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/* Code generator for the Hitachi H8/300 architecture simulator.
 
   Written by Steve Chamberlain of Cygnus Support.
   sac@cygnus.com
 
   This file is part of H8/300 sim
 
 
                THIS SOFTWARE IS NOT COPYRIGHTED
 
   Cygnus offers the following for use in the public domain.  Cygnus
   makes no warranty with regard to the software or it's performance
   and the user accepts the software "AS IS" with all faults.
 
   CYGNUS DISCLAIMS ANY WARRANTIES, EXPRESS OR IMPLIED, WITH REGARD TO
   THIS SOFTWARE INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
   MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 
*/
 
/* This program reads the H8/300 opcode table and writes out
   a large switch statement to understand the opcodes (with ifs if
   there is more than one opcode per case) and code to do the stuff  */
 
#include <stdio.h>
 
#define DEFINE_TABLE
#define INSIM
#include"opcode/h8300.h"
 
#define MAXSAME 140
 
#define PTWO 256
static struct h8_opcode *h8_opcodes_sorted[PTWO][MAXSAME];
 
char *cs = "/*";
char *ce = "*/";
 
/* How to get at nibble n from the instruction */
char *nibs[] =
{
  "foo",
  "(b0&0xf)",
  "((b1>>4)&0xf)",
  "((b1)&0xf)",
  "((pc[1]>>12)&0xf)",
  "((pc[1]>>8)&0xf)",
  "((pc[1]>>4)&0xf)",
  "((pc[1])&0xf)",
  0, 0};
 
/* how to get at the 3 bit immediate in the instruction */
char *imm3[] =
{"foo",
 "foo",
 "((b1>>4)&0x7)",
 "foo",
 "foo",
 "foo",
 "(pc[1]>>4)&0x7"};
 
/* How to get at a byte register from an index in the instruction at
   nibble n */
char *breg[] =
{"foo",
 "*(blow[b0])",
 "*(bhigh[b1])",
 "*(blow[b1])",
 0, 0,
 "*(bhigh[pc[1]>>8])"};
 
/* How to get at a word register from an index in the instruction at
   nibble n */
 
char *wreg[] =
{"foo",
 "*(wlow[b0])",
 "*(whigh[b1])",
 "*(wlow[b1])"};
 
#define sorted_key noperands
 
/* sort the opcode table into h8_opcodes_sorted[0..255] */
static void
init ()
{
  unsigned int i;
  struct h8_opcode *p;
 
  for (p = h8_opcodes; p->name; p++)
    {
      int n1 = 0;
      int n2 = 0;
      int j;
#if 0
      for (j = 0; p->data.nib[j] != E; j++)
        {
          if ((int) p->data.nib[j] == ABS16ORREL8SRC)
            p->data.nib[j] = ABS16SRC;
          if ((int) p->data.nib[j] == ABS16OR8SRC)
            p->data.nib[j] = ABS16SRC;
          if ((int) p->data.nib[j] == ABS16OR8DST)
            p->data.nib[j] = ABS16DST;
        }
#endif
 
      if ((int) p->data.nib[0] < 16)
        {
          n1 = (int) p->data.nib[0];
        }
      else
        n1 = 0;
      if ((int) p->data.nib[1] < 16)
        {
          n2 = (int) p->data.nib[1];
        }
      else
        n2 = 0;
      for (i = 0; i < MAXSAME; i++)
        {
          int j = /* ((n3 >> 3) * 512) + ((n4 >> 3) * 256) + */ n1 * 16 + n2;
 
          if (h8_opcodes_sorted[j][i] == (struct h8_opcode *) NULL)
            {
              h8_opcodes_sorted[j][i] = p;
              p->sorted_key = j;
              break;
            }
        }
 
      if (i == MAXSAME)
        abort ();
 
      /* Just make sure there are an even number of nibbles in it, and
       that the count is the same s the length */
      for (i = 0; p->data.nib[i] != E; i++)
        /*EMPTY*/ ;
      if (i & 1)
        abort ();
      p->length = i / 2;
    }
  for (i = 0; i < PTWO; i++)
    {
      if (h8_opcodes_sorted[i][0])
        p = h8_opcodes_sorted[i][0];
      else
        h8_opcodes_sorted[i][0] = p;
    }
}
 
/* decode the lvalues, creating a pointer in real space to object -
 remember if the thing has to be swapped out of where it is */
 
 
int swap[2];
 
lval (p)
     struct h8_opcode *p;
{
  int i;
 
  for (i = 0; p->data.nib[i] != E; i++)
    {
      int x = p->data.nib[i];
      int size;
      int op;
      op = (x & DST) ? 1 : 0;
 
      switch (x & SIZE)
        {
        case L_32:
          size = 32;
          break;
        case L_16:
          size = 16;
          break;
        case L_8:
          size = 8;
          break;
        default:
          size = 1234;
        }
 
      if (x & REG)
        {
          printf ("ir%d = GET_LVAL_%d_REG(%d);\n", op, size, i);
        }
      else if (x & IMM)
        {
          printf ("/* Imm has no lvalue */\n");
        }
 
    }
 
 
 
}
 
void
decode (p, fetch, size)
     struct h8_opcode *p;
     int fetch;
     int size;
{
  if (fetch)
    {
      lval (p);
    }
 
}
 
 
 
static void
esleep ()
{
  printf ("saved_state.exception = SIGSTOP;\n");
}
 
static void
mov (p, s, sz)
     struct h8_opcode *p;
     char *s;
     int sz;
{
  printf ("dst = srca;\n");
}
 
static void
andc (p)
     struct h8_opcode *p;
{
  printf ("SET_CCR(GET_CCR() & srca);\n");
}
 
static void
addx (p)
     struct h8_opcode *p;
{
  printf ("dst = srca + srcb+ (c != 0);\n");
}
 
static void
subx (p)
     struct h8_opcode *p;
{
  printf ("dst = srcb - srca - (c != 0);\n");
}
 
static void
add (p, s, sz)
     struct h8_opcode *p;
     char *s;
     int sz;
{
  printf ("%s;\n", s);
}
 
static void
adds (p, s)
     struct h8_opcode *p;
     char *s;
{
  printf ("%s;\n", s);
}
 
static void
bra (p, a)
     struct h8_opcode *p;
     char *a;
{
  printf ("if (%s) npc += ((char )b1)>>1;\n", a);
}
 
static void
bsr (p, a)
     struct h8_opcode *p;
     char *a;
{
  printf ("reg[7]-=2;\n");
  printf ("tmp = reg[7];\n");
  printf ("SET_WORD_MEM(tmp, (npc-saved_state.mem)*2);\n");
  printf ("npc += ((char)b1)>>1;\n");
}
 
static void
cmp (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  decode (p, 1, s);
  printf ("srca = -srca;\n");
  printf ("dst = srca + srcb;\n");
}
 
