There are languages other than Lisp (ruby, scala) that say they use REPL (Read, Eval, Print, Loop), but it is unclear whether what is meant by REPL is the same as in Lisp. How is Lisp REPL different from non-Lisp REPL?

  • It appears in the comments below that the question is meant to be "What arguments are used to claim that the LISP REPL is the only real REPL?". That question is Subjective and Argumentative writ large. Apr 15, 2011 at 17:13
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    In Lisp, we do not have to restart the REPL after a code change. We can compile one function and try it out instantly. We don't loose the state. And objects are even (lazily) updated after their class definition changed. Common Lisp is an image-based language.
    – Ehvince
    Nov 3, 2018 at 0:27

7 Answers 7


The idea of a REPL comes from the Lisp community. There are other forms of textual interactive interfaces, for example the command line interface. Some textual interfaces also allow a subset of some kind of programming language to be executed.

REPL stands for READ EVAL PRINT LOOP: (loop (print (eval (read)))).

Each of the four above functions are primitive Lisp functions.

In Lisp the REPL is not a command line interpreter (CLI). READ does not read commands and the REPL does not execute commands. READ reads input data in s-expression format and converts it to internal data. Thus the READ function can read all kinds of s-expressions - not just Lisp code.

READ reads a s-expression. This is a data-format that also supports encoding source code. READ returns Lisp data.

EVAL takes Lisp source code in the form of Lisp data and evaluates it. Side effects can happen and EVAL returns one or more values. How EVAL is implemented, with an interpreter or a compiler, is not defined. Implementations use different strategies.

PRINT takes Lisp data and prints it to the output stream as s-expressions.

LOOP just loops around this. In real-life a REPL is more complicated and includes error handling and sub-loops, so-called break loops. In case of an error one gets just another REPL, with added debug commands, in the context of the error. The value produced in one iteration also can be reused as input for the next evaluation.

Since Lisp is both using code-as-data and functional elements, there are slight differences to other programming languages.

Languages that are similar, those will provide also similar interactive interfaces. Smalltalk for example also allows interactive execution, but it does not use a data-format for I/O like Lisp does. Same for any Ruby/Python/... interactive interface.


So how significant is the original idea of READing EXPRESSIONS, EVALuating them and PRINTing their values? Is that important in relation to what other languages do: reading text, parsing it, executing it, optionally print something and optionally printing a return value? Often the return value is not really used.

So there are two possible answers:

  1. a Lisp REPL is different to most other textual interactive interfaces, because it is based on the idea of data I/O of s-expressions and evaluating these.

  2. a REPL is a general term describing textual interactive interfaces to programming language implementations or subsets of those.

REPLs in Lisp

In real implementations Lisp REPLs have a complex implementation and provide a lot of services, up to clickable presentations (Symbolics, CLIM, SLIME) of input and output objects. Advanced REPL implementations are for example available in SLIME (a popular Emacs-based IDE for Common Lisp), McCLIM, LispWorks and Allegro CL.

Example for a Lisp REPL interaction:

a list of products and prices:

CL-USER 1 > (setf *products* '((shoe (100 euro))
                               (shirt (20 euro))
                               (cap (10 euro))))
((SHOE (100 EURO)) (SHIRT (20 EURO)) (CAP (10 EURO)))

an order, a list of product and amount:

CL-USER 2 > '((3 shoe) (4 cap))
((3 SHOE) (4 CAP))

The price for the order, * is a variable containing the last REPL value. It does not contain this value as a string, but the real actual data.

CL-USER 3 > (loop for (n product) in *
                  sum (* n (first (second (find product *products*
                                                :key 'first)))))

But you can also compute Lisp code:

Let's take a function which adds the squares of its two args:

CL-USER 4 > '(defun foo (a b) (+ (* a a) (* b b))) 
(DEFUN FOO (A B) (+ (* A A) (* B B)))

The fourth element is just the arithmetic expression. * refers to the last value:

CL-USER 5 > (fourth *)
(+ (* A A) (* B B))

Now we add some code around it to bind the variables a and b to some numbers. We are using the Lisp function LIST to create a new list.

