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// Texas Instruments TMS320C80 (MVP) Simulator.


// The following is called when ever an illegal instruction is encountered.
:internal::::illegal:
{
  sim_io_eprintf (SD, "0x%lx: illegal instruction\n", (unsigned long) cia.ip);
  sim_engine_halt (SD, CPU, NULL, cia, sim_signalled, SIM_SIGILL);
}

// The following is called when ever an FP op is attempted with FPU disabled.
:internal::::fp_unavailable:
{
  sim_io_eprintf (SD, "0x%lx: floating-point unavailable\n", (unsigned long) cia.ip);
  sim_engine_halt (SD, CPU, NULL, cia, sim_signalled, SIM_SIGFPE);
}

// Handle a branch instruction
:function:::instruction_address:do_branch:int annul, address_word target, int rLink_p, unsigned32 *rLink
{
  instruction_address nia;
  if (annul)
    {
      if (rLink_p)
        *rLink = cia.dp;
      nia.ip = target;
      nia.dp = target + 4;
    }
  else
    {
      if (rLink_p)
        *rLink = cia.dp + sizeof (instruction_word);
      nia.ip = cia.dp;
      nia.dp = target;
    }
  return nia;
}

// Signed Integer Add - add source1, source2, dest
:function:::void:do_add:unsigned32 *rDest, signed32 source1, signed32 source2
{
  unsigned32 result;
  ALU_BEGIN (source1);
  ALU_ADD (source2);
  ALU_END (result);
  *rDest = result;
  TRACE_ALU3 (MY_INDEX, result, source1, source2);
  /* FIXME - a signed add may cause an exception */
}
31.Dest,26.Source2,21.0b101100,15.0,14.SignedImmediate::::add i
"add <SignedImmediate>, r<Source2>, r<Dest>"
{
  do_add (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b11101100,13.0,12.0,11./,4.Source1::::add r
"add r<Source1>, r<Source2>, r<Dest>"
{
  do_add (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b11101100,13.0,12.1,11./+LongSignedImmediate::::add l
"add 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_add (_SD, rDest, LongSignedImmediate, vSource2);
}


// Unsigned Integer Add - addu source1, source2, dest
:function:::void:do_addu:unsigned32 *rDest, unsigned32 source1, unsigned32 source2
{
  unsigned32 result = source1 + source2;
  TRACE_ALU3 (MY_INDEX, result, source1, source2);
  *rDest = result;
}

31.Dest,26.Source2,21.0b101100,15.1,14.SignedImmediate::::addu i
"addu <SignedImmediate>, r<Source2>, r<Dest>"
{
  do_addu (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b11101100,13.1,12.0,11./,4.Source1::::addu r
"addu r<Source1>, r<Source2>, r<Dest>"
{
  do_addu (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b11101100,13.1,12.1,11./+LongSignedImmediate::::addu l
"addu 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_addu (_SD, rDest, LongSignedImmediate, vSource2);
}


:function:::void:do_and:signed32 *rDest, signed32 source1, signed32 source2
{
  unsigned32 result = source1 & source2;
  TRACE_ALU3 (MY_INDEX, result, source1, source2);
  *rDest = result;
}


// and, and.tt
31.Dest,26.Source2,21.0b0010001,14.UnsignedImmediate::::and.tt i
"and.tt <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110010001,12.0,11./,4.Source1::::and.tt r
"and.tt r<Source1>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110010001,12.1,11./+LongSignedImmediate::::and.tt l
"and.tt 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, LongSignedImmediate, vSource2);

}

// and.ff
31.Dest,26.Source2,21.0b0011000,14.UnsignedImmediate::::and.ff i
"and.ff <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, ~vSource1, ~vSource2);
}
31.Dest,26.Source2,21.0b110011000,12.0,11./,4.Source1::::and.ff r
"and.ff r<Source1>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, ~vSource1, ~vSource2);
}
31.Dest,26.Source2,21.0b110011000,12.1,11./+LongSignedImmediate::::and.ff l
"and.ff 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, ~LongSignedImmediate, ~vSource2);
}

// and.ft
31.Dest,26.Source2,21.0b0010100,14.UnsignedImmediate::::and.ft i
"and.ft <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, ~vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110010100,12.0,11./,4.Source1::::and.ft r
"and.ft r<Source1>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, ~vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110010100,12.1,11./+LongSignedImmediate::::and.ft l
"and.ft 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, ~LongSignedImmediate, vSource2);
}

// and.tf
31.Dest,26.Source2,21.0b0010010,14.UnsignedImmediate::::and.tf i
"and.tf <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, vSource1, ~vSource2);
}
31.Dest,26.Source2,21.0b110010010,12.0,11./,4.Source1::::and.tf r
"and.tf r<Source1>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, vSource1, ~vSource2);
}
31.Dest,26.Source2,21.0b110010010,12.1,11./+LongSignedImmediate::::and.tf l
"and.tf 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_and (_SD, rDest, LongSignedImmediate, ~vSource2);
}

