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I have read that most languages are becoming more and more like lisp, adopting features that lisp has had for a long time. I was wondering, what are the features, old or new, that lisp does not have? By lisp I mean the most common dialects like Common Lisp and Scheme.

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closed as not constructive by finnw, Pops, LittleBobbyTables, RobV, djechlin Oct 22 '12 at 19:42

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Marketplace demand? Pax ducks for cover :-) –  paxdiablo Feb 28 '10 at 10:55
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9 Answers 9

up vote 5 down vote accepted
  • Pass-by-reference (C++/C#)
  • String interpolation (Perl/Ruby)
  • Nice infix syntax (though it's not clear that it's worth it) (Python)
  • Monadic 'iteration' construct which can be overloaded for other uses (Haskell/C#/F#/Scala)
  • Static typing (though it's not clear that it's worth it) (many languages)
  • Type inference (not in the standard at least) (Caml and many others)
  • Abstract Data Types (Haskell/F#/Caml)
  • Pattern matching (Haskell/F#/Caml/Scala/others)
  • Backtracking (though it's not clear that it's worth it) (Prolog)
  • ad-hoc polymorphism (see Andrew Myers' answer)
  • immutable data structures (many languages)
  • lazy evaluation (Haskell)

(Please add to this list, I have marked it community wiki.)

This just refers to the Common Lisp and Scheme standards, because particular implementations have added a lot of these features independently. In fact, the question is kind of mistaken. It's so easy to add features to Lisp that it's better to have a core language without many features. That way, people can customize their language to perfectly fit their needs.

Of course, some implementations package the core Lisp with a bunch of these features as libraries. At least for Scheme, PLT Scheme provides all of the above features*, mostly as libraries. I don't know of an equivalent for Common Lisp, but there may be one.

*Maybe not infix syntax? I'm not sure, I never looked for it.

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I'm pretty sure I've seen Common Lisp libraries for at least 3 of these. :-) –  Ken Feb 28 '10 at 14:33
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This is misleading because "standards" don't mean much here... To make it proper it should be clarified that the biggest advantage of lisp (and scheme) is its ability to change and adapt -- and gain many of these features. For example, PLT Scheme is a lisp/scheme dialect and it has each and every one of these features. –  Eli Barzilay Feb 28 '10 at 17:25
    
@Ken: Yes, I've implemented a good number of these things badly, myself. Are they features of the language? No. They're libraries. @Eli: I will try to find a way to clarify this--it's a good point because the OP's question is kind of mistaken. –  Nathan Sanders Feb 28 '10 at 20:11
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Correct me if I'm wrong but isn't ad-hoc polymorphism implemented in CLOS using defgeneric/defmethod with specialization? I'm just learning Lisp but from what I've read CLOS sounds like it supplies all the same stuff I get out of C++ class hierarchies but in a different/more flexible manner. –  Andrew Myers Feb 28 '10 at 20:34
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If a language allows something to be implemented in a library as if it was part of the language, is there any way in which it's worse that it's not officially "in the language"? That's a big deal in C/Java/etc, where the libraries and the language are hugely distinct, but the main advantage of Lisp seems to be that they're not. –  Ken Mar 1 '10 at 2:39
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Decent syntax. (Someone had to say it.) It may be simple/uniform/homoiconic/macro-able/etc, but as a human, I just loathe looking at it :)

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There was an attempt at the so-called "M-expressions", but it just never caught on. And of course there's Dylan. –  Frank Shearar Feb 28 '10 at 10:50
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Anyone who has spent more than 10 minutes dealing with Lisp has learned to ignore the syntax. Just like with every other language, programming or otherwise. –  jrockway Feb 28 '10 at 11:08
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If "indecent syntax" was the price I had to pay to write 1/10th as much code, I'd be willing to pay that. But perhaps I learned Lisp when I was too young, because I never understood why I should loathe it. You put the first paren before the word defun instead of after it, and use () instead of {}, and otherwise it's pretty much just the same as most other languages. I don't understand why that ties people in knots so. –  Ken Feb 28 '10 at 14:28
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It ties people in knots because they read articles about "how lisp is so awesome111", but don't want to use it. So they say, "yeah, i'm sure it's awesome, but I just can't get over the syntax", when they actually mean, "I like PHP and new things scare me." Personally, I like Lisp's syntax, and I also like other langauges' syntax. –  jrockway Feb 28 '10 at 18:01
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@jrockway I've spent more than 10 minutes with perl and php, and the horrible irregular syntax didn't go away. –  Pete Kirkham May 21 '10 at 15:36
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It's missing a great IDE

