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Leave pure LISP. 

* GNUmakefile: New file.
* mes.c: Lots of work.
* mes.mes: New file, split-off from mes.scm.
(builtin, number): New function.
(apply): Use them.
* mes.test: New file.
* scm.mes: New file, split-off from mes.scm.
This commit is contained in:
Jan Nieuwenhuizen 2016-05-16 00:07:44 +02:00
parent 22ba3f6869
commit 1a565a9208
6 changed files with 733 additions and 279 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

13
GNUmakefile Normal file
View File

@ -0,0 +1,13 @@
.PHONY: all check default
CFLAGS=-std=c99 -O3 -finline-functions
#CFLAGS=-g
default: all
all: mes
check: all
./mes.test
./mes.test ./mes
./mes < scm.mes
./mes.scm < scm.mes

591
mes.c
View File

@ -34,12 +34,13 @@
#include <stdlib.h>
#include <stdbool.h>
#define DEBUG 0
#ifndef QUOTE_SUGAR
#define QUOTE_SUGAR 1
#endif
enum type {NIL, F, T, ATOM, NUMBER, PAIR, UNSPECIFIED, FUNCTION0, FUNCTION1, FUNCTION2, FUNCTION3, LAMBDA, LABEL};
enum type {ATOM, NUMBER, PAIR, FUNCTION0, FUNCTION1, FUNCTION2, FUNCTION3};
struct scm_t;
typedef struct scm_t* (*function0_t) (void);
typedef struct scm_t* (*function1_t) (struct scm_t*);
@ -62,14 +63,24 @@ typedef struct scm_t {
};
} scm;
scm scm_nil = {NIL, "()"};
scm scm_t = {T, "#t"};
scm scm_f = {F, "#f"};
scm scm_lambda = {LAMBDA, "lambda"};
scm scm_label = {LABEL, "label"};
scm scm_unspecified = {UNSPECIFIED, "#<unspecified>"};
scm scm_nil = {ATOM, "()"};
scm scm_t = {ATOM, "#t"};
scm scm_f = {ATOM, "#f"};
scm scm_lambda = {ATOM, "lambda"};
scm scm_label = {ATOM, "label"};
scm scm_unspecified = {ATOM, "*unspecified*"};
scm scm_define = {ATOM, "define"};
scm scm_macro = {ATOM, "*macro*"};
// PRIMITIVES
scm *
atom (scm *x)
{
return x->type == PAIR ? &scm_f : &scm_t;
}
scm scm_atom = {FUNCTION1, .name="atom", .function1 = &atom};
scm *
car (scm *x)
{
@ -98,11 +109,14 @@ scm *
eq_p (scm *x, scm *y)
{
return (x == y
// FIXME: alist lookup symbols
|| (x->type == ATOM && y->type == ATOM
&& !strcmp (x->name, y->name))
|| (x->type == NUMBER && y->type == NUMBER
&& x->value == y->value))
&& x->value == y->value)
// FIXME: alist lookup symbols
|| (atom (x) == &scm_t
&& x->type != NUMBER
&& y->type != NUMBER
&& atom (y) == &scm_t
&& !strcmp (x->name, y->name)))
? &scm_t : &scm_f;
}
@ -120,21 +134,7 @@ pair_p (scm *x)
scm *eval (scm*, scm*);
scm *
cond (scm *x, scm *a)
{
if (x == &scm_nil) return &scm_unspecified;
assert (x->type == PAIR);
scm *clause = car (x);
assert (clause->type == PAIR);
scm *expr = eval (car (clause), a);
if (expr != &scm_f) {
if (clause->type != PAIR)
return expr;
return eval (car (cdr (clause)), a);
}
return cond (cdr (x), a);
}
scm *display (scm*);
scm scm_quote;
scm *
@ -143,26 +143,64 @@ quote (scm *x)
return cons (&scm_quote, x);
}
//PRIMITIVES
scm scm_car = {FUNCTION1, .function1 = &car};
scm scm_cdr = {FUNCTION1, .function1 = &cdr};
scm scm_cons = {FUNCTION2, .function2 = &cons};
scm scm_cond = {FUNCTION2, .function2 = &cond};
scm scm_eq_p = {FUNCTION2, .function2 = &eq_p};
scm scm_null_p = {FUNCTION1, .function1 = &null_p};
scm scm_pair_p = {FUNCTION1, .function1 = &pair_p};
scm scm_quote = {FUNCTION1, .function1 = &quote};
#if QUASIQUOTE
scm scm_unquote;
scm *
unquote (scm *x)
{
return cons (&scm_unquote, x);
}
//LIBRARY FUNCTIONS
scm scm_quasiquote;
scm *
quasiquote (scm *x)
{
return cons (&scm_quasiquote, x);
}
scm *eval_quasiquote (scm *, scm *);
#endif
//Primitives
scm scm_car = {FUNCTION1, "car", .function1 = &car};
scm scm_cdr = {FUNCTION1, "cdr", .function1 = &cdr};
scm scm_cons = {FUNCTION2, "cons", .function2 = &cons};
scm scm_cond = {FUNCTION2, "cond"}; //, .function2 = &cond};
scm scm_eq_p = {FUNCTION2, "eq", .function2 = &eq_p};
scm scm_null_p = {FUNCTION1, "null", .function1 = &null_p};
scm scm_pair_p = {FUNCTION1, "pair", .function1 = &pair_p};
scm scm_quote = {FUNCTION1, "quote", .function1 = &quote};
#if QUASIQUOTE
scm scm_unquote = {FUNCTION1, "unquote", .function1 = &unquote};
