[this wonderful series of blog
posts](http://peter.michaux.ca/articles/scheme-from-scratch-introduction)) from
C to forth, but also includes variadic compound function support, mark-sweep
-garbage collection, quasiquotation, and a very basic (non-hygenic) macro
+garbage collection, quasiquotation, and a basic (non-hygienic) macro
system.
In future, I plan to also implement a more complete numerical tower to bring it closer to
> (factorial 5)
; 120
+Metacircular Evaluator
+======================
+
+Of course, one of the things you can do in Scheme (or of course any programming
+language, this is the fundamental thing) is implement an interpreter for
+another programming language. The examples directory in this repository
+contains a verbatim copy of the source for the "metacircular" scheme interpreter
+from SICP. To load it, use the following command:
+
+ > (load "../examples/metacirc.scm")
+ ; ok
+
+Be prepared to wait a couple of minutes. When the interpreter finally loads, enter
+the following command to run it:
+
+ > (driver-loop)
+
+You'll then be greeted by the following prompt:
+
+ ;; M-Eval input:
+
+At this point you can start entering Scheme commands... but be prepared to wait
+a _long_ time for the result. For instance, the following example from SICP
+defines and demonstrates a recursive list append procedure:
+
+ (define (append x y)
+ (if (null? x)
+ y
+ (cons (car x)
+ (append (cdr x) y))))
+
+ ;;; M-Eval value:
+ ok
+
+ ;;; M-Eval input:
+ (append '(a b c) '(d e f))
+
+ ;;; M-Eval value:
+ (a b c d e f)
+
+Be prepared to wait 20 min or more for the final result to be printed. (Given
+that at this point we have a program running in a Scheme interpreter running
+inside another Scheme interpreter which is itself running on a Forth system
+that is implemented in Julia, this should not be a surprise.)
+
License
=======
The Lambda Lab / projects / scheme.forth.jl.git / blobdiff