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Uh, Emacs? CL + Emacs blows Java + Eclipse out of the water. –  jrockway Feb 28 '10 at 10:51
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Emacs + SLIME feels like a miracle from the POV of C-style development. Still, Emacs could use a decent text editor. :p –  guns Feb 28 '10 at 10:52
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You don't know much about Emacs. –  jrockway Feb 28 '10 at 10:55
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@Frank Krueger: SLIME is the part you're probably missing. –  Frank Shearar Feb 28 '10 at 11:00
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When I first started emacs, I was looking for the help, found something that look like it was an agent based help system like clippy, and it tried to psychoanalyse me. –  Pete Kirkham May 21 '10 at 15:38
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  • It can be harder than in more popular languages to find good libraries.
  • It is not purely functional like haskell
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Arguably purely functional languages lack the mutability feature. I can't see how you would add a feature to lisp to make it purely functional; you'd have to remove stuff instead. –  Pete Kirkham May 21 '10 at 15:35
    
If purely functional is what you like, take a look at Clojure, the most important new member of the Lisp family. –  Dan Weinreb Aug 30 '10 at 3:22
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This question has been asked a million times, but here goes. Common Lisp was created at a time when humans were considered cheap, and machines were considered expensive. Common Lisp made things easier for humans at the expense of making it harder for computers. Lisp machines were expensive; PCs with DOS were cheap. This was not good for its popularity; better to get a few more humans making mistakes with less expressive languages than it was to buy a better computer.

Fast forward 30 years, and it turns out that this isn't true. Humans are very, very expensive (and in very short supply; try hiring a programmer), and computers are very, very cheap. Cheaper than dirt, even. What today's world needs is exactly what Common Lisp offered; if Lisp were invented now, it would become very popular. Since it's 30-year-old (plus!) technology, though, nobody thought to look at it, and instead created their own languages with similar concepts. Those are the ones you're using today. (Java + garbage collection is one of the big innovations. For years, GC was looked down upon for being "too slow", but of course, a little research and now it's faster than managing your own memory. And easier for humans, too. How times change...)

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One correction: Lisp is (a little more than) 50 years old. –  Eli Barzilay Feb 28 '10 at 17:18
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This is why I said "Common Lisp", which is only really recognizable going back to the mid-80s. (Lisp machine lisp, maclisp, elisp, etc.) –  jrockway Feb 28 '10 at 17:59
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Well, the big advantages of the whole lisp family are arguably things that precede Common Lisp. In fact, Common Lisp is not too significant as far as innovations go -- its biggest contribution was in combining forces of previous dialects. –  Eli Barzilay Feb 28 '10 at 18:43
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CLOS is quite significant as far as innovations go. It was also the first object-oriented language to get a standard. Also Common Lisp for the first time made it possible to write larger software in a dynamic language over a wide range of machines - by specifying a language that had optimization features (like compiler directives, type declarations, and more) built in. All the Lisps before had either semantic problems (compiler and interpreter were behaving different, etc) or were designed with reduced capabilities (Scheme - just the core specified). –  Rainer Joswig Mar 1 '10 at 10:16
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programmers cheap in the 70/80s? Which planet? Programmers expensive today? Again, which planet? That Java has GC does not make it similar to Lisp. 'If Lisp were invented today, it would be very popular.' I don't think so. This has been discussed for decades and I think you got most of it wrong. –  Rainer Joswig Mar 1 '10 at 10:19
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This is in response to the discussion in comments under Nathan Sanders reply. This is a bit much for a comment so I'm adding it here. I hope this isn't violating Stackoverflow etiquette.

ad-hoc polymorphism is defined as different implementations based on specified types. In Common Lisp using generic methods you can define something like the following which gives you exactly that.

