OpenLisp

OpenLisp is a programming language in the Lisp family developed by Christian Jullien from Eligis. It conforms  to the international standard for ISLISP published jointly by the International Organization for Standardization (ISO) and International Electrotechnical Commission (IEC), ISO/IEC 13816:1997(E),  revised to ISO/IEC 13816:2007(E).

Written in the programming languages C and Lisp, it runs on most common operating systems. OpenLisp is designated an ISLISP implementation, but also contains many Common Lisp-compatible extensions (hashtable, readtable, package, defstruct, sequences, rational numbers) and other libraries (network socket, regular expression, XML, Portable Operating System Interface (POSIX), SQL, Lightweight Directory Access Protocol (LDAP)).

OpenLisp includes an interpreter associated to a read–eval–print loop (REPL), a Lisp Assembly Program (LAP) and a backend compiler for the language C.

Goals
The main goal of this Lisp version is to implement a fully compliant ISLISP system (when launched with  flag, it is strictly restricted to ISO/IEC 13816:2007(E) specification). The secondary goal is to provide a complete embeddable Lisp system linkable to C/C++ or Java (via Java Native Interface (JNI)). A callback mechanism is used to communicate with the external program. Other goals are to be usable as scripting language or glue language and to produce standalone program executables.

License
Despite its name, OpenLisp is proprietary software. Its interpreter is available free of charge for any noncommercial use.

User interface
OpenLisp mainly runs in console mode:  on Microsoft Windows, and terminal emulator on Unix-based systems.

Alternate solutions include running OpenLisp from Emacs via setting up Emacs, or using an integrated development environment (IDE) which supports OpenLisp syntax. LispIDE by DaanSystems does so natively.

Memory manager
Internally, OpenLisp uses virtual memory to allocate and extend objects automatically. Small objects of the same type are allocated using a Bibop (BIg Bag Of Pages) memory organization. Large objects use a proxy which point to the real object in Lisp heap. The conservative garbage collection is a mark and sweep with coalescing heap (sweep phase can be configured to use threads).

Data types
OpenLisp uses tagged architecture (4 bits tag on 32-bit, 5 bits tag on 64-bit) for fast type checking (small integer, float, symbol, cons, string, vector). Small integers (28 bits on 32-bit, 59 bits on 64-bit) are unboxed, large (32/64-bit) integers are boxed. As required by ISLISP, arbitrary-precision arithmetic (bignums) are also implemented. Characters (hence strings) are either 8-bit (ANSI, EBCDIC) or 16/32-bit if Unicode support is enabled.

Evaluator and compiler
The Lisp Kernel, native interpreter and basic libraries are hand coded in the language C, LAP intermediate language produced by the compiler is then translated to C by the C backend code generator.

History
In 1988, the very first motive behind OpenLisp was to implement a Lisp subset to extend EmACT, an Emacs clone. ISLISP became an obvious choice quickly. Further development ensued.

Ports
OpenLisp claims to be extremely portable, it runs on many operating systems including: Windows, most Unix and POSIX based (Linux, macOS, FreeBSD, OpenBSD, NetBSD, Solaris, HP-UX, AIX, Cygwin, QNX), DOS, OS/2, Pocket PC, OpenVMS, z/OS. The official website download section contains over 50 different versions.

Connectors
OpenLisp can interact with modules written in C using foreign function interface (FFI), ISLISP streams are extended to support network socket ( directory includes samples for Hypertext Transfer Protocol (http), JavaScript Object Notation (JSON), Post Office Protocol 3 (POP3), Simple Mail Transfer Protocol (SMTP), Telnet, Rss), a simplified Extensible Markup Language (XML) reader can convert XML to Lisp. A basic SQL module can be used with MySQL, Odbc, SQLite, PostgreSQL. A comma-separated values (CSV) module can read and write CSV files.

Tools
Developer tools include data logging, pretty-printer, profiler, design by contract programming, and unit tests.

Algorithms
Some well known algorithms are available in  directory (Dantzig's simplex algorithm, Dijkstra's algorithm, Ford–Fulkerson algorithm). Modules are shipped using BSD licenses.

Origin of name
The prefix Open refers to open systems not to the open-source model.

The name was chosen in 1993 to replace the MLisp internal code name which was already used by Gosling Emacs (as successor of Mocklisp).

OpenLisp programming language is different than OpenLISP, a project begun in 1997 to implement Locator/Identifier Separation Protocol.

Compiler
This section describes how a compiler transforms Lisp code to C.

Source code
The Fibonacci number function (this classic definition used in most benchmarks is not the most efficient way to compute )

LAP intermediate code
Lisp compiler translates Lisp source code to the following intermediate code. It is followed by a peephole optimization pass that uses this intermediate format to analyze and optimize instructions. After optimization, final LAP code is:

C code translation
Finally, C code generator uses LAP code to translate instructions in C.

Line length
OpenLisp accepts lines having unlimited length. The recommended style is that each line of text in code should have at most 80 characters per line.

Adoption
It has been chosen by SDF Public Access Unix System nonprofit public access Unix systems on the Internet as one of its programming languages available online.

Bricsys uses OpenLisp to implement AutoLISP in its Bricscad computer-aided design (CAD) system.

MEVA is entirely written with OpenLisp.

Università degli Studi di Palermo uses OpenLisp to teach Lisp.