static
void
jsr (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("if (b1 == 0xc4) {\n");
  printf ("printf(\"%%c\", reg[2]);\n");
  printf ("}\n");
  printf ("else {\n");
  printf ("reg[7]-=2;\n");
  printf ("tmp = reg[7];\n");
  printf ("SET_WORD_MEM(tmp, (npc-saved_state.mem)*2);\n");
  printf ("npc = (lval>>1) + saved_state.mem;\n");
  printf ("}");
}
 
static void
jmp (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("npc = (lval>>1) + saved_state.mem;\n");
}
 
static void
rts (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("tmp = reg[7];\n");
  printf ("reg[7]+=2;\n");
  printf ("npc = saved_state.mem + (WORD_MEM(tmp)>>1);\n");
}
 
static void
rte (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("reg[7]+=2;\n");
  printf ("tmp = reg[7];\n");
  printf ("reg[7]+=2;\n");
  printf ("SET_CCR(tmp);\n");
  printf ("npc = saved_state.mem + (WORD_MEM(tmp)>>1);\n");
}
 
static void
setf (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("tmp = GET_CCR();\n");
  printf ("tmp %s= srca;\n", a);
}
 
static void
bpt (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("saved_state.exception = SIGTRAP;\n");
  printf ("npc = pc;\n");
}
 
static void
log (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("dst = srcb %s srca;\n", a);
}
 
static void
ulog (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("dst = %s srcb ;\n", a);
}
 
static void
nop ()
{
}
 
static void
rotl ()
{
  printf ("c = srcb & 0x80;\n");
  printf ("dst = srcb << 1;\n");
  printf ("if (c) dst|=1;\n");
}
 
static void
rotr ()
{
  printf ("c = srcb & 1;\n");
  printf ("dst = srcb >> 1;\n");
  printf ("if (c) dst|=0x80;\n");
}
 
static void
rotxl ()
{
  printf ("tmp = srcb & 0x80;\n");
  printf ("dst = srcb << 1;\n");
  printf ("if (c) dst|=1;\n");
  printf ("c = tmp;\n");
}
 
static void
rotxr ()
{
  printf ("tmp = srcb & 1;\n");
  printf ("dst = srcb >> 1;\n");
  printf ("if (c) dst|=0x80;\n");
  printf ("c = tmp;\n");
}
 
static void
shal ()
{
  printf ("c = srcb&0x80;\n");
  printf ("dst = srcb << 1;\n");
}
 
static
void
shar ()
{
  printf ("c = srcb&0x1;\n");
  printf ("if (srcb&0x80) dst = (srcb>>1) | 0x80;\n");
  printf ("else  dst = (srcb>>1) &~ 0x80;\n");
}
 
static
void
shll ()
{
  printf ("c = srcb&0x80;\n");
  printf ("dst = srcb << 1;\n");
}
 
static
void
shlr ()
{
  printf ("c = srcb&0x1;\n");
  printf ("dst = (srcb>>1) &~ 0x80;\n");
}
 
static
void
divxu ()
{
  printf ("srca = %s;\n", breg[2]);
  printf ("srcb = %s;\n", wreg[3]);
  printf ("n = srca & 0x80;\n");
  printf ("z = !srca;\n");
  printf ("if (srca) dst = srcb / srca;tmp = srcb %% srca;\n");
  printf ("%s = (dst & 0xff) | (tmp << 8);\n", wreg[3]);
}
 
static
void
mulxu ()
{
  printf ("srca = %s;\n", breg[2]);
  printf ("srcb = %s;\n", wreg[3]);
 
  printf ("dst = (srcb&0xff) * srca;\n");
  printf ("%s = dst;\n", wreg[3]);
}
 
static
void
inc ()
{
  printf ("dst = %s;\n", breg[3]);
  printf ("v = (dst==0x7f);\n");
  printf ("dst++;\n");
  printf ("%s= dst;\n", breg[3]);
}
 
static
void
bit (p, a, s)
     struct h8_opcode *p;
     char *a;
     int s;
{
  printf ("%s\n", a);
}
 
static
void
dec ()
{
  printf ("dst = %s;\n", breg[3]);
  printf ("v = (dst==0x80);\n");
  printf ("dst--;\n");
  printf ("%s = dst;\n", breg[3]);
}
 
char saf[] = "goto setflags;";
char sf[] = "goto shiftflags;";
char af8[] = "goto aluflags8;";
char af16[] = "goto aluflags16;";
char lf[] = "goto logflags;";
char icf[] = "goto incflags;";
char mf8[] = "goto movflags8;";
char mf16[] = "goto movflags16;";
char nx[] = "goto next;";
 
struct
{
  char *ftype;
  int decode;
  char *name;
  void (*func) ();
  char *arg;
  int size;
 
