ilo-vm/source/x11-ilo.c

/***************************************************************
   crc's _ _         __
        (_) | ___   / /_  __
        | | |/ _ \ / /\ \/ / a tiny virtual computer
        | | | (_) / /  >  <  64kw RAM, 32-bit, Dual Stack, MISC
        |_|_|\___/_/  /_/\_\ ilo-x.c (c) charles childers
 **************************************************************/

/* cc -o ilo-x vm/ilo-x.c `pkg-config --cflags x11 --libs`    */

/* Local Configuration */

#define BLOCKS  "ilo.blocks"
#define ROM     "ilo.rom"

#define FG      0xFFFFFF
#define BG      0x000000
#define CURSOR  0x00FFFF
#define FW      640
#define FH      384
#define FONT_H  16
#define FONT_W  8

#include <stdio.h>
#include <string.h>
#include <fcntl.h>
#include <unistd.h>
#include <X11/Xlib.h>
#include <X11/Xutil.h>

#define T ds[sp]    /* Top of Data Stack    */
#define N ds[sp-1]  /* Next on Data Stack   */
#define R as[rp]    /* Top of Address Stack */
#define V void
#define I int
#define C char

I ip,        /* instruction pointer                   */
  sp,        /* data stack pointer                    */
  rp,        /* address stack pointer                 */
  ds[33],    /* data stack                            */
  as[257],   /* address stack                         */
  m[65536],  /* memory                                */
  ok;

C *blocks,   /* name of block file (ilo.blocks)       */
  *rom;      /* name of image (ilo.rom)               */

I a, b, f, s, d, l;       /* these others are used    */
C i[1];                   /* for misc. purposes       */

#define TERM_W (FW / FONT_W)
#define TERM_H (FH / FONT_H)

I frame[(FW * FH)/32];    /* frame buffer for display */
#include "font.h"         /* font data                */
I tx, ty;                 /* text cursor location     */

/* variables for Arland's DEC subset                  */
I acc[32], acc_i = 0, ground = 0, on = 0;

/* variables for X11 stuff                            */
Display *disp;
Window win;
GC gc;
XEvent event;
C text[255];

V dputc(I);
V redraw();
V iof();

V p(char *s) { while(*s) dputc(*s++); }
V e(char *s) { p("E:"); p(s); p("\n"); ok = 1; iof(); }
V dso() { if ((sp + 1) > 32)      { e("DSO"); } }
V dsu() { if ((sp - 1) < 0)       { e("DSU"); } }
V rso() { if ((rp + 1) > 256)     { e("RSO"); } }
V rsu() { if ((rp - 1) < 0)       { e("RSU"); } }
V dbz() { if (T == 0)             { e("DBZ"); } }
V mem() { if (T < 0 || T > 65535) { e("MEM"); } }
V uli() { if (f == -1)            { e("ULI"); } }
V ulf() { if (f == -1)            { e("ULF"); } }
V usi() { if (f == -1)            { e("URI"); } }
V urb() { if (f == -1)            { e("URB"); } }
V uwb() { if (f == -1)            { e("UWB"); } }
V push(I v) { dso(); ds[sp + 1] = v; sp += 1; }
I pop()     { dsu(); sp -= 1; return ds[sp + 1]; }

V cursor() {
  XSetForeground(disp, gc, CURSOR);
  XFillRectangle(disp, win, gc, tx, ty, FONT_W, FONT_H);
  XFlush(disp);
}

I wait_key() {
    while (1) {
        XNextEvent(disp, &event);
        if (event.type == KeyPress) {
            KeySym key = XLookupKeysym(&event.xkey, 0);
            XLookupString(&event.xkey, text, 255, &key, 0);
            if (text[0] == 13) text[0] = 10;
            if (text[0] != 0)  return (I) text[0];
        }
        if (event.type == Expose) { redraw(); }
    }
}

V pixel(I x, I y, I c) {
  I index = y * FW + x;
  if (c == 0) {
    frame[(index / 32)] &= ~(1 << (31 - index % 32));
    XSetForeground(disp, gc, BG);
  } else {
    frame[(index / 32)] |= 1 << (31 - index % 32);
    XSetForeground(disp, gc, FG);
  }
  XDrawPoint(disp, win, gc, x, y);
}

