values. Under the hood, those keys are stored as hashcodes. Hash tables are commonly referred to as just hashes. Notice how the word hashcan refer to a hashcode or to a hash table. In the context of Ruby programming, the word hash almost always refers to the dictionary-like collection.
Ruby provides a built-in method called hash for generating hashcodes. In the example below, it takes a string and returns a hashcode. Notice how strings with the same value always have the same hashcode, even though they are distinct objects (with different object IDs).
"meditation".hash # Output: => 1396080688894079547
"meditation".hash # Output: => 1396080688894079547
"meditation".hash # Output: => 1396080688894079547
The hash method is implemented in the Kernel module, included in the Object class, which is the default root of all Ruby objects. Some classes such as Symbol and Integer use the default implementation, others like String and Hash provide their own implementations.
Symbol.instance_method(:hash).owner # Output: => Kernel
Integer.instance_method(:hash).owner # Output: => Kernel
String.instance_method(:hash).owner # Output: => String
Hash.instance_method(:hash).owner # Output: => Hash
In Ruby, when we store something in a hash (collection), the object provided as a key (e.g., string or symbol) is converted into and stored as a hashcode. Later, when retrieving an element from the hash (collection), we provide an object as a key, which is converted into a hashcode and compared to the existing keys. If there is a match, the value of the corresponding item is returned. The comparison is made using the eql? method under the hood.
"zen".eql? "zen" # Output: => true
# is the same as
"zen".hash == "zen".hash # Output: => true
In most cases, the eql? method behaves similarly to the == method. However, there are a few exceptions. For instance, eql? does not perform implicit type conversion when comparing an integer to a float.
2 == 2.0 # Output: => true
2.eql? 2.0 # Output: => false
2.hash == 2.0.hash # Output: => false
Case equality operator: ===
Many of Ruby's built-in classes, such as String, Range, and Regexp, provide their own implementations of the === operator, also known as case-equality, triple equals or threequals. Because it's implemented differently in each class, it will behave differently depending on the type of object it was called on. Generally, it returns true if the object on the right "belongs to" or "is a member of" the object on the left. For instance, it can be used to test if an object is an instance of a class (or one of its subclasses).
String === "zen" # Output: => true
Range === (1..2) # Output: => true
Array === [1,2,3] # Output: => true
Integer === 2 # Output: => true
The same result can be achieved with other methods which are probably best suited for the job. It's usually better to write code that is easy to read by being as explicit as possible, without sacrificing efficiency and conciseness.
2.is_a? Integer # Output: => true
2.kind_of? Integer # Output: => true
2.instance_of? Integer # Output: => false
Notice the last example returned false because integers such as 2 are instances of the Fixnum class, which is a subclass of the Integer class. The ===, is_a? and instance_of? methods return true if the object is an instance of the given class or any subclasses. The instance_of method is stricter and only returns true if the object is an instance of that exact class, not a subclass.
The is_a? and kind_of? methods are implemented in the Kernel module, which is mixed in by the Object class. Both are aliases to the same method. Let's verify:
Kernel.instance_method(:kind_of?) == Kernel.instance_method(:is_a?) # Output: => true
Range Implementation of ===
When the === operator is called on a range object, it returns true if the value on the right falls within the range on the left.
(1..4) === 3 # Output: => true
(1..4) === 2.345 # Output: => true
(1..4) === 6 # Output: => false
("a".."d") === "c" # Output: => true
("a".."d") === "e" # Output: => false
Remember that the === operator invokes the === method of the left-hand object. So (1..4) === 3 is equivalent to (1..4).=== 3. In other words, the class of the left-hand operand will define which implementation of the === method will be called, so the operand positions are not interchangeable.
Regexp Implementation of ===
Returns true if the string on the right matches the regular expression on the left.
/zen/ === "practice zazen today" # Output: => true
# is the same as
"practice zazen today"=~ /zen/
Implicit usage of the === operator on case/when statements
This operator is also used under the hood on case/when statements. That is its most common use.
minutes = 15
case minutes
when 10..20
puts "match"
else
puts "no match"
end
# Output: match
In the example above, if Ruby had implicitly used the double equal operator (==), the range 10..20 would not be considered equal to an integer such as 15. They match because the triple equal operator (===) is implicitly used in all case/when statements. The code in the example above is equivalent to:
if (10..20) === minutes
puts "match"
else
puts "no match"
end
Pattern matching operators: =~ and !~
The =~ (equal-tilde) and !~ (bang-tilde) operators are used to match strings and symbols against regex patterns.
The implementation of the =~ method in the String and Symbol classes expects a regular expression (an instance of the Regexp class) as an argument.
"practice zazen" =~ /zen/ # Output: => 11
"practice zazen" =~ /discursive thought/ # Output: => nil
:zazen =~ /zen/ # Output: => 2
:zazen =~ /discursive thought/ # Output: => nil
The implementation in the Regexp class expects a string or a symbol as an argument.
/zen/ =~ "practice zazen" # Output: => 11
/zen/ =~ "discursive thought" # Output: => nil
In all implementations, when the string or symbol matches the Regexp pattern, it returns an integer which is the position (index) of the match. If there is no match, it returns nil. Remember that, in Ruby, any integer value is "truthy" and nil is "falsy", so the =~ operator can be used in if statements and ternary operators.
puts "yes" if "zazen" =~ /zen/ # Output: => yes
"zazen" =~ /zen/?"yes":"no" # Output: => yes
Pattern-matching operators are also useful for writing shorter if statements. Example:
if meditation_type == "zazen" || meditation_type == "shikantaza" || meditation_type == "kinhin"
true
end
Can be rewritten as:
if meditation_type =~ /^(zazen|shikantaza|kinhin)$/
true
end
The !~ operator is the opposite of =~, it returns true when there is no match and false if there is a match.
More info is available at this blog post.
I would like to expand on the === operator.
=== is not an equality operator!
Not.
Let's get that point really across.
You might be familiar with === as an equality operator in Javascript and PHP, but this just not an equality operator in Ruby and has fundamentally different semantics.
So what does === do?
=== is the pattern matching operator!
=== matches regular expressions
=== checks range membership
=== checks being instance of a class
=== calls lambda expressions
=== sometimes checks equality, but mostly it does not
So how does this madness make sense?
Enumerable#grep uses === internally
case when statements use === internally
Fun fact, rescue uses === internally
That is why you can use regular expressions and classes and ranges and even lambda expressions in a case when statement.
Some examples
case value
when /regexp/
# value matches this regexp
when 4..10
# value is in range
when MyClass
# value is an instance of class
when ->(value) { ... }
# lambda expression returns true
when a, b, c, d
# value matches one of a through d with `===`
when *array
# value matches an element in array with `===`
when x
# values is equal to x unless x is one of the above
end
All these example work with pattern === value too, as well as with grep method.
arr = ['the', 'quick', 'brown', 'fox', 1, 1, 2, 3, 5, 8, 13]
arr.grep(/[qx]/)
# => ["quick", "fox"]
arr.grep(4..10)
# => [5, 8]
arr.grep(String)
# => ["the", "quick", "brown", "fox"]
arr.grep(1)
# => [1, 1]
Ruby exposes several different methods for handling equality:
a.equal?(b) # object identity - a and b refer to the same object
a.eql?(b) # object equivalence - a and b have the same value
a == b # object equivalence - a and b have the same value with type conversion.
Continue reading by clicking the link below, it gave me a clear summarized understanding.
https://www.relishapp.com/rspec/rspec-expectations/v/2-0/docs/matchers/equality-matchers
Hope it helps others.
=== #---case equality
== #--- generic equality
both works similar but "===" even do case statements
"test" == "test" #=> true
"test" === "test" #=> true
here the difference
String === "test" #=> true
String == "test" #=> false
.eql? - This operator returns true if the receiver and argument have both the same type and equal values.
for example - 10.eql?(10.0) is false.
=== - it will test equality in case statement.
for example - (1...10) === 1 is true
== - This operator checks whether the two given operands are equal or not. If equals, it returns TRUE, Otherwise it returns FALSE.
for example - (1...10) == 1 is false
for more example click here
I wrote a simple test for all the above.
def eq(a, b)
puts "#{[a, '==', b]} : #{a == b}"
puts "#{[a, '===', b]} : #{a === b}"
puts "#{[a, '.eql?', b]} : #{a.eql?(b)}"
puts "#{[a, '.equal?', b]} : #{a.equal?(b)}"
end
eq("all", "all")
eq(:all, :all)
eq(Object.new, Object.new)
eq(3, 3)
eq(1, 1.0)

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