}
 
table[] =
{
  {
    nx, 1, "bld", bit, "dst = srcb; c = (srcb>>srca)&1;", 8
  }
  ,
  {
    nx, 1, "bild", bit, "dst = srcb; c = !((srcb>>srca)&1);", 8
  }
  ,
  {
    nx, 1, "band", bit, "dst = srcb; c = C &&((srcb>>srca)&1);", 8
  }
  ,
  {
    nx, 1, "biand", bit, "dst = srcb; c = C &&(!((srcb>>srca)&1));", 8
  }
  ,
  {
    nx, 1, "bior", bit, "dst = srcb; c = C ||(!((srcb>>srca)&1));", 8
  }
  ,
  {
    nx, 1, "bor", bit, "dst = srcb; c = C ||(((srcb>>srca)&1));", 8
  }
  ,
  {
    nx, 1, "bixor", bit, "dst = srcb; c = C ^(!((srcb>>srca)&1));", 8
  }
  ,
  {
    nx, 1, "bxor", bit, "dst = srcb; c = C ^(((srcb>>srca)&1));", 8
  }
  ,
  {
    nx, 1, "bnot", bit, "dst = srcb ^ (1<<srca);", 8
  }
  ,
  {
    nx, 1, "bclr", bit, "dst = srcb & ~(1<<srca);", 8
  }
  ,
  {
    nx, 1, "bset", bit, "dst = srcb | (1<<srca);", 8
  }
  ,
  {
    nx, 1, "bst", bit, "dst = (srcb & ~(1<<srca))| ((C)<<srca);", 8
  }
  ,
  {
    nx, 1, "bist", bit, "dst = (srcb & ~(1<<srca))| ((!C)<<srca);", 8
  }
  ,
  {
    nx, 1, "btst", bit, "dst = srcb; z = !((srcb>>srca)&1);", 8
  }
  ,
  {
    icf, 0, "dec", dec, 0, 0
  }
  ,
  {
    icf, 0, "inc", inc, 0, 0
  }
  ,
  {
    saf, 1, "orc", setf, "|", 0
  }
  ,
  {
    saf, 1, "xorc", setf, "^", 0
  }
  ,
  {
    saf, 1, "andc", setf, "&", 0
  }
  ,
  {
    nx, 1, "nop", nop, 0, 0
  }
  ,
  {
    nx, 1, "bra", bra, "1", 0
  }
  ,
  {
    nx, 1, "brn", bra, "0", 0
  }
  ,
  {
    nx, 1, "bhi", bra, "(C||Z)==0", 0
  }
  ,
  {
    nx, 1, "bls", bra, "(C||Z)==1", 0
  }
  ,
  {
    nx, 1, "bcs", bra, "C==1", 0
  }
  ,
  {
    nx, 1, "bcc", bra, "C==0", 0
  }
  ,
  {
    nx, 1, "bpl", bra, "N==0", 0
  }
  ,
  {
    nx, 1, "bmi", bra, "N==1", 0
  }
  ,
  {
    nx, 1, "bvs", bra, "V==1", 0
  }
  ,
  {
    nx, 1, "bvc", bra, "V==0", 0
  }
  ,
  {
    nx, 1, "bge", bra, "(N^V)==0", 0
  }
  ,
  {
    nx, 1, "bgt", bra, "(Z|(N^V))==0", 0
  }
  ,
  {
    nx, 1, "blt", bra, "(N^V)==1", 0
  }
  ,
  {
    nx, 1, "ble", bra, "(Z|(N^V))==1", 0
  }
  ,
  {
    nx, 1, "beq", bra, "Z==1", 0
  }
  ,
  {
    nx, 1, "bne", bra, "Z==0", 0
  }
  ,
  {
    nx, 1, "bsr", bsr, "", 0
  }
  ,
  {
    nx, 1, "jsr", jsr, 0, 0
  }
  ,
  {
    nx, 1, "jmp", jmp, 0, 0
  }
  ,
  {
    nx, 0, "rts", rts, 0, 0
  }
  ,
  {
    nx, 0, "rte", rte, 0, 0
  }
  ,
  {
    nx, 1, "andc", andc, 0, 0
  }
  ,
  {
    sf, 1, "shal", shal, 0, 0
  }
  ,
  {
    sf, 1, "shar", shar, 0, 0
  }
  ,
  {
    sf, 1, "shll", shll, 0, 0
  }
  ,
  {
    sf, 1, "shlr", shlr, 0, 0
  }
  ,
  {
    sf, 1, "rotxl", rotxl, 0, 0
  }
  ,
  {
    sf, 1, "rotxr", rotxr, 0, 0
  }
  ,
  {
    sf, 1, "rotl", rotl, 0, 0
  }
  ,
  {
    sf, 1, "rotr", rotr, 0, 0
  }
  ,
  {
    lf, 1, "xor", log, "^", 0
  }
  ,
  {
    lf, 1, "and", log, "&", 0
  }
  ,
  {
    lf, 1, "or", log, "|", 0
  }
  ,
  {
    lf, 1, "not", ulog, " ~", 0
  }
  ,
  {
    lf, 1, "neg", ulog, " - ", 0
  }
  ,
  {
    nx, 1, "adds", adds, "dst = srca + srcb", 0
  }
  ,
  {
    nx, 1, "subs", adds, "srca = -srca; dst = srcb + srca", 0
  }
  ,
  {
    af8, 1, "add.b", add, "dst = srca + srcb", 8
  }
  ,
  {
    af16, 1, "add.w", add, "dst = srca + srcb", 16
  }
  ,
  {
    af16, 1, "sub.w", add, "srca = -srca; dst = srcb + srca", 16
  }
  ,
  {
    af8, 1, "sub.b", add, "srca = -srca; dst = srcb + srca", 8
  }
  ,
  {
    af8, 1, "addx", addx, 0, 8
  }
  ,
  {
    af8, 1, "subx", subx, 0, 8
  }
  ,
  {
    af8, 0, "cmp.b", cmp, 0, 8
  }
  ,
  {
    af16, 0, "cmp.w", cmp, 0, 16
  }
  ,
  {
    nx, 1, "sleep", esleep, 0, 0
  }
  ,
  {
    nx, 0, "bpt", bpt, 0, 8
  }
  ,
  {
    nx, 0, "divxu", divxu, 0, 0
  }
  ,
  {
    nx, 0, "mulxu", mulxu, 0, 0
  }
  ,
  {
    mf8, 1, "mov.b", mov, 0, 8
  }
  ,
  {
    mf8, 1, "movtpe", mov, 0, 8
  }
  ,
  {
    mf8, 1, "movfpe", mov, 0, 8
  }
  ,
  {
    mf16, 1, "mov.w", mov, 0, 16
  }
  ,
  {
 
  }
};
 
static
void
edo (p)
     struct h8_opcode *p;
{
  int i;
 
  printf ("%s %s %s\n", cs, p->name, ce);
 
  for (i = 0; table[i].name; i++)
    {
      if (strcmp (table[i].name, p->name) == 0)
        {
          printf ("{\n");
          if (table[i].decode)
            decode (p, 1, table[i].size);
          printf ("cycles += %d;\n", p->time);
          printf ("npc = pc + %d;\n", p->length / 2);
          table[i].func (p, table[i].arg, table[i].size);
          if (table[i].decode)
            decode (p, 0, table[i].size);
          if (table[i].ftype)
            printf (table[i].ftype);
          else
            printf ("goto next;\n");
          printf ("}\n");
          return;
        }
    }
  printf ("%s not found %s\n", cs, ce);
  printf ("saved_state.exception = SIGILL;\n");
  printf ("break;\n");
}
 
static
int
owrite (i)
     int i;
{
  /* write if statements to select the right opcode */
  struct h8_opcode **p;
  int needand = 1;
 
  p = h8_opcodes_sorted[i];
  printf ("case 0x%03x:\n", i);
 
  if (p[1] == 0)
    {
      /* See if the next few also match */
      while (h8_opcodes_sorted[i + 1][0] == *p)
        {
          i++;
          printf ("case 0x%03x:\n", i);
        }
 