;This is unnecessary and created implicitly if not defined.  
;It can be explicitly provided to define an interface.
(defgeneric what-am-i? (thing))

;Provide implementation that works for any type.
(defmethod what-am-i? (thing)
  (format t "My value is ~a~%" thing))

;Specialize on thing being an integer.
(defmethod what-am-i? ((thing integer))
  (format t "I am an integer!~%")
  (call-next-method))

;Specialize on thing being a string.
(defmethod what-am-i? ((thing string))
  (format t "I am a string!~%")
  (call-next-method))


CL-USER> (what-am-i? 25)
I am an integer!
My value is 25
NIL
CL-USER> (what-am-i? "Andrew")
I am a string!
My value is Andrew
NIL
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One difference, IIRC, is that C++-style ad-hoc polymorphism uses compile-time types for dispatching, while CLOS-style generic functions use runtime types for dispatching. Granted, I can't think of any way in which generic functions are worse, but I'm not sure I'd say CL has ad-hoc polymorphism. (I might say "it has generic functions, which are better than ad-hoc polymorphism".) –  Ken Mar 1 '10 at 2:37
    
You're correct about compile time vs. runtime dispatching. I realized last night as I was going to bed that this is not complete ad-hoc polymorphism either. For ad-hoc polymorphism you also need to be allowed to vary the number of arguments, not just their types. So in c++ you can have one overload take no arguments and another take 2, I'm not sure how to do this in CL. I think that it would be possible but a lot of work de-structuring the arguments yourself. –  Andrew Myers Mar 1 '10 at 10:58
    
C++ definitely does have runtime dispatch. Without that, it would not be an object-oriented languages in any meaningful sense. C++ overloads, which you're discussing, are something else. Look for "overriding" as opposed to "overloading". –  Dan Weinreb Aug 30 '10 at 3:22
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  • Whole-program transformations. (It would be just like macros, but for everything. You could use it to implement declarative language features.) Equivalently, the ability to write add-ons to the compiler. (At least, Scheme is missing this. CL may not be.)
  • Built-in theorem assistant / proof checker for proving assertions about your program.

Of course, I don't know of any other language that has these, so I don't think there's much competition in terms of features.

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Lisp macros really ARE add-ons to the compiler; they are true language extensions. I'm not quite sure what more you are asking for. –  Dan Weinreb Aug 30 '10 at 3:24
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For Common Lisp, I think the following features would be worth adding to a future standard, in the ridiculously unlikely hypothetical situation that another standard is produced. All of these are things that are provided by pretty much every actively maintained CL implementation in subtly incompatible ways, or exist in widely used and portable libraries, so having a standard would provide significant benefits to users while not making life unduly difficult for implementors.

  • Some features for working with an underlying OS, like invoking other programs or handling command line arguments. Every implementation of CL I've used has something like this, and all of them are pretty similar.

  • Underlying macros or special forms for BACKQUOTE, UNQUOTE and UNQUOTE-SPLICING.

  • The meta-object protocol for CLOS.

  • A protocol for user-defined LOOP clauses. There are some other ways LOOP could be enhanced that probably wouldn't be too painful, either, like clauses to bind multiple values, or iterate over a generic sequence (instead of requiring different clauses for LISTs and VECTORs).

  • A system-definition facility that integrates with PROVIDE and REQUIRE, while undeprecating PROVIDE and REQUIRE.

  • Better and more extensible stream facilities, allowing users to define their own stream classes. This might be a bit more painful because there are two competing proposals out there, Gray streams and "simple streams", both of which are implemented by some CL implementations.

  • Better support for "environments", as described in CLTL2.

