Interactive programming (repl)
Many language implementations come with an interactive mode.
You are encouraged to solve this task according to the task description, using any language you may know.
This is a command-line interpreter that reads lines from the user and evaluates these lines as statements or expressions.
An interactive mode may also be known as a command mode, a read-eval-print loop (REPL), or a shell.
- Task
Show how to start this mode.
Then, as a small example of its use, interactively create a function of two strings and a separator that returns the strings separated by two concatenated instances of the separator (the 3rd argument).
- Example
f('Rosetta', 'Code', ':')
should return
'Rosetta::Code'
- Note
This task is not about creating your own interactive mode.
8th
8th (like all Forth derivatives) has a built-in interpreter loop. All you need to do to access it is to start 8th:
$ 8th 8th 1.0.2 Linux 64 (f1b7a8c2) ok>
At the "ok> " prompt type in what you want:
ok> : f 2 s:* swap s:+ s:+ ; ok> "Rosetta" "Code" ":" f . cr Rosetta::Code ok>
ACL2
$ acl2 Welcome to Clozure Common Lisp Version 1.7-r14925M (DarwinX8664)! ACL2 Version 4.3 built September 8, 2011 09:08:23. Copyright (C) 2011 University of Texas at Austin ACL2 comes with ABSOLUTELY NO WARRANTY. This is free software and you are welcome to redistribute it under certain conditions. For details, see the GNU General Public License. Initialized with (INITIALIZE-ACL2 'INCLUDE-BOOK *ACL2-PASS-2-FILES*). See the documentation topic note-4-3 for recent changes. Note: We have modified the prompt in some underlying Lisps to further distinguish it from the ACL2 prompt. ACL2 Version 4.3. Level 1. Cbd "/Users/username/". Distributed books directory "/Users/username/Code/acl2/books/". Type :help for help. Type (good-bye) to quit completely out of ACL2. ACL2 !>(defun f (s1 s2 sep) (concatenate 'string s1 sep sep s2)) Since F is non-recursive, its admission is trivial. We observe that the type of F is described by the theorem (STRINGP (F S1 S2 SEP)). We used the :type-prescription rule STRING-APPEND-LST. Summary Form: ( DEFUN F ...) Rules: ((:TYPE-PRESCRIPTION STRING-APPEND-LST)) Time: 0.01 seconds (prove: 0.00, print: 0.00, other: 0.00) F ACL2 !>(f "Rosetta" "Code" ":") "Rosetta::Code" ACL2 !>(good-bye)
Arturo
➜ $ arturo Arturo (c) 2019-2021 Yanis Zafirópulos # v/0.9.6.5 b/1097 @ 2021-02-09T16:40:43+01:00 # arch: amd64/macosx # Type info 'symbol for info about a specific symbol or built-in function # Type help to get a list of all available functions with a short description # For multi-line input, just add a blank space at the end of a line # Launching interactive console - rock on! 🤘 $> f: function [x y sep]-> x ++ (repeat sep 2) ++ y $> f "Rosetta" "Code" ":" => Rosetta::Code $>
BASIC
This was tested with SAM BASIC, but it should work with most Basic interpreters.
A Basic interpreter is in command mode by default. Enter the following in command mode:
10 DEF FN f$(a$, b$, s$) = a$+s$+s$+b$
PRINT FN f$("Rosetta", "Code", ":")
Applesoft BASIC
The Apple II comes with BASIC in Read Only Memory (ROM.) When the Apple II plus and later models are powered on with no disk drives attached, the Applesoft BASIC prompt appears.
]
If a drive is attached, press RESET or Ctrl+RESET before the disk boots to get to the Applesoft BASIC prompt.
The original Apple II comes with Integer BASIC in ROM.
>
With an Applesoft ROM card, or a 16K RAM "Language" card in slot 0, you can boot from the DOS 3.3 System Master to load DOS and if needed it will load Applesoft into the Language card. Type the DOS 3.3 command FP "Floating Point" to get to the Applesoft BASIC prompt. There is also an older cassette tape version of Applesoft BASIC.
You can also get to Applesoft Basic from the Monitor.
*
Type E000G to cold start Applesoft which clears the program and variables. Or, type E003G to warm start Applesoft.
The two modes are RUN mode, and the default "DIRECT" mode. In direct mode, spaces are ignored except within strings. Entering ? is shorthand for the PRINT keyword. Using GET, INPUT, or DEF FN will result in an ?ILLEGAL DIRECT ERROR. The DATA statement is ignored.
] 0 IF F$ = "F" THEN RESULT$ = P1$ + P3$ + P3$ + P2$: END
] F$ = "F":P1$ = "ROSETTA":P2$ = "CODE":P3$ = ":": GOTO
] ?RESULT$
ROSETTA::CODE
Batch File
CMD.EXE is the CLI for Batch Files. Batch Files do not have traditional functions and doing the alternative will not work in interactive mode. So this example uses blocks of code.
>set r=Rosetta
>set c=Code
>set s=:
>echo %r%%s%%s%%c%
Rosetta::Code
>
BBC BASIC
Interactive mode is entered by clicking on the 'Immediate' toolbar button or selecting Immediate from the Run menu. Functions cannot be defined in immediate mode so the example below uses inline code:
>r$ = "Rosetta" >c$ = "Code" >s$ = ":" >PRINT r$+s$+s$+c$ Rosetta::Code >
bc
bc has no string operations, so I will instead show how to use hexadecimal numbers such that f(205E77A, C0DE, 1) returns 205E77A11C0DE.
Step 1. I start the interactive interpreter, switch from base 10 to base 16, and check that 1000 - 2 is FFE, not 998. My bc has no prompt, so I will use »bold text to show where I typed my input.
$ »bc »obase = ibase = 16 »1000 - 2 FFE
Step 2. I define a helper function d() to count the number of digits in a number. I check that d() works for positive numbers.
»define d(a) { » auto r » r = 0 » while (a != 0) { » r += 1 » a /= 10 » } » return (r) »} »d(4) 1 »d(5A) 2 »d(67B) 3
Step 3. I define f() and call it.
»define f(a, b, c) { » auto d, e, f » d = d(b) » e = d + d(c) » f = e + d(c) » return (a * 10 ^ f + c * 10 ^ e + c * 10 ^ d + b) »} »f(205E77A, C0DE, 1) 205E77A11C0DE
Step 4. I quit. (Control-D also works.)
»quit $
BQN
All BQN implementations start in interactive mode, when called from the command line with no arguments (using Node.js for mlochbaum/BQN). It is recommended to use rlwrap
with the executable for a better REPL experience.
Join ← {a 𝕊 b‿c: b∾a∾a∾c}
(function block)
":" Join "Rosetta"‿"Code"
"Rosetta::Code"
Bracmat
Running Bracmat without arguments starts the program in interactive mode. The prompt is {?}
. After evaluation, Bracmat prints {!}
followed by the result. Input can extend over multiple lines, but is terminated by a new line if all parentheses are balanced (()
or {}
) and any string introduced with "
also is closed with "
. The number of needed closing parentheses is indicated at the start of a new input line. Provided the file help
is in the current working directory, the user can get interactive help by entering get$help
. The program is closed by entering an extra closing parenthesis, followed by a confirming y
.
D:\projects\Bracmat>bracmat Bracmat version 5, build 105 (1 December 2011) Copyright (C) 2002 Bart Jongejan Bracmat comes with ABSOLUTELY NO WARRANTY; for details type `!w'. This is free software, and you are welcome to redistribute it under certain conditions; type `!c' for details. {?} get$help { tutorial } {?} ) { stop } {?} (f=a b c. {1} !arg:(?a,?b,?c) {1} & str$(!a !c !b) {1} ) {!} f S 0,00 sec (2156.2173.0) {?} f$(Rosetta,Code,":") {!} Rosetta:Code S 0,00 sec (2156.2173.0) {?}
Brat
$ brat
# Interactive Brat
brat:1> f = { a, b, s | a + s + s + b }
#=> function: 0xb737ac08
brat:2> f "Rosetta" "Code" ":"
#=> Rosetta::Code
brat:3> quit
Exiting
Burlesque
C:\Burlesque>Burlesque.exe --shell
blsq ) {+]?+}hd"Rosetta""Code"':!a
"Rosetta:Code"
blsq )
C#
Visual Studio 2015 and above come with a C# REPL (called the C# Interactive Compiler), which can be launched as csi from the Visual Studio developer command prompt.