CL-USER 6 > (list 'let '((a 12) (b 10)) *)
(LET ((A 12) (B 10)) (+ (* A A) (* B B)))

Then we evaluate the above expression. Again, * refers to the last value.

CL-USER 7 > (eval *)

There are several variables which are updated with each REPL interaction. Examples are *, ** and *** for the previous values. There is also + for the previous input. These variables have as values not strings, but data objects. + will contain the last result of the read operation of the REPL. Example:

What is the value of the variable *print-length*?

CL-USER 8 > *print-length*

Let's see how a list gets read and printed:

CL-USER 9 > '(1 2 3 4 5)
(1 2 3 4 5)

Now let's set the above symbol *print-length* to 3. ++ refers to the second previous input read, as data. SET sets a symbols value.

CL-USER 10 > (set ++ 3)

Then above list prints differently. ** refers to the second previous result - data, not text.

CL-USER 11 > **
(1 2 3 ...)
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    Mind you, "EXPRESSIONS" does not appear in REPL. It is an artifact of Lisp's implementation. Take Forth, for example, whose interpreter is a variation of BEGIN REFILL WHILE INTERPRET STATE @ 0= IF ." OK" CR THEN REPEAT. The steps there are read, evaluate, print and loop, and Forth's evaluation is as closely related the rest of the system as Lisp's evaluation. However, while Lisp goes for "code is data" and s-exp, Forth has a "data is code" view. Apr 15, 2011 at 14:48
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    @Daniel C. Sobral: symbolic expressions are not an artifact of Lisp's implementation. It's one of it's core concepts. Forth is very near to Lisp. There are other languages like Prolog, which are, too. Apr 15, 2011 at 15:19
  • @Rainer The use of symbolic expressions to implement the REPL is an artifact of Lisp's implementation. Of course that they are a core concept of Lisp itself, but nothing about them makes REPL different in any visible way -- therefore, it's an implementation detail. Apr 15, 2011 at 17:41
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    @Daniel C. Sobrak: I don't know about you, but I have a Lisp Machine at home and its REPL makes a huge visible difference. Apr 15, 2011 at 17:53
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    @Dabiel C. Sobral: That's what I'm saying, the use of s-expressions in the REPL makes a huge difference how one interacts with it. Apr 15, 2011 at 18:41

Seeing as the concept of a REPL is to just Read, Eval, Print & Loop it's not too suprising that there are REPLs for many languages:




Haskell (on windows)








Smalltalk -- I learned it on a REPL!

  • There are many who will fight to say Lisp is only language with REPL so I guess my meaning was to ask why they think so. But maybe they are only Lisp programmers who say that. ;) Apr 15, 2011 at 0:49
  • I added erlang to the list too, even though it doesn't give complete access to everything the language can do. Also, shell languages usually have a REPL somewhere :) just execute sh to see one. :)
    – sarnold
    Apr 15, 2011 at 0:57
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    GHCi works on any platform supported by GHC. WinGHCi is just a gui front-end for it. Apr 15, 2011 at 4:44
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    Eli: I've never heard anyone say that. You should ask them.
    – Ken
    Apr 15, 2011 at 13:52
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    Wow ... I'm feeling my age here, but what about BASIC? I learned to program in a Locomotive BASIC REPL on my old Amstrad. It was a wonderful learning environment: plug in, turn on, you're immediately in a REPL and can start hacking. Jun 30, 2011 at 2:17

I think it is interesting to compare two approaches. A bare bones REPL loop in a Lisp system would look like this:

(loop (print (eval (read))))

Here are two actual Forth implementations of a REPL loop. I'm leaving nothing out here -- this is the full code to these loops.

: DO-QUIT   ( -- )  ( R:  i*x -- )
    0 >IN CELL+ !   \ set SOURCE-ID to 0
    BEGIN           \ The loop starts here
        REFILL      \ READ from standard input
        INTERPRET   \ EVALUATE  what was read
        STATE @ 0= IF ."  OK" THEN  \ PRINT

: quit
  sp0 @ 'tib !
  blk off
  [compile] [
    rp0 @ rp!
    query           \ READ
    run             \ EVALUATE
    state @ not
    if ." ok" then  \ PRINT
  again             \ LOOP

Lisp and Forth do completely different things, particularly in the EVAL part, but also in the PRINT part. Yet, they share the fact that a program in both languages is run by feeding its source code to their respective loops, and in both cases code is just data (though in Forth case it is more like data is also code).

