$Id: foo$ This is Elk 3.99, a pre-release of Elk 4.0, the Extension Language Kit. What is Elk? ------------ Elk is an implementation of the Scheme programming language. In contrast to existing, stand-alone Scheme systems Elk has been designed specifically as an embeddable, reusable extension language subsystem for applications written in C or C++. Developers using Elk can deliver applications with different components written in different languages, such as an efficient core written in C or C++ and an extensible user interface layer implemented in Scheme. To help building hybrid application architectures, Elk supports a tightly-knit interworking of the C/C++ parts of applications with Scheme code. Elk is also useful as a stand-alone Scheme implementation, in particular as a platform for rapid prototyping of X11-based Scheme programs. The Elk project was started in 1987 to support ISOTEXT, a multimedia document editor that has been developed at the Technical University of Berlin. The first freely available version, Elk 1.0, was published in USENET in September 1989. Since then, Elk has been successfully used as the extension language framework for numerous applications (commercial products as well as free software projects). Getting Elk ----------- You can obtain the Elk 3.99 distribution as well as additional information about Elk in the World Wide Web at http://sam.zoy.org/projects/sam/ The distribution is also available for anonymous FTP from a number of servers including these: ftp://ftp.x.org/contrib/devel_tools/elk-3.0.tar.gz ftp://ftp.uni-bremen.de/pub/programming/languages/scheme/elk/elk-3.0.tar.gz A non-trivial example application using Elk as its extension language is available as source and pre-compiled binaries (`unroff' is a troff translator with back-ends for HTML and the -ms and -man macros): http://www.informatik.uni-bremen.de/~net/unroff Elk features ------------ o Full incremental, dynamic loading This facility enables Scheme code to load compiled Scheme extensions into the running interpreter (or into the application) on demand. Complex Elk-based applications can be decomposed into dynamically loadable components to avoid large, monolithic executables. Furthermore, user-supplied extension need not be written entirely in Scheme; they may include an efficient, low-level layer written in C or C++. Dynamic loading in Elk is supported on many platforms and is not restricted to a dlopen() interface. Elk provides automatic initialization of dynamically loaded extensions and takes care of C++ static constructors/destructors embedded in object files. o Freezing of fully customized applications into executable files Elk provides a new Scheme primitive `dump' which freezes the dynamic runtime image of the Scheme interpreter into an executable file (including an enclosing application if present). This facility resembles unexec() in Emacs, but the new executable resumes execution by returning from the call to `dump' by which that executable was created (not unlike fork() in UNIX). Dynamic loading and `dump' increase the usability of Elk as the backbone of complex applications. o Powerful C/C++ interface for language interoperability Elk provides for a tight integration of the C/C++ core of applications (or extensions) with the extension language. Applications can define their own Scheme primitives (three calling disciplines are supported), define application-specific first-class Scheme types with customized print and read functions, convert objects between Scheme types and C/C++ types in various ways, implement weak data structures, raise Scheme errors, define Scheme variables and symbols, evaluate S-expressions encoded as C strings, and utilize the garbage collector. o Full Scheme bindings for X11 and Motif Several dynamically loadable extensions provide full Scheme access to the X11/OpenWindows Xlib, to the application programmer interface of the Xt intrinsics, and to the Athena and OSF/Motif widget sets. Using these extensions, the graphical user-interfaces of Elk-based applications can be built entirely in the extension language. o UNIX interface Elk provides Scheme access to most UNIX system calls and common C library functions. The UNIX extension supports a wide range of different UNIX platforms without restricting its functionality to the lowest common denominator or to the POSIX 1003.1 functions. o Stop-and-copy and generational, incremental garbage collection Elk employs two garbage collection strategies selectable at compile time: a traditional stop-and-copy garbage collector and a generational garbage collector which is more efficient and thus reduces the time the application is disrupted by a garbage collection. On platforms with advanced memory management, `incremental' mode can be enabled for the generational garbage collector to further reduce wait times. o Non-standard Scheme features In addition to the standard Scheme core, Elk supports first-class environments, error handling, provide/require and autoloading, fluid bindings and dynamic-wind, simple `eval-twice'-style macros, property lists, string ports and bidirectional ports, shell-style `tilde expansion' in filenames, an interactive