I get_pixel(I x, I y) {
  I index = y * FW + x;
  I bit_pos = 31 - index % 32;
  I mask = 1 << bit_pos;
  return (frame[(index / 32)] & mask) >> bit_pos;
}

V redraw() {
  for (I x = 0; x < FW; x++) {
    for (I y = 0; y < FH; y++) {
      XSetForeground(disp, gc, get_pixel(x, y) ? FG : BG);
      XDrawPoint(disp, win, gc, x, y);
    }
  }
  cursor();
}

V scroll() {
  I memsize = (FH * FW) / 32;
  I last_row = (FW * FONT_H) / 32;
  for (I i = 0; i < memsize - last_row; i++) {
    frame[i] = frame[i + last_row];
  }
  for (I i = memsize - last_row; i < memsize; i++) {
    frame[i] = 0;
  }
  redraw();
}

unsigned C reverse(unsigned C b) {
   b = (b & 0xF0) >> 4 | (b & 0x0F) << 4;
   b = (b & 0xCC) >> 2 | (b & 0x33) << 2;
   b = (b & 0xAA) >> 1 | (b & 0x55) << 1;
   return b;
}

V handle_special_character(I c) {
  if (c == 8 || c == 127) { /* BACKSPACE/DELETE */
    if (tx - FONT_W >= 0) {
      tx -= FONT_W ;
      dputc(' ');
      tx -= FONT_W;
      redraw();
    }
  } else if (c == 9) { /* TAB */
    I ts = tx / FONT_W;
    for (I i = ts; i < ((ts + 7) / 8) * 8; i++) { dputc(' '); }
  } else if (c == 10 || c == 13) { /* CR or LF */
    ty += FONT_H;
    tx = 0;
    redraw();
  }
}

V handle_regular_character(C *bitmap) {
  I x, y, set;
  for (x = 0; x < FONT_H; x++) {
    for (y = 0; y < FONT_W; y++) {
      set = reverse(bitmap[x]) & 1 << y;
      pixel(tx + y, ty + x, set ? 1 : 0);
    }
  }
  tx += FONT_W;
}

V advance_cursor_and_scroll() {
  if (tx >= FW) { tx = 0; ty += FONT_H; }
  if (ty > (FH - FONT_H)) { ty -= FONT_H; scroll(); }
}

V dputc(I c) {
  C *bitmap = (C *)font + (c * ((FONT_H * FONT_W) / 8));

  handle_special_character(c);

  if (!(c == 8 || c == 127 || c == 9 || c == 10 || c == 13)) {
    handle_regular_character(bitmap);
  }

  advance_cursor_and_scroll();
  cursor();
}

I acc_pop() {
  I k = acc_i;
  if (acc_i > 0) {
    acc_i -= 1;
    if (acc_i == -1) {
      acc_i = 0;
    }
  }
  return acc[k];
}

V acc_reset() {
  for (I x = 0; x < 32; x++) { acc[x] = 0; }
  ground = on = 0;
}

V gt_up(I n)       { ty -= FONT_H; if (ty < 0) ty = 0;  }
V gt_down(I n)     { ty += FONT_H; if (ty > 24 * FONT_H) ty = 24 * FONT_H; }
V gt_left(I n)     { tx -= FONT_W; if (tx < 0) tx = 0; }
V gt_right(I n)    { tx += FONT_W; if (tx > 79 * FONT_W) ty = 79 * FONT_W; }
V gt_move_cursor() {
  if (acc_i >= 1) {
    I a = (acc_pop() - 1) * FONT_W;
    I b = (acc_pop() - 1) * FONT_H;
    ty = b; if (ty < 0) ty = 0; if (ty > FONT_H * 24) ty = FONT_H * 24;
    tx = a; if (tx < 0) tx = 0; if (tx > FONT_W * 79) tx = FONT_W * 79;
    acc_reset();
    return;
  }
  /* home */
  tx = 0; ty = 0;
  acc_reset();
}

V gt_reset()       { acc_reset(); }
V gt_next()        { acc_i += 1; acc[acc_i] = 0; }
V gt_clear() {
  acc_reset();
  for (I x = 0; x < (FW * FH) / 32; x++) frame[x] = 0;
  tx = ty = 0;
  redraw();
}
V gt_set_attr()    { acc_reset(); }