********************************************************************** ** Visual Studio 2017 Developer Command Prompt v15.9.14 ** Copyright (c) 2017 Microsoft Corporation ********************************************************************** C:\Program Files (x86)\Microsoft Visual Studio\2017\Community>csi /? Microsoft (R) Visual C# Interactive Compiler version 2.10.0.0 Copyright (C) Microsoft Corporation. All rights reserved. Usage: csi [option] ... [script-file.csx] [script-argument] ... Executes script-file.csx if specified, otherwise launches an interactive REPL (Read Eval Print Loop). Options: /help Display this usage message (alternative form: /?) /version Display the version and exit /i Drop to REPL after executing the specified script. /r:<file> Reference metadata from the specified assembly file (alternative form: /reference) /r:<file list> Reference metadata from the specified assembly files (alternative form: /reference) /lib:<path list> List of directories where to look for libraries specified by #r directive. (alternative forms: /libPath /libPaths) /u:<namespace> Define global namespace using (alternative forms: /using, /usings, /import, /imports) @<file> Read response file for more options -- Indicates that the remaining arguments should not be treated as options.
C:\Program Files (x86)\Microsoft Visual Studio\2017\Community>csi Microsoft (R) Visual C# Interactive Compiler version 2.10.0.0 Copyright (C) Microsoft Corporation. All rights reserved. Type "#help" for more information. > string f(string s1, string s2, char sep) => s1+sep+sep+s2; > f("Rosetta", "Code", ':') "Rosetta::Code" >
Clojure
With clojure.jar on the Java classpath, the Clojure REPL is invoked with java clojure.main.
Clojure 1.1.0
user=> (defn f [s1 s2 sep] (str s1 sep sep s2))
#'user/f
user=> (f "Rosetta" "Code" ":")
"Rosetta::Code"
user=>
CoffeeScript
With the coffee-script package for NPM on Node.js. The -n flag is '--node'.
$ coffee -n
coffee> f = (a, b, c) -> a + c + c + b
[Function]
coffee> f "Rosetta", "Code", ":"
"Rosetta::Code"
Common Lisp
The details of interactive use vary widely between implementations; this example is from SBCL. *
is the prompt. By default, SBCL compiles (not interprets) all code, unless sb-ext:*evaluator-mode*
is changed.
$ rlwrap sbcl
This is SBCL 1.0.25, an implementation of ANSI Common Lisp.
More information about SBCL is available at <http://www.sbcl.org/>.
...
* (defun f (string-1 string-2 separator)
(concatenate 'string string-1 separator separator string-2))
F
* (f "Rosetta" "Code" ":")
"Rosetta::Code"
*
Déjà Vu
The interactive interpreter provides .
as a shortcut for !.
and ;
as a shortcut for !(print-stack)
.
$ vu
<1:1> f str1 str2 sep:
<1:2> join sep [ str2 "" str1 ]
<1:3>
<2:1> . f "Rosetta" "Code" ":"
"Rosetta::Code"
E
$ rune # from an OS shell. On Windows there is also a desktop shortcut.
"?
" and ">
" are prompts for input; "#
" marks output.
? def f(string1 :String, string2 :String, separator :String) {
> return separator.rjoin(string1, "", string2)
> }
# value: <f>
? f("Rosetta", "Code", ":")
# value: "Rosetta::Code"
If you type a definitely incomplete expression, such as "def f() {
", then it gives an ">
" prompt and takes additional lines. If the expression is not necessarily incomplete, you can continue anyway by ending a line with "\
".
EchoLisp
EchoLisp runs in a browser window, and is -par essence - interactive. To start the REPL mode, type http://www.echolalie.org/echolisp in the browser URL address field.
;; screen copy of the REPL
;; note that the &i variables remember expression evaluation, and may be used in other expressions
EchoLisp - 2.16.2
📗 local-db: db.version: 3
(define ( f s1 s2 s3) (string-append s1 s3 s3 s2))
[0]→ f
(f "Rosetta" "Code" ":")
[1]→ "Rosetta::Code"
(+ 4 8)
[2]→ 12
(* 4 8)
[3]→ 32
(* &2 &3)
[4]→ 384
(f &1 &1 ":")
[5]→ "Rosetta::Code::Rosetta::Code"
;; etc.
Elena
ELENA Script is a subset of the general language. ELT (Virtual machine terminal) can work in REPL mode
c:\Alex\ELENA\bin>elt-cli
ELENA command line VM terminal 6.0.7 (C)2021-23 by Aleksey Rakov
ELENA VM 6.0.25 (C)2022-2023 by Aleksey Rakov
Initializing...
-q - quit
-c - clear
-h - help
-l <path> - execute a script from file
-p<script>; - prepend the prefix code
{ <script>; }*
<script> - execute script
>-pf(s1,s2,sep){^ s1 + sep + sep + s2 }
>f("Rosetta","Code",":")
Rosetta::Code
>
Elixir
Elixir's Interactive REPL is IEx, Interactive Elixir. To open IEx, open a shell and type: iex
The 'def' keyword isn't allowed outside of modules in Elixir, so the easiest way to write a function in iex is usually by writing an anonymous function.
iex(1)> f = fn str1,str2,sep -> [str1,"",str2] |> Enum.join(sep) end # Join list on separator
iex(2)> g = fn str1,str2,sep -> str1 <> sep <> sep <> str2 end # Or concatenate strings
iex(3)> defmodule JoinStrings do
...(3)> def f(str1,str2,sep), do: [str1,"",str2] |> Enum.join(sep)
...(3)> def g(str1,str2,sep), do: str1 <> sep <> sep <> str2
...(3)> end
Example:
iex(4)> f.("Rosetta","Code",":")
"Rosetta::Code"
iex(5)> JoinStrings.f("Rosetta","Code",":")
"Rosetta::Code"
Emacs Lisp
Emacs opens a *scratch* buffer by default. This buffer is in Lisp Interaction mode; C-j
evaluates the Lisp expression before point, and prints the result.
Switch to the buffer (C-x b *scratch*
, or use the Buffers menu), type some Lisp expressions, and press C-j
after each expression.
(defun my-join (str1 str2 sep)
(concat str1 sep sep str2))
my-join
(my-join "Rosetta" "Code" ":")
"Rosetta::Code"
Emacs also provides ielm, the interactive Emacs Lisp mode. Start it with M-x ielm
, type some expressions and press RET
.
*** Welcome to IELM *** Type (describe-mode) for help.
ELISP> (defun my-join (str1 str2 sep)
(concat str1 sep sep str2))
my-join
ELISP> (my-join "Rosetta" "Code" ":")
"Rosetta::Code"
ELISP>
Erlang
$erl
1> F = fun(X,Y,Z) -> string:concat(string:concat(X,Z),string:concat(Z,Y)) end.
#Fun<erl_eval.18.105910772>
2> F("Rosetta", "Code", ":").
"Rosetta::Code"
ERRE
ERRE hasn't no interactive mode. You can only execute the R-Code Interpreter in this way: from main menu do Utilità --> Dos Shell and then from command prompt RCODE <Enter> and then type this
r$="Rosetta" Ok <--- from interpreter c$="Code" Ok <--- from interpreter s$="-" Ok <--- from interpreter PRINT r$+s$+c$ Rosetta-Code Ok <--- from interpreter
Type
system
to return to command prompt.
