ilo-vm/source/x11-mult-ilo.c

/***************************************************************
       crc's            _ _      ___ _         __
        _ __ ___  _   _| | |_   / (_) | ___   / /_  __
       | '_ ` _ \| | | | | __| / /| | |/ _ \ / /\ \/ /
       | | | | | | |_| | | |_ / / | | | (_) / /  >  <
       |_| |_| |_|\__,_|_|\__/_/  |_|_|\___/_/  /_/\_\
                     (c) charles childers

 This is a special implementation of my ilo computer, with many
 copies of ilo running under a single process. Under this you
 can quickly switch between ilo instances.

 - `bye` will act like `restart` on the current computer
 - ctrl+c restarts the current computer
 - ctrl+n switches to the next ilo
 - ctrl+p switches to the previous ilo
 - ctrl+a shuts down mult/ilo
 - switching can only be done when the system is waiting for
   input

 **************************************************************/

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

#define BLOCKS  "ilo.blocks"
#define ROM     "ilo.rom"
#define FONT    "ilo.fnt"
#define FG      0xFFFFFF
#define BG      0x000000
/* Orange = 0xFFAA00, Red = 0xFF0000, Cyan = 0x00FFFF */
#define CURSOR  0xFFAA00
#define FW      640
#define FH      384
#define FONT_H  16
#define FONT_W  8

#define V void
#define I int
#define C char

#define ILOS 3

typedef struct ilo ilo;

struct ilo {
  I  ip,        /* instruction pointer             */
     sp,        /* data stack pointer              */
     rp,        /* address stack pointer           */
     ds[33],    /* data stack                      */
     as[257],   /* address stack                   */
     m[65536];  /* memory                          */
  C *blocks,    /* name of block file (ilo.blocks) */
    *rom;       /* name of image (ilo.rom)         */
  I  a, b, f, s, d, l, ok;
  C  i[1];
};

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

I frame[(FW * FH)/32];    /* frame buffer for display */
I font[4096];             /* font bitmap              */
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();

struct ilo systems[ILOS];

I cur;

#define DS v->ds
#define AS v->as
#define SP v->sp
#define RP v->rp
#define IP v->ip
#define M  v->m
#define A  v->a
#define B  v->b
#define S  v->s
#define D  v->d
#define L  v->l
#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 F v->f

V iof(ilo *);

V p(char *s) { while(*s) dputc(*s++); }
V e(ilo *v, char *s) { p("E:"); p(s); p("\n"); v->ok = 1; iof(v); }
V dso(ilo *v) { if ((SP + 1) > 32)      { e(v, "DSO"); } }
V dsu(ilo *v) { if ((SP - 1) < 0)       { e(v, "DSU"); } }
V rso(ilo *v) { if ((RP + 1) > 256)     { e(v, "RSO"); } }
V rsu(ilo *v) { if ((RP - 1) < 0)       { e(v, "RSU"); } }
V dbz(ilo *v) { if (T == 0)             { e(v, "DBZ"); } }
V mem(ilo *v) { if (T < 0 || T > 65535) { e(v, "MEM"); } }
V uli(ilo *v) { if (F == -1)            { e(v, "ULI"); } }
V ulf(ilo *v) { if (F == -1)            { e(v, "ULF"); } }
V usi(ilo *v) { if (F == -1)            { e(v, "URI"); } }
V urb(ilo *v) { if (F == -1)            { e(v, "URB"); } }
V uwb(ilo *v) { if (F == -1)            { e(v, "UWB"); } }

V push(ilo *v, I n) { dso(v); DS[SP + 1] = n; SP += 1; }
I pop(ilo *v) { dsu(v); 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(); cursor(); }
    }
}

V load_font(ilo *v) {
  F = open(FONT, O_RDONLY, 0666);
  ulf(v);
  if (!F) { return; };
  read(F, &font, 4096);
  close(F);
}

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);
    }
  }
}

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;
    }
  } 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;
  }
}

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();
}

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(ilo *v) {
  F = open(v->rom, O_RDONLY, 0666);
  if (!F) { return; };
  read(F, &M, 65536 * 4);
  close(F);
  IP = SP = RP = 0;
}

V save_image(ilo *v) {
  v->f = open(v->rom, O_WRONLY, 0666);
  write(v->f, &M, 65536 * 4);
  close(v->f);
}

V block_common(ilo *v) {
  B = pop(v); /* block buffer */
  A = pop(v); /* block number */
  lseek(v->f, 4096 * A, SEEK_SET);
}

V read_block(ilo *v) {
  v->f = open(v->blocks, O_RDONLY, 0666);
  block_common(v);
  read(v->f, M + B, 4096);
  close(v->f);
}

V write_block(ilo *v) {
  v->f = open(v->blocks, O_WRONLY, 0666);
  block_common(v);
  write(v->f, M + B, 4096);
  close(v->f);
}

V save_ip(ilo *v) { RP += 1; R = IP; }
V symmetric(ilo *v) {
  if (B >= 0 && N < 0) { T += 1; N -= B; } }