V term_putc(I c) {
  if (c == 27) {
    on = -2;
    return;
  }
  switch (on) {
    case 0:
      dputc(c);
      return;
    case -2:
      if (c == '[') {
        on = -1;
        return;
      }
      on = 0;
      dputc(c);
      return;
  }
  if (c >= '0' && c <= '9') {
    acc[acc_i] *= 10;
    acc[acc_i] += c - 48;
    if (c == '3') {
      ground = 0;
    }
    if (c == '4') {
      ground = 1;
    }
  } else {
    switch (c) {
      case 'A': gt_up(acc_pop());    break;
      case 'B': gt_down(acc_pop());  break;
      case 'C': gt_left(acc_pop());  break;
      case 'D': gt_right(acc_pop()); break;
      case 'm': gt_set_attr();       break;
      case ';': gt_next();           break;
      case 'H': gt_move_cursor();    break;
      case 'J': gt_clear();          break;
      default: on = 0;
               dputc(c);
    }
  }
}

V load_image() {
  f = open(rom, O_RDONLY, 0666);
  uli();
  if (!f) { return; };
  read(f, &m, 65536 * 4);
  close(f);
  ip = sp = rp = 0;
}

V save_image() {
  f = open(rom, O_WRONLY, 0666);
  usi();
  write(f, &m, 65536 * 4);
  close(f);
}

V block_common() {
  b = pop(); /* block buffer */
  a = pop(); /* block number */
  lseek(f, 4096 * a, SEEK_SET);
}

V read_block() {
  f = open(blocks, O_RDONLY, 0666);
  urb();
  block_common();
  read(f, m + b, 4096);
  close(f);
}

V write_block() {
  f = open(blocks, O_WRONLY, 0666);
  uwb();
  block_common();
  write(f, m + b, 4096);
  close(f);
}

V save_ip() { rso(); rp += 1; R = ip; }
V symmetric() { if (b >= 0 && N < 0) { T += 1; N -= b; } }

V li() { ip += 1; push(m[ip]); }
V du() { push(T); }
V dr() { pop(); }
V sw() { a = T; T = N; N = a; }
V pu() { rp += 1; R = pop(); }
V po() { push(R); rp -= 1; }
V ju() { ip = pop() - 1; }
V ca() { save_ip(); ip = pop() - 1; }
V cc() { a = pop(); if (pop()) { save_ip(); ip = a - 1; } }
V cj() { a = pop(); if (pop()) { ip = a - 1; } }
V re() { ip = R; rp -= 1; }
V eq() { N = (N == T) ? -1 : 0; sp -= 1; }
V ne() { N = (N != T) ? -1 : 0; sp -= 1; }
V lt() { N = (N <  T) ? -1 : 0; sp -= 1; }
V gt() { N = (N >  T) ? -1 : 0; sp -= 1; }
V fe() { mem(); T = m[T]; }
V st() { mem(); m[T] = N; sp -= 2; }
V ad() { N += T; sp -= 1; }
V su() { N -= T; sp -= 1; }
V mu() { N *= T; sp -= 1; }
V di() { dbz();
         a = T; b = N; T = b / a; N = b % a; symmetric(); }
V an() { N = T & N; sp -= 1; }
V or() { N = T | N; sp -= 1; }
V xo() { N = T ^ N; sp -= 1; }
V sl() { N = N << T; sp -= 1; }
V sr() { N = N >> T; sp -= 1; }
V cp() { l = pop(); d = pop(); s = T; T = -1;
         while (l) { if (m[d] != m[s]) { T = 0; }
                     l -= 1; s += 1; d += 1; } }
V cy() { l = pop(); d = pop(); s = pop();
         while (l) { m[d] = m[s]; l -= 1; s += 1; d += 1; } }
V ioa() { term_putc(pop()); }
V iob() { push(wait_key()); term_putc(T); }
V ioc() { read_block(); }
V iod() { write_block(); }
V ioe() { save_image(); }
V iof() { load_image(); ip = -1; }
V iog() { ip = 65536; }
V ioh() { push(sp); push(rp); }
V iox() { I c = pop();  I y = pop();  I x = pop();
          pixel(x, y, c); }
V ioy() { I y = pop(); I x = pop(); push(get_pixel(x, y)); }
V ioz() { I x, y, wx, wy, mask; Window w;
          XQueryPointer(disp, win, &w, &w, &x, &y, &wx, &wy, &mask);
          push(x); push(y); if (mask & Button1Mask) push(-1); else push(0); }
V io() {
  switch (pop()) {
    case 0: ioa(); break;  case 1: iob(); break;
    case 2: ioc(); break;  case 3: iod(); break;
    case 4: ioe(); break;  case 5: iof(); break;
    case 6: iog(); break;  case 7: ioh(); break;
    case 33: iox(); break; case 34: ioy(); break;
    case 35: ioz(); break;
    default: break;
  }
}