F#
The F# interpreter is called fsi. As F# accepts multi-line input it will not evaluate the input until you enter two semi-colons together.
Microsoft F# Interactive, (c) Microsoft Corporation, All Rights Reserved
F# Version 1.9.6.2, compiling for .NET Framework Version v2.0.50727
Please send bug reports to fsbugs@microsoft.com
For help type #help;;
> let f a b sep = String.concat sep [a; ""; b] ;;
val f : string -> string -> string -> string
> f "Rosetta" "Code" ":" ;;
val it : string = "Rosetta::Code"
Factor
Factor comes with a graphical interpreter called the listener. The listener can also be run in a console with the following command:
./factor -run=listener
( scratchpad ) : cool-func ( w1 w2 sep -- res ) dup append glue ;
( scratchpad ) "Rosetta" "Code" ":" cool-func .
"Rosetta::Code"
Fantom
Fantom comes with a command-line interpreter called 'fansh'
$ fansh Fantom Shell v1.0.57 ('?' for help) fansh> f := |Str a, Str b, Str c -> Str| {"$a$c$c$b"} |sys::Str,sys::Str,sys::Str->sys::Str| fansh> f("Rosetta", "Code", ":") Rosetta::Code
Forth
All Forth systems come with an interpreter. On embedded systems, the interpreter functions as a monitor or lightweight operating system.
$ gforth
Gforth 0.7.0, Copyright (C) 1995-2008 Free Software Foundation, Inc.
Gforth comes with ABSOLUTELY NO WARRANTY; for details type `license'
Type `bye' to exit
ok
: f ( separator suffix prefix -- ) compiled
pad place 2swap 2dup compiled
pad +place compiled
pad +place compiled
pad +place compiled
pad count ; ok
ok
s" :" s" Code" s" Rosetta" f cr type
Rosetta::Code ok
FreeBASIC
FreeBASIC is a compiler rather than an interpreter and doesn't have an interactive mode as such.
However, as simple programs can be written in a few lines and compile and execute very quickly, I think it's fair to say that the lack of an interpreter is not considered much of a drawback by most FB developers.
For example, the current task can be coded as follows and compiles/runs instantly :
' FB 1.05.0 Win64
Dim As String s1, s2, sep
Input "First string "; s1
Input "Second string "; s2
Input "Separator "; sep
Print : Print s1 + sep + sep + s2
Sleep
- Output:
First string ? Rosetta Second string ? Code Separator ? : Rosetta::Code
Frink
Frink is distributed as a single .jar
file that will run in a Java Virtual Machine. On many operating systems, just double-clicking this .jar
file will run Frink with a graphical interface in an interactive mode. By specifying a different main-class (frink.parser.Frink
) when starting Frink, it can be run in a text-mode interactive mode as well. These options and sample starter scripts for various operating systems are provided in the Running Frink section of the documentation.
$ java -cp frink.jar frink.parser.Frink
f[a,b,s] := "$a$s$s$b"
f["Rosetta", "Code", ":"]
- Output:
Rosetta::Code
Fōrmulæ
The interactive mode (REPL) is the primary working mode in Fōrmulæ.
To use it, open the web address formulae.org in your browser. it is preferable to use this environment in a desktop web browser.
It is not necessary to install anything else.
A page with information is shown. You can start a new script using the tool (new document).
GAP
~% gap
######### ###### ########### ###
############# ###### ############ ####
############## ######## ############# #####
############### ######## ##### ###### #####
###### # ######### ##### ##### ######
###### ########## ##### ##### #######
##### ##### #### ##### ###### ########
#### ##### ##### ############# ### ####
##### ####### #### #### ########### #### ####
##### ####### ##### ##### ###### #### ####
##### ####### ##### ##### ##### #############
##### ##### ################ ##### #############
###### ##### ################ ##### #############
################ ################## ##### ####
############### ##### ##### ##### ####
############# ##### ##### ##### ####
######### ##### ##### ##### ####
Information at: http://www.gap-system.org
Try '?help' for help. See also '?copyright' and '?authors'
Loading the library. Please be patient, this may take a while.
GAP4, Version: 4.4.12 of 17-Dec-2008, x86_64-unknown-linux-gnu-gcc
Components: small 2.1, small2 2.0, small3 2.0, small4 1.0, small5 1.0, small6 1.0, small7 1.0, small8 1.0,
small9 1.0, small10 0.2, id2 3.0, id3 2.1, id4 1.0, id5 1.0, id6 1.0, id9 1.0, id10 0.1, trans 1.0,
prim 2.1 loaded.
Packages: AClib 1.1, Polycyclic 2.6, Alnuth 2.2.5, AutPGrp 1.4, CrystCat 1.1.3, Cryst 4.1.6, CRISP 1.3.2,
CTblLib 1.1.3, TomLib 1.1.4, FactInt 1.5.2, GAPDoc 1.2, FGA 1.1.0.1, IRREDSOL 1.1.2, LAGUNA 3.5.0,
Sophus 1.23, Polenta 1.2.7, ResClasses 2.5.3 loaded.
gap> join := function(a, b, sep)
> return Concatenation(a, sep, sep, b);
> end;
function( a, b, sep ) ... end
gap>
gap> join("Rosetta", "Code", ":");
"Rosetta::Code"
gap>
Go
To satisfy some of the desire for a REPL, Go includes a browser-based "playground" that compiles and executes directly from a browser edit box. You still have to type complete programs with all the usual boilerplate, but at least you don't have to create a source file, run the compiler, run the linker, and run the program. It has a convenient checkbox for "compile and run after each keystroke" that works quite well. You just type, and as soon as your program is valid, you see output.
Running goplay takes two steps. First, start the program with "goplay" on the command line, then visit http://localhost:3999/ with a browser.
The complete program satisfying the task is,
package main
import "fmt"
func f(s1, s2, sep string) string {
return s1 + sep + sep + s2
}
func main() {
fmt.Println(f("Rosetta", "Code", ":"))
}
It works well to enter the program, check "every keystroke" to see syntax errors from whatever silly oversights you made, then fix them one by one until your desired output appears.
Rosetta::Code
Groovy
The groovysh interpreter requires a command-line interpreter (terminal) environment in which to run. This example was run under the CMD command-line interpreter on Microsoft Windows XP.
C:\Apps\groovy>groovysh
Groovy Shell (1.6.2, JVM: 1.6.0_13)
Type 'help' or '\h' for help.
---------------------------------------------------------------------------------------------------
groovy:000> f = { a, b, sep -> a + sep + sep + b }
===> groovysh_evaluate$_run_closure1@5e8d7d
groovy:000> println f('Rosetta','Code',':')
Rosetta::Code
===> null
groovy:000> exit
C:\Apps\groovy>
Haskell
The details of interactive use vary widely between implementations. This example is from GHCi.
$ ghci
___ ___ _
/ _ \ /\ /\/ __(_)
/ /_\// /_/ / / | | GHC Interactive, version 6.4.2, for Haskell 98.
/ /_\\/ __ / /___| | http://www.haskell.org/ghc/
\____/\/ /_/\____/|_| Type :? for help.
Loading package base-1.0 ... linking ... done.
Prelude> let f as bs sep = as ++ sep ++ sep ++ bs
Prelude> f "Rosetta" "Code" ":"
"Rosetta::Code"
HicEst
Start HicEst e.g. with:
"c:\Program Files\HicEst\HicEst.exe E:\Rosetta\Interactive_programming.hic f('Rosetta', 'Code', ':')"
Type the following script. Each line is executed (and incrementally compiled) when it is typed:
CHARACTER A*40, B*40, C*40
READ(Text=$CMD_LINE, Format="'','','',") A, B, C
WRITE(ClipBoard, Name) A, B, C ! A=Rosetta; B=Code; C=:;
WRITE(ClipBoard) TRIM(A) // ':' // TRIM(C) // TRIM(B) ! Rosetta::Code
Insitux
First is the system shell, when Insitux has been already been installed system-wide (npm i -g insitux
).
