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howe.r.j.8 |
/* H2 Forth Virtual Machine, Richard James Howe, 2017-2019, MIT License */
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#include <assert.h>
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#include <errno.h>
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#include <stdarg.h>
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#include <stdint.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#define STK (64)
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#define USE_HEX_IN (0)
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#define USE_HEX_OUT (1)
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typedef uint16_t m_t;
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typedef int16_t s_t;
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typedef uint32_t d_t;
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typedef struct forth_t { m_t m[32768], vs[STK], rs[STK], pc, t, rp, sp, cpu; } forth_t;
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typedef int (*cb)(forth_t *h, void *param);
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static inline size_t cells(forth_t const * const h) {
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assert(h);
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return sizeof(h->m)/sizeof(h->m[0]);
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}
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static void die(const char *fmt, ...) {
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assert(fmt);
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va_list arg;
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va_start(arg, fmt);
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vfprintf(stderr, fmt, arg);
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va_end(arg);
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fputc('\n', stderr);
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exit(EXIT_FAILURE);
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}
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static FILE *fopen_or_die(const char *file, const char *mode) {
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assert(file && mode);
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FILE *h = NULL;
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errno = 0;
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if (!(h = fopen(file, mode)))
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die("file open %s (mode %s) failed: %s", file, mode, strerror(errno));
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return h;
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}
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static int save(forth_t *h, const char *name, const size_t start, const size_t length) {
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assert(h);
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if (!name || !(((length - start) <= length) && ((start + length) <= cells(h))))
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return -69; /* open-file IOR */
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FILE *out = fopen(name, "wb");
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if (!out)
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return -69; /* open-file IOR */
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int r = 0;
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for (size_t i = start; i < length; i++) {
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if (USE_HEX_OUT) {
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fprintf(out, "%02x%02x\n", ((unsigned)(h->m[i] >> 8) & 255u), (unsigned)(h->m[i] >> 0) & 255u);
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} else {
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if (fputc(h->m[i]&255, out) < 0 || fputc(h->m[i]>>8, out) < 0)
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r = -76; /* write-file IOR */
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}
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}
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return fclose(out) < 0 ? -62 /* close-file IOR */ : r;
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}
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static int load(forth_t *h, const char *name) {
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assert(h && name);
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FILE *input = fopen_or_die(name, "rb");
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long r = 0;
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for (size_t i = 0; i < cells(h); i++, r = i) {
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if (USE_HEX_IN) {
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unsigned d = 0;
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if (fscanf(input, "%x", &d) != 1) {
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r = -1;
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break;
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}
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h->m[i] = d;
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} else {
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int c1 = 0, c2 = 0;
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if ((c1 = fgetc(input)) < 0 || (c2 = fgetc(input)) < 0)
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break;
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h->m[i] = ((c1 & 0xffu)) | ((c2 & 0xffu) << 8u);
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}
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}
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fclose(input);
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return r < 64 ? -70 /* read-file IOR */ : 0; /* minimum size checks, 128 bytes */
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}
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static inline void trace(FILE *out, m_t opt, m_t *m, m_t pc, m_t instruction, m_t t, m_t rp, m_t sp) {
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(void)m;
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if (!(opt & 1))
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return;
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fprintf(out, "[ %4x %4x %4x %2x %2x ]\n", pc-1, instruction, t, rp, sp);
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}
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static int run(forth_t *h, m_t opt, FILE *in, FILE *out, const char *block, cb func, void *param) {
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assert(h && in && out);
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static const m_t delta[] = { 0, 1, -2, -1 };
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const m_t l = cells(h);
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m_t *const m = h->m, *const vs = h->vs, *const rs = h->rs;
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m_t pc = h->pc, t = h->t, rp = h->rp, sp = h->sp, cpu = h->cpu, r = 0;
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for (;;) {
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const m_t instruction = m[pc++];
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trace(out, opt, m, pc, instruction, t, rp, sp);
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if ((r = -!(sp < STK && rp < STK && pc < l))) /* critical error */
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goto finished;
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if (0x8000 & instruction) { /* literal */
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vs[++sp % STK] = t;
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t = instruction & 0x7FFF;
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} else if ((0xE000 & instruction) == 0x6000) { /* ALU */
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m_t n = vs[sp % STK], T = t;
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pc = (instruction & 0x10) ? rs[rp % STK] >> 1 : pc;
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switch ((instruction >> 8u) & 0x1f) {
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case 0: break;
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case 1: T = n; break;
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case 2: T += n; break;
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case 3: T &= n; break;
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case 4: T |= n; break;
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case 5: T ^= n; break;
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case 6: T = ~t; break;
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case 7: T = -(t == n); break;
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case 8: T = -((s_t)n < (s_t)t); break;
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case 9: T = n >> t; break;
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case 10: T--; break;
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case 11: T = rs[rp % STK]; break;
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case 12: T = m[(t>>1)%l]; break;
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case 13: T = n << t; break;
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case 14: T = sp; break;
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case 15: T = -(n < t); break;
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case 16: cpu = t; T = n; break;
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case 17: T = cpu; break;
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case 18: T = rp; break;
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case 19: T = -(t == 0); break;
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case 20: T = 0xD1ED; /* CPU-ID */ break;
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case 21: T = instruction & 0x7FFF; break; /* lit: internal use only */
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/* 22: UNUSED */
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/* 23: UNUSED */
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/* 24: UNUSED */
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/* Hosted instructions only */
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case 25: if (opt & 2) { T = save(h, block, n>>1, ((d_t)T+1)>>1); } break;
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case 26: if (opt & 2) { T = fputc(t, out); } break;
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case 27: if (opt & 2) { T = fgetc(in); } break;
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case 28: if (opt & 2) { if (rs[rp % STK]) { rs[rp % STK] = 0; sp--; r = t; t = n; goto finished; }; T = t; } break;
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case 29: if (opt & 2) { T = opt; opt = T; } break;
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case 30: if (opt & 2) { if (func) { T = func(h, param); } else { pc=4; T=21; } } break;
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/* 31: UNUSED */
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default: if (opt & 2) { pc=4; T=21; } break;
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}
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sp += delta[ instruction & 0x3];
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rp += delta[(instruction >> 2) & 0x3];
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if (instruction & 0x80)
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vs[sp % STK] = t;
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if (instruction & 0x40)
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rs[rp % STK] = t;
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if (instruction & 0x20)
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m[(t >> 1) % l] = n;
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t = T;
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} else if (0x4000 & instruction) { /* call */
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rs[++rp % STK] = pc << 1;
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pc = instruction & 0x1FFF;
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} else if (0x2000 & instruction) { /* 0branch */
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pc = !t ? instruction & 0x1FFF : pc;
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t = vs[sp-- % STK];
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} else { /* branch */
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pc = instruction & 0x1FFF;
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}
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}
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finished: h->pc = pc, h->t = t, h->rp = rp, h->sp = sp, h->cpu = cpu;
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return (s_t)r;
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}
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int main(int argc, char **argv) {
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static forth_t h = { .m = { 0 }, .vs = { 0 }, .rs = { 0 } };
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if (argc > 4)
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die("usage: %s [in.blk] [out.blk] [file.fth]", argv[0]);
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if (load(&h, argc < 2 ? "embed.blk" : argv[1]) < 0)
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die("embed: load failed");
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FILE *in = argc <= 3 ? stdin : fopen_or_die(argv[3], "rb");
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if (run(&h, 2, in, stdout, argc < 3 ? NULL : argv[2], NULL, NULL))
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die("embed: run failed");
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return 0; /* exiting takes care of closing files, freeing memory */
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}
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