I suspect what anyone saying only LISP has a REPL is that the READ loop reads DATA, which is parsed by EVAL, and a program is created because CODE is also DATA. This distinction is interesting in many respects about the difference between Lisp and other languages, but as far as REPL goes, it doesn't matter at all.

Let's consider this from the outside:

  1. READ -- returns input from stdin
  2. EVAL -- process said input as an expression in the language
  3. PRINT -- print EVAL's result
  4. LOOP -- go back to READ

Without going into implementation details, one can't distinguish a Lisp REPL from, for example, a Ruby REPL. As functions, they are the same.

  • To understand a mechanism you can look at the surface and compare function names or you can try to look at the semantics of the constructs. Still Forth is very near to Lisp. Even nearer are the REPLs of Prolog systems. Apr 15, 2011 at 15:26
  • @Rainer Look at the semantics, or at the implementation? The semantics of a function is only concerned about the same set of inputs result in the same set of outputs. Apr 15, 2011 at 17:51

I guess you could say that Scala's "REPL" is an "RCRPL": Read, Compile, Run, Print. But since the compiler is kept "hot" in memory, it's pretty fast for ongoing interactions--it just takes a few seconds to start up.

  • It is my understand that Clojure (a Lisp language) also has compiler in memory, so I am not understanding your meaning. I apologize. Apr 15, 2011 at 0:35
  • I was thinking your question was more about the implication of the "E", namely "Evaluate", typically a feature of dynamic/scripting languages. But on modern computers, even so large a compiler as Scala's can be run interactively. Either way, the meaning is pretty much the same: The user enters declarations and expressions, gets the results instantaneously, and can easily reuse previous results in subsequent expressions. Apr 15, 2011 at 0:38
  • Oh yes, I see now your meaning. I will need to chew this for a while. :) Apr 15, 2011 at 0:42
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    No, it should still be considered a "REPL" -- how the "E" is implemented is irrelevant... In fact, many Lisp implementations do just that: evaluate by compiling and running the input expression. Apr 15, 2011 at 1:43

There are a number of people that consider a REPL to needs to behave exactly like it does in LISP, or it's not a true REPL. Rather, they consider it something different, like a CLI (command line interpreter). Honestly, I tend to think that if it follows the basic flow of:

  • read input from the user
  • evaluate that input
  • print the output
  • loop back to the read

then it's a REPL. As noted, there are a lot of languages that have the above capability.

See this reddit thread for an example of such a discussion.


How is Lisp REPL different from non-Lisp REPL?

Let's compare Common Lisp's REPL with Python's IPython.

The main two points are:

  • Lisp is an image-based language. There is no need to restart the process/the REPL/the whole app after a change. We compile our code function by function (with compiler warnings etc).
  • we don't loose state. Even more, when we update class definitions, our objects in the REPL are also updated, following rules we have control upon. That way we can hot-reload code in a running system.

In Python, typically, you start IPython or you are dropped into ipdb. You define some data until you try out your new function. You edit your source, and you want to try again, so you quit IPython and you start the whole process again. In Lisp (Common Lisp mainly), not at all, it's all more interactive.

  • can we say that CL is like assembler, with REPL being the equivalent of the debug prompt from the olden days?
    – Will Ness
    Nov 3, 2018 at 0:31

There's a nice project called multi-repl which exposes various REPLs via Node.JS:


If you look at the list of supported languages, it's quite clear that not only Lisp has the concept of a REPL.

  • clj (clojure)
  • ghci (ghc)
  • ipython
  • irb (ruby)
  • js (spidermonkey)
  • node
  • python
  • sbcl
  • v8

In fact implementing a trivial one in Ruby is fairly easy:

repl = -> prompt { print prompt; puts(" => %s" % eval(gets.chomp!)) }
loop { repl[">> "] }

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