      /* Don't need any if's this is the only one */
      edo (*p);
    }
  else
    {
      while (*p)
        {
          /* start two nibbles in since we know we match in the first byte */
          int c;
          int nib = 2;
          int byte = 1;
          int mask1[5];
          int mask0[5];
          int nibshift = 4;
          int any = 0;
 
          for (c = 0; c < 5; c++)
            {
              mask1[c] = 0;
              mask0[c] = 0;
            }
          printf ("%s %x%x", cs, (*p)->data.nib[0], (*p)->data.nib[1]);
          while ((c = (*p)->data.nib[nib]) != E)
            {
              if (c & B30)
                {
                  /* bit 3 must be zero */
                  mask0[byte] |= 0x8 << nibshift;
                  printf ("0");
                  any = 1;
                }
              else if (c & B31)
                {
                  /* bit 3 must be one */
                  mask1[byte] |= 0x8 << nibshift;
                  printf ("8");
                  any = 1;
                }
              else if (c <= HexF)
                {
                  mask0[byte] |= ((~c) & 0xf) << nibshift;
                  mask1[byte] |= (c & 0xf) << nibshift;
                  printf ("%x", c);
                  any = 1;
                }
              else
                {
                  printf ("x");
                }
              nib++;
              if (nibshift == 4)
                {
                  nibshift = 0;
                }
              else
                {
                  byte++;
                  nibshift = 4;
                }
            }
          printf ("*/\n");
          if (any)
            {
              printf ("if (");
              needand = 0;
              for (c = 1; c < byte; c++)
                {
                  if (mask0[c] | mask1[c])
                    {
                      int sh;
 
                      if (needand)
                        printf ("\n&&");
                      if (c & 1)
                        sh = 0;
                      else
                        sh = 8;
                      if (c / 2 == 0 && sh == 0)
                        printf ("((b1&0x%x)==0x%x)", mask0[c] | mask1[c],
                                mask1[c]);
                      else
                        {
                          printf ("((pc[%d]&(0x%02x<<%d))==(0x%x<<%d))",
                                  c / 2, mask0[c] | mask1[c], sh,
                                  mask1[c], sh);
                        }
 
                      needand = 1;
                    }
                }
              printf (")\n");
            }
          edo (*p);
          p++;
 
        }
    }
  return i;
}
 
static
void
remove_dups ()
{
  struct h8_opcode *s;
  struct h8_opcode *d;
 
  for (d = s = h8_opcodes; s->name; s++)
    {
      int doit = 1;
 
      if (strcmp (s->name, "push") == 0)
        doit = 0;
      if (strcmp (s->name, "bhs") == 0)
        doit = 0;
      if (strcmp (s->name, "blo") == 0)
        doit = 0;
      if (strcmp (s->name, "bt") == 0)
        doit = 0;
      if (strcmp (s->name, "bf") == 0)
        doit = 0;
      if (strcmp (s->name, "pop") == 0)
        doit = 0;
      if (doit)
        {
          *d++ = *s;
        }
    }
  *d++ = *s++;
}
 
int
main ()
{
  int i;
 
  remove_dups ();
  init ();
 
  printf ("%s do the operation %s\n", cs, ce);
  printf ("switch (b0) \n{\n");
  for (i = 0; i < PTWO; i++)
    {
      i = owrite (i);
    }
  printf ("}\n");
 
  return 0;
}

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[/] [scarts/] [trunk/] [toolchain/] [scarts-gdb/] [gdb-6.8/] [sim/] [h8300/] [writecode.c] - Blame information for rev 26