$ npx ix Insitux 230728 REPL ❯ (function f s1 s2 sep (str s1 sep sep s2)) ❯ (f "Rosetta" "Code" ":") Rosetta::Code ❯
Io
$ io Io 20110905 Io> f := method(str1,str2,sep, ... str1 .. sep .. sep .. str2) ==> method(str1, str2, sep, str1 .. sep .. sep .. str2 ) Io> f("Rosetta","Code",":") ==> Rosetta::Code Io> writeln("I am going to exit now") I am going to exit now ==> nil Io> exit $
The function could have been written on one line but I wanted to show multi-line input with the continuation prompt ...
. The result of the expression that is entered appears after ==>
and any output or error message appears before.
J
J runs in command mode by default. Starting J depends on your operating system and other factors, but typically would involve double clicking on an icon, or starting one of several programs from a command line (j, jwd, jconsole, jee, jhs -- though note that jhs would also require a web browser and visiting a localhost URL).
This is a session log once the os specific stuff has been handled:
f=: [: ; 0 2 2 1&{
f 'Rosetta';'Code';':'
Rosetta::Code
Java
public static void main(String[] args) {
System.out.println(concat("Rosetta", "Code", ":"));
}
public static String concat(String a, String b, String c) {
return a + c + c + b;
}
Rosetta::Code
Alternatively
Java has an interactive REPL (Read-Evaluate-Print-Loop) console, jshell, that is included with the JDK.
The REPL is started by invoking: $JAVA_HOME/bin/jshell
Here is a sample session to accomplish the task.
| Welcome to JShell -- Version 20
| For an introduction type: /help
jshell> String concat(String a, String b, String c) { return a + c + c + b; }
| created method concat(String, String, String)
jshell> concat("Rosetta", "Code", ":")
$2 ==> "Rosetta::Code"
jshell>
JavaScript
$ java -cp js.jar org.mozilla.javascript.tools.shell.Main
Rhino 1.7 release 2 2009 03 22
js> function f(a,b,s) {return a + s + s + b;}
js> f('Rosetta', 'Code', ':')
Rosetta::Code
js> quit()
$
Jsish
prompt$ jsish Jsish interactive: see 'help [cmd]' # function f(a:string, b:string, s:string):string { return a+s+s+b; } # f('Rosetta', 'Code', 1) warn: type mismatch for argument arg 3 's': expected "string" but got "number", in call to 'f' <1>. (at or near "Code") "Rosetta11Code" # f('Rosetta', 'Code', ':') "Rosetta::Code"
Julia
Julia
has a fine REPL
which is invoked by the command julia
when no arguments are supplied.
usr@host:~/rosetta/julia$ julia _ _ _ _(_)_ | A fresh approach to technical computing (_) | (_) (_) | Documentation: http://docs.julialang.org _ _ _| |_ __ _ | Type "help()" for help. | | | | | | |/ _` | | | | |_| | | | (_| | | Version 0.3.7 (2015-03-23 21:36 UTC) _/ |\__'_|_|_|\__'_| | Official http://julialang.org release |__/ | x86_64-linux-gnu julia> function strcat(a::String, b::String, sep::String) a*(sep^2)*b end strcat (generic function with 1 method) julia> strcat("rosetta", "code", "_") "rosetta__code" julia>
K
$ rlwrap k
K Console - Enter \ for help
f:{x,z,z,y}
f["Rosetta";"Code";":"]
"Rosetta::Code"
Kotlin
Kotlin has an interactive shell for the JVM which can be started by simply typing 'kotlinc' at the command line. Here's a sample interactive session to accomplish the specified task on Windows 10:
c:\kotlin-compiler-1.0.6>kotlinc
Welcome to Kotlin version 1.0.6-release-127 (JRE 1.8.0_31-b13)
Type :help for help, :quit for quit
>>> fun f(s1: String, s2: String, sep: String) = s1 + sep + sep + s2
>>> f("Rosetta", "Code", ":")
Rosetta::Code
>>> :quit
Lambdatalk
Lambdatalk works in a small wiki, lambdatank. Evaluation is done in real time.
{def F {lambda {:a :b :s} :a:s:s:b}}
-> F
{F Rosetta Code :}
-> Rosetta::Code
Lang
This example works with the LangShell from the Standard Lang implementation. The LangShell can be started with (The LangShell does not run in the OS's shell, it will open a separate window):
$ lang -startShell
Lang-Shell - Press CTRL + C for cancelling execution or for exiting!
• Copy with (CTRL + SHIFT + C) and paste with (CTRL + SHIT + V)
• Press CTRL + S for saving all inputs to a .lang file (Save)
• Press CTRL + SHIFT + S for saving all inputs to a .lang file (Save As...)
• Press CTRL + I for opening the special char input window
• Press CTRL + SHIFT + F for opening a file chooser to insert file paths
• Press UP and DOWN for scrolling through the history
• Press TAB and SHIFT + TAB for scrolling trough auto complete texts
◦ Press ENTER for accepting the auto complete text
• Press CTRL + L to clear the screen
• Use func.printHelp() to get information about LangShell functions
> fp.f = ($a, $b, $s) -> return $a$s$s$b
==> <Normal FP>
> fp.f(Rosetta, Code, :)
==> Rosetta::Code
>
Example with auto print mode set to NONE:
Lang-Shell - Press CTRL + C for cancelling execution or for exiting!
• Copy with (CTRL + SHIFT + C) and paste with (CTRL + SHIT + V)
• Press CTRL + S for saving all inputs to a .lang file (Save)
• Press CTRL + SHIFT + S for saving all inputs to a .lang file (Save As...)
• Press CTRL + I for opening the special char input window
• Press CTRL + SHIFT + F for opening a file chooser to insert file paths
• Press UP and DOWN for scrolling through the history
• Press TAB and SHIFT + TAB for scrolling trough auto complete texts
◦ Press ENTER for accepting the auto complete text
• Press CTRL + L to clear the screen
• Use func.printHelp() to get information about LangShell functions
> fn.setAutoPrintMode(NONE)
> fp.f = ($a, $b, $s) -> return $a$s$s$b
> fn.println(fp.f(Rosetta, Code, :))
Rosetta::Code
>
Lasso
#!/usr/bin/lasso9
// filename: interactive_demo
define concatenate_with_delimiter(
string1::string,
string2::string,
delimiter::string
) => #string1 + (#delimiter*2) + #string2
define read_input(prompt::string) => {
local(string)
// display prompt
stdout(#prompt)
// the following bits wait until the terminal gives you back a line of input
while(not #string or #string -> size == 0) => {
#string = file_stdin -> readsomebytes(1024, 1000)
}
#string -> replace(bytes('\n'), bytes(''))
return #string -> asstring
}
local(
string1,
string2,
delimiter
)
// get first string
#string1 = read_input('Enter the first string: ')
// get second string
#string2 = read_input('Enter the second string: ')
// get delimiter
#delimiter = read_input('Enter the delimiter: ')
// deliver the result
stdoutnl(concatenate_with_delimiter(#string1, #string2, #delimiter))
Called from the command line: ./interactive_demo
Result -> Rosetta::Code
Lingo
Lingo/Director is usually started as GUI program and has no access to the standard system console (unless using a binary plugin). But it has its own interactive Lingo console called "Message Window", that can be activated/displayed by executing "_player.debugPlaybackEnabled=1". Using this Message Window, the task can be solved like this:
> m=new(#script)
> m.scripttext="on conc(a,b,c)"&RETURN&"return a&c&c&b"&RETURN&"end"
> put conc("Rosetta", "Code", ":")
-- "Rosetta::Code"
Logo
$ <i>logo</i>
Welcome to Berkeley Logo version 5.6
? <i>to f :prefix :suffix :separator</i>
> <i>output (word :prefix :separator :separator :suffix)</i>
> <i>end</i>
f defined
? <i>show f "Rosetta "Code ":</i>
Rosetta::Code
?
