4.8 KiB
Cheap and fast R7RS Scheme Interpreter
SKINT is a portable interpreter for the R7RS Scheme programming language. It can be built from five C source files with a single command. There is no distributives or packages: just compile the source files with your favorite C compiler, link them with the standard C runtime libraries and be done with it. For some platforms, precompiled binaries are available (please see releases).
Installation
Here's how you can compile SKINT on a unix box using GCC:
gcc -o skint [skint].c -lm
Some compilers link <math.h>
library automatically, some require explicit option like -lm
above. It can be built on 32-bit
and 64-bit systems (tested on Windows and Linux).
For much better performance (especially in floating-point calculations), you may pick another compiler, add optimization options, and add some SKINT-spicific flags, e.g.:
clang -o skint -O3 -D NDEBUG -D NAN_BOXING [skint].c -lm
The NAN_BOXING option assumes that upper 16 bit of heap pointers are zero (48-bit address space). If this assumption holds, it is recommended to use this option on 64-bit systems.
The resulting interpreter has no dependencies (except for C runtime and standard -lm math library) and can be run from any location. If linked statically, it can be easily moved between systems with the same ABI.
Scheme Compatibility
SKINT is true to basic Scheme principles -- it features precise garbage collector, supports proper tail recursion, call/cc
,
dynamic-wind
, multiple return values, and has a hygienic macro system and a library system. It is almost fully compatible
with R7RS-small, but it has the following known limitations and deviations from the standard:
- fixnums are 30 bit long, flonums are doubles
- no support for bignums/rational/complex numbers
- no support for Unicode; strings are 8-bit clean, use system locale
- source code literals cannot be circular (R7RS allows this)
Some features of the R7RS-Small standard are not yet implemented or implemented in a simplified or non-conforming way:
read
procedure is always case-sensitive (all ports operate in no-fold-case mode)#!fold-case
and#!no-fold-case
directives have no effectinclude
andinclude-ci
forms work in case-sensitive modecurrent-jiffy
andjiffies-per-second
return inexact integerscurrent-second
is defined as Cdifftime(time(0), 0)+37
Here are some details on SKINT's interactive Read-Eval-Print-Loop (REPL) and evaluation/libraries support:
read
supports R7RS notation for circular structures, but botheval
andload
reject them- all R7RS-small forms are available in the built-in
(skint)
library and REPL environment -I
and-A
command-line options extend library search path; initial path is./
cond-expand
checks against(features)
and available librariesenvironment
may dynamically fetch external library definitions from.sld
files- both
eval
andload
accept optional environment argument - command-line options can be shown by running
skint --help
- both
import
anddefine-library
forms can be entered interactively into REPL - REPL supports single-line “comma-commands” — type
,help
for a full list - on Un*x-like systems, interactive use of skint with line exiting requires external readline wrapper such as rlwrap
Please note that SKINT's interaction environment exposes bindings for all R7RS-small procedures
and syntax forms directly, so there is no need to use import
. All R7RS-small libraries are built-in and
do not rely on any external .sld files.
Origins
Parts of SKINT's run-time system and startup code are written in #F,
a language for building Scheme-like systems. Its #F source code can be found there in precursors
directory:
SKINT's hygienic macroexpander is derived from Al Petrofsky's EIOD 1.17 (please see the t.scm file for the original copyright info). SKINT's VM and compiler follow the stack machine approach described in “Three Implementation Models for Scheme” thesis by R. Kent Dybvig (TR87-011, 1987). Supporting library code comes from #F's LibL library.
Family
Please see SIOF repository for a single-file R7RS-small interpreter. It is more portable and easier to build, but is less complete and runs significantly slower.