Line No.	Rev	Author	Line
1	26	jlechner	`/* Code generator for the Hitachi H8/300 architecture simulator.`
2
3			`Written by Steve Chamberlain of Cygnus Support.`
4			`sac@cygnus.com`
5
6			`This file is part of H8/300 sim`
7
8
9			`THIS SOFTWARE IS NOT COPYRIGHTED`
10
11			`Cygnus offers the following for use in the public domain. Cygnus`
12			`makes no warranty with regard to the software or it's performance`
13			`and the user accepts the software "AS IS" with all faults.`
14
15			`CYGNUS DISCLAIMS ANY WARRANTIES, EXPRESS OR IMPLIED, WITH REGARD TO`
16			`THIS SOFTWARE INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF`
17			`MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.`
18
19			`*/`
20
21			`/* This program reads the H8/300 opcode table and writes out`
22			`a large switch statement to understand the opcodes (with ifs if`
23			`there is more than one opcode per case) and code to do the stuff */`
24
25			`#include <stdio.h>`
26
27			`#define DEFINE_TABLE`
28			`#define INSIM`
29			`#include"opcode/h8300.h"`
30
31			`#define MAXSAME 140`
32
33			`#define PTWO 256`
34			`static struct h8_opcode *h8_opcodes_sorted[PTWO][MAXSAME];`
35
36			`char cs = "/";`
37			`char ce = "/";`
38
39			`/* How to get at nibble n from the instruction */`
40			`char *nibs[] =`
41			`{`
42			`"foo",`
43			`"(b0&0xf)",`
44			`"((b1>>4)&0xf)",`
45			`"((b1)&0xf)",`
46			`"((pc[1]>>12)&0xf)",`
47			`"((pc[1]>>8)&0xf)",`
48			`"((pc[1]>>4)&0xf)",`
49			`"((pc[1])&0xf)",`
50			`0, 0};`
51
52			`/* how to get at the 3 bit immediate in the instruction */`
53			`char *imm3[] =`
54			`{"foo",`
55			`"foo",`
56			`"((b1>>4)&0x7)",`
57			`"foo",`
58			`"foo",`
59			`"foo",`
60			`"(pc[1]>>4)&0x7"};`
61
62			`/* How to get at a byte register from an index in the instruction at`
63			`nibble n */`
64			`char *breg[] =`
65			`{"foo",`
66			`"*(blow[b0])",`
67			`"*(bhigh[b1])",`
68			`"*(blow[b1])",`
69			`0, 0,`
70			`"*(bhigh[pc[1]>>8])"};`
71
72			`/* How to get at a word register from an index in the instruction at`
73			`nibble n */`
74
75			`char *wreg[] =`
76			`{"foo",`
77			`"*(wlow[b0])",`
78			`"*(whigh[b1])",`
79			`"*(wlow[b1])"};`
80
81			`#define sorted_key noperands`
82
83			`/* sort the opcode table into h8_opcodes_sorted[0..255] */`
84			`static void`
85			`init ()`
86			`{`
87			`unsigned int i;`
88			`struct h8_opcode *p;`
89
90			`for (p = h8_opcodes; p->name; p++)`
91			`{`
92			`int n1 = 0;`
93			`int n2 = 0;`
94			`int j;`
95			`#if 0`
96			`for (j = 0; p->data.nib[j] != E; j++)`
97			`{`
98			`if ((int) p->data.nib[j] == ABS16ORREL8SRC)`
99			`p->data.nib[j] = ABS16SRC;`
100			`if ((int) p->data.nib[j] == ABS16OR8SRC)`
101			`p->data.nib[j] = ABS16SRC;`
102			`if ((int) p->data.nib[j] == ABS16OR8DST)`
103			`p->data.nib[j] = ABS16DST;`
104			`}`
105			`#endif`
106
107			`if ((int) p->data.nib[0] < 16)`
108			`{`
109			`n1 = (int) p->data.nib[0];`
110			`}`
111			`else`
112			`n1 = 0;`
113			`if ((int) p->data.nib[1] < 16)`
114			`{`
115			`n2 = (int) p->data.nib[1];`
116			`}`
117			`else`
118			`n2 = 0;`
119			`for (i = 0; i < MAXSAME; i++)`
120			`{`
121			`int j = /* ((n3 >> 3) * 512) + ((n4 >> 3) * 256) + / n1 16 + n2;`
122
123			`if (h8_opcodes_sorted[j][i] == (struct h8_opcode *) NULL)`
124			`{`
125			`h8_opcodes_sorted[j][i] = p;`
126			`p->sorted_key = j;`
127			`break;`
128			`}`
129			`}`
130
131			`if (i == MAXSAME)`
132			`abort ();`
133
134			`/* Just make sure there are an even number of nibbles in it, and`
135			`that the count is the same s the length */`
136			`for (i = 0; p->data.nib[i] != E; i++)`
137			`/EMPTY/ ;`
138			`if (i & 1)`
139			`abort ();`
140			`p->length = i / 2;`
141			`}`
142			`for (i = 0; i < PTWO; i++)`
143			`{`
144			`if (h8_opcodes_sorted[i][0])`
145			`p = h8_opcodes_sorted[i][0];`
146			`else`
147			`h8_opcodes_sorted[i][0] = p;`
148			`}`
149			`}`
150
151			`/* decode the lvalues, creating a pointer in real space to object -`
152			`remember if the thing has to be swapped out of where it is */`
153
154
155			`int swap[2];`
156
157			`lval (p)`
158			`struct h8_opcode *p;`
159			`{`
160			`int i;`
161
162			`for (i = 0; p->data.nib[i] != E; i++)`
163			`{`
164			`int x = p->data.nib[i];`
165			`int size;`
166			`int op;`
167			`op = (x & DST) ? 1 : 0;`
168
169			`switch (x & SIZE)`
170			`{`
171			`case L_32:`
172			`size = 32;`
173			`break;`
174			`case L_16:`
175			`size = 16;`
176			`break;`
177			`case L_8:`
178			`size = 8;`
179			`break;`
180			`default:`
181			`size = 1234;`
182			`}`
183
184			`if (x & REG)`
185			`{`
186			`printf ("ir%d = GET_LVAL_%d_REG(%d);\n", op, size, i);`
187			`}`
188			`else if (x & IMM)`
189			`{`
190			`printf ("/* Imm has no lvalue */\n");`
191			`}`
192
193			`}`
194
195
196
197			`}`
198
199			`void`
200			`decode (p, fetch, size)`
201			`struct h8_opcode *p;`
202			`int fetch;`
203			`int size;`
204			`{`
205			`if (fetch)`
206			`{`
207			`lval (p);`
208			`}`
209
210			`}`
211
212
213
214			`static void`
215			`esleep ()`
216			`{`
217			`printf ("saved_state.exception = SIGSTOP;\n");`
218			`}`
219
220			`static void`
221			`mov (p, s, sz)`
222			`struct h8_opcode *p;`
223			`char *s;`
224			`int sz;`
225			`{`
226			`printf ("dst = srca;\n");`
227			`}`
228
229			`static void`
230			`andc (p)`
231			`struct h8_opcode *p;`
232			`{`
233			`printf ("SET_CCR(GET_CCR() & srca);\n");`
234			`}`
235
236			`static void`
237			`addx (p)`
238			`struct h8_opcode *p;`
239			`{`
240			`printf ("dst = srca + srcb+ (c != 0);\n");`
241			`}`
242
243			`static void`
244			`subx (p)`
245			`struct h8_opcode *p;`
246			`{`
247			`printf ("dst = srcb - srca - (c != 0);\n");`
248			`}`
249
250			`static void`
251			`add (p, s, sz)`
252			`struct h8_opcode *p;`
253			`char *s;`
254			`int sz;`
255			`{`
256			`printf ("%s;\n", s);`
257			`}`
258
259			`static void`
260			`adds (p, s)`
261			`struct h8_opcode *p;`
262			`char *s;`
263			`{`
264			`printf ("%s;\n", s);`
265			`}`
266
267			`static void`
268			`bra (p, a)`
269			`struct h8_opcode *p;`
270			`char *a;`
271			`{`
272			`printf ("if (%s) npc += ((char )b1)>>1;\n", a);`
273			`}`
274
275			`static void`
276			`bsr (p, a)`
277			`struct h8_opcode *p;`
278			`char *a;`
279			`{`
280			`printf ("reg[7]-=2;\n");`
281			`printf ("tmp = reg[7];\n");`
282			`printf ("SET_WORD_MEM(tmp, (npc-saved_state.mem)*2);\n");`
283			`printf ("npc += ((char)b1)>>1;\n");`
284			`}`
285
286			`static void`
287			`cmp (p, a, s)`
288			`struct h8_opcode *p;`
289			`char *a;`
290			`int s;`
291			`{`
292			`decode (p, 1, s);`
293			`printf ("srca = -srca;\n");`
294			`printf ("dst = srca + srcb;\n");`
295			`}`
296
297			`static`
298			`void`
299			`jsr (p, a, s)`
300			`struct h8_opcode *p;`
301			`char *a;`
302			`int s;`
303			`{`
304			`printf ("if (b1 == 0xc4) {\n");`
305			`printf ("printf(\"%%c\", reg[2]);\n");`
306			`printf ("}\n");`
307			`printf ("else {\n");`
308			`printf ("reg[7]-=2;\n");`
309			`printf ("tmp = reg[7];\n");`
310			`printf ("SET_WORD_MEM(tmp, (npc-saved_state.mem)*2);\n");`
311			`printf ("npc = (lval>>1) + saved_state.mem;\n");`
312			`printf ("}");`
313			`}`
314
315			`static void`
316			`jmp (p, a, s)`
317			`struct h8_opcode *p;`
318			`char *a;`
319			`int s;`
320			`{`
321			`printf ("npc = (lval>>1) + saved_state.mem;\n");`
322			`}`
323
324			`static void`
325			`rts (p, a, s)`
326			`struct h8_opcode *p;`
327			`char *a;`
328			`int s;`
329			`{`
330			`printf ("tmp = reg[7];\n");`
331			`printf ("reg[7]+=2;\n");`
332			`printf ("npc = saved_state.mem + (WORD_MEM(tmp)>>1);\n");`
333			`}`
334
335			`static void`
336			`rte (p, a, s)`
337			`struct h8_opcode *p;`
338			`char *a;`
339			`int s;`
340			`{`
341			`printf ("reg[7]+=2;\n");`
342			`printf ("tmp = reg[7];\n");`
343			`printf ("reg[7]+=2;\n");`
344			`printf ("SET_CCR(tmp);\n");`
345			`printf ("npc = saved_state.mem + (WORD_MEM(tmp)>>1);\n");`
346			`}`
347
348			`static void`
349			`setf (p, a, s)`
350			`struct h8_opcode *p;`
351			`char *a;`
352			`int s;`
353			`{`
354			`printf ("tmp = GET_CCR();\n");`
355			`printf ("tmp %s= srca;\n", a);`
356			`}`
357
358			`static void`
359			`bpt (p, a, s)`
360			`struct h8_opcode *p;`
361			`char *a;`
362			`int s;`
363			`{`
364			`printf ("saved_state.exception = SIGTRAP;\n");`
365			`printf ("npc = pc;\n");`
366			`}`
367
368			`static void`
369			`log (p, a, s)`
370			`struct h8_opcode *p;`
371			`char *a;`
372			`int s;`
373			`{`
374			`printf ("dst = srcb %s srca;\n", a);`
375			`}`
376
377			`static void`
378			`ulog (p, a, s)`
379			`struct h8_opcode *p;`
380			`char *a;`
381			`int s;`
382			`{`
383			`printf ("dst = %s srcb ;\n", a);`
384			`}`
385
386			`static void`
387			`nop ()`
388			`{`
389			`}`
390
391			`static void`
392			`rotl ()`
393			`{`
394			`printf ("c = srcb & 0x80;\n");`
395			`printf ("dst = srcb << 1;\n");`
396			`printf ("if (c) dst\|=1;\n");`
397			`}`
398
399			`static void`
400			`rotr ()`
401			`{`
402			`printf ("c = srcb & 1;\n");`
403			`printf ("dst = srcb >> 1;\n");`
404			`printf ("if (c) dst\|=0x80;\n");`
405			`}`
406
407			`static void`
408			`rotxl ()`
409			`{`
410			`printf ("tmp = srcb & 0x80;\n");`
411			`printf ("dst = srcb << 1;\n");`
412			`printf ("if (c) dst\|=1;\n");`
413			`printf ("c = tmp;\n");`
414			`}`
415
416			`static void`
417			`rotxr ()`
418			`{`
419			`printf ("tmp = srcb & 1;\n");`
420			`printf ("dst = srcb >> 1;\n");`
421			`printf ("if (c) dst\|=0x80;\n");`
422			`printf ("c = tmp;\n");`
423			`}`
424
425			`static void`
426			`shal ()`
427			`{`
428			`printf ("c = srcb&0x80;\n");`
429			`printf ("dst = srcb << 1;\n");`
430			`}`
431
432			`static`
433			`void`
434			`shar ()`
435			`{`
436			`printf ("c = srcb&0x1;\n");`
437			`printf ("if (srcb&0x80) dst = (srcb>>1) \| 0x80;\n");`
438			`printf ("else dst = (srcb>>1) &~ 0x80;\n");`
439			`}`
440
441			`static`
442			`void`
443			`shll ()`
444			`{`
445			`printf ("c = srcb&0x80;\n");`
446			`printf ("dst = srcb << 1;\n");`
447			`}`
448
449			`static`
450			`void`
451			`shlr ()`
452			`{`
453			`printf ("c = srcb&0x1;\n");`
454			`printf ("dst = (srcb>>1) &~ 0x80;\n");`
455			`}`
456
457			`static`
458			`void`
459			`divxu ()`
460			`{`
461			`printf ("srca = %s;\n", breg[2]);`
462			`printf ("srcb = %s;\n", wreg[3]);`
463			`printf ("n = srca & 0x80;\n");`
464			`printf ("z = !srca;\n");`
465			`printf ("if (srca) dst = srcb / srca;tmp = srcb %% srca;\n");`
466			`printf ("%s = (dst & 0xff) \| (tmp << 8);\n", wreg[3]);`
467			`}`
468
469			`static`
470			`void`
471			`mulxu ()`
472			`{`
473			`printf ("srca = %s;\n", breg[2]);`
474			`printf ("srcb = %s;\n", wreg[3]);`
475
476			`printf ("dst = (srcb&0xff) * srca;\n");`
477			`printf ("%s = dst;\n", wreg[3]);`
478			`}`
479
480			`static`
481			`void`
482			`inc ()`
483			`{`
484			`printf ("dst = %s;\n", breg[3]);`
485			`printf ("v = (dst==0x7f);\n");`
486			`printf ("dst++;\n");`
487			`printf ("%s= dst;\n", breg[3]);`
488			`}`
489
490			`static`
491			`void`
492			`bit (p, a, s)`
493			`struct h8_opcode *p;`
494			`char *a;`
495			`int s;`
496			`{`
497			`printf ("%s\n", a);`
498			`}`
499
500			`static`
501			`void`
502			`dec ()`
503			`{`
504			`printf ("dst = %s;\n", breg[3]);`
505			`printf ("v = (dst==0x80);\n");`
506			`printf ("dst--;\n");`
507			`printf ("%s = dst;\n", breg[3]);`
508			`}`
509
510			`char saf[] = "goto setflags;";`
511			`char sf[] = "goto shiftflags;";`
512			`char af8[] = "goto aluflags8;";`
513			`char af16[] = "goto aluflags16;";`
514			`char lf[] = "goto logflags;";`
515			`char icf[] = "goto incflags;";`
516			`char mf8[] = "goto movflags8;";`
517			`char mf16[] = "goto movflags16;";`
518			`char nx[] = "goto next;";`
519
520			`struct`
521			`{`
522			`char *ftype;`
523			`int decode;`
524			`char *name;`
525			`void (*func) ();`
526			`char *arg;`
527			`int size;`
528
529			`}`
530
531			`table[] =`
532			`{`
533			`{`
534			`nx, 1, "bld", bit, "dst = srcb; c = (srcb>>srca)&1;", 8`
535			`}`
536			`,`
537			`{`
538			`nx, 1, "bild", bit, "dst = srcb; c = !((srcb>>srca)&1);", 8`
539			`}`
540			`,`
541			`{`
542			`nx, 1, "band", bit, "dst = srcb; c = C &&((srcb>>srca)&1);", 8`
543			`}`
544			`,`
545			`{`
546			`nx, 1, "biand", bit, "dst = srcb; c = C &&(!((srcb>>srca)&1));", 8`
547			`}`
548			`,`
549			`{`
550			`nx, 1, "bior", bit, "dst = srcb; c = C \|\|(!((srcb>>srca)&1));", 8`
551			`}`
552			`,`
553			`{`
554			`nx, 1, "bor", bit, "dst = srcb; c = C \|\|(((srcb>>srca)&1));", 8`
555			`}`
556			`,`
557			`{`
558			`nx, 1, "bixor", bit, "dst = srcb; c = C ^(!((srcb>>srca)&1));", 8`
559			`}`
560			`,`
561			`{`
562			`nx, 1, "bxor", bit, "dst = srcb; c = C ^(((srcb>>srca)&1));", 8`
563			`}`
564			`,`
565			`{`
566			`nx, 1, "bnot", bit, "dst = srcb ^ (1<<srca);", 8`
567			`}`
568			`,`
569			`{`
570			`nx, 1, "bclr", bit, "dst = srcb & ~(1<<srca);", 8`
571			`}`
572			`,`
573			`{`
574			`nx, 1, "bset", bit, "dst = srcb \| (1<<srca);", 8`
575			`}`
576			`,`
577			`{`
578			`nx, 1, "bst", bit, "dst = (srcb & ~(1<<srca))\| ((C)<<srca);", 8`
579			`}`
580			`,`
581			`{`
582			`nx, 1, "bist", bit, "dst = (srcb & ~(1<<srca))\| ((!C)<<srca);", 8`
583			`}`
584			`,`
585			`{`
586			`nx, 1, "btst", bit, "dst = srcb; z = !((srcb>>srca)&1);", 8`
587			`}`
588			`,`
589			`{`
590			`icf, 0, "dec", dec, 0, 0`
591			`}`
592			`,`
593			`{`
594			`icf, 0, "inc", inc, 0, 0`
595			`}`
596			`,`
597			`{`
598			`saf, 1, "orc", setf, "\|", 0`
599			`}`
600			`,`
601			`{`
602			`saf, 1, "xorc", setf, "^", 0`
603			`}`
604			`,`
605			`{`
606			`saf, 1, "andc", setf, "&", 0`
607			`}`
608			`,`
609			`{`
610			`nx, 1, "nop", nop, 0, 0`
611			`}`
612			`,`
613			`{`
614			`nx, 1, "bra", bra, "1", 0`
615			`}`
616			`,`
617			`{`
618			`nx, 1, "brn", bra, "0", 0`
619			`}`
620			`,`
621			`{`
622			`nx, 1, "bhi", bra, "(C\|\|Z)==0", 0`
623			`}`
624			`,`
625			`{`
626			`nx, 1, "bls", bra, "(C\|\|Z)==1", 0`
627			`}`
628			`,`
629			`{`
630			`nx, 1, "bcs", bra, "C==1", 0`
631			`}`
632			`,`
633			`{`
634			`nx, 1, "bcc", bra, "C==0", 0`
635			`}`
636			`,`
637			`{`
638			`nx, 1, "bpl", bra, "N==0", 0`
639			`}`
640			`,`
641			`{`
642			`nx, 1, "bmi", bra, "N==1", 0`
643			`}`
644			`,`
645			`{`
646			`nx, 1, "bvs", bra, "V==1", 0`
647			`}`
648			`,`
649			`{`
650			`nx, 1, "bvc", bra, "V==0", 0`
651			`}`
652			`,`
653			`{`
654			`nx, 1, "bge", bra, "(N^V)==0", 0`
655			`}`
656			`,`
657			`{`
658			`nx, 1, "bgt", bra, "(Z\|(N^V))==0", 0`
659			`}`
660			`,`
661			`{`
662			`nx, 1, "blt", bra, "(N^V)==1", 0`
663			`}`
664			`,`
665			`{`
666			`nx, 1, "ble", bra, "(Z\|(N^V))==1", 0`
667			`}`
668			`,`
669			`{`
670			`nx, 1, "beq", bra, "Z==1", 0`
671			`}`
672			`,`
673			`{`
674			`nx, 1, "bne", bra, "Z==0", 0`
675			`}`
676			`,`
677			`{`
678			`nx, 1, "bsr", bsr, "", 0`
679			`}`
680			`,`
681			`{`
682			`nx, 1, "jsr", jsr, 0, 0`
683			`}`
684			`,`
685			`{`
686			`nx, 1, "jmp", jmp, 0, 0`
687			`}`
688			`,`
689			`{`
690			`nx, 0, "rts", rts, 0, 0`
691			`}`
692			`,`
693			`{`
694			`nx, 0, "rte", rte, 0, 0`
695			`}`
696			`,`
697			`{`
698			`nx, 1, "andc", andc, 0, 0`
699			`}`
700			`,`
701			`{`
702			`sf, 1, "shal", shal, 0, 0`
703			`}`
704			`,`
705			`{`
706			`sf, 1, "shar", shar, 0, 0`
707			`}`
708			`,`
709			`{`
710			`sf, 1, "shll", shll, 0, 0`
711			`}`
712			`,`
713			`{`
714			`sf, 1, "shlr", shlr, 0, 0`
715			`}`
716			`,`
717			`{`
718			`sf, 1, "rotxl", rotxl, 0, 0`
719			`}`
720			`,`
721			`{`
722			`sf, 1, "rotxr", rotxr, 0, 0`
723			`}`
724			`,`
725			`{`
726			`sf, 1, "rotl", rotl, 0, 0`
727			`}`
728			`,`
729			`{`
730			`sf, 1, "rotr", rotr, 0, 0`
731			`}`
732			`,`
733			`{`
734			`lf, 1, "xor", log, "^", 0`
735			`}`
736			`,`
737			`{`
738			`lf, 1, "and", log, "&", 0`
739			`}`
740			`,`
741			`{`
742			`lf, 1, "or", log, "\|", 0`
743			`}`
744			`,`
745			`{`
746			`lf, 1, "not", ulog, " ~", 0`
747			`}`
748			`,`
749			`{`
750			`lf, 1, "neg", ulog, " - ", 0`
751			`}`
752			`,`
753			`{`
754			`nx, 1, "adds", adds, "dst = srca + srcb", 0`
755			`}`
756			`,`
757			`{`
758			`nx, 1, "subs", adds, "srca = -srca; dst = srcb + srca", 0`
759			`}`
760			`,`
761			`{`
762			`af8, 1, "add.b", add, "dst = srca + srcb", 8`
763			`}`
764			`,`
765			`{`
766			`af16, 1, "add.w", add, "dst = srca + srcb", 16`
767			`}`
768			`,`
769			`{`
770			`af16, 1, "sub.w", add, "srca = -srca; dst = srcb + srca", 16`
771			`}`
772			`,`
773			`{`
774			`af8, 1, "sub.b", add, "srca = -srca; dst = srcb + srca", 8`
775			`}`
776			`,`
777			`{`
778			`af8, 1, "addx", addx, 0, 8`
779			`}`
780			`,`
781			`{`
782			`af8, 1, "subx", subx, 0, 8`
783			`}`
784			`,`
785			`{`
786			`af8, 0, "cmp.b", cmp, 0, 8`
787			`}`
788			`,`
789			`{`
790			`af16, 0, "cmp.w", cmp, 0, 16`
791			`}`
792			`,`
793			`{`
794			`nx, 1, "sleep", esleep, 0, 0`
795			`}`
796			`,`
797			`{`
798			`nx, 0, "bpt", bpt, 0, 8`
799			`}`
800			`,`
801			`{`
802			`nx, 0, "divxu", divxu, 0, 0`
803			`}`
804			`,`
805			`{`
806			`nx, 0, "mulxu", mulxu, 0, 0`
807			`}`
808			`,`
809			`{`
810			`mf8, 1, "mov.b", mov, 0, 8`
811			`}`
812			`,`
813			`{`
814			`mf8, 1, "movtpe", mov, 0, 8`
815			`}`
816			`,`
817			`{`
818			`mf8, 1, "movfpe", mov, 0, 8`
819			`}`
820			`,`
821			`{`
822			`mf16, 1, "mov.w", mov, 0, 16`
823			`}`
824			`,`
825			`{`
826
827			`}`
828			`};`
829
830			`static`
831			`void`
832			`edo (p)`
833			`struct h8_opcode *p;`
834			`{`
835			`int i;`
836
837			`printf ("%s %s %s\n", cs, p->name, ce);`
838
839			`for (i = 0; table[i].name; i++)`
840			`{`
841			`if (strcmp (table[i].name, p->name) == 0)`
842			`{`
843			`printf ("{\n");`
844			`if (table[i].decode)`
845			`decode (p, 1, table[i].size);`
846			`printf ("cycles += %d;\n", p->time);`
847			`printf ("npc = pc + %d;\n", p->length / 2);`
848			`table[i].func (p, table[i].arg, table[i].size);`
849			`if (table[i].decode)`
850			`decode (p, 0, table[i].size);`
851			`if (table[i].ftype)`
852			`printf (table[i].ftype);`
853			`else`
854			`printf ("goto next;\n");`
855			`printf ("}\n");`
856			`return;`
857			`}`
858			`}`
859			`printf ("%s not found %s\n", cs, ce);`
860			`printf ("saved_state.exception = SIGILL;\n");`
861			`printf ("break;\n");`
862			`}`
863
864			`static`
865			`int`
866			`owrite (i)`
867			`int i;`
868			`{`
869			`/* write if statements to select the right opcode */`
870			`struct h8_opcode **p;`
871			`int needand = 1;`
872
873			`p = h8_opcodes_sorted[i];`
874			`printf ("case 0x%03x:\n", i);`
875
876			`if (p[1] == 0)`
877			`{`
878			`/* See if the next few also match */`
879			`while (h8_opcodes_sorted[i + 1][0] == *p)`
880			`{`
881			`i++;`
882			`printf ("case 0x%03x:\n", i);`
883			`}`
884
885			`/* Don't need any if's this is the only one */`
886			`edo (*p);`
887			`}`
888			`else`
889			`{`
890			`while (*p)`
891			`{`
892			`/* start two nibbles in since we know we match in the first byte */`
893			`int c;`
894			`int nib = 2;`
895			`int byte = 1;`
896			`int mask1[5];`
897			`int mask0[5];`
898			`int nibshift = 4;`
899			`int any = 0;`
900
901			`for (c = 0; c < 5; c++)`
902			`{`
903			`mask1[c] = 0;`
904			`mask0[c] = 0;`
905			`}`
906			`printf ("%s %x%x", cs, (p)->data.nib[0], (p)->data.nib[1]);`
907			`while ((c = (*p)->data.nib[nib]) != E)`
908			`{`
909			`if (c & B30)`
910			`{`
911			`/* bit 3 must be zero */`
912			`mask0[byte] \|= 0x8 << nibshift;`
913			`printf ("0");`
914			`any = 1;`
915			`}`
916			`else if (c & B31)`
917			`{`
918			`/* bit 3 must be one */`
919			`mask1[byte] \|= 0x8 << nibshift;`
920			`printf ("8");`
921			`any = 1;`
922			`}`
923			`else if (c <= HexF)`
924			`{`
925			`mask0[byte] \|= ((~c) & 0xf) << nibshift;`
926			`mask1[byte] \|= (c & 0xf) << nibshift;`
927			`printf ("%x", c);`
928			`any = 1;`
929			`}`
930			`else`
931			`{`
932			`printf ("x");`
933			`}`
934			`nib++;`
935			`if (nibshift == 4)`
936			`{`
937			`nibshift = 0;`
938			`}`
939			`else`
940			`{`
941			`byte++;`
942			`nibshift = 4;`
943			`}`
944			`}`
945			`printf ("*/\n");`
946			`if (any)`
947			`{`
948			`printf ("if (");`
949			`needand = 0;`
950			`for (c = 1; c < byte; c++)`
951			`{`
952			`if (mask0[c] \| mask1[c])`
953			`{`
954			`int sh;`
955
956			`if (needand)`
957			`printf ("\n&&");`
958			`if (c & 1)`
959			`sh = 0;`
960			`else`
961			`sh = 8;`
962			`if (c / 2 == 0 && sh == 0)`
963			`printf ("((b1&0x%x)==0x%x)", mask0[c] \| mask1[c],`
964			`mask1[c]);`
965			`else`
966			`{`
967			`printf ("((pc[%d]&(0x%02x<<%d))==(0x%x<<%d))",`
968			`c / 2, mask0[c] \| mask1[c], sh,`
969			`mask1[c], sh);`
970			`}`
971
972			`needand = 1;`
973			`}`
974			`}`
975			`printf (")\n");`
976			`}`
977			`edo (*p);`
978			`p++;`
979
980			`}`
981			`}`
982			`return i;`
983			`}`
984
985			`static`
986			`void`
987			`remove_dups ()`
988			`{`
989			`struct h8_opcode *s;`
990			`struct h8_opcode *d;`
991
992			`for (d = s = h8_opcodes; s->name; s++)`
993			`{`
994			`int doit = 1;`
995
996			`if (strcmp (s->name, "push") == 0)`
997			`doit = 0;`
998			`if (strcmp (s->name, "bhs") == 0)`
999			`doit = 0;`
1000			`if (strcmp (s->name, "blo") == 0)`
1001			`doit = 0;`
1002			`if (strcmp (s->name, "bt") == 0)`
1003			`doit = 0;`
1004			`if (strcmp (s->name, "bf") == 0)`
1005			`doit = 0;`
1006			`if (strcmp (s->name, "pop") == 0)`
1007			`doit = 0;`
1008			`if (doit)`
1009			`{`
1010			`d++ = s;`
1011			`}`
1012			`}`
1013			`d++ = s++;`
1014			`}`
1015
1016			`int`
1017			`main ()`
1018			`{`
1019			`int i;`
1020
1021			`remove_dups ();`
1022			`init ();`
1023
1024			`printf ("%s do the operation %s\n", cs, ce);`
1025			`printf ("switch (b0) \n{\n");`
1026			`for (i = 0; i < PTWO; i++)`
1027			`{`
1028			`i = owrite (i);`
1029			`}`
1030			`printf ("}\n");`
1031
1032			`return 0;`
1033			`}`