Lua
$ lua
Lua 5.1.2 Copyright (C) 1994-2007 Lua.org, PUC-Rio
> function conc(a, b, c)
>> return a..c..c..b
>> end
> print(conc("Rosetta", "Code", ":"))
Rosetta::Code
>
M2000 Interpreter
M2000 run through an environment (the M2000 Environment), and this can run a script by using command line arguments, or run in interactive mode, just opening the environment, in full screen.
To exit interactive mode just type END and press enter after prompt >, Old commands are back again using arrows up or down. We can open editor for these commands (internal editor has syntax color).
Command line has a some special commands (we need to use Set to send command to this line, from a program), to change many things. Type Help All to see help for all topics, or type Help Print to see help for Print.
We an use ? as a Print command. Any variable, array, module, function, group we make at command line is global.
We can make functions using edit, so edit f$() open editor and we write these
>edit f$()
(we see Function F$() at the header of editor)
Read name1$, name2$, sep$
=name1$+sep$+sep$+name2$
So now we press Esc and return to command line (editor open as a layer, so console has the last state). Using Clipboard we sen unicode string to clipboard
>? f$("Rosseta","Code",":") Rosseta::Code >clipboard f$("Rosseta","Code",":") >New ' now we clear any stored function/module >function f$(a$,b$,c$) {=a$+c$+c$+b$} 'in one line function >? f$("Rosseta","Code",":") Rosseta::Code >Save ros1 >New >Load ros1 >? f$("Rosseta","Code",":") Rosseta::Code >New >f$=Lambda$ (a$,b$,c$)->a$+c$+c$+b$ >? f$("Rosseta","Code",":") Rosseta::Code >B$=F$ ' lambda functions as variables. >? B$("Rosseta","Code",":") Rosseta::Code
M4
Here is a terminal session with output lines marked by "==>":
$ m4
define(`f',`$1`'$3`'$3`'$2')
==>
f(`Rosetta',`Code',`:')
==>Rosetta::Code
m4exit
Maple
Start Maple's commandline interface by issuing the command maple
in a terminal shell. Ie,
$ maple
Then enter the Maple commands.
f := (a,b,c)->cat(a,c,c,b):
f("Rosetta","Code",":");
Output:
"Rosetta::Code"
Mathematica / Wolfram Language
$ math
f[x_,y_,z_]:=Print[x,z,z,y]
->""
f["Rosetta","Code",":"]
->Rosetta::Code
MATLAB / Octave
(Has been tested only with MATLAB)
Define an anonymous function in the Command Window
>> f = @(str1, str2, delim) [str1, delim, delim, str2];
Call of function and
- Output:
>> f('Rosetta', 'Code', ':') ans = Rosetta::Code
Maxima
Simply run wxMaxima, xMaxima (or simply maxima in a Linux or Windows command line) to start a REPL.
(%i1) f(a, b, c) := sconcat(a, c, c, b)$
(%i2) f("Rosetta", "Code", ":");
(%o2) "Rosetta::Code"
min
Run the REPL with min -i
, otherwise it'll expect a file to run as a script.
$ (dup suffix swap suffix suffix) :glue
$ "Rosetta" "Code" ":" glue puts!
Rosetta::Code
$
ML/I
The following is exactly what should be fed to ML/I to start a suitable interactive session. Start ML/I with (e.g.: $ ml1), then type:
MCSKIP MT,<>
MCINS %.
MCDEF F WITHS (,,)
AS <%WA1.%WA3.%WA2.%WA2.>
Nanoquery
Unless a program file is provided to run at the command line, the Nanoquery interpreter starts interactively by default.
>nq [no file | rec1 col1] % def f(a, b, sep) ... return a + sep + sep + b ... end [no file | rec1 col1] % println f("Rosetta", "Code", ":") Rosetta::Code
Nim
Nim is not provided with a REPL but there is several available. Online, it is possible to use Nim playground at https://play.nim-lang.org/. And one can install “inim” with “nimble” (command nimble install inim
).
Run the REPL and paste the following code:
proc f(x, y, z: string) = echo x, z, z, y
f("Rosetta", "Code", ":")
which outputs:
Rosetta::Code
Since version 0.20.0 Nim also provides a REPL in its compiler API.
File: repl.nim
import ../compiler/[nimeval, llstream]
runRepl(llStreamOpenStdIn().repl, [findNimStdLibCompileTime()], true)
Usage
nim c repl.nim repl .....>>> var a = 1 >>> var b = 2 >>> a + b 3
OCaml
The default interactive interpreter is called the toplevel. In the toplevel because we can enter expressions that span multiple lines, we have to type the double semicolon (";;") at the end of an expression so that it knows we are done.
$ ocaml
Objective Caml version 3.12.1
# let f s1 s2 sep = String.concat sep [s1; ""; s2];;
val f : string -> string -> string -> string = <fun>
# f "Rosetta" "Code" ":";;
- : string = "Rosetta::Code"
#
Also a lot of OCaml users invoke the toplevel with rlwrap or ledit to gain readline capabilities:
$ rlwrap ocaml
There is also ocamlnat that is a native toplevel. It permits interactive use of the OCaml system through a read-eval-print loop, similar to the standard OCaml toplevel, but up to 100 times faster.
Using a module in the default toplevel is made with .cma
files, with ocamlnat just use .cmxs
files instead.
Octave
$ octave
GNU Octave, version 3.0.2
Copyright (C) 2008 John W. Eaton and others.
This is free software; see the source code for copying conditions.
There is ABSOLUTELY NO WARRANTY; not even for MERCHANTIBILITY or
FITNESS FOR A PARTICULAR PURPOSE. For details, type `warranty'.
Octave was configured for "i586-mandriva-linux-gnu".
Additional information about Octave is available at http://www.octave.org.
Please contribute if you find this software useful.
For more information, visit http://www.octave.org/help-wanted.html
Report bugs to <bug@octave.org> (but first, please read
http://www.octave.org/bugs.html to learn how to write a helpful report).
For information about changes from previous versions, type `news'.
octave:1> function concat(a,b,c)
> disp(strcat(a,c,c,b));
> endfunction
octave:2> concat("Rosetta","Code",":");
Rosetta::Code
octave:3>
Oforth
Oforth interpreter is started using --i command line parameter :
oforth --i
Into the interpreter, you can create functions :
: x(a, b, sep) a sep + sep + b + ;
ok
>x("Rosetta", "Code", ":")
ok
>.s
[1] (String) Rosetta::Code
ok
>
Alternatively you don't need the local variables
> : x dup rot + + + ;
ok
> "Rosetta" "Code" ";" x .s
[1] (String) Rosetta::Code
ok
>
Ol
Ol comes with builtin REPL. Interactive web-based example can be found at the Ol project page.
$ ol
Welcome to Otus Lisp 2.1-2282-27a9b6c
type ',help' to help, ',quit' to end session.
> (define (f head tail mid)
(string-append head mid mid tail))
;; Defined f
> (f "Rosetta" "Code" ":")
"Rosetta::Code"
> ,quit
bye-bye :/
ooRexx
ooRexx ships a program rexxtry.rex which does exactly what this task asks for.