scm scm_quasiquote = {FUNCTION1, "quasiquote", .function1 = &quasiquote};
#endif
//Library functions
scm scm_read;
// NEXT
scm *caar (scm *x) {return (car (car (x)));}
scm *cadr (scm *x) {return (car (cdr (x)));}
scm *cdar (scm *x) {return (cdr (car (x)));}
// Derived, non-primitives
scm *caar (scm *x) {return car (car (x));}
scm *cadr (scm *x) {return car (cdr (x));}
scm *cdar (scm *x) {return cdr (car (x));}
scm *cddr (scm *x) {return cdr (cdr (x));}
scm *caadr (scm *x) {return car (car (cdr (x)));}
scm *caddr (scm *x) {return car (cdr (cdr (x)));}
scm *cdadr (scm *x) {return cdr (car (cdr (x)));}
scm *cadar (scm *x) {return car (cdr (car (x)));}
scm *cddar (scm *x) {return cdr (cdr (car (x)));}
scm *cdddr (scm *x) {return cdr (cdr (cdr (x)));}
scm scm_caar = {FUNCTION1, .name="caar ", .function1 = &caar };
scm scm_cadr = {FUNCTION1, .name="cadr ", .function1 = &cadr };
scm scm_cdar = {FUNCTION1, .name="cdar ", .function1 = &cdar };
scm scm_cddr = {FUNCTION1, .name="cddr ", .function1 = &cddr };
scm scm_caadr = {FUNCTION1, .name="caadr", .function1 = &caadr};
scm scm_caddr = {FUNCTION1, .name="caddr", .function1 = &caddr};
scm scm_cdadr = {FUNCTION1, .name="cdadr", .function1 = &cdadr};
scm scm_cadar = {FUNCTION1, .name="cadar", .function1 = &cadar};
scm scm_cddar = {FUNCTION1, .name="cddar", .function1 = &cddar};
scm scm_cdddr = {FUNCTION1, .name="cdddr", .function1 = &cdddr};
scm *
list (scm *x, ...)
@ -180,63 +218,34 @@ list (scm *x, ...)
return lst;
}
scm *
atom (scm *x)
{
#if EVAL_COND
return cond
(list (cons (pair_p (x), &scm_f),
cons (null_p (x), &scm_f),
cons (&scm_t, x),
&scm_unspecified),
&scm_nil);
#else
if (pair_p (x) == &scm_t)
return &scm_f;
else if (null_p (x) == &scm_t)
return &scm_f;
return &scm_t;
#endif
}
// Page 12
scm *
pairlis (scm *x, scm *y, scm *a)
{
#if EVAL_COND
return cond
(list (cons (null_p (x), a),
cons (&scm_t, cons (cons (car (x), car (y)),
pairlis (cdr (x), cdr (y), a))),
&scm_unspecified),
a);
#else
if (x == &scm_nil)
return a;
return cons (cons (car (x), car (y)),
pairlis (cdr (x), cdr (y), a));
#endif
}
scm scm_pairlis = {FUNCTION3, .name="pairlis", .function3 = &pairlis};
scm *
assoc (scm *x, scm *a)
{
#if EVAL_COND
return cond
(list (cons (eq_p (caar (a), x), car (a)),
cons (&scm_t, assoc (x, cdr (a))),
&scm_unspecified),
a);
#else
//printf ("assoc: %s\n" , x->name);
// not Page 12:
if (a == &scm_nil) return &scm_f;
if (a == &scm_nil) {
#if DEBUG
printf ("alist miss: %s\n", x->name);
#endif
return &scm_f;
}
//
if (eq_p (caar (a), x) == &scm_t)
return car (a);
return assoc (x, cdr (a));
#endif
}
scm scm_assoc = {FUNCTION2, .name="assoc", .function2 = &assoc};
// Page 13
scm *apply (scm*, scm*, scm*);
@ -247,25 +256,16 @@ eval_quote (scm *fn, scm *x)
return apply (fn, x, &scm_nil);
}
scm *procedure_p (scm*);
scm *builtin_p (scm*);
scm *call (scm *, scm*);
scm *display (scm*);
scm *newline ();
// .. continued Page 13
scm *
apply (scm *fn, scm *x, scm *a)
{
#if EVAL_COND
return cond
(list (cons (atom (fn),
cond (list (
&scm_unspecified),
a)),
cons (eq_p (car (fn), &scm_lambda),
eval (caddr (fn), pairlis (cadr (fn), x, a))),
&scm_unspecified), a);
#else
#if 0
#if DEBUG
printf ("apply fn=");
display (fn);
printf (" x=");
@ -274,29 +274,25 @@ apply (scm *fn, scm *x, scm *a)
#endif
if (atom (fn) != &scm_f)
{
if (fn == &scm_car)
return caar (x);
else if (fn == &scm_cdr)
return cdar (x);
else if (fn == &scm_cdr)
return cdar (x);
else if (fn == &scm_cons)
return cons (car (x), cadr (x));
else if (fn == &scm_eq_p)
return eq_p (car (x), cadr (x));
else if (procedure_p (fn) != &scm_f)
if (builtin_p (fn) == &scm_t)
return call (fn, x);
else
return apply (eval (fn, a), x, a);
return apply (eval (fn, a), x, a);
}
else if (car (fn) == &scm_lambda)
return eval (caddr (fn), pairlis (cadr (fn), x, a));
// Page 12: single statement lambda
// else if (car (fn) == &scm_lambda)
// return eval (caddr (fn), pairlis (cadr (fn), x, a));
// Multi-statement lambda
else if (car (fn) == &scm_lambda) {
scm *body = cddr (fn);