V li(ilo *v) { IP += 1; push(v, M[IP]); }
V du(ilo *v) { push(v, T); }
V dr(ilo *v) { DS[SP] = 0; SP -= 1; }
V sw(ilo *v) { A = T; T = N; N = A; }
V pu(ilo *v) { RP += 1; R = pop(v); }
V po(ilo *v) { push(v, R); RP -= 1; }
V ju(ilo *v) { IP = pop(v) - 1; }
V ca(ilo *v) { save_ip(v); IP = pop(v) - 1; }
V cc(ilo *v) { A = pop(v);
               if (pop(v)) { save_ip(v);
                             IP = A - 1; } }
V cj(ilo *v) { A = pop(v);
               if (pop(v)) { IP = A - 1; } }
V re(ilo *v) { IP = R; RP -= 1; }
V eq(ilo *v) { N = (N == T) ? -1 : 0; SP -= 1; }
V ne(ilo *v) { N = (N != T) ? -1 : 0; SP -= 1; }
V lt(ilo *v) { N = (N <  T) ? -1 : 0; SP -= 1; }
V gt(ilo *v) { N = (N >  T) ? -1 : 0; SP -= 1; }
V fe(ilo *v) { T = M[T]; }
V st(ilo *v) { M[T] = N; SP -= 2; }
V ad(ilo *v) { N += T; SP -= 1; }
V su(ilo *v) { N -= T; SP -= 1; }
V mu(ilo *v) { N *= T; SP -= 1; }
V di(ilo *v) { A = T; B = N;
               if (A == 0) { v->ok = 1; iof(v); return; }
               T = B / A; N = B % A;
               symmetric(v); }
V an(ilo *v) { N = T & N; SP -= 1; }
V or(ilo *v) { N = T | N; SP -= 1; }
V xo(ilo *v) { N = T ^ N; SP -= 1; }
V sl(ilo *v) { N = N << T; SP -= 1; }
V sr(ilo *v) { N = N >> T; SP -= 1; }
V cp(ilo *v) { L = pop(v); D = pop(v); S = T; T = -1;
               while (L) {
                 if (M[D] != M[S]) { T = 0; }
                 L -= 1; S += 1; D += 1; } }
V cy(ilo *v) { L = pop(v); D = pop(v); S = pop(v);
               while (L) {
                 M[D] = M[S];
                 L -= 1; S += 1; D += 1; } }

V pre(V) { cur -= 1; if (cur < 0) cur = ILOS - 1; }
V nxt(V) { cur += 1; if (cur > (ILOS - 1)) cur = 0; }

V msgs(V) { printf("\n*** SWITCH TO %d ***\n", cur); }
V msgx(V) { printf("\n*** SHUTDOWN REQUESTED ***\n");
            exit(1); }
V msgr(V) { printf("\n*** RESTART %d ***\n", cur); }

V term_putc(I c);

V ioa(ilo *v) { term_putc(pop(v)); }
V iob(ilo *v) { redraw(); cursor();
                v->i[0] = wait_key(); push(v, v->i[0]); term_putc(T);
                if (v->i[0] == 14) { T = 32; nxt(); msgs(); }
                if (v->i[0] == 16) { T = 32; pre(); msgs(); }
                if (v->i[0] == 3)  { T = 32; msgr(); iof(v);
                                     v->ok = 1; }
                if (v->i[0] == 1) { T = 32; msgx(); } }
V ioc(ilo *v) { read_block(v); }
V iod(ilo *v) { write_block(v); }
V ioe(ilo *v) { save_image(v); }
V iof(ilo *v) { load_image(v); IP = -1; }
V iog(ilo *v) { iof(v); }
V ioh(ilo *v) { push(v, SP); push(v, RP); }
V iox(ilo *v) { I c = pop(v);  I y = pop(v);  I x = pop(v);
          pixel(x, y, c); }
V ioy(ilo *v) { I y = pop(v); I x = pop(v); push(v, get_pixel(x, y)); }
V ioz(ilo *v) { I x, y, wx, wy, mask; Window w;
          XQueryPointer(disp, win, &w, &w, &x, &y, &wx, &wy, &mask);
          push(v, x); push(v, y); if (mask & Button1Mask) push(v, -1); else push(v, 0); }

V io(ilo *v) {
  switch (pop(v)) {
    case  0: ioa(v); break;  case  1: iob(v); break;
    case  2: ioc(v); break;  case  3: iod(v); break;
    case  4: ioe(v); break;  case  5: iof(v); break;
    case  6: iog(v); break;  case  7: ioh(v); break;
    case 33: iox(v); break;  case 34: ioy(v); break;
    case 35: ioz(v); break;
    default: break;
  }
}

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

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

V execute() {
  I opcode;
  ilo *v = &systems[cur];
  while (IP < 65536) {
    opcode = M[IP];
    v->ok = 0;
    if (VALID(0))   process(v, opcode & 0xFF);
    if (VALID(8))   process(v, (opcode >> 8) & 0xFF);
    if (VALID(16))  process(v, (opcode >> 16) & 0xFF);
    if (VALID(24))  process(v, (opcode >> 24) & 0xFF);
    IP += 1;
    v = &systems[cur];
  }
}

V load_font(ilo *);

I main(I argc, C **argv) {
  ilo *v;
  I i;

  cur = 0;
  for (i = 0; i < ILOS; i++) {
    v = &systems[i];
    v->blocks = (argc > 1) ? argv[1] : BLOCKS;
    v->rom    = (argc > 2) ? argv[2] : ROM;
    load_image(v);
  }

  load_font(&systems[0]);

  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;
}