// bbo[.a]
:function:::instruction_address:do_bbo:instruction_address nia, int bitnum, unsigned32 source, int annul, unsigned32 offset
{
  int jump_p;
  address_word target = cia.ip + 4 * offset;
  if (MASKED32 (source, bitnum, bitnum))
    {
      nia = do_branch (_SD, annul, target, 0, NULL);
      jump_p = 1;
    }
  else
    jump_p = 0;
  TRACE_COND_BR(MY_INDEX, jump_p, bitnum, target, -1, -1);
  return nia;
}
:%s::::A:int A
{
  if (A)
    return ".a";
  else
    return "";
}
31.BITNUM,26.Source,21.0b100101,15.A,14.SignedOffset::::bbo i
"bbo%s<A> <SignedOffset>, r<Source>, <bitnum>"
{
  nia = do_bbo (_SD, nia, bitnum, vSource, A, vSignedOffset);
}
31.BITNUM,26.Source,21.0b11100101,13.A,12.0,11./,4.IndOff::::bbo r
"bbo%s<A> r<IndOff>, r<Source>, <bitnum>"
{
  nia = do_bbo (_SD, nia, bitnum, vSource, A, rIndOff);
}
31.BITNUM,26.Source,21.0b11100101,13.A,12.1,11./+LongSignedImmediate::::bbo l
"bbo%s<A> <LongSignedImmediate>, r<Source>, <bitnum>"
{
  nia = do_bbo (_SD, nia, bitnum, vSource, A, LongSignedImmediate);
}

// bbz[.a]
:function:::instruction_address:do_bbz:instruction_address nia, int bitnum, unsigned32 source, int annul, unsigned32 offset
{
  int jump_p;
  address_word target = cia.ip + 4 * offset;
  if (!MASKED32 (source, bitnum, bitnum))
    {
      nia = do_branch (_SD, annul, target, 0, NULL);
      jump_p = 1;
    }
  else
    jump_p = 0;
  TRACE_COND_BR(MY_INDEX, jump_p, bitnum, target, -1, -1);
  return nia;
}
31.BITNUM,26.Source,21.0b100100,15.A,14.SignedOffset::::bbz i
"bbz%s<A> <SignedOffset>, r<Source>, <bitnum>"
{
  nia = do_bbz (_SD, nia, bitnum, vSource, A, vSignedOffset);
}
31.BITNUM,26.Source,21.0b11100100,13.A,12.0,11./,4.IndOff::::bbz r
"bbz%s<A> r<IndOff>, r<Source>, <bitnum>"
{
  nia = do_bbz (_SD, nia, bitnum, vSource, A, rIndOff);
}
31.BITNUM,26.Source,21.0b11100100,13.A,12.1,11./+LongSignedImmediate::::bbz l
"bbz%s<A> <LongSignedImmediate>, r<Source>, <bitnum>"
{
  nia = do_bbz (_SD, nia, bitnum, vSource, A, LongSignedImmediate);
}

// bcnd[.a]
:function:::instruction_address:do_bcnd:instruction_address nia, int Cond, unsigned32 source, int annul, unsigned32 offset
{
  int condition;
  int size = EXTRACTED32 (Cond, 31 - 27, 30 - 27);
  int code = EXTRACTED32 (Cond, 29 - 27, 27 - 27);
  signed32 val = 0;
  address_word target = cia.ip + 4 * offset;
  switch (size)
    {
    case 0: val = SEXT32 (source, 7); break;
    case 1: val = SEXT32 (source, 15); break;
    case 2: val = source; break;
    default: sim_engine_abort (SD, CPU, cia, "bcnd - reserved size");
    }
  switch (code)
    {
    case 0: condition = 0; break;
    case 1: condition = val > 0; break;
    case 2: condition = val == 0; break;
    case 3: condition = val >= 0; break;
    case 4: condition = val < 0; break;
    case 5: condition = val != 0; break;
    case 6: condition = val <= 0; break;
    default: condition = 1; break;
    }
  if (condition)
    {
      nia = do_branch (_SD, annul, target, 0, NULL);
    }
  TRACE_COND_BR(MY_INDEX, condition, val, target, size, code);
  return nia;
}
31.Code,26.Source,21.0b100110,15.A,14.SignedOffset::::bcnd i
"bcnd%s<A> <SignedOffset>, r<Source>, <Code>"
{
  nia = do_bcnd (_SD, nia, Code, vSource, A, vSignedOffset);
}
31.Code,26.Source,21.0b11100110,13.A,12.0,11./,4.IndOff::::bcnd r
"bcnd%s<A> r<IndOff>, r<Source>, <Code>"
{
  nia = do_bcnd (_SD, nia, Code, vSource, A, rIndOff);
}
31.Code,26.Source,21.0b11100110,13.A,12.1,11./+LongSignedImmediate::::bcnd l
"bcnd%s<A> <LongSignedImmediate>, r<Source>, <Code>"
{
  nia = do_bcnd (_SD, nia, Code, vSource, A, LongSignedImmediate);
}