scm *ax = pairlis (cadr (fn), x, a);
scm *result = eval (car (body), ax);
if (cdr (body) == &scm_nil)
return result;
return apply (cons (car (fn), cons (cadr (fn), cdddr (fn))), x, ax);
}
else if (car (fn) == &scm_label)
return apply (caddr (fn), x, cons (cons (cadr (fn),
caddr (fn)),
a));
return apply (caddr (fn), x, cons (cons (cadr (fn), caddr (fn)), a));
return &scm_unspecified;
#endif
}
scm *evcon (scm*, scm*);
@ -305,37 +301,98 @@ scm *evlis (scm*, scm*);
scm *
eval (scm *e, scm *a)
{
#if EVAL_COND
#error no eval cond here
#else
#if DEBUG
printf ("eval e=");
display (e);
// printf (" a=");
// display (a);
puts ("");
#endif
// not Page 12
if (e->type == NUMBER
|| e == &scm_t
|| e== &scm_f)
if (e->type == NUMBER)
return e;
//
else if (atom (e) == &scm_t) {
scm *y = assoc (e, a);
if (y == &scm_f) {
printf ("eval: no such symbol: %s\n", e->name);
exit (1);
}
return cdr (y);
}
// not Page 12
if (builtin_p (e) == &scm_t)
return e;
//
else if (atom (e) == &scm_t)
return cdr (assoc (e, a));
else if (atom (car (e)) == &scm_t)
{
scm *macro;
#if DEBUG
printf ("e:");
display (e);
puts ("");
scm *macros = cdr (assoc (&scm_macro, a));
if (pair_p (macros) == &scm_t) {
printf ("macros:");
display (macros);
puts ("");
}
#endif
if (car (e) == &scm_quote)
return cadr (e);
#if QUASIQUOTE
else if (car (e) == &scm_unquote)
return eval (cadr (e), a);
else if (car (e) == &scm_quasiquote) {
#if DEBUG
printf ("cadr e:");
display (cadr (e));
puts ("");
printf ("qq:");
display (eval_quasiquote (cadr (e), a));
puts ("");
#endif
return eval_quasiquote (cadr (e), a);
}
#endif
else if (car (e) == &scm_cond)
return evcon (cdr (e), a);
//return cond (cdr (e), a);
else if ((macro = assoc (car (e), cdr (assoc (&scm_macro, a)))) != &scm_f) {
#if DEBUG
printf ("eval macro:");
display (cdr (macro));
puts ("");
printf ("macro evlis:");
display (evlis (cdr (e), a));
puts ("");
#endif
return eval (apply
(cdr (macro),
evlis (cdr (e), a),
a),
a);
}
else
return apply (car (e), evlis (cdr (e), a), a);
}
return apply (car (e), evlis (cdr (e), a), a);
#endif
}
scm *
evcon (scm *c, scm *a)
{
if (eval (caar (c), a) != &scm_f)
return eval (cadar (c), a);
// if (eval (caar (c), a) != &scm_f)
// return eval (cadar (c), a);
if (eval (caar (c), a) != &scm_f) {
if (cddar (c) == &scm_nil)
return eval (cadar (c), a);
eval (cadar (c), a);
return evcon (cons (cons (&scm_t, cddar (c)), &scm_nil), a);
}
return evcon (cdr (c), a);
}
scm scm_evcon = {FUNCTION2, .name="evcon", .function2 = &evcon};
scm *
evlis (scm *m, scm *a)
@ -344,13 +401,12 @@ evlis (scm *m, scm *a)
return &scm_nil;
return cons (eval (car (m), a), evlis (cdr (m), a));
}
scm scm_evlis = {FUNCTION2, .name="evlis", .function2 = &evlis};
// EXTRAS
scm scm_eval = {FUNCTION2, .function2 = &eval};
scm scm_apply = {FUNCTION3, .function3 = &apply};
scm *
procedure_p (scm *x)
builtin_p (scm *x)
{
return (x->type == FUNCTION0
|| x->type == FUNCTION1
@ -358,6 +414,15 @@ procedure_p (scm *x)
|| x->type == FUNCTION3)
? &scm_t : &scm_f;
}
scm scm_builtin_p = {FUNCTION1, .name="builtin", .function1 = &builtin_p};
scm *
number_p (scm *x)
{
return x->type == NUMBER ? &scm_t : &scm_f;
}
scm scm_number_p = {FUNCTION1, .name="number", .function1 = &number_p};
scm *
call (scm *fn, scm *x)
@ -372,6 +437,7 @@ call (scm *fn, scm *x)
return fn->function3 (car (x), cadr (x), caddr (x));
return &scm_unspecified;
}
scm scm_call = {FUNCTION1, .name="call", .function2 = &call};
scm *
append (scm *x, scm *y)
@ -380,6 +446,8 @@ append (scm *x, scm *y)
assert (x->type == PAIR);
return cons (car (x), append (cdr (x), y));
}
scm scm_append = {FUNCTION2, .name="append", .function2 = &append};
scm *
make_atom (char const *s)
@ -400,32 +468,27 @@ make_number (int x)
return p;
}
scm *environment = &scm_nil;
scm *
lookup (char *x)
lookup (char *x, scm *a)
{
if (!strcmp (x, " ()")) return &scm_nil;
if (!strcmp (x, "#t")) return &scm_t;
if (!strcmp (x, "#f")) return &scm_f;
if (!strcmp (x, "'")) return &scm_quote; // assert !quote?
if (isdigit (*x) || (*x == '-' && isdigit (*(x+1))))
return make_number (atoi (x));
// TODO: alist lookup symbols
if (!strcmp (x, "label")) return &scm_label;
if (!strcmp (x, "lambda")) return &scm_lambda;
if (!strcmp (x, "car")) return &scm_car;
if (!strcmp (x, "cdr")) return &scm_cdr;
if (!strcmp (x, "cons")) return &scm_cons;
if (!strcmp (x, "eq")) return &scm_eq_p;
if (!strcmp (x, "quote")) return &scm_quote;
if (!strcmp (x, "cond")) return &scm_cond;
if (x) {
scm *y = make_atom (x);
scm *r = assoc (y, environment);
scm *r = assoc (y, a);
#if 0
if (!strcmp (x, "eval")) {
printf ("lookup %s ==> ", x);
display (r);
puts ("");
}
if (!strcmp (x, "apply")) {
printf ("lookup %s ==> ", x);
display (r);
puts ("");
}
#endif
if (r != &scm_f) return cdr (r);
return y;
}
@ -442,59 +505,57 @@ cossa (scm *x, scm *a)
return cossa (x, cdr (a));
}
scm *display_helper (scm*, bool, char*);
scm *display_helper (scm*, bool, char*, bool);
scm *
display (scm *x)
{
return display_helper (x, false, "");
return display_helper (x, false, "", false);
}
scm scm_display = {FUNCTION1, .name="display", .function1 = &display};
scm *
display_helper (scm *x, bool cont, char *sep)
newline ()
{
puts ("");
return &scm_unspecified;
}
scm scm_newline = {FUNCTION0, .name="newline", .function0 = &newline};
scm *
display_helper (scm *x, bool cont, char *sep, bool quote)
{
scm *r;
printf (sep);
if (x == &scm_nil) printf ("()");
else if (x == &scm_t) printf ("#t");
else if (x == &scm_f) printf ("#f");
else if (x == &scm_unspecified) printf ("#<unspecified>");
else if (x == &scm_quote) printf ("quote");
else if (x == &scm_label) printf ("label");
else if (x == &scm_lambda) printf ("lambda");
else if (x == &scm_car) printf ("car");
else if (x == &scm_cdr) printf ("cdr");
else if (x == &scm_cons) printf ("cons");
else if (x == &scm_cond) printf ("cond");
else if (x == &scm_eq_p) printf ("eq");
else if (x == &scm_null_p) printf ("null");
else if (x == &scm_pair_p) printf ("pair");
else if (x == &scm_quote) printf ("quote");
else if (x->type == NUMBER) printf ("%d", x->value);
else if (x->type == NUMBER) printf ("0");
else if (x->type == ATOM) printf (x->name);
if (x->type == NUMBER) printf ("%d", x->value);
else if (x->type == PAIR) {
#if QUOTE_SUGAR
if (car (x) == &scm_quote) {
printf ("'");
return display_helper (car (cdr (x)), cont, "");
return display_helper (car (cdr (x)), cont, "", true);
}
#if QUASIQUOTE
if (car (x) == &scm_quasiquote) {
printf ("`");
return display_helper (car (cdr (x)), cont, "", true);
}
if (car (x) == &scm_unquote) {
printf (",");
return display_helper (car (cdr (x)), cont, "", true);
}
#endif
#endif
if (!cont) printf ("(");
display (car (x));
if (cdr (x)->type == PAIR)
display_helper (cdr (x), true, " ");
display_helper (cdr (x), true, " ", false);
else if (cdr (x) != &scm_nil) {
printf (" . ");
display (cdr (x));
}
if (!cont) printf (")");
}
else if ((r = cossa (x, environment)) != &scm_f)
printf (car (r)->name);
else if (atom (x) == &scm_t) printf (x->name);
return &scm_unspecified;
}
@ -558,13 +619,13 @@ readword (int c, char* w, scm *a)
{
if (c == EOF && !w) return &scm_nil;
if (c == '\n' && !w) return readword (getchar (), w, a);
if (c == EOF || c == '\n') return lookup (w);
if (c == EOF || c == '\n') return lookup (w, a);
if (c == ' ') return readword ('\n', w, a);
if (c == '(' && !w) return readlis (a);
if (c == '(') {ungetchar (c); return lookup (w);}
if (c == '(') {ungetchar (c); return lookup (w, a);}
if (c == ')' && !w) {ungetchar (c); return &scm_nil;}
if (c == ')') {ungetchar (c); return lookup (w);}
if (c == '\'' && !w) {return cons (lookup ("'"),
if (c == ')') {ungetchar (c); return lookup (w, a);}
if (c == '\'' && !w) {return cons (lookup ("'", a),
cons (readword (getchar (), w, a),
&scm_nil));}
if (c == ';') {readcomment (c); return readword ('\n', w, a);}
@ -586,11 +647,11 @@ readlis (scm *a)
}
scm *
read ()
readenv (scm *a)
{
return readword (getchar (), 0, environment);
return readword (getchar (), 0, a);
}
scm scm_read = {FUNCTION0, .function0 = &read};
scm scm_readenv = {FUNCTION1, .function1 = &readenv};
scm *
add_environment (scm *a, char *name, scm* x)
@ -614,32 +675,178 @@ minus (scm *a, scm *b)
return make_number (a->value - b->value);
}
scm scm_less_p = {FUNCTION2, .function2 = &less_p};
scm scm_minus = {FUNCTION2, .function2 = &minus};
scm scm_less_p = {FUNCTION2, .name="<", .function2 = &less_p};
scm scm_minus = {FUNCTION2, .name="-", .function2 = &minus};
scm *global_environment;
scm *
fill_environment ()
apply_environment (scm *fn, scm *x, scm *a)
{
return apply (fn, x, append (a, global_environment));
}
scm *
eval_environment (scm *e, scm *a)
{
return eval (e, append (a, global_environment));
}
//scm scm_cond = {FUNCTION2, .name="cond", .function2 = &evcon};
scm scm_eval = {FUNCTION2, .name="eval", .function2 = &eval_environment};
scm scm_apply = {FUNCTION3, .name="apply", .function3 = &apply_environment};
scm *
initial_environment ()
{
scm_cond.function2 = &evcon;
scm *a = &scm_nil;
a = add_environment (a, "()", &scm_nil);
a = add_environment (a, "#t", &scm_t);
a = add_environment (a, "#f", &scm_f);
a = add_environment (a, "*unspecified*", &scm_unspecified);
a = add_environment (a, "label", &scm_label);
a = add_environment (a, "lambda", &scm_lambda);
a = add_environment (a, "atom", &scm_atom);
a = add_environment (a, "car", &scm_car);
a = add_environment (a, "cdr", &scm_cdr);
a = add_environment (a, "cons", &scm_cons);
a = add_environment (a, "cond", &scm_cond);
a = add_environment (a, "eq", &scm_eq_p);
a = add_environment (a, "null", &scm_null_p);
a = add_environment (a, "pair", &scm_pair_p);
a = add_environment (a, "quote", &scm_quote);
a = add_environment (a, "'", &scm_quote);
#if QUASIQUOTE
a = add_environment (a, "quasiquote", &scm_quasiquote);
a = add_environment (a, "unquote", &scm_unquote);
a = add_environment (a, ",", &scm_unquote);
a = add_environment (a, "`", &scm_quasiquote);
#endif
a = add_environment (a, "evlis", &scm_evlis);
a = add_environment (a, "evcon", &scm_evcon);
a = add_environment (a, "pairlis", &scm_pairlis);
a = add_environment (a, "assoc", &scm_assoc);
a = add_environment (a, "eval", &scm_eval);
a = add_environment (a, "apply", &scm_apply);
a = add_environment (a, "readenv", &scm_readenv);
a = add_environment (a, "display", &scm_display);
a = add_environment (a, "newline", &scm_newline);
a = add_environment (a, "builtin", &scm_builtin_p);
a = add_environment (a, "number", &scm_number_p);
a = add_environment (a, "call", &scm_call);
a = add_environment (a, "define", &scm_define);
a = add_environment (a, "<", &scm_less_p);
a = add_environment (a, "-", &scm_minus);
// DERIVED
a = add_environment (a, "caar", &scm_caar);
a = add_environment (a, "cadr", &scm_cadr);
a = add_environment (a, "cdar", &scm_cdar);
a = add_environment (a, "cddr", &scm_cddr);
a = add_environment (a, "caadr", &scm_caadr);
a = add_environment (a, "caddr", &scm_caddr);
a = add_environment (a, "cdadr", &scm_cdadr);
a = add_environment (a, "cadar", &scm_cadar);
a = add_environment (a, "cddar", &scm_cddar);
a = add_environment (a, "cdddr", &scm_cdddr);
a = add_environment (a, "append", &scm_append);
a = add_environment (a, "*macro*", &scm_nil);
// Hmm
//a = add_environment (a, "*a*", &scm_nil);
global_environment = add_environment (a, "*a*", a);
return a;
}
#if QUASIQUOTE
scm *
eval_quasiquote (scm *e, scm *a)
{
if (e == &scm_nil) return e;
else if (atom (e) == &scm_t) return e;
else if (car (e) == &scm_unquote)
return eval (cadr (e), a);
else if (car (e) == &scm_quote)
return cadr (e);
else if (car (e) == &scm_quasiquote)
return cadr (e);
return cons (car (e), eval_quasiquote (cdr (e), a));
}
#endif
scm *
define_lambda (scm *x, scm *a)
{
return cons (caadr (x), cons (&scm_lambda, cons (cdadr (x), cddr (x))));
}
scm *
define (scm *x, scm *a)
{
if (atom (cadr (x)) != &scm_f)
return cons (cadr (x), eval (caddr (x), a));
return define_lambda (x, a);
}
scm *
define_macro (scm *x, scm *a)
{
return cons (&scm_macro,
cons (define_lambda (x, a),
cdr (assoc (&scm_macro, a))));
}
scm *
loop (scm *r, scm *e, scm *a)
{
//global_environment = add_environment (a, "*a*", a);
if (e == &scm_nil) return r; //a;
else if (eq_p (e, make_atom ("exit")) == &scm_t)
return apply (cdr (assoc (make_atom ("loop"), a)),
cons (&scm_unspecified, cons (&scm_t, cons (a, &scm_nil))), a);
else if (atom (e) == &scm_t)
return loop (eval (e, a), readenv (a), a);
else if (eq_p (car (e), make_atom ("define")) == &scm_t)
return loop (&scm_unspecified,
readenv (a),
cons (define (e, a), a));
else if (eq_p (car (e), make_atom ("define-macro")) == &scm_t)
return loop (&scm_unspecified,
readenv (a),
cons (define_macro (e, a), a));
return loop (eval (e, a), readenv (a), a);
}
int
main (int argc, char *argv[])
{
environment = fill_environment ();
scm *program = read ();
scm *a = initial_environment ();
//global_environment = a;
scm *x = readenv (a);
#if DEBUG
printf ("program=");
display (x);
puts ("");
display (program);
puts ("\n =>");
#endif
scm *result;
result = eval (program, environment);
display (result);
puts ("");
exit (0);
//display (eval (x, a));
display (loop (&scm_unspecified, x, a));
// loop (&scm_unspecified, x, a);
//loop (&scm_unspecified, read (), initial_environment ());
newline ();
return 0;
}

120
mes.mes Normal file
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@ -0,0 +1,120 @@
;; -*-scheme-*-
;;
(define (caar x) (car (car x)))
(define (cadr x) (car (cdr x)))
(define (cdar x) (cdr (car x)))
(define (cddr x) (cdr (cdr x)))
(define (caadr x) (car (car (cdr x))))
(define (caddr x) (car (cdr (cdr x))))
(define (cddar x) (cdr (cdr (car x))))
(define (cdadr x) (cdr (car (cdr x))))
(define (cadar x) (car (cdr (car x))))
(define (cdddr x) (cdr (cdr (cdr x))))
;; Page 12
(define (pairlis x y a)
(debug "pairlis x=~a y=~a a=~a\n" x y a)
(cond
((null x) a)
(#t (cons (cons (car x) (car y))
(pairlis (cdr x) (cdr y) a)))))
(define (assoc x a)
;;(stderr "assoc x=~a\n" x)
(debug "assoc x=~a a=~a\n" x a)
(cond
((null a) #f)
((eq (caar a) x) (car a))
(#t (assoc x (cdr a)))))
;; Page 13
(define (eval-quote fn x)
(debug "eval-quote fn=~a x=~a" fn x)
(apply fn x '()))
(define (apply fn x a)
(debug "apply fn=~a x=~a a=~a\n" fn x a)
(cond
((atom fn)
(debug "(atom fn)=~a\n" (atom fn))
(cond
;; John McCarthy LISP 1.5
;; ((eq fn CAR) (caar x))
;; ((eq fn CDR) (cdar x))
;; ((eq fn CONS) (cons (car x) (cadr x)))
;; ((eq fn ATOM) (atom (car x)))
;; ((eq fn EQ) (eq (car x) (cadr x)))
((builtin fn) (call fn x))
(#t (apply (eval fn a) x a))))
;; John McCarthy LISP 1.5
((eq (car fn) 'single-line-LAMBDA) (eval (caddr fn) (pairlis (cadr fn) x a)))
((eq (car fn) 'lambda)
;; (CDDR fn) all eval
(cond ((null (cdr (cddr fn)))
(eval (caddr fn) (pairlis (cadr fn) x a)))
(#t
(eval (caddr fn) (pairlis (cadr fn) x a))
(apply (cons (car fn) (cons (cadr fn) (cdddr fn)))
x
(pairlis (cadr fn) x a)))))
((eq (car fn) 'label) (apply (caddr fn) x (cons (cons (cadr fn)
(caddr fn)) a)))))
(define (eval e a)
(debug "eval e=~a a=~a\n" e a)
;;(debug "eval (atom ~a)=~a\n" e (atom e))
(cond
;;((and (stderr "NUMBER? ~a ==> ~a\n" e (number e)) #f))
((number e) e)
;; error: extra
((atom e) (cond ((eq (assoc e a) #f)
(stderr "no such symbol: ~a\n" e)
(guile:exit 1))
(#t (cdr (assoc e a)))))
((atom e) (cdr (assoc e a)))
((builtin e) e)
;;((and (stderr "eeee: ~a\n" e) #f))
((atom (car e))
(cond
((eq (car e) 'quote) (cadr e))
((eq (car e) 'cond) (evcon (cdr e) a))
;; EXTRA: macro expandszor
;;((and (stderr "2eeee: ~a\n" (cdr (assoc '*macro* a))) #f))
(;;;(pair (assoc (car e) (cdr (assoc '*macro* a))))
#f
;;(stderr "macro: ~a\n" (assoc (car e) (cdr (assoc '*macro* a))))
(stderr "apply: ~a ~a\n"
`(cons 'lambda (cdr (cdr
,(assoc (car e) (cdr (assoc '*macro* a)))
)))
`(evlis ,(cddr e) a)
;;'(evlist foobar)
)
(eval (apply
`(cons 'lambda (cdr (cdr
,(assoc (car e) (cdr (assoc '*macro* a)))
)))
`(evlis ,(cddr e) a)
a)
a))
(#t (apply (car e) (evlis (cdr e) a) a))))
(#t (apply (car e) (evlis (cdr e) a) a))))
(define (evcon c a)
(debug "evcon c=~a a=~a\n" c a)
(cond
;; single-statement cond
;; ((eval (caar c) a) (eval (cadar c) a))
((eval (caar c) a)
(cond ((null (cddar c)) (eval (cadar c) a))
(#t (eval (cadar c) a)
(evcon
(cons (cons #t (cddar c)) '())
a))))
(#t (evcon (cdr c) a))))
(define (evlis m a)
(debug "evlis m=~a a=~a\n" m a)
(cond
((null m) '())
(#t (cons (eval (car m) a) (evlis (cdr m) a)))))

201
mes.scm Normal file → Executable file
View File

@ -1,6 +1,6 @@
#! /bin/sh
# -*-scheme-*-
exec guile -L $(pwd) -e '(scm)' -s "$0" "$@"
exec guile -L $(pwd) -e '(mes)' -s "$0" "$@"
!#
;;; Mes --- The Maxwell Equations of Software
@ -24,7 +24,7 @@ exec guile -L $(pwd) -e '(scm)' -s "$0" "$@"
;; The Maxwell Equations of Software -- John McCarthy page 13
;; http://www.softwarepreservation.org/projects/LISP/book/LISP%201.5%20Programmers%20Manual.pdf
(define-module (scm)
(define-module (mes)
#:export (main))
(set-current-module
@ -34,12 +34,16 @@ exec guile -L $(pwd) -e '(scm)' -s "$0" "$@"
;; Debugging
apply
cons*
current-output-port
current-error-port
current-output-port
display
eof-object?
exit
force-output
format
newline
read
with-input-from-string
;; Guile admin
module-define!
@ -52,6 +56,13 @@ exec guile -L $(pwd) -e '(scm)' -s "$0" "$@"
eq?
null?
pair?
;; ADDITIONAL PRIMITIVES
apply
number?
procedure?
<
-
)
#:renamer (symbol-prefix-proc 'guile:)))))
@ -82,101 +93,117 @@ exec guile -L $(pwd) -e '(scm)' -s "$0" "$@"
(define cons guile:cons)
(define eq guile:eq?)
(define null guile:null?)
(define pair guile:pair?)
(define builtin guile:procedure?)
(define number guile:number?)
(define call guile:apply)
(include "mes.mes")
(define ATOM 'atom)
(define CAR 'car)
(define CDR 'cdr)
(define COND 'cond)
(define CONS 'cons)
(define EQ 'eq)
(define LABEL 'label)
(define LAMBDA 'lambda)
(define NIL '())
(define QUOTE 'quote)
(define (append x y)
(cond ((null x) y)
(#t (cons (car x) (append (cdr x) y)))))
(define (caar x) (guile:car (guile:car x)))
(define (cadr x) (guile:car (guile:cdr x)))
(define (cdar x) (guile:car (guile:cdr (guile:car x))))
(define (caddr x) (guile:car (guile:cdr (guile:cdr x))))
(define (cadar x) (guile:car (guile:cdr (guile:car x))))
(define (eval-environment e a)
(eval e (append a environment)))
;; Page 12
(define (pairlis x y a)
(debug "pairlis x=~a y=~a a=~a\n" x y a)
(cond
((null x) a)
(#t (cons (cons (car x) (car y))
(pairlis (cdr x) (cdr y) a)))))
(define (apply-environment fn e a)
(apply fn e (append a environment)))
(define (assoc x a)
(debug "assoc x=~a a=~a\n" x a)
(cond
((eq (caar a) x) (car a))
(#t (assoc x (cdr a)))))
(define (readenv a)
(let ((x (guile:read)))
(if (guile:eof-object? x) '()
x)))
;; Page 13
(define (eval-quote fn x)
(debug "eval-quote fn=~a x=~a" fn x)
(apply fn x NIL))
(define environment
`(
(() . ())
(#t . #t)
(#f . #f)
(*unspecified* . ,*unspecified*)
(define (apply fn x a)
(debug "apply fn=~a x=~a a=~a\n" fn x a)
(cond
((atom fn)
(debug "(atom fn)=~a\n" (atom fn))
(cond
((eq fn CAR) (caar x))
((eq fn CDR) (cdar x))
((eq fn CONS) (cons (car x) (cadr x)))
((eq fn ATOM) (atom (car x)))
((eq fn EQ) (eq (car x) (cadr x)))
(#t (apply (eval fn a) x a))))
((eq (car fn) LAMBDA) (eval (caddr fn) (pairlis (cadr fn) x a)))
((eq (car fn) LABEL) (apply (caddr fn) x (cons (cons (cadr fn)
(caddr fn)) a)))))
(atom . ,atom)
(car . ,car)
(cdr . ,cdr)
(cons . ,cons)
(cond . ,evcon)
(eq . ,eq)
(define (eval e a)
(debug "eval e=~a a=~a\n" e a)
(debug "eval (atom ~a)=~a\n" e (atom e))
(cond
((atom e) (cdr (assoc e a)))
((atom (car e))
(cond
((eq (car e) QUOTE) (cadr e))
((eq (car e) COND) (evcon (cdr e) a))
(#t (apply (car e) (evlis (cdr e) a) a))))
(#t (apply (car e) (evlis (cdr e) a) a))))
(null . ,null)
(pair . ,guile:pair?)