V process(I o) {
  switch (o) {
    case  0:       break;   case  1: li(); break;
    case  2: du(); break;   case  3: dr(); break;
    case  4: sw(); break;   case  5: pu(); break;
    case  6: po(); break;   case  7: ju(); break;
    case  8: ca(); break;   case  9: cc(); break;
    case 10: cj(); break;   case 11: re(); break;
    case 12: eq(); break;   case 13: ne(); break;
    case 14: lt(); break;   case 15: gt(); break;
    case 16: fe(); break;   case 17: st(); break;
    case 18: ad(); break;   case 19: su(); break;
    case 20: mu(); break;   case 21: di(); break;
    case 22: an(); break;   case 23: or(); break;
    case 24: xo(); break;   case 25: sl(); break;
    case 26: sr(); break;   case 27: cp(); break;
    case 28: cy(); break;   case 29: io(); break;
    default: break;
  }
}

#define VALID(n) (ok == 0) && ((opcode >> n) & 0xFF)

V execute() {
  I opcode;
  while (ip < 65536) {
    opcode = m[ip];
    ok = 0;
    if (VALID(0))   process(opcode & 0xFF);
    if (VALID(8))   process((opcode >> 8) & 0xFF);
    if (VALID(16))  process((opcode >> 16) & 0xFF);
    if (VALID(24))  process((opcode >> 24) & 0xFF);
    ip += 1;
  }
}

I main(I argc, C **argv) {
  blocks = (argc > 1) ? argv[1] : BLOCKS;
  rom    = (argc > 2) ? argv[2] : ROM;
  ok = 0;

#ifdef __OpenBSD__
  pledge("stdio rpath wpath unix video", NULL);
#endif

  load_image();

  disp = XOpenDisplay(NULL);
  win = XCreateSimpleWindow(disp, RootWindow(disp, 0),
                            0, 0, FW, FH, 0, 0x0, 0x0);
  XSelectInput(disp, win, ExposureMask | KeyPressMask | ButtonPressMask | ButtonReleaseMask);
  XStoreName(disp, win, "x/ilo");
  gc = DefaultGC(disp, DefaultScreen(disp));
  XMapWindow(disp, win);
  XFlush(disp);
  XMoveWindow(disp, win, (DisplayWidth(disp, DefaultScreen(disp)) - FW) / 2,
                         (DisplayHeight(disp, DefaultScreen(disp)) - FH) / 2);

  execute();

  XUnmapWindow(disp, win);
  XDestroyWindow(disp, win);
  XCloseDisplay(disp);

  return 0;
}
check in the source files, binaries, and update README & LICENSE 2024-05-23 15:32:54 +02:00			`/***************************************************************`
			`crc's _ _ __`
			`(_) \| ___ / /_ __`
			`\| \| \|/ _ \ / /\ \/ / a tiny virtual computer`
			`\| \| \| (_) / / > < 64kw RAM, 32-bit, Dual Stack, MISC`
			`\|_\|_\|\___/_/ /_/\_\ ilo-x.c (c) charles childers`
			`**************************************************************/`

			/* cc -o ilo-x vm/ilo-x.c `pkg-config --cflags x11 --libs` */

			`/* Local Configuration */`

			`#define BLOCKS "ilo.blocks"`
			`#define ROM "ilo.rom"`
ilo+x11: embed font data into vm binary, make use of pledge() on openbsd 2024-09-03 15:33:56 +02:00
check in the source files, binaries, and update README & LICENSE 2024-05-23 15:32:54 +02:00			`#define FG 0xFFFFFF`
			`#define BG 0x000000`
			`#define CURSOR 0x00FFFF`
			`#define FW 640`
			`#define FH 384`
			`#define FONT_H 16`
			`#define FONT_W 8`

			`#include <stdio.h>`
			`#include <string.h>`
			`#include <fcntl.h>`
			`#include <unistd.h>`
			`#include <X11/Xlib.h>`
			`#include <X11/Xutil.h>`