- Output:
D:\>rexx rexxtry ? This procedure lets you interactively try REXX statements. If you run it with no parameter, or with a question mark as a parameter, it will briefly describe itself. You may also enter a REXX statement directly on the command line for immediate execution and exit. Example: rexxtry call show Enter 'call show' to see user variables provided by REXXTRY. Enter '=' to repeat your previous statement. Enter '?' to invoke system-provided online help for REXX. The subroutine named 'sub' can be CALLed or invoked as 'sub()'. REXXTRY can be run recursively with CALL. Except for the signal instructions after a syntax error, this procedure is an example of structured programming. D:\>rexx rexxtry REXX-ooRexx_4.2.0(MT)_64-bit 6.04 22 Feb 2014 rexxtry.rex lets you interactively try REXX statements. Each string is executed when you hit Enter. Enter 'call tell' for a description of the features. Go on - try a few... Enter 'exit' to end. x=3 ........................................... rexxtry.rex on WindowsNT y=x**2 ........................................... rexxtry.rex on WindowsNT say x y 3 9 ........................................... rexxtry.rex on WindowsNT rexxtry.rex: Enter 'exit' to end. Or '?' for online REXX help. say sigl 160 ........................................... rexxtry.rex on WindowsNT say sourceline(12) /* Redistribution and use in source and binary forms, with or */ ........................................... rexxtry.rex on WindowsNT exit D:\>
For the specific test I need to create the function on my disk
H:\>rexx rexxtry REXX-ooRexx_4.2.0(MT)_64-bit 6.04 22 Feb 2014 rexxtry.rex lets you interactively try REXX statements. Each string is executed when you hit Enter. Enter 'call tell' for a description of the features. Go on - try a few... Enter 'exit' to end. pgm='ff.rex'; Call lineout pgm,'return arg(1)||arg(3)||arg(3)||arg(2)';Call line out pgm ........................................... rexxtry.rex on WindowsNT say ff('AAA','BBB',':') AAA::BBB ........................................... rexxtry.rex on WindowsNT exit
Oz
Mozart supports this style of programming with its Emacs interface. Go to the "Oz" buffer and enter
declare fun {F As Bs Sep} {Append As Sep|Sep|Bs} end
Press C-. C-l to evaluate the line.
Now enter
{System.showInfo {F "Rosetta" "Code" &:}}
and again press C-. C-l to execute the code. You will see the result in the "*Oz Emulator*" buffer.
PARI/GP
gp *is* a REPL built on the PARI library. You can start it from the command line with gp
, though you may wish to change to your Pari directory first so it can read your .gprc
file. Alternatively, if you are using a GUI, double-click the shortcut.
f(s1,s2,sep)=Str(s1, sep, sep, s2);
Perl
Perl doesn't have an interpreter, but there is an interactive debugger:
$ perl -de1
Loading DB routines from perl5db.pl version 1.3
Editor support available.
Enter h or `h h' for help, or `man perldebug' for more help.
main::(-e:1): 1
DB<1> sub f {my ($s1, $s2, $sep) = @_; $s1 . $sep . $sep . $s2}
DB<2> p f('Rosetta', 'Code', ':')
Rosetta::Code
DB<3> q
Alternative way:
$ perl
# Write the script here and press Ctrl+D plus ENTER when finished (^D means Ctrl+D):
sub f {my ($s1, $s2, $sep) = @_; $s1 . $sep . $sep . $s2};
print f('Rosetta', 'Code', ':');
^D
Rosetta::Code
$
Another:
$ perl -lpe '$_=eval||$@'
sub f { join '' => @_[0, 2, 2, 1] }
f qw/Rosetta Code :/
Rosetta::Code
Phix
The repl has been significantly improved for version 0.8.4+ so it is now usable, although not thoroughly tested or widely used yet.
C:\Program Files (x86)\Phix>p -repl Warning: the repl is brand new, experimental, incomplete, and liable to crash! Enter a statement such as "?remainder(floor(250/8),8)" or "puts(1,"Hi")" >function f(string a,b,c) return a&c&c&b end function >?f("Rosetta","Code",":") "Rosetta::Code" >quit C:\Program Files (x86)\Phix>
Picat
cl
enters the interactive console mode. Exit with Ctrl-d
on Unix and Ctrl-z
on Windows.
Picat> cl f(X,Y,Sep) = X ++ [Sep,Sep] ++ Y. <Ctrl-D> Picat> print(f("Rosetta","Code",':')) Rosetta::Code yes
PicoLisp
$ pil +
: (de f (Str1 Str2 Sep)
(pack Str1 Sep Sep Str2) )
-> f
: (f "Rosetta" "Code" ":")
-> "Rosetta::Code"
Pike
$ pike
Pike v7.8 release 352 running Hilfe v3.5 (Incremental Pike Frontend)
> string f(string first, string second, string sep){
>> return(first + sep + sep + second);
>> }
> f("Rosetta","Code",":");
(1) Result: "Rosetta::Code"
>
PowerShell
PowerShell itself is already a shell and therefore an interactive environment is the default.
Windows PowerShell
Copyright (C) 2009 Microsoft Corporation. All rights reserved.
PS Home:\> function f ([string] $string1, [string] $string2, [string] $separator) {
>> $string1 + $separator * 2 + $string2
>> }
>>
PS Home:\> f 'Rosetta' 'Code' ':'
Rosetta::Code
PS Home:\>
Prolog
Works with SWI-Prolog.
Prolog works in its own environnment.
Start the interpreter by typing pl at the command line (or by clicking on the exe).
% library(win_menu) compiled into win_menu 0.00 sec, 12,872 bytes
% library(swi_hooks) compiled into pce_swi_hooks 0.00 sec, 2,404 bytes
% The graphical front-end will be used for subsequent tracing
% c:/users/joel-seven/appdata/roaming/swi-prolog/pl.ini compiled 0.13 sec, 876,172 bytes
XPCE 6.6.66, July 2009 for Win32: NT,2000,XP
Copyright (C) 1993-2009 University of Amsterdam.
XPCE comes with ABSOLUTELY NO WARRANTY. This is free software,
and you are welcome to redistribute it under certain conditions.
The host-language is SWI-Prolog version 5.10.0
For HELP on prolog, please type help. or apropos(topic).
on xpce, please type manpce.
1 ?- assert((f(A, B,C) :- format('~w~w~w~w~n', [A, C, C, B]))).
true.
2 ?- f('Rosetta', 'Code', ':').
Rosetta::Code
true.
3 ?-
Python
Start the interpreter by typing python at the command line (or select it from a menu). You get a response showing the version of the interpreter being run before giving an input prompt of three greater-than characters and a space:
python
Python 2.6.1 (r261:67517, Dec 4 2008, 16:51:00) [MSC v.1500 32 bit (Intel)] on
win32
Type "help", "copyright", "credits" or "license" for more information.
>>> def f(string1, string2, separator):
return separator.join([string1, '', string2])
>>> f('Rosetta', 'Code', ':')
'Rosetta::Code'
>>>
Quackery
The Quackery shell (REPL) can be invoked from the command line by invoking quackery
without specifying a Quackery source file. The shell can be invoked from within a Quackery source file with the Quackery word shell
. As the shell is nestable it can also be invoked from within the shell.
- Output:
Invoking the shell first from the command line and then within the shell, and leaving first the nested shell then the outer shell.
> quackery Welcome to Quackery. Enter "leave" to leave the shell. /O> say " now entering a nested shell..." ... shell ... now entering a nested shell... /O> say " now leaving the nested shell" ... leave ... now leaving the nested shell Auf wiedersehen. Stack empty. /O> say " now leaving the shell invoked at the command line" ... leave ... now leaving the shell invoked at the command line Goodbye. > echo " back at the command line" back at the command line >
The task:
$ quackery
Welcome to Quackery.
Enter "leave" to leave the shell.
/O> [ dup join swap join join ] is f ( [ [ [ --> [ )
...
Stack empty.
/O> $ 'Rosetta' $ 'Code' $ ':' f
...
Stack: [ 82 111 115 101 116 116 97 58 58 67 111 100 101 ]
/O> echo$
...
Rosetta::Code
Stack empty.
/O>
R
$ R
R version 2.7.2 (2008-08-25)
Copyright (C) 2008 The R Foundation for Statistical Computing
ISBN 3-900051-07-0
R is free software and comes with ABSOLUTELY NO WARRANTY.
You are welcome to redistribute it under certain conditions.
