#include #include /* clang-format off */ #define PEEK2(d) (*(d) << 8 | (d)[1]) #define POKE2(d, v) { *(d) = (v) >> 8; (d)[1] = (v); } #define CONSOLE_STD 0x1 #define CONSOLE_ARG 0x2 #define CONSOLE_EOA 0x3 #define CONSOLE_END 0x4 #define PAGE_PROGRAM 0x0100 #define RAM_PAGES 0x10 /* clang-format on */ typedef unsigned char Uint8; typedef signed char Sint8; typedef unsigned short Uint16; typedef signed short Sint16; typedef unsigned int Uint32; typedef struct { Uint8 dat[0x100], ptr; } Stack; typedef struct Uxn { Uint8 *ram, dev[0x100]; Stack wst, rst; } Uxn; int uxn_eval(Uxn *u, Uint16 pc); int system_error(char *msg, const char *err) { fprintf(stderr, "%s %s\n", msg, err); fflush(stderr); return 0; } static void system_zero(Uxn *u, int soft) { int i; for(i = PAGE_PROGRAM * soft; i < 0x10000; i++) u->ram[i] = 0; for(i = 0x0; i < 0x100; i++) u->dev[i] = 0; u->wst.ptr = u->rst.ptr = 0; } char *boot_rom; static int system_load(Uxn *u, char *filename) { int l, i = 0; FILE *f = fopen(filename, "rb"); if(!f) return 0; l = fread(&u->ram[PAGE_PROGRAM], 0x10000 - PAGE_PROGRAM, 1, f); while(l && ++i < RAM_PAGES) l = fread(u->ram + 0x10000 * i, 0x10000, 1, f); fclose(f); return 1; } int system_init(Uxn *u, Uint8 *ram, char *rom) { u->ram = ram; system_zero(u, 0); if(!system_load(u, rom)) if(!system_load(u, "boot.rom")) return system_error("Init", "Failed to load rom."); boot_rom = rom; return 1; } int console_input(Uxn *u, char c, int type) { Uint8 *d = &u->dev[0x10]; d[0x2] = c; d[0x7] = type; return uxn_eval(u, PEEK2(d)); } void console_listen(Uxn *u, int i, int argc, char **argv) { for(; i < argc; i++) { char *p = argv[i]; while(*p) console_input(u, *p++, CONSOLE_ARG); console_input(u, '\n', i == argc - 1 ? CONSOLE_END : CONSOLE_EOA); } } void console_deo(Uint8 *d, Uint8 port) { switch(port) { case 0x8: fputc(d[port], stdout); fflush(stdout); return; case 0x9: fputc(d[port], stderr); fflush(stderr); return; } } Uint8 emu_dei(Uxn *u, Uint8 addr) { return u->dev[addr]; } void emu_deo(Uxn *u, Uint8 addr, Uint8 value) { Uint8 p = addr & 0x0f, d = addr & 0xf0; u->dev[addr] = value; switch(d) { case 0x10: console_deo(&u->dev[d], p); break; } } #define FLIP { s = ins & 0x40 ? &u->wst : &u->rst; } #define JUMP(x) { if(m2) pc = (x); else pc += (Sint8)(x); } #define POP1(o) { o = s->dat[--*sp]; } #define POP2(o) { o = s->dat[--*sp] | (s->dat[--*sp] << 0x8); } #define POPx(o) { if(m2) { POP2(o) } else POP1(o) } #define PUSH1(y) { s->dat[s->ptr++] = (y); } #define PUSH2(y) { tt = (y); s->dat[s->ptr++] = tt >> 0x8; s->dat[s->ptr++] = tt; } #define PUSHx(y) { if(m2) { PUSH2(y) } else PUSH1(y) } #define PEEK(o, x, r) { if(m2) { r = (x); o = ram[r++] << 8 | ram[r]; } else o = ram[(x)]; } #define POKE(x, y, r) { if(m2) { r = (x); ram[r++] = y >> 8; ram[r] = y; } else ram[(x)] = (y); } #define DEVR(o, p) { if(m2) { o = (emu_dei(u, p) << 8) | emu_dei(u, p + 1); } else o = emu_dei(u, p); } #define DEVW(p, y) { if(m2) { emu_deo(u, p, y >> 8); emu_deo(u, p + 1, y); } else emu_deo(u, p, y); } int uxn_eval(Uxn *u, Uint16 pc) { Uint8 t, kp, *sp, *ram = u->ram; Uint16 tt, a, b, c; if(!pc || u->dev[0x0f]) return 0; for(;;) { Uint8 ins = ram[pc++], m2 = ins & 0x20; Stack *s = ins & 0x40 ? &u->rst : &u->wst; if(ins & 0x80) kp = s->ptr, sp = &kp; else sp = &s->ptr; switch(ins & 0x1f) { case 0x00: case 0x20: switch(ins) { case 0x00: /* BRK */ return 1; case 0x20: /* JCI */ POP1(b) if(!b) { pc += 2; break; } case 0x40: /* JMI */ pc += PEEK2(ram + pc) + 2; break; case 0x60: /* JSI */ PUSH2(pc + 2) pc += PEEK2(ram + pc) + 2; break; case 0x80: case 0xc0: /* LIT */ PUSH1(ram[pc++]) break; case 0xa0: case 0xe0: /* LIT2 */ PUSH1(ram[pc++]) PUSH1(ram[pc++]) break; } break; case 0x01: /* INC */ POPx(a) PUSHx(a + 1) break; case 0x02: /* POP */ POPx(a) break; case 0x03: /* NIP */ POPx(a) POPx(b) PUSHx(a) break; case 0x04: /* SWP */ POPx(a) POPx(b) PUSHx(a) PUSHx(b) break; case 0x05: /* ROT */ POPx(a) POPx(b) POPx(c) PUSHx(b) PUSHx(a) PUSHx(c) break; case 0x06: /* DUP */ POPx(a) PUSHx(a) PUSHx(a) break; case 0x07: /* OVR */ POPx(a) POPx(b) PUSHx(b) PUSHx(a) PUSHx(b) break; case 0x08: /* EQU */ POPx(a) POPx(b) PUSH1(b == a) break; case 0x09: /* NEQ */ POPx(a) POPx(b) PUSH1(b != a) break; case 0x0a: /* GTH */ POPx(a) POPx(b) PUSH1(b > a) break; case 0x0b: /* LTH */ POPx(a) POPx(b) PUSH1(b < a) break; case 0x0c: /* JMP */ POPx(a) JUMP(a) break; case 0x0d: /* JCN */ POPx(a) POP1(b) if(b) JUMP(a) break; case 0x0e: /* JSR */ POPx(a) FLIP PUSH2(pc) JUMP(a) break; case 0x0f: /* STH */ POPx(a) FLIP PUSHx(a) break; case 0x10: /* LDZ */ POP1(a) PEEK(b, a, t) PUSHx(b) break; case 0x11: /* STZ */ POP1(a) POPx(b) POKE(a, b, t) break; case 0x12: /* LDR */ POP1(a) PEEK(b, pc + (Sint8)a, tt) PUSHx(b) break; case 0x13: /* STR */ POP1(a) POPx(b) POKE(pc + (Sint8)a, b, tt) break; case 0x14: /* LDA */ POP2(a) PEEK(b, a, tt) PUSHx(b) break; case 0x15: /* STA */ POP2(a) POPx(b) POKE(a, b, tt) break; case 0x16: /* DEI */ POP1(a) DEVR(b, a) PUSHx(b) break; case 0x17: /* DEO */ POP1(a) POPx(b) DEVW(a, b) break; case 0x18: /* ADD */ POPx(a) POPx(b) PUSHx(b + a) break; case 0x19: /* SUB */ POPx(a) POPx(b) PUSHx(b - a) break; case 0x1a: /* MUL */ POPx(a) POPx(b) PUSHx((Uint32)b * a) break; case 0x1b: /* DIV */ POPx(a) POPx(b) PUSHx(a ? b / a : 0) break; case 0x1c: /* AND */ POPx(a) POPx(b) PUSHx(b & a) break; case 0x1d: /* ORA */ POPx(a) POPx(b) PUSHx(b | a) break; case 0x1e: /* EOR */ POPx(a) POPx(b) PUSHx(b ^ a) break; case 0x1f: /* SFT */ POP1(a) POPx(b) PUSHx(b >> (a & 0xf) << (a >> 4)) break; } } } int main(int argc, char **argv) { int i = 1; Uxn u = {0}; if(i == argc) return system_error("usage:", "uxncli [-v] file.rom [args..]"); if(argv[i][0] == '-' && argv[i][1] == 'v') return system_error("Uxncli - Varvara Emulator(CLI)", "4 Jan 2024."); if(!system_init(&u, (Uint8 *)calloc(0x10000 * RAM_PAGES, sizeof(Uint8)), argv[i++])) return system_error("Init", "Failed to initialize uxn."); /* eval */ u.dev[0x17] = argc - i; if(uxn_eval(&u, 0x0100)) { console_listen(&u, i, argc, argv); while(!u.dev[0x0f]) { char c = fgetc(stdin); if(c == EOF) { console_input(&u, 0x00, CONSOLE_END); break; } console_input(&u, (Uint8)c, CONSOLE_STD); } } free(u.ram); return u.dev[0x0f] & 0x7f; }