  • A declaration for merging tail calls and a description of the situations where calls that look like tail calls aren't (because of UNWIND-PROTECT forms, DYNAMIC-EXTENT declarations, special variable bindings, et c.).

  • Undeprecate REMOVE-IF-NOT and friends. Eliminate the :TEST-NOT keyword argument and SET.

  • Weak references and weak hash tables.

  • User-provided hash-table tests.

  • PARSE-FLOAT. Currently if you want to turn a string into a floating point number, you either have to use READ (which may do all sorts of things you don't want) or roll your own parsing function. This is silly.

Here are some more ambitious features that I still think would be worthwhile.

  • A protocol for defining sequence classes that will work with the standard generic sequence functions (like MAP, REMOVE and friends). Adding immutable strings and conses alongside their mutable kin might be nice, too.

  • Provide a richer set of associative array/"map" data types. Right now we have ad-hoc stuff built out of conses (alists and plists) and hash-tables, but no balanced binary trees. Provide generic sequence functions to work with these.

  • Fix DEFCONSTANT so it does something less useless.

  • Better control of the reader. It's a very powerful tool, but it has to be used very carefully to avoid doing things like interning new symbols. Also, it would be nice if there were better ways to manage readtables and custom reader syntaxes.

  • A read syntax for "raw strings", similar to what Python offers.

  • Some more options for CLOS classes and slots, allowing for more optimizations and better performance. Some examples are "primary" classes (where you can only have one "primary class" in a class's list of superclasses), "sealed" generic functions (so you can't add more methods to them, allowing the compiler to make a lot more assumptions about them) and slots that are guaranteed to be bound.

  • Thread support. Most implementations either support SMP now or will support it in the near future.

  • Nail down more of the pathname behavior. There are a lot of gratuitously annoying incompatibilities between implementations, like CLISP's insistance on signaling an error when you use PROBE-FILE on a directory, or indeed the fact that there's no standard function that tells you whether a pathname is the name of a directory or not.

  • Support for network sockets.

  • A common foreign function interface. It would be unavoidably lowest-common-denominator, but I think having something you could portably rely upon would be a real advantage even if using some of the cooler things some implementations provide would still be relegated to the realm of extensions.

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MANY of the things you mention here are available in libraries so well-established as to be as much "part of the language" as are the Java standard libraries. bordeaux-threads, usocket, and cffi are some of them. There's good discussion about the future of Lisp on the <a href="ilc2009.scheming.org/>web site I set up for the International Lisp Conference 2009.</a> It discusses many of the issues brought up here. –  Dan Weinreb Aug 30 '10 at 3:20
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@Dan Weinreb: Right, and if there were to be a CLtL3 or an ANSI CL1x standardization effort, things that have existing, widely-used and easily-available implementations would be obvious additions to that new standard. –  Pillsy Aug 31 '10 at 17:07
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You are asking the ronge question. The language with the most features isnt the best. A language needs a goal.

We could add all of this and more

* Pass-by-reference (C++/C#)
* String interpolation (Perl/Ruby)
* Nice infix syntax (though it's not clear that it's worth it) (Python)
* Monadic 'iteration' construct which can be overloaded for other uses (Haskell/C#/F#/Scala)
* Static typing (though it's not clear that it's worth it) (many languages)
* Type inference (not in the standard at least) (Caml and many others)
* Abstract Data Types (Haskell/F#/Caml)
* Pattern matching (Haskell/F#/Caml/Scala/others)
* Backtracking (though it's not clear that it's worth it) (Prolog)
* ad-hoc polymorphism (see Andrew Myers' answer)
* immutable data structures (many languages)
* lazy evaluation (Haskell)

but that would make a good language. A language is not functional if you use call by ref.

If you look at the new list Clojure. Some of them are implemented but other that CL has are not and that makes for a good language.

Clojure for example added some:

ad-hoc polymorphism lazy evaluation immutable data structures Type inference (most dynamic languages have compilers that do that)

My Answer is:

Scheme schooled stay as it is. CL could add some ideos to the standard if they would make a new one.

Its LISP most can be added with libs.

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