// br[.a] - see bbz[.a]


// brcr
:function:::sim_cia:do_brcr:instruction_address nia, int cr
{
  if (cr >= 0x4000 || !(CPU)->is_user_mode)
    {
      unsigned32 control = CR (cr);
      unsigned32 ie = control & 0x00000001;
      unsigned32 pc = control & 0xfffffffc;
      unsigned32 is_user_mode = control & 0x00000002;
      (CPU)->is_user_mode = is_user_mode;
      nia.dp = pc;
      if (ie)
        (CPU)->cr[IE_CR] |= IE_CR_IE;
      else
        (CPU)->cr[IE_CR] &= ~IE_CR_IE;
    }
  TRACE_UCOND_BR (MY_INDEX, nia.dp);
  return nia;
}
31.//,27.0,26.//,21.0b0000110,14.UCRN::::brcr i
"brcr CR[<UCRN>]"
{
  nia = do_brcr (_SD, nia, UCRN);
}
31.//,27.0,26.//,21.0b110000110,12.0,11./,4.INDCR::::brcr r
"brcr CR[r<INDCR>]"
{
  nia = do_brcr (_SD, nia, UCRN);
}
31.//,27.0,26.//,21.0b110000110,12.1,11./+UnsignedControlRegisterNumber::::brcr l
"brcr CR[<UnsignedControlRegisterNumber>]"
{
  nia = do_brcr (_SD, nia, UnsignedControlRegisterNumber);
}

// bsr[.a]
:function:::instruction_address:do_bsr:instruction_address nia, signed32 *rLink, int annul, unsigned32 offset
{
  address_word target = cia.ip + 4 * offset;
  nia = do_branch (_SD, annul, target, 1, rLink);
  TRACE_UCOND_BR (MY_INDEX, target);
  return nia;
}
31.Link,26./,21.0b100000,15.A,14.SignedOffset::::bsr i
"bsr%s<A> <SignedOffset>, r<Link>"
{
  nia = do_bsr (_SD, nia, rLink, A, vSignedOffset);
}
31.Link,26./,21.0b11100000,13.A,12.0,11./,4.IndOff::::bsr r
"bsr%s<A> r<IndOff>, r<Link>"
{
  nia = do_bsr (_SD, nia, rLink, A, rIndOff);
}
31.Link,26./,21.0b11100000,13.A,12.1,11./+LongSignedImmediate::::bsr l
"bsr%s<A> <LongSignedImmediate>, r<Link>"
{
  nia = do_bsr (_SD, nia, rLink, A, LongSignedImmediate);
}

// cmnd
:function:::void:do_cmnd:signed32 source
{
  int Reset = EXTRACTED32 (source, 31, 31);
  int Halt = EXTRACTED32 (source, 30, 30);
  int Unhalt = EXTRACTED32 (source, 29, 29);
  /* int ICR = EXTRACTED32 (source, 28, 28); */
  /* int DCR = EXTRACTED32 (source, 27, 27); */
  int Task = EXTRACTED32 (source, 14, 14);
  int Msg = EXTRACTED32 (source, 13, 13);
  int VC = EXTRACTED32 (source, 10, 10);
  int TC = EXTRACTED32 (source, 9, 9);
  int MP = EXTRACTED32 (source, 8, 8);
  int PP = EXTRACTED32 (source, 3, 0);
  /* what is implemented? */
  if (PP != 0)
    sim_engine_abort (SD, CPU, cia, "0x%lx: cmnd - PPs not supported",
                      (unsigned long) cia.ip);
  if (VC != 0)
    sim_engine_abort (SD, CPU, cia, "0x%lx: cmnd - VC not supported",
                      (unsigned long) cia.ip);
  if (TC != 0)
    sim_engine_abort (SD, CPU, cia, "0x%lx: cmnd - TC not supported",
                      (unsigned long) cia.ip);
  if (MP)
    {
      if (Reset || Halt)
        sim_engine_halt (SD, CPU, NULL, cia, sim_exited, 0);
      if (Unhalt)
        sim_engine_abort (SD, CPU, cia, "0x%lx: cmnd - Can not unhalt the MP",
                          (unsigned long) cia.ip);
      /* if (ICR || DCR); */
      if (Task)
        sim_engine_abort (SD, CPU, cia, "0x%lx: cmnd - Can not Task the MP",
                          (unsigned long) cia.ip);
      if (Msg)
        sim_engine_abort (SD, CPU, cia, "0x%lx: cmnd - Msg to MP not suported",
                          (unsigned long) cia.ip);
    }
  TRACE_SINK1 (MY_INDEX, source);
}
31./,21.0b0000010,14.UI::::cmnd i
"cmnd <UI>"
{
  do_cmnd (_SD, UI);
}
31./,21.0b110000010,12.0,11./,4.Source::::cmnd r
"cmnd r<Source>"
{
  do_cmnd (_SD, vSource);
}
31./,21.0b110000010,12.1,11./+LongUnsignedImmediate::::cmnd l
"cmnd <LongUnsignedImmediate>"
{
  do_cmnd (_SD, LongUnsignedImmediate);
}