Type 'license()' or 'licence()' for distribution details.
Natural language support but running in an English locale
R is a collaborative project with many contributors.
Type 'contributors()' for more information and
'citation()' on how to cite R or R packages in publications.
Type 'demo()' for some demos, 'help()' for on-line help, or
'help.start()' for an HTML browser interface to help.
Type 'q()' to quit R.
> f <- function(a, b, s) paste(a, "", b, sep=s)
> f("Rosetta", "Code", ":")
[1] "Rosetta::Code"
> q()
Save workspace image? [y/n/c]: n
Racket
Much like Scheme, Racket features a full-featured REPL:
oiseau:/tmp> racket
Welcome to Racket v5.3.3.5.
> (define (f string-1 string-2 separator)
(string-append string-1 separator separator string-2))
> (f "Rosetta" "Code" ":")
"Rosetta::Code"
> ^D
oiseau:/tmp>
Raku
(formerly Perl 6) Using Rakudo.
$ rakudo/perl6
> sub f($str1,$str2,$sep) { $str1~$sep x 2~$str2 };
f
> f("Rosetta","Code",":");
Rosetta::Code
>
REBOL
Start the REBOL/Core interpreter in quiet mode with -q. q to quit.
$ rebol -q
>> f: func [a b s] [print rejoin [a s s b]]
>> f "Rosetta" "Code" ":"
Rosetta::Code
>> q
Retro
Retro's interpreter is started automatically. Once you see the "ok" prompt, you can proceed to enter code:
:f (sss-s) [ s:prepend ] sip s:prepend s:append ;
'Rosetta 'Code ': f
REXX
version 1
/*REXX*/ parse arg a b c
say f(a,b,c)
exit
f:return arg(1)arg(3)arg(3)arg(2)
version 2
This REXX version allows blanks to be included in the three strings.
/*REXX program demonstrates interactive programming by using a function [F]. */
say f('Rosetta', "Code", ':')
say f('The definition of a trivial program is ', " one that has no bugs.", '───')
exit /*stick a fork in it, we're all done. */
/*──────────────────────────────────────────────────────────────────────────────────────*/
f: return arg(1) || copies(arg(3),2) || arg(2) /*return the required string to invoker*/
output when using the (internal) default strings:
Rosetta::Code The definition of a trivial program is ────── one that has no bugs.
version 3
This REXX version is more to the keeping of the spirit of the task requirements.
/*REXX program demonstrates interactive programming by using a function [F]. */
say '══════════════════ enter the function F with three comma-separated arguments:'
parse pull funky
interpret 'SAY' funky
exit /*stick a fork in it, we're all done. */
/*──────────────────────────────────────────────────────────────────────────────────────*/
f: return arg(1) || copies(arg(3),2) || arg(2) /*return the required string to invoker*/
output (a screen scraping is shown)
int_act3 is the name of the REXX program [INT_ACT3.REX)
─────────────────────────────────────────────────────────Thu 10/18/2012 15:00:01 C:\►int_act3 ══════════════════ enter the function F with three comma-separated arguments: f("what the", "hey", "--") ◄■■■■■■■■■■■■ this is what the user entered. what the----hey ─────────────────────────────────────────────────────────Thu 10/18/2012 15:00:38 C:\►
Note that the timestamp and the C:\► text is part of my (wrapped) two-line prompt message.
Ring
r = "Rosetta"
c = "Code"
s = ":"
see r+s+s+c
Output:
Rosetta::Code
RPL
RPL command-line interpreter is permanently running. Each created function can be called by its name, the same way as built-in instructions, without any prefix.
≪ "::" SWAP + + ≫ ‘FUNC’ STO "Rosetta" "Code" FUNC
- Output:
1: "Rosetta::Code"
Ruby
The read-eval-print loop (REPL) for Ruby is irb, the interactive ruby shell.
Start the interpreter by typing irb
at the command line. You will see an input prompt, which by default is name of this program(name of main object):line number:indent level>
:
$ irb
irb(main):001:0> def f(string1, string2, separator)
irb(main):002:1> [string1, '', string2].join(separator)
irb(main):003:1> end
=> :f
irb(main):004:0> f('Rosetta', 'Code', ':')
=> "Rosetta::Code"
irb(main):005:0> exit
$
Rust
This method use the crate clap: clap is used to parse and validate the string of command line arguments provided by the user at runtime. You provide the list of valid possibilities, and clap handles the rest. This means you focus on your applications functionality, and less on the parsing and validating of arguments. One of clap configurations is a mathod used a YAML file to build the CLI and keep the Rust source tidy or support multiple localized translations by having different YAML files for each localization. - First, create the cli.yaml file to hold the CLI options, but it could be called anything we like:
name: myapp
version: "1.0"
author: A Rust Developer <rustme@home.com>
about: Does awesome things
args:
- STRING1:
about: First string to use
required: true
index: 1
- STRING2:
about: Second string to use
required: true
index: 2
- SEPARATOR:
about: Separtor to use
required: true
index: 3
- Then, simply add clap the yaml feature flag to your Cargo.toml.
[dependencies]
clap = { version = "3.0.0-beta.2", features = ["yaml"] }
- Enter this code in Rust source file
#[macro_use]
extern crate clap;
use clap::App;
fn main() {
let yaml = load_yaml!("cli.yaml");
let matches = App::from(yaml).get_matches();
let str1 = matches.value_of("STRING1").unwrap();
let str2 = matches.value_of("STRING2").unwrap();
let str3 = matches.value_of("SEPARATOR").unwrap();
println!("{:?}", f(&str1, &str2, &str3));
}
fn f<'a>(s1: &'a str, s2: &'a str, sep :&'a str) -> String{
[s1,sep,sep,s2].iter().map(|x| *x).collect()
}
Output:
Rosetta::Code
S-lang
S-Lang includes a general-purpose shell called slsh
.
Command-line arguments are available with:
slsh --help
Without any arguments it starts from the command-line in [REPL] command-mode:
> slsh<Enter>
slsh version 0.9.1-2; S-Lang version: pre2.3.1-23
Copyright (C) 2005-2014 John E. Davis <jed@jedsoft.org>
This is free software with ABSOLUTELY NO WARRANTY.
slsh> define f(s1, s2, sep) {<Enter>
return(strcat(s1, sep, sep, s2));<Enter>
}<Enter>
slsh> f("Rosetta", "Code", ":");<Enter>
Rosetta::Code
slsh> quit<Enter>
>
Scala
Scala has a REPL -- Read, Evaluate & Print Loop. Being a compiled language, everything you type is encapsulated into a compilable template, compiled, executed, and the return value assigned to a special variable and displayed.
One invokes the REPL by just typing "scala", which is either a shell script or a batch file depending on one's operating system:
C:\>scala
Welcome to Scala version 2.8.0.r21356-b20100407020120 (Java HotSpot(TM) Client V
M, Java 1.6.0_05).
Type in expressions to have them evaluated.
Type :help for more information.
scala> "rosetta"
res0: java.lang.String = rosetta
Scala's REPL, starting with version 2.8, offers both auto-completion and alternatives when typing TAB. For instance, to check what methods are available on a String, one may do the following:
scala> "rosetta".
