ISLISP (also capitalized as ISLisp) is a programming language in the Lisp family standardized by the International Organization for Standardization (ISO) and International Electrotechnical Commission (IEC) joint working group ISO/IEC JTC 1/SC 22/WG 16[1] (commonly termed simply SC22/WG16 or WG16). The primary output of this working group was an international standard, published by ISO.[2] The standard was updated in 2007 and republished as ISO/IEC 13816:2007(E).[3][4] Although official publication was through ISO, versions of the ISLISP language specification are available that are believed to be in the public domain.[5]
Paradigms | Multi-paradigm: functional, procedural, object-oriented, reflective, meta |
---|---|
Family | Lisp |
Designed by | Many |
Developers | Many |
Implementation language | C, C#, Go, Java, JavaScript, Lisp |
Platform | IA-32, x86-64 |
OS | Windows, macOS, Linux, BSD, AIX, Solaris, Android, QNX |
Dialects | |
dayLISP, Easy-ISLisp, Iris, Isle ISLISP, ISLisproid, Kiss, OKI ISLISP, OpenLisp, PRIME-LISP | |
Influenced by | |
Common Lisp, EuLisp, Le Lisp, Scheme |
The goal of this standards effort was to define a small, core language to help bridge the gap between differing dialects of Lisp. It attempted to accomplish this goal by studying primarily Common Lisp, EuLisp, Le Lisp, and Scheme and standardizing only those features shared between them.
1958 | 1960 | 1965 | 1970 | 1975 | 1980 | 1985 | 1990 | 1995 | 2000 | 2005 | 2010 | 2015 | 2020 | ||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
LISP 1, 1.5, LISP 2(abandoned) | |||||||||||||||
Maclisp | |||||||||||||||
Interlisp | |||||||||||||||
MDL | |||||||||||||||
Lisp Machine Lisp | |||||||||||||||
Scheme | R5RS | R6RS | R7RS small | ||||||||||||
NIL | |||||||||||||||
ZIL (Zork Implementation Language) | |||||||||||||||
Franz Lisp | |||||||||||||||
Common Lisp | ANSI standard | ||||||||||||||
Le Lisp | |||||||||||||||
MIT Scheme | |||||||||||||||
XLISP | |||||||||||||||
T | |||||||||||||||
Chez Scheme | |||||||||||||||
Emacs Lisp | |||||||||||||||
AutoLISP | |||||||||||||||
PicoLisp | |||||||||||||||
Gambit | |||||||||||||||
EuLisp | |||||||||||||||
ISLISP | |||||||||||||||
OpenLisp | |||||||||||||||
PLT Scheme | Racket | ||||||||||||||
newLISP | |||||||||||||||
GNU Guile | |||||||||||||||
Visual LISP | |||||||||||||||
Clojure | |||||||||||||||
Arc | |||||||||||||||
LFE | |||||||||||||||
Hy | |||||||||||||||
Chialisp |
Design goals
editISLISP has these design goals:[6]
- Compatible with extant Lisp dialects where feasible
- Provide basic functionality
- Object-oriented
- Design for extensibility
- Prioritize industrial needs over academic needs
- Promote efficient implementations and applications
ISLISP has separate function and variable namespaces (hence it is a Lisp-2).
ISLISP's object system, ILOS, is mostly a subset of the Common Lisp Object System (CLOS).
Major differences from Common Lisp
edit- There is a global lexical variable. (
defglobal
) - Dynamic variable is explicit. (
dynamic
) - Keywords are not self-evaluating.
- Destructuring is not supported in
defmacro
.
Implementations
editISLISP implementations have been made for many operating systems including: Windows, most Unix and POSIX based (Linux, macOS, FreeBSD, OpenBSD, NetBSD, Solaris, HP-UX, AIX, Cygwin, QNX), Android, DOS, OS/2, Pocket PC, OpenVMS, and z/OS.
Implementations for hardware computer architectures include: x86, x86-64, IA-64, SPARC, SPARC9, PowerPC, MIPS, Alpha, PA-RISC, ARM, AArch64
Name | Creator | Complete ISLisp | Architecture | Written in | Operating system | License | Source code available |
---|---|---|---|---|---|---|---|
OpenLisp | Eligis[7] | Yes | interpreter, compiles to C | C, Lisp | Windows, macOS, Linux, BSD, AIX, Solaris, QNX | Proprietary | Partial |
OKI ISLISP[8] | Kyoto University and Oki Electric Industry Co. | Yes | Bytecode machine, compiles to bytecode | C | Windows | ? | No |
Prime-Lisp[9] | Mikhail Semenov | Yes | Interpreter | C# | Windows | Proprietary, Shareware, freely redistributable binaries | No |
Iris[10] | Masaya Taniguchi[11] | No | Interpreter | Go | any | Free, Mozilla Public License 2.0 | Yes[12] |
Iris web REPL[13] | Masaya Taniguchi[14] | No | Interpreter, compiles to JavaScript | Go, JavaScript | Browser | Free, Mozilla Public License 2.0 | Yes[15] |
Kiss[16] | Yuji Minejima[17] | No, not yet | Interpreter | C, Lisp | any | Free, GPL v3+ | Yes[18] |
ISLisproid[19] | Hiroshi Gomi | No | Interpreter | Java | Android | Proprietary | No |
dayLISP[20] | Matthew Denson | No | Interpreter | Java, Lisp | Any | Free, BSD | Yes[21] |
Easy-ISLisp[22] | Kenichi Sasagawa | Yes | Interpreter, compiles to C | C, Lisp | Linux, MacOS, OpenBSD | Free, BSD | Yes[23] |
Isle ISLISP | KIM Taegyoon | No | Compiler | Common Lisp | OSes on which Common Lisp operates (including Linux and Windows) | Free, Unlicense | Yes[24] |
Two older implementations are no longer available:
- TISL, by Masato Izumi and Takayasu Ito (Tohoku University), was an interpreter and compiler.
- G-LISP, by Josef Jelinek, was a Java applet.
References
edit- ^ "WG16 Mail archive".[permanent dead link ]
- ^ "ISO/IEC 13816:1997(E)". International Organization for Standardization. Retrieved 2018-11-10.
- ^ "ISO/IEC 13816:2007(E)". International Organization for Standardization. Retrieved 2018-11-10.
- ^ "Programming Language ISLISP: History".
- ^ "Programming Language ISLISP: Specification". Archived from the original on 2016-01-22. Retrieved 2011-03-20.
- ^ "ISLISP.info".
- ^ "Eligis".
- ^ "OKI ISLISP".
- ^ "Prime-Lisp".
- ^ "Iris".
- ^ "Masaya Taniguchi". GitHub. Archived from the original on November 21, 2021.
- ^ "Iris source code". GitHub. 4 September 2021.
- ^ "Iris web REPL".
- ^ "Masaya Taniguchi". GitHub. Archived from the original on November 21, 2021.
- ^ "Iris source code". GitHub.
- ^ "Kiss". 8 April 2017.
- ^ "Yuji Minejima".
- ^ "Kiss source code". GitHub. 26 September 2021.
- ^ "ISLisproid".
- ^ "dayLISP".
- ^ "dayLISP source code".
- ^ "Easy-ISLisp".
- ^ "Easy-ISLisp source code". GitHub. 21 November 2021.
- ^ "Isle ISLISP source code". GitHub. 15 October 2023.