			`#define T ds[sp] /* Top of Data Stack */`
			`#define N ds[sp-1] /* Next on Data Stack */`
			`#define R as[rp] /* Top of Address Stack */`
			`#define V void`
			`#define I int`
			`#define C char`

			`I ip, /* instruction pointer */`
			`sp, /* data stack pointer */`
			`rp, /* address stack pointer */`
			`ds[33], /* data stack */`
			`as[257], /* address stack */`
			`m[65536], /* memory */`
			`ok;`

			`C blocks, / name of block file (ilo.blocks) */`
			`rom; / name of image (ilo.rom) */`

			`I a, b, f, s, d, l; /* these others are used */`
			`C i[1]; /* for misc. purposes */`

			`#define TERM_W (FW / FONT_W)`
			`#define TERM_H (FH / FONT_H)`

			`I frame[(FW * FH)/32]; /* frame buffer for display */`
ilo+x11: embed font data into vm binary, make use of pledge() on openbsd 2024-09-03 15:33:56 +02:00			`#include "font.h" /* font data */`
check in the source files, binaries, and update README & LICENSE 2024-05-23 15:32:54 +02:00			`I tx, ty; /* text cursor location */`

			`/* variables for Arland's DEC subset */`
			`I acc[32], acc_i = 0, ground = 0, on = 0;`

			`/* variables for X11 stuff */`
			`Display *disp;`
			`Window win;`
			`GC gc;`
			`XEvent event;`
			`C text[255];`

			`V dputc(I);`
			`V redraw();`
			`V iof();`

			`V p(char s) { while(s) dputc(*s++); }`
			`V e(char *s) { p("E:"); p(s); p("\n"); ok = 1; iof(); }`
			`V dso() { if ((sp + 1) > 32) { e("DSO"); } }`
			`V dsu() { if ((sp - 1) < 0) { e("DSU"); } }`
			`V rso() { if ((rp + 1) > 256) { e("RSO"); } }`
			`V rsu() { if ((rp - 1) < 0) { e("RSU"); } }`
			`V dbz() { if (T == 0) { e("DBZ"); } }`
			`V mem() { if (T < 0 \|\| T > 65535) { e("MEM"); } }`
			`V uli() { if (f == -1) { e("ULI"); } }`
			`V ulf() { if (f == -1) { e("ULF"); } }`
			`V usi() { if (f == -1) { e("URI"); } }`
			`V urb() { if (f == -1) { e("URB"); } }`
			`V uwb() { if (f == -1) { e("UWB"); } }`
			`V push(I v) { dso(); ds[sp + 1] = v; sp += 1; }`
			`I pop() { dsu(); sp -= 1; return ds[sp + 1]; }`

			`V cursor() {`
			`XSetForeground(disp, gc, CURSOR);`
			`XFillRectangle(disp, win, gc, tx, ty, FONT_W, FONT_H);`
			`XFlush(disp);`
			`}`

			`I wait_key() {`
			`while (1) {`
			`XNextEvent(disp, &event);`
			`if (event.type == KeyPress) {`
			`KeySym key = XLookupKeysym(&event.xkey, 0);`
			`XLookupString(&event.xkey, text, 255, &key, 0);`
			`if (text[0] == 13) text[0] = 10;`
			`if (text[0] != 0) return (I) text[0];`
			`}`
			`if (event.type == Expose) { redraw(); }`
			`}`
			`}`

			`V pixel(I x, I y, I c) {`
			`I index = y * FW + x;`
			`if (c == 0) {`
			`frame[(index / 32)] &= ~(1 << (31 - index % 32));`
			`XSetForeground(disp, gc, BG);`
			`} else {`
			`frame[(index / 32)] \|= 1 << (31 - index % 32);`
			`XSetForeground(disp, gc, FG);`
			`}`
			`XDrawPoint(disp, win, gc, x, y);`
			`}`

			`I get_pixel(I x, I y) {`
			`I index = y * FW + x;`
			`I bit_pos = 31 - index % 32;`
			`I mask = 1 << bit_pos;`
			`return (frame[(index / 32)] & mask) >> bit_pos;`
			`}`

			`V redraw() {`
			`for (I x = 0; x < FW; x++) {`
			`for (I y = 0; y < FH; y++) {`
			`XSetForeground(disp, gc, get_pixel(x, y) ? FG : BG);`
			`XDrawPoint(disp, win, gc, x, y);`
			`}`
			`}`
			`cursor();`
			`}`