!= ## $asInstanceOf
$isInstanceOf + ==
charAt clone codePointAt
codePointBefore codePointCount compareTo
compareToIgnoreCase concat contains
contentEquals endsWith eq
equals equalsIgnoreCase finalize
getBytes getChars getClass
hashCode indexOf intern
isEmpty lastIndexOf length
matches ne notify
notifyAll offsetByCodePoints regionMatches
replace replaceAll replaceFirst
split startsWith subSequence
substring synchronized this
toCharArray toLowerCase toString
toUpperCase trim wait
scala> "rosetta".+(":")
res1: java.lang.String = rosetta:
One can use `object`, `class`, `trait`, `case object`, `case class`, `def`, `val` and `var` definitions at any point. However, `package` and `package object` definitions are not allowed.
scala> val str1 = "rosetta"
str1: java.lang.String = rosetta
Using these features, one can build the code for a method by testing it part of it individually:
scala> val str2 = "code"
str2: java.lang.String = code
scala> val separator = ":"
separator: java.lang.String = :
scala> str1 + separator + str2
res2: java.lang.String = rosetta:code
If one makes a mistake, the REPL will print an error message, and display the point at which the mistake was made.
scala> def (str1: String, str2: String, separator: String) =
<console>:1: error: identifier expected but '(' found.
def (str1: String, str2: String, separator: String) =
^
If a definition takes more than a line, the REPL will print an indented "|" sign, and wait for more input. If one wishes to abort a definition, just enter two consecutive empty lines.
scala> def f(str1: String, str2: String, separator: String) =
| str1 + separator + str2
f: (str1: String,str2: String,separator: String)java.lang.String
scala> f("rosetta", "code", ":")
res3: java.lang.String = rosetta:code
scala> f("code", "rosetta", ", ")
res4: java.lang.String = code, rosetta
Also starting with version 2.8, a line starting with a dot will be interpreted as a method call on the last result produced.
scala> .length
res5: Int = 13
scala>
The results are actually displayed with a special function, which pretty prints some results, and avoid eagerly evaluating others, where that could cause problems (such as infinite collections).
scala> Array(1, 2, 3, 4)
res8: Array[Int] = Array(1, 2, 3, 4)
scala> println(res8)
[I@383244
There are many other features, such as the ability to add new jars to the class path, executing commands on the shell, retrieving the last exception thrown, etc.
Scheme
Several interpreters exist for Scheme. These are just some examples.
> scheme
Scheme Microcode Version 14.9
MIT Scheme running under FreeBSD
Type `^C' (control-C) followed by `H' to obtain information about interrupts.
Scheme saved on Monday June 17, 2002 at 10:03:44 PM
Release 7.7.1
Microcode 14.9
Runtime 15.1
1 ]=> (define (f string-1 string-2 separator)
(string-append string-1 separator separator string-2))
;Value: f
1 ]=> (f "Rosetta" "Code" ":")
;Value 1: "Rosetta::Code"
1 ]=> ^D
End of input stream reached
Happy Happy Joy Joy.
>
> scheme48
Welcome to Scheme 48 1.8 (made by root on Wed Sep 24 22:37:08 UTC 2008)
Copyright (c) 1993-2008 by Richard Kelsey and Jonathan Rees.
Please report bugs to scheme-48-bugs@s48.org.
Get more information at http://www.s48.org/.
Type ,? (comma question-mark) for help.
> (define (f string-1 string-2 separator)
(string-append string-1 separator separator string-2))
; no values returned
> (f "Rosetta" "Code" ":")
"Rosetta::Code"
> ^D
Exit Scheme 48 (y/n)? ^D
I'll only ask another 100 times.
Exit Scheme 48 (y/n)? ^D
I'll only ask another 99 times.
Exit Scheme 48 (y/n)? y
>
Sidef
$ sidef -i
>>> func f(s1, s2, sep) { s1 + sep*2 + s2 };
f
>>> f('Rosetta', 'Code', ':')
"Rosetta::Code"
>>>
Slate
slate[1]> s@(String traits) rosettaWith: s2@(String traits) and: s3@(String traits) [s ; s3 ; s3 ; s2].
[rosettaWith:and:]
slate[2]> 'Rosetta' rosettaWith: 'Code' and: ':'.
'Rosetta::Code'
Smalltalk
$ gst
GNU Smalltalk ready
st> |concat|
st> concat := [ :a :b :c | (a,c,c,b) displayNl ].
a BlockClosure
st> concat value: 'Rosetta' value: 'Code' value: ':'.
Rosetta::Code
'Rosetta::Code'
st>
$ stx --repl
Welcome...
STX> |concat|\
concat := [ :a :b :c | (a,c,c,b) displayNl ].\
concat value: 'Rosetta' value: 'Code' value: ':'.
Rosetta::Code
-> (Answer): 'Rosetta::Code'
STX>
SNOBOL4
>spitbol code SPITBOL-386 Release 3.7(ver 1.30.20) Serial xxxxx ... Enter SPITBOL statements: ? define('f(a,b,s)'):(z);f f = a s s b:(return);z Success ?= f('Rosetta','Code',':') Rosetta::Code Success ?end >
Standard ML
Because you can enter expressions that span multiple lines, you have to type the semicolon (";") at the end so that it knows you are done.
$ sml
Standard ML of New Jersey v110.67 [built: Fri Jul 4 09:00:58 2008]
- fun f (s1, s2, sep) = String.concatWith sep [s1, "", s2];
[autoloading]
[library $SMLNJ-BASIS/basis.cm is stable]
[autoloading done]
val f = fn : string * string * string -> string
- f ("Rosetta", "Code", ":");
val it = "Rosetta::Code" : string
-
Tcl
$ tclsh
% proc f {s1 s2 sep} {
append result $s1 $sep $sep $s2
}
% f Rosetta Code :
Rosetta::Code
% exit
A simple alternative (one-liners are most convenient in an interactive shell):
$ tclsh
% proc f {a b s} {join [list $a "" $b] $s}
% f Rosetta Code :
Rosetta::Code
%
TI-89 BASIC
To switch to the interpreter ("home screen"), press the HOME key.
■ x & s & s & y → f(x,y,s) Done ■ f("Rosetta", "Code", ":") "Rosetta::Code"
Input is left-aligned, output is right-aligned. “→” is typed by pressing STO▸, and “&” by pressing ◆ ×. All whitespace is optional.
UNIX Shell
$ sh
sh-3.2$ concat() { echo "$1$3$3$2"; }
sh-3.2$ concat Rosetta Code :
Rosetta::Code
sh-3.2$
C Shell
$ csh -f
% alias concat 'echo "\!:1\!:3\!:3\!:2"'
% concat Rosetta Code :
Rosetta::Code
%
es
$ es
; fn concat a b s { result $a$s$s$b }
; echo <={concat Rosetta Code :}
Rosetta::Code
;
Ursa
$ java -jar ursa.jar
cygnus/x ursa v0.76 (default, release 1)
[Oracle Corporation JVM 1.8.0_91 on Linux 3.16.0-4-686-pae i386]
> def f (string s1, string s2, string sep)
.. return (+ s1 sep sep s2)
..end
> out (f "Rosetta" "Code" ":") endl console
Rosetta::Code
> _
Vedit macro language
To enter command mode, type <Esc>c, or to open command mode window, type <Esc>w. Or if the command mode window is already open, just click on the window.
To define a macro in text register 100:
RS(100, "RS(10, @1) RS(10, @3, APPEND) RS(10, @3, APPEND) RS(10, @2, APPEND)")
To call the macro:
RS(1,"Rosetta") RS(2,"Code") RS(3,":") Call(100)
Message(@10)
XLISP
How to start a REPL depends on the operating system.
XLISP 3.3, September 6, 2002 Copyright (c) 1984-2002, by David Betz
[1] (defun f (a b sep)
(string-append a sep sep b))
F
[2] (f "Rosetta" "Code" ":")
"Rosetta::Code"
[3]
Wren
If one runs Wren's command line interpreter without passing it any arguments, then it starts the interpreter in interactive mode. This mode can be exited by pressing Ctrl-C or Ctrl-D.
$ ./wren \\/"- \_/ wren v0.4.0 > var f = Fn.new { |s1, s2, sep| s1 + sep + sep + s2 } > f.call("Rosetta", "Code", ":") Rosetta::Code > ^C $
zkl
$ zkl zkl 1.12.8, released 2014-04-01 zkl: fcn f(a,b,c){String(a,c,c,b)} Void zkl: f("Rosetta", "Code", ":") Rosetta::Code zkl: