/*-*- mode:c;indent-tabs-mode:nil;c-basic-offset:2;tab-width:8;coding:utf-8 -*-│ │vi: set net ft=c ts=2 sts=2 sw=2 fenc=utf-8 :vi│ ╞══════════════════════════════════════════════════════════════════════════════╡ │ Copyright 2020 Justine Alexandra Roberts Tunney │ │ │ │ Permission to use, copy, modify, and/or distribute this software for │ │ any purpose with or without fee is hereby granted, provided that the │ │ above copyright notice and this permission notice appear in all copies. │ │ │ │ THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL │ │ WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED │ │ WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE │ │ AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL │ │ DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR │ │ PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER │ │ TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR │ │ PERFORMANCE OF THIS SOFTWARE. │ ╚─────────────────────────────────────────────────────────────────────────────*/ #include "lisp.h" #define TRACE 0 // print eval input output #define RETRO 1 // auto capitalize input #define DELETE 1 // allow backspace to rub out symbol #define QUOTES 1 // allow 'X shorthand (QUOTE X) #define PROMPT 1 // show repl prompt #define WORD short #define WORDS 8192 /*───────────────────────────────────────────────────────────────────────────│─╗ │ The LISP Challenge § LISP Machine ─╬─│┼ ╚────────────────────────────────────────────────────────────────────────────│*/ #define ATOM 0 #define CONS 1 #define NIL 0 #define UNDEFINED 8 #define ATOM_T 30 #define ATOM_QUOTE 34 #define ATOM_ATOM 46 #define ATOM_EQ 56 #define ATOM_COND 62 #define ATOM_CAR 72 #define ATOM_CDR 80 #define ATOM_CONS 88 #define ATOM_LAMBDA 98 #define BOOL(x) ((x) ? ATOM_T : NIL) #define VALUE(x) ((x) >> 1) #define PTR(i) ((i) << 1 | CONS) struct Lisp { WORD mem[WORDS]; unsigned char syntax[256]; WORD look; WORD globals; WORD index; char token[128]; char str[WORDS]; }; _Static_assert(sizeof(struct Lisp) <= 0x7c00 - 0x600, "LISP Machine too large for real mode"); _Alignas(char) const char kSymbols[] = "NIL\0" "*UNDEFINED\0" "T\0" "QUOTE\0" "ATOM\0" "EQ\0" "COND\0" "CAR\0" "CDR\0" "CONS\0" "LAMBDA"; #ifdef __REAL_MODE__ static struct Lisp *const q; #else static struct Lisp q[1]; #endif static void Print(long); static WORD GetList(void); static WORD GetObject(void); static void PrintObject(long); static WORD Eval(long, long); static void SetupSyntax(void) { unsigned char *syntax = q->syntax; asm("" : "+bSD"(syntax)); syntax[' '] = ' '; syntax['\r'] = ' '; syntax['\n'] = ' '; syntax['('] = '('; syntax[')'] = ')'; syntax['.'] = '.'; #if QUOTES syntax['\''] = '\''; #endif } static void SetupBuiltins(void) { CopyMemory(q->str, kSymbols, sizeof(kSymbols)); } static inline WORD Car(long x) { return PEEK_ARRAY(q, mem, VALUE(x), 0); } static inline WORD Cdr(long x) { return PEEK_ARRAY(q, mem, VALUE(x), 1); } static WORD Set(long i, long k, long v) { POKE_ARRAY(q, mem, VALUE(i), 0, k); POKE_ARRAY(q, mem, VALUE(i), 1, v); return i; } static WORD Cons(WORD car, WORD cdr) { int i, cell; i = q->index; POKE_ARRAY(q, mem, i, 0, car); POKE_ARRAY(q, mem, i, 1, cdr); q->index = i + 2; cell = OBJECT(CONS, i); return cell; } static char *StpCpy(char *d, char *s) { char c; do { c = LODS(s); // a.k.a. c = *s++ STOS(d, c); // a.k.a. *d++ = c } while (c); return d; } static WORD Intern(char *s) { int j, cx; char c, *z, *t; z = q->str; c = LODS(z); while (c) { for (j = 0;; ++j) { if (c != PEEK(s, j, 0)) { break; } if (!c) { return OBJECT(ATOM, z - q->str - j - 1); } c = LODS(z); } while (c) c = LODS(z); c = LODS(z); } --z; StpCpy(z, s); return OBJECT(ATOM, SUB((long)z, q->str)); } static unsigned char XlatSyntax(unsigned char b) { return PEEK_ARRAY(q, syntax, b, 0); } static void PrintString(char *s) { char c; for (;;) { if (!(c = PEEK(s, 0, 0))) break; PrintChar(c); ++s; } } static int GetChar(void) { int c; c = ReadChar(); #if RETRO if (c >= 'a') { CompilerBarrier(); if (c <= 'z') c -= 'a' - 'A'; } #endif #if DELETE if (c == '\b') return c; #endif PrintChar(c); if (c == '\r') PrintChar('\n'); return c; } static void GetToken(void) { char *t; unsigned char b, x; b = q->look; t = q->token; for (;;) { x = XlatSyntax(b); if (x != ' ') break; b = GetChar(); } if (x) { STOS(t, b); b = GetChar(); } else { while (b && !x) { if (!DELETE || b != '\b') { STOS(t, b); } else if (t > q->token) { PrintString("\b \b"); if (t > q->token) --t; } b = GetChar(); x = XlatSyntax(b); } } STOS(t, 0); q->look = b; } static WORD ConsumeObject(void) { GetToken(); return GetObject(); } static WORD Cadr(long x) { return Car(Cdr(x)); // ((A B C D) (E F G) H I) → (E F G) } static WORD List(long x, long y) { return Cons(x, Cons(y, NIL)); } static WORD Quote(long x) { return List(ATOM_QUOTE, x); } static WORD GetQuote(void) { return Quote(ConsumeObject()); } static WORD AddList(WORD x) { return Cons(x, GetList()); } static WORD GetList(void) { GetToken(); switch (*q->token & 0xFF) { default: return AddList(GetObject()); case ')': return NIL; case '.': return ConsumeObject(); #if QUOTES case '\'': return AddList(GetQuote()); #endif } } static WORD GetObject(void) { switch (*q->token & 0xFF) { default: return Intern(q->token); case '(': return GetList(); #if QUOTES case '\'': return GetQuote(); #endif } } static WORD ReadObject(void) { q->look = GetChar(); GetToken(); return GetObject(); } static WORD Read(void) { return ReadObject(); } static void PrintAtom(long x) { PrintString(q->str + VALUE(x)); } static void PrintList(long x) { #if QUOTES if (Car(x) == ATOM_QUOTE) { PrintChar('\''); PrintObject(Cadr(x)); return; } #endif PrintChar('('); PrintObject(Car(x)); while ((x = Cdr(x))) { if (!ISATOM(x)) { PrintChar(' '); PrintObject(Car(x)); } else { PrintString(" . "); PrintObject(x); break; } } PrintChar(')'); } static void PrintObject(long x) { if (ISATOM(x)) { PrintAtom(x); } else { PrintList(x); } } static void Print(long i) { PrintObject(i); PrintString("\r\n"); } /*───────────────────────────────────────────────────────────────────────────│─╗ │ The LISP Challenge § Bootstrap John McCarthy's Metacircular Evaluator ─╬─│┼ ╚────────────────────────────────────────────────────────────────────────────│*/ static WORD Atom(long x) { return BOOL(ISATOM(x)); } static WORD Eq(long x, long y) { return BOOL(x == y); } static WORD Caar(long x) { return Car(Car(x)); // ((A B C D) (E F G) H I) → A } static WORD Cdar(long x) { return Cdr(Car(x)); // ((A B C D) (E F G) H I) → (B C D) } static WORD Cadar(long x) { return Cadr(Car(x)); // ((A B C D) (E F G) H I) → B } static WORD Caddr(long x) { return Cadr(Cdr(x)); // ((A B C D) (E F G) H I) → H } static WORD Caddar(long x) { return Caddr(Car(x)); // ((A B C D) (E F G) H I) → C } static WORD Arg1(long e, long a) { return Eval(Cadr(e), a); } static WORD Arg2(long e, long a) { return Eval(Caddr(e), a); } static WORD Append(long x, long y) { return x ? Cons(Car(x), Append(Cdr(x), y)) : y; } static WORD Evcon(long c, long a) { return Eval(Caar(c), a) ? Eval(Cadar(c), a) : Evcon(Cdr(c), a); } static WORD Bind(long v, long a, long e) { // evlis + pair w/ dot notation return v ? Cons(Cons(Car(v), Eval(Car(a), e)), Bind(Cdr(v), Cdr(a), e)) : e; } static WORD Assoc(long x, long y) { return y ? Eq(Caar(y), x) ? Cdar(y) : Assoc(x, Cdr(y)) : NIL; } static WORD Evaluate(long e, long a) { if (Atom(e)) { return Assoc(e, a); } else if (Atom(Car(e))) { switch (Car(e)) { case NIL: return UNDEFINED; case ATOM_QUOTE: return Cadr(e); case ATOM_ATOM: return Atom(Arg1(e, a)); case ATOM_EQ: return Eq(Arg1(e, a), Arg2(e, a)); case ATOM_COND: return Evcon(Cdr(e), a); case ATOM_CAR: return Car(Arg1(e, a)); case ATOM_CDR: return Cdr(Arg1(e, a)); case ATOM_CONS: return Cons(Arg1(e, a), Arg2(e, a)); default: return Eval(Cons(Assoc(Car(e), a), Cdr(e)), a); } } else if (Eq(Caar(e), ATOM_LAMBDA)) { return Eval(Caddar(e), Bind(Cadar(e), Cdr(e), a)); } else { return UNDEFINED; } } static WORD Eval(long e, long a) { WORD r; #if TRACE PrintString("->"); Print(e); PrintString(" "); Print(a); #endif e = Evaluate(e, a); #if TRACE PrintString("<-"); Print(e); #endif return e; } /*───────────────────────────────────────────────────────────────────────────│─╗ │ The LISP Challenge § User Interface ─╬─│┼ ╚────────────────────────────────────────────────────────────────────────────│*/ void Repl(void) { for (;;) { #if PROMPT PrintString("* "); #endif Print(Eval(Read(), q->globals)); } } int main(int argc, char *argv[]) { RawMode(); SetupSyntax(); SetupBuiltins(); #if PROMPT PrintString("THE LISP CHALLENGE V1\r\n" "VISIT GITHUB.COM/JART\r\n"); #endif Repl(); return 0; }