			`V scroll() {`
			`I memsize = (FH * FW) / 32;`
			`I last_row = (FW * FONT_H) / 32;`
			`for (I i = 0; i < memsize - last_row; i++) {`
			`frame[i] = frame[i + last_row];`
			`}`
			`for (I i = memsize - last_row; i < memsize; i++) {`
			`frame[i] = 0;`
			`}`
			`redraw();`
			`}`

			`unsigned C reverse(unsigned C b) {`
			`b = (b & 0xF0) >> 4 \| (b & 0x0F) << 4;`
			`b = (b & 0xCC) >> 2 \| (b & 0x33) << 2;`
			`b = (b & 0xAA) >> 1 \| (b & 0x55) << 1;`
			`return b;`
			`}`

			`V handle_special_character(I c) {`
			`if (c == 8 \|\| c == 127) { /* BACKSPACE/DELETE */`
			`if (tx - FONT_W >= 0) {`
			`tx -= FONT_W ;`
			`dputc(' ');`
			`tx -= FONT_W;`
			`redraw();`
			`}`
			`} else if (c == 9) { /* TAB */`
			`I ts = tx / FONT_W;`
			`for (I i = ts; i < ((ts + 7) / 8) * 8; i++) { dputc(' '); }`
			`} else if (c == 10 \|\| c == 13) { /* CR or LF */`
			`ty += FONT_H;`
			`tx = 0;`
			`redraw();`
			`}`
			`}`

			`V handle_regular_character(C *bitmap) {`
			`I x, y, set;`
			`for (x = 0; x < FONT_H; x++) {`
			`for (y = 0; y < FONT_W; y++) {`
			`set = reverse(bitmap[x]) & 1 << y;`
			`pixel(tx + y, ty + x, set ? 1 : 0);`
			`}`
			`}`
			`tx += FONT_W;`
			`}`

			`V advance_cursor_and_scroll() {`
			`if (tx >= FW) { tx = 0; ty += FONT_H; }`
			`if (ty > (FH - FONT_H)) { ty -= FONT_H; scroll(); }`
			`}`

			`V dputc(I c) {`
			`C bitmap = (C )font + (c * ((FONT_H * FONT_W) / 8));`

			`handle_special_character(c);`

			`if (!(c == 8 \|\| c == 127 \|\| c == 9 \|\| c == 10 \|\| c == 13)) {`
			`handle_regular_character(bitmap);`
			`}`

			`advance_cursor_and_scroll();`
			`cursor();`
			`}`

			`I acc_pop() {`
			`I k = acc_i;`
			`if (acc_i > 0) {`
			`acc_i -= 1;`
			`if (acc_i == -1) {`
			`acc_i = 0;`
			`}`
			`}`
			`return acc[k];`
			`}`

			`V acc_reset() {`
			`for (I x = 0; x < 32; x++) { acc[x] = 0; }`
			`ground = on = 0;`
			`}`

			`V gt_up(I n) { ty -= FONT_H; if (ty < 0) ty = 0; }`
			`V gt_down(I n) { ty += FONT_H; if (ty > 24 * FONT_H) ty = 24 * FONT_H; }`
			`V gt_left(I n) { tx -= FONT_W; if (tx < 0) tx = 0; }`
			`V gt_right(I n) { tx += FONT_W; if (tx > 79 * FONT_W) ty = 79 * FONT_W; }`
			`V gt_move_cursor() {`
			`if (acc_i >= 1) {`
			`I a = (acc_pop() - 1) * FONT_W;`
			`I b = (acc_pop() - 1) * FONT_H;`
			`ty = b; if (ty < 0) ty = 0; if (ty > FONT_H * 24) ty = FONT_H * 24;`
			`tx = a; if (tx < 0) tx = 0; if (tx > FONT_W * 79) tx = FONT_W * 79;`
			`acc_reset();`
			`return;`
			`}`
			`/* home */`
			`tx = 0; ty = 0;`
			`acc_reset();`
			`}`

			`V gt_reset() { acc_reset(); }`
			`V gt_next() { acc_i += 1; acc[acc_i] = 0; }`
			`V gt_clear() {`
			`acc_reset();`
			`for (I x = 0; x < (FW * FH) / 32; x++) frame[x] = 0;`
			`tx = ty = 0;`
			`redraw();`
			`}`
			`V gt_set_attr() { acc_reset(); }`