;;(quote . ,quote)
(define (evcon c a)
(debug "evcon c=~a a=~a\n" c a)
(cond
((eval (caar c) a) (eval (cadar c) a))
(#t (evcon (cdr c) a))))
(evlis . ,evlis)
(evcon . ,evcon)
(pairlis . ,pairlis)
(assoc . ,assoc)
(define (evlis m a)
(debug "evlis m=~a a=~a\n" m a)
(cond
((null m) NIL)
(#t (cons (eval (car m) a) (evlis (cdr m) a)))))
(eval . ,eval-environment)
(apply . ,apply-environment)
(readenv . ,readenv)
(display . ,guile:display)
(newline . ,guile:newline)
(builtin . ,builtin)
(number . ,number)
(call . ,call)
(< . ,guile:<)
(- . ,guile:-)
;; DERIVED
(caar . ,caar)
(cadr . ,cadr)
(cdar . ,cdar)
(cddr . ,cddr)
(caadr . ,caadr)
(caddr . ,caddr)
(cdadr . ,cdadr)
(cadar . ,cadar)
(cddar . ,cddar)
(cdddr . ,cdddr)
(append . ,append)
(exit . ,guile:exit)
(*macro* . ())
;;
(stderr . ,stderr)))
(define (mes-define-lambda x a)
(cons (caadr x) (cons 'lambda (cons (cdadr x) (cddr x)))))
(define (mes-define x a)
(if (atom (cadr x))
(cons (cadr x) (eval (caddr x) a))
(mes-define-lambda x a)))
(define (mes-define-macro x a)
(cons '*macro*
(cons (mes-define-lambda x a)
(cdr (assoc '*macro* a)))))
(define (loop r e a)
(cond ((null e) r)
((eq e 'exit)
(apply (cdr (assoc 'loop a))
(cons *unspecified* (cons #t (cons a '())))
a))
((atom e) (loop (eval e a) (readenv a) a))
((eq (car e) 'define)
(loop *unspecified* (readenv a) (cons (mes-define e a) a)))
((eq (car e) 'define-macro)
(loop *unspecified* (readenv a) (cons (mes-define-macro e a) a)))
(#t (loop (eval e a) (readenv a) a))))
(define (main arguments)
(stdout "Hello scm\n")
(guile:display (eval 0 '((0 . 0) (1 . 1))))
(guile:newline)
(guile:display (eval 1 '((0 . 0) (1 . 1))))
(guile:newline)
(guile:display (eval '(car '(0 1)) '((0 . 0) (1 . 1))))
(guile:newline)
(guile:display (eval '(cdr '(0 1)) '((0 . 0) (1 . 1))))
(guile:newline)
(guile:display (apply 'cons '(0 1) '((0 . 0) (1 . 1))))
(guile:newline)
(guile:display (eval '(cons 0 1) '((0 . 0) (1 . 1))))
(guile:newline)
(guile:display (apply '(lambda (x y) (cons x y)) '(0 1) '((0 . 0) (1 . 1))))
(guile:newline)
(guile:display (eval '((label fun (lambda (x) x)) 2 2) '((2 . 2))))
(let ((a (append environment `((*a* . ,environment)))))
;;(guile:display (eval (readenv a) a))
(guile:display (loop *unspecified* (readenv a) a))
)
(guile:newline))
(guile:module-define! (guile:resolve-interface '(scm)) 'main main)
(guile:module-define! (guile:resolve-interface '(mes)) 'main main)

20
mes.test Executable file
View File

@ -0,0 +1,20 @@
#! /bin/sh
mes=${1-./mes.scm}
echo 0 | $mes
echo 1 | $mes
#echo car | $mes "((0 1))"
echo "(car '(0 1))" | $mes
#echo cdr | $mes "((0 1))"
echo "(cdr '(0 1))" | $mes
#echo cons | $mes "(0 1)"
echo "(cons 0 1)" | $mes
#echo "(lambda (x y) (cons x y))" | $mes "(0 1)"
echo "((lambda (x y) (cons x y)) 0 1)" | $mes
echo "((label fun (lambda (x) x)) 2 2)" | $mes
echo "(< 0 0)" | $mes
echo "(< 0 1)" | $mes
echo "((label fun\
(lambda (x) (cons x\
(cond ((< 0 x) (fun (- x 1)))\
(#t '())))))\
3)" | $mes

67
scm.mes Executable file
View File

@ -0,0 +1,67 @@
#! /bin/sh
# -*-scheme-*-
exec ./mes "$@" < "$0"
!#
;;; Mes --- Maxwell Equations of Software
;;; Copyright © 2016 Jan Nieuwenhuizen <janneke@gnu.org>
;;;
;;; This file is part of Mes.
;;;
;;; Mes is free software; you can redistribute it and/or modify it
;;; under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 3 of the License, or (at
;;; your option) any later version.
;;;
;;; Mes is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;;; GNU General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with Mes. If not, see <http://www.gnu.org/licenses/>.
;; The Maxwell Equations of Software -- John McCarthy page 13
;; http://www.softwarepreservation.org/projects/LISP/book/LISP%201.5%20Programmers%20Manual.pdf
(display 'boo)
(newline)
;; (display '*a*:)
;; (display (eval '*a* '()))
;; (newline)
(define (+ x y) (- x (- 0 y)))
(display (+ 3 4))
(newline)
(define-macro (and x y)
(cond (x y)
(#t #f)))
(define-macro (or x y)
(cond (x x)
(#t y)))
(define (split-params bindings params)
(cond ((null bindings) params)
(#t (split-params (cdr bindings)
(append params (cons (caar bindings) '()))))))
(define (split-values bindings values)
(cond ((null bindings) values)
(#t (split-values (cdr bindings)
(append values (cdar bindings) '())))))
;; (define-macro (let bindings body)
;; (cons (cons 'lambda (cons (split-params bindings '()) body))
;; (split-values bindings '())))
(display 'and-0-1:)
(display (and 0 1))
(newline)
(display 'or-#f-1:)
(display (or #f 2))
(newline)