What is the Ruby <=>
(spaceship) operator? Is the operator implemented by any other languages?
6 Answers
The spaceship operator will return 1
, 0
, or −1
depending on the value of the left argument relative to the right argument.
a <=> b :=
if a < b then return -1
if a = b then return 0
if a > b then return 1
if a and b are not comparable then return nil
It's commonly used for sorting data.
It's also known as the Three-Way Comparison Operator. Perl was likely the first language to use it. Some other languages that support it are Apache Groovy, PHP 7+, and C++20.
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30Exactly. I think of it as a very elegant version of Java's Comparable. May 6, 2009 at 12:42
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12
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2Actually I think any negative or positive value can be returned. 0 still means equality. Nov 28, 2013 at 11:35
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3Note that if the two objects compared are not comparable, you get a nil– gamovMay 27, 2014 at 7:36
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@TonyArra: looks like C++20 might at least allow implementations to use non-1-based integers, observing only sign. I don't know how likely it is that that'll actually happen, just sharing for completeness. See the note on "Efficiency" on page 12 of P0515 R0 -- open-std.org/JTC1/SC22/WG21/docs/papers/2017/p0515r0.pdf ("Consistent comparison", by Herb Sutter).– lindesJul 5, 2018 at 23:09
The spaceship method is useful when you define it in your own class and include the Comparable module. Your class then gets the >, < , >=, <=, ==, and between?
methods for free.
class Card
include Comparable
attr_reader :value
def initialize(value)
@value = value
end
def <=> (other) #1 if self>other; 0 if self==other; -1 if self<other
self.value <=> other.value
end
end
a = Card.new(7)
b = Card.new(10)
c = Card.new(8)
puts a > b # false
puts c.between?(a,b) # true
# Array#sort uses <=> :
p [a,b,c].sort # [#<Card:0x0000000242d298 @value=7>, #<Card:0x0000000242d248 @value=8>, #<Card:0x0000000242d270 @value=10>]
It's a general comparison operator. It returns either a -1, 0, or +1 depending on whether its receiver is less than, equal to, or greater than its argument.
I will explain with simple example
[1,3,2] <=> [2,2,2]
Ruby will start comparing each element of both array from left hand side.
1
for left array is smaller than2
of right array. Hence left array is smaller than right array. Output will be-1
.[2,3,2] <=> [2,2,2]
As above it will first compare first element which are equal then it will compare second element, in this case second element of left array is greater hence output is
1
.
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does it just compare the first left element of each array or continue to compare other elements as well? good explanation Mar 29, 2016 at 2:17
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3@KickButtowski it continue to compare other elements unless it find an inequal number. Mar 29, 2016 at 7:19
Since this operator reduces comparisons to an integer expression, it provides the most general purpose way to sort ascending or descending based on multiple columns/attributes.
For example, if I have an array of objects I can do things like this:
# `sort!` modifies array in place, avoids duplicating if it's large...
# Sort by zip code, ascending
my_objects.sort! { |a, b| a.zip <=> b.zip }
# Sort by zip code, descending
my_objects.sort! { |a, b| b.zip <=> a.zip }
# ...same as...
my_objects.sort! { |a, b| -1 * (a.zip <=> b.zip) }
# Sort by last name, then first
my_objects.sort! { |a, b| 2 * (a.last <=> b.last) + (a.first <=> b.first) }
# Sort by zip, then age descending, then last name, then first
# [Notice powers of 2 make it work for > 2 columns.]
my_objects.sort! do |a, b|
8 * (a.zip <=> b.zip) +
-4 * (a.age <=> b.age) +
2 * (a.last <=> b.last) +
(a.first <=> b.first)
end
This basic pattern can be generalized to sort by any number of columns, in any permutation of ascending/descending on each.
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Nice examples, just that the last one does not work as expected. The factors should be powers of two in descending order, i.e. 8, -4, 2, 1. The way you wrote it (with factors 4,-3,2,1), e.g. "age + lastname" counts more than "zip"... Sep 23, 2019 at 5:51
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I don't think those numbers mean what you think they mean. Each factor multiplies the signum, which will be -1, 0, or 1. Powers of 2 doesn't matter here. The -3 * (a.age <=> b.age) is exactly the same as 3 * (b.age <=> a.age). The sign of the result is what makes it asc or desc.– liloleSep 24, 2019 at 16:55
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Nope, it does matter a lot. The factor for zip must be larger than the (absolute) sum of all the other factors, and the factor for age must be larger than the (absolute) sum of the factors of last and first, and so on. And the smallest sequence of numbers which fulfills that is the sequence of powers of two... And BTW if you read my comment carefully, you would have seen that I included the minus sign... Sep 25, 2019 at 18:11
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2Ok, maybe I'll elaborate a bit more on that: with factors (4,-3,2,1) and results from the spaceship op (1,1,-1,-1) the weighted sum is -2, but it needs to be positive! Otherwise the larger zip will come before the smaller zip. This will not happen with factors (8,-4,2,1). Sep 25, 2019 at 18:14
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1Ah I see now, if sorting on > 2 columns then the powers of 2 is required. Thanks for helping to correct this. Sorry world if your 3 or more columns sorting turned out wrong.– liloleSep 26, 2019 at 19:34
What is
<=>
( The 'Spaceship' Operator )
According to the RFC that introduced the operator, $a <=>
$b
- 0 if $a == $b
- -1 if $a < $b
- 1 if $a > $b
- Return 0 if values on either side are equal
- Return 1 if value on the left is greater
- Return -1 if the value on the right is greater
Example:
//Comparing Integers
echo 1 <=> 1; //ouputs 0
echo 3 <=> 4; //outputs -1
echo 4 <=> 3; //outputs 1
//String Comparison
echo "x" <=> "x"; // 0
echo "x" <=> "y"; //-1
echo "y" <=> "x"; //1
MORE:
// Integers
echo 1 <=> 1; // 0
echo 1 <=> 2; // -1
echo 2 <=> 1; // 1
// Floats
echo 1.5 <=> 1.5; // 0
echo 1.5 <=> 2.5; // -1
echo 2.5 <=> 1.5; // 1
// Strings
echo "a" <=> "a"; // 0
echo "a" <=> "b"; // -1
echo "b" <=> "a"; // 1
echo "a" <=> "aa"; // -1
echo "zz" <=> "aa"; // 1
// Arrays
echo [] <=> []; // 0
echo [1, 2, 3] <=> [1, 2, 3]; // 0
echo [1, 2, 3] <=> []; // 1
echo [1, 2, 3] <=> [1, 2, 1]; // 1
echo [1, 2, 3] <=> [1, 2, 4]; // -1
// Objects
$a = (object) ["a" => "b"];
$b = (object) ["a" => "b"];
echo $a <=> $b; // 0
[1,3,2] <=> [2,2,2]
?[1,nil] <=> [1,3]
you get anil
because of the consistency of the algorithm, comparing each element in turn until the<=>
result is NOT0
. There's no way for Ruby to declare less-than or greater-than in this example, since a comparison simply cannot be made. Thenil
should be treated as "not equal". If you know something about the data, and e.g. want to treatnil
as0
, Ruby makes that easy.