			`V term_putc(I c) {`
			`if (c == 27) {`
			`on = -2;`
			`return;`
			`}`
			`switch (on) {`
			`case 0:`
			`dputc(c);`
			`return;`
			`case -2:`
			`if (c == '[') {`
			`on = -1;`
			`return;`
			`}`
			`on = 0;`
			`dputc(c);`
			`return;`
			`}`
			`if (c >= '0' && c <= '9') {`
			`acc[acc_i] *= 10;`
			`acc[acc_i] += c - 48;`
			`if (c == '3') {`
			`ground = 0;`
			`}`
			`if (c == '4') {`
			`ground = 1;`
			`}`
			`} else {`
			`switch (c) {`
			`case 'A': gt_up(acc_pop()); break;`
			`case 'B': gt_down(acc_pop()); break;`
			`case 'C': gt_left(acc_pop()); break;`
			`case 'D': gt_right(acc_pop()); break;`
			`case 'm': gt_set_attr(); break;`
			`case ';': gt_next(); break;`
			`case 'H': gt_move_cursor(); break;`
			`case 'J': gt_clear(); break;`
			`default: on = 0;`
			`dputc(c);`
			`}`
			`}`
			`}`

			`V load_image() {`
			`f = open(rom, O_RDONLY, 0666);`
			`uli();`
			`if (!f) { return; };`
			`read(f, &m, 65536 * 4);`
			`close(f);`
			`ip = sp = rp = 0;`
			`}`

			`V save_image() {`
			`f = open(rom, O_WRONLY, 0666);`
			`usi();`
			`write(f, &m, 65536 * 4);`
			`close(f);`
			`}`

			`V block_common() {`
			`b = pop(); /* block buffer */`
			`a = pop(); /* block number */`
			`lseek(f, 4096 * a, SEEK_SET);`
			`}`

			`V read_block() {`
			`f = open(blocks, O_RDONLY, 0666);`
			`urb();`
			`block_common();`
			`read(f, m + b, 4096);`
			`close(f);`
			`}`

			`V write_block() {`
			`f = open(blocks, O_WRONLY, 0666);`
			`uwb();`
			`block_common();`
			`write(f, m + b, 4096);`
			`close(f);`
			`}`

			`V save_ip() { rso(); rp += 1; R = ip; }`
			`V symmetric() { if (b >= 0 && N < 0) { T += 1; N -= b; } }`

			`V li() { ip += 1; push(m[ip]); }`
			`V du() { push(T); }`
			`V dr() { pop(); }`
			`V sw() { a = T; T = N; N = a; }`
			`V pu() { rp += 1; R = pop(); }`
			`V po() { push(R); rp -= 1; }`
			`V ju() { ip = pop() - 1; }`
			`V ca() { save_ip(); ip = pop() - 1; }`
			`V cc() { a = pop(); if (pop()) { save_ip(); ip = a - 1; } }`
			`V cj() { a = pop(); if (pop()) { ip = a - 1; } }`
			`V re() { ip = R; rp -= 1; }`
			`V eq() { N = (N == T) ? -1 : 0; sp -= 1; }`
			`V ne() { N = (N != T) ? -1 : 0; sp -= 1; }`
			`V lt() { N = (N < T) ? -1 : 0; sp -= 1; }`
			`V gt() { N = (N > T) ? -1 : 0; sp -= 1; }`
			`V fe() { mem(); T = m[T]; }`
			`V st() { mem(); m[T] = N; sp -= 2; }`
			`V ad() { N += T; sp -= 1; }`
			`V su() { N -= T; sp -= 1; }`
			`V mu() { N *= T; sp -= 1; }`
			`V di() { dbz();`
			`a = T; b = N; T = b / a; N = b % a; symmetric(); }`
			`V an() { N = T & N; sp -= 1; }`
			`V or() { N = T \| N; sp -= 1; }`
			`V xo() { N = T ^ N; sp -= 1; }`
			`V sl() { N = N << T; sp -= 1; }`
			`V sr() { N = N >> T; sp -= 1; }`
			`V cp() { l = pop(); d = pop(); s = T; T = -1;`
			`while (l) { if (m[d] != m[s]) { T = 0; }`
			`l -= 1; s += 1; d += 1; } }`
			`V cy() { l = pop(); d = pop(); s = pop();`
			`while (l) { m[d] = m[s]; l -= 1; s += 1; d += 1; } }`
			`V ioa() { term_putc(pop()); }`
			`V iob() { push(wait_key()); term_putc(T); }`
			`V ioc() { read_block(); }`
			`V iod() { write_block(); }`
			`V ioe() { save_image(); }`
			`V iof() { load_image(); ip = -1; }`
			`V iog() { ip = 65536; }`
			`V ioh() { push(sp); push(rp); }`
			`V iox() { I c = pop(); I y = pop(); I x = pop();`
			`pixel(x, y, c); }`
			`V ioy() { I y = pop(); I x = pop(); push(get_pixel(x, y)); }`
			`V ioz() { I x, y, wx, wy, mask; Window w;`
			`XQueryPointer(disp, win, &w, &w, &x, &y, &wx, &wy, &mask);`
			`push(x); push(y); if (mask & Button1Mask) push(-1); else push(0); }`
			`V io() {`
			`switch (pop()) {`
			`case 0: ioa(); break; case 1: iob(); break;`
			`case 2: ioc(); break; case 3: iod(); break;`
			`case 4: ioe(); break; case 5: iof(); break;`
			`case 6: iog(); break; case 7: ioh(); break;`
			`case 33: iox(); break; case 34: ioy(); break;`
			`case 35: ioz(); break;`
			`default: break;`
			`}`
			`}`

