A question was posted about chained comparison operators and how they are interpreted in different languages.

Chaining comparison operators means that (x < y < z) would be interpreted as ((x < y) && (y < z)) instead of as ((x < y) < z).

The comments on that question show that Python, Perl 6, and Mathematica support chaining comparison operators, but what other languages support this feature and why is it not more common?

A quick look at the Python documentation shows that this feature has been since at least 1996. Is there a reason more languages have not added this syntax?

A statically typed language would have problems with type conversion, but are there other reasons this is not more common?

  • 1
    Good question. It seems to me that it would even be backward compatible for Java at least. (Since < and > are not defined for booleans.) – aioobe Nov 3 '10 at 19:29
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    I think it's not common because programmers are too used to < being a binary operator. – CodesInChaos Nov 3 '10 at 19:36
  • Why would statically typed languages have problems with this? What type conversions do you mean? – sepp2k Nov 3 '10 at 19:51
  • Java for example returns a boolean from a comparison operator. This syntax would then be comparing a boolean to another type like int, which is not defined. You need some type of dynamic typing that allows comparison operators on booleans. – Alan Geleynse Nov 3 '10 at 19:53
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    No, you don't need dynamic typing. First, static typing doesn't prevent operators on booleans. Second, even if it did, this feature doesn't require < and > on booleans, it requires the compiler to rewrite x > y < z to x > y and y < z. You can't solve this by defining < and > on booleans - but since those aren't defined anyway (that would be nonsensical), this feature could be added to e.g. Java without breaking existing code that tries to order boolean. – user395760 Nov 3 '10 at 20:01

It should be more common, but I suspect it is not because it makes parsing languages more complex.


  • Upholds the principle of least surprise
  • Reads like math is taught
  • Reduces cognitive load (see previous 2 points)


  • Grammar is more complex for the language
  • Special case syntactic sugar

As to why not, my guesses are:

  • Language author(s) didn't think of it
  • Is on the 'nice to have' list
  • Was decided that it wasn't useful enough to justify implementing

The benefit is too small to justify complicating the language.

You don't need it that often, and it is easy to get the same effect cleanly with a few characters more.

  • 1
    Added complexity seems like a poor reason. I cannot think of a reason that the current functionality would be useful in a dynamically typed language, while this would add extra functionality without much conflict. It also seems to me that it is easier to read. – Alan Geleynse Nov 3 '10 at 19:49
  • I tend to agree. It's neat one in a million times, but it sure takes a lot of hassle to implement and incorporate into the grammer. – user395760 Nov 3 '10 at 20:02
  • @Alan You mustn't think of it that way. Instead you have to turn it around, what do you gain, compared to the work needed to spec, document, plan, implement and test it? – Lasse Vågsæther Karlsen Nov 4 '10 at 17:57
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    @Alan: As for the vote for complexity: what other features would "expect" to have the feature (e.g. custom overloaded operators), and how complicated is it to get them to work unambiguously? Does it introduce potential parsing ambiguity (ala C++'s std::list<std::list<int>> problem)? Do you expect it to short-circuit evaluations (foo(value) < b < bar(value) - does bar get called if foo(value) < b is false?), and why or why not? There is a lot of investigation that needs to be done to support any new language feature, especially ones that aren't commonly implemented in popular languages. – Merlyn Morgan-Graham Apr 28 '12 at 22:34

Scheme (and probably most other Lisp family languages) supports multiple comparison efficiently within its grammar:

(< x y z)

This can be considered an ordinary function application of the < function with three arguments. See 6.2.5 Numerical Operations in the specification.

Clojure supports chained comparison too.

  • Does it work with n arguments? – starblue Nov 4 '10 at 18:48
  • @starblue: Yes, as many arguments as you like. – Greg Hewgill Nov 4 '10 at 18:52

Chained comparison is a feature of BCPL, since the late 1960s.


I think ICON is the original language to have this, and in ICON it falls out of the way that booleans are handled as special 'fail' tags with all other values being treated as true.

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