top-level written in Scheme, a Scheme debugger and a pretty printer, arbitrary length bitstrings, and Scheme records. o Comprehensive documentation The distribution includes 230+ pages of fully indexed documentation. All manuals exist as troff input files which can be translated to HTML (with `unroff') for online browsing in addition to producing typeset- quality printed versions. o Distributed in legally unencumbered form The copyright/license agreement permits free redistribution and use of Elk in commercial products. Why is Elk using Scheme? ------------------------ As extensions can get as large and complex as freestanding programs, extension language programmers (usually the users of the application) deserve the same language features that other programmers are accustomed to. By using a general-purpose programming language rather than a specialized scripting language, non-trivial extensions can benefit from the structuring functionality inherent in real programming languages (such as Lisp). Members of the Lisp language family are particularly suitable as an extension language: Lisp has a simple syntax but powerful semantics, it allows for small implementations, and its interactive nature supports rapid prototyping and encourages users to explore and test solutions to problems in an incremental way. Consequently, Lisp has become increasingly popular for this purpose, to the point where the abundance of different dialects has grown into a problem. Of the standardized dialects of Lisp, only Scheme is suitably modest, yet sufficiently general, to serve as a reusable extension language for a wide range of applications. Scheme is orthogonal and well-defined, and it is small enough to not dominate the application it serves and to be fully understood with acceptable effort. The Elk distribution -------------------- Here is a brief roadmap for the subdirectories and files included in the distribution. elk-3.0 --+-- README Explains the purpose and release status of Elk | +-- CHANGES Lists the changes between this and earlier releases | of Elk | +-- MIGRATE Explains how C/C++ code (applications or extensions) | written for older versions of Elk may have to be | modified to make it work with this version | +-- INSTALL Instructions for configuring, compiling, and | installing Elk; a brief description of the files that | get installed in the process; and a description of | the structure of the Makefiles and the purpose of | Makefile.local and `build' in each source directory | +-- MACHINES Additional, platform-specific advice for installing | and using Elk, such as compiler bugs, unsupported | features, problems with older OS versions and other | pitfalls | +-- BUGS Information about known problems with this release | +-- TODO Ideas, improvements and projects for future releases | +-- COPYING The copyright status of the distribution | +-- AUTHORS A list of people who have contributed significantly | to Elk; acknowledgments and credits | +-- include/ The include files to be #included by applications | that use Elk as their extension language, and by | extensions to Elk. Including scheme.h from this | directory causes all the other .h files to be | included in the right order. The include files may | or may not use ANSI/ISO-C prototypes, depending on | the config file you have chosen. | +-- src/ The C source files of the Scheme interpreter | +-- scm/ Scheme files that are loaded during runtime. These | are copied to a destination directory specified in | config/site when Elk is installed. | +-- lib --, This directory tree holds the C source for various | | Elk extensions that can be loaded into the Scheme | | interpreter or linked with an application | | | +-- xlib/ The C source files of the X11 Xlib extension | | | +-- xt/ The C source files of the Xt (X11 Toolkit | | Intrinsics) extension | | | +-- xaw/ The Scheme interfaces to the X11 Athena widgets. | | There is one .d file for each widget class. | | Each of these is compiled into a C source file | | when running `make' and then compiled into a | | dynamically loadable object. | | | +-- xm/ The .d files for the Motif widgets | | | +-- unix/ The C source files of the UNIX extension | | | `-- misc/ The C source files of the record extension, the | bitstring extension, the regular expression | extension, and various other dynamically | loadable Elk extensions | +-- doc/ The directory tree holding the documentation for | Elk as troff input files and pre-generated | PostScript files. See doc/README for a roadmap | of the `doc' tree. | | +-- examples --, A collection of demonstration programs for Elk | | and the various extensions (mostly in Scheme) | | | +-- scheme Basic Scheme demos (collected from USENET | | and other sources) | | | +-- xlib Programs demonstrating the Xlib, Athena, | +-- xaw and Motif extensions | +-- xm | | | +-- unix Example programs for the UNIX extension | | | +-- regexp A demonstration of the regexp extension | | | `-- c++ A few simple C++ programs demonstrating | use of Elk with C++ applications (see | README in this directory) | `-- util/ Various utilities, some of which may aid in preparing a config file for an as yet unsupported platform.