			`V process(I o) {`
			`switch (o) {`
			`case 0: break; case 1: li(); break;`
			`case 2: du(); break; case 3: dr(); break;`
			`case 4: sw(); break; case 5: pu(); break;`
			`case 6: po(); break; case 7: ju(); break;`
			`case 8: ca(); break; case 9: cc(); break;`
			`case 10: cj(); break; case 11: re(); break;`
			`case 12: eq(); break; case 13: ne(); break;`
			`case 14: lt(); break; case 15: gt(); break;`
			`case 16: fe(); break; case 17: st(); break;`
			`case 18: ad(); break; case 19: su(); break;`
			`case 20: mu(); break; case 21: di(); break;`
			`case 22: an(); break; case 23: or(); break;`
			`case 24: xo(); break; case 25: sl(); break;`
			`case 26: sr(); break; case 27: cp(); break;`
			`case 28: cy(); break; case 29: io(); break;`
			`default: break;`
			`}`
			`}`

			`#define VALID(n) (ok == 0) && ((opcode >> n) & 0xFF)`

			`V execute() {`
			`I opcode;`
			`while (ip < 65536) {`
			`opcode = m[ip];`
			`ok = 0;`
			`if (VALID(0)) process(opcode & 0xFF);`
			`if (VALID(8)) process((opcode >> 8) & 0xFF);`
			`if (VALID(16)) process((opcode >> 16) & 0xFF);`
			`if (VALID(24)) process((opcode >> 24) & 0xFF);`
			`ip += 1;`
			`}`
			`}`

			`I main(I argc, C **argv) {`
			`blocks = (argc > 1) ? argv[1] : BLOCKS;`
			`rom = (argc > 2) ? argv[2] : ROM;`
			`ok = 0;`

			`#ifdef __OpenBSD__`
			`pledge("stdio rpath wpath unix video", NULL);`
			`#endif`

			`load_image();`

			`disp = XOpenDisplay(NULL);`
			`win = XCreateSimpleWindow(disp, RootWindow(disp, 0),`
			`0, 0, FW, FH, 0, 0x0, 0x0);`
			`XSelectInput(disp, win, ExposureMask \| KeyPressMask \| ButtonPressMask \| ButtonReleaseMask);`
			`XStoreName(disp, win, "x/ilo");`
			`gc = DefaultGC(disp, DefaultScreen(disp));`
			`XMapWindow(disp, win);`
			`XFlush(disp);`
			`XMoveWindow(disp, win, (DisplayWidth(disp, DefaultScreen(disp)) - FW) / 2,`
			`(DisplayHeight(disp, DefaultScreen(disp)) - FH) / 2);`

			`execute();`

			`XUnmapWindow(disp, win);`
			`XDestroyWindow(disp, win);`
			`XCloseDisplay(disp);`

			`return 0;`
			`}`