// cmp
:function:::unsigned32:cmp_vals:signed32 s1, unsigned32 u1, signed32 s2, unsigned32 u2
{
  unsigned32 field = 0;
  if (s1 == s2) field |= 0x001;
  if (s1 != s2) field |= 0x002;
  if (s1 >  s2) field |= 0x004;
  if (s1 <= s2) field |= 0x008;
  if (s1 <  s2) field |= 0x010;
  if (s1 >= s2) field |= 0x020;
  if (u1 >  u2) field |= 0x040;
  if (u1 <= u2) field |= 0x080;
  if (u1 <  u2) field |= 0x100;
  if (u1 >= u2) field |= 0x200;
  return field;
}
:function:::void:do_cmp:unsigned32 *rDest, unsigned32 source1, unsigned32 source2
{
  unsigned32 field = 0;
  field |= cmp_vals (_SD, source1, source1, source2, source2) << 20;
  field |= cmp_vals (_SD, (signed16)source1, (unsigned16)source1,
         (signed16)source2, (unsigned16)source2) << 10;
  field |= cmp_vals (_SD, (signed8)source1, (unsigned8)source1,
          (signed8)source2, (unsigned8)source2);
  TRACE_CMP (MY_INDEX, field, source1, source2);
  *rDest = field;
}
31.Dest,26.Source2,21.0b1010000,14.SignedImmediate::::cmp i
"cmp <SignedImmediate>, r<Source2>, r<Dest>"
{
  do_cmp (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b111010000,12.0,11./,4.Source1::::cmp r
"cmp r<Source1>, r<Source2>, r<Dest>"
{
  do_cmp (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b111010000,12.1,11./+LongSignedImmediate::::cmp l
"cmp 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_cmp (_SD, rDest, LongSignedImmediate, vSource2);
}

// dcache
:%s::::F:int F
{
  if (F)
    return "f";
  else
    return "c";
}
31./,27.F,26.Source2,21.0b0111,17.m,16.0b00,14.SignedOffset::::dcache i
"dcache%s<F> <SignedOffset> (r<Source2>%s<m>)"
{
  TRACE_NOP (MY_INDEX);
  /* NOP */
}
31./,27.F,26.Source2,21.0b110111,15.m,14.0b00,12.0,11./,4.Source1::::dcache r
"dcache%s<F> r<Source1> (r<Source2>%s<m>)"
{
  TRACE_NOP (MY_INDEX);
  /* NOP */
}
31./,27.F,26.Source2,21.0b110111,15.m,14.0b00,12.1,11./+LongSignedImmediate::::dcache l
"dcache%s<F> <LongSignedImmediate> (r<Source2>%s<m>)"
{
  TRACE_NOP (MY_INDEX);
  /* NOP */
}

// dld[{.b|.h|.d}]
void::function::do_dld:int Dest, unsigned32 base, unsigned32 *rBase, int m , int sz, int S, unsigned32 offset
{
  do_ld (_SD, Dest, base, rBase, m, sz, S, offset);
}
31.Dest,26.Base,21.0b110100,15.m,14.sz,12.0,11.S,10.1,9./,4.IndOff::::dld r
"dld%s<sz> r<IndOff>%s<S> (r<Base>%s<m>), r<Dest>"
{
  do_dld (_SD, Dest, vBase, rBase, m, sz, S, rIndOff);
}
31.Dest,26.Base,21.0b110100,15.m,14.sz,12.1,11.S,10.1,9./+LongSignedImmediateOffset::::dld l
"dld%s<sz> 0x%08lx<LongSignedImmediateOffset>%s<S> (r<Base>%s<m>), r<Dest>"
{
  do_dld (_SD, Dest, vBase, rBase, m, sz, S, LongSignedImmediateOffset);
}

// dld.u[{.b|.h|.d}]
void::function::do_dld_u:unsigned32 *rDest, unsigned32 base, unsigned32 *rBase, int m , int sz, int S, unsigned32 offset
{
  do_ld_u (_SD, rDest, base, rBase, m, sz, S, offset);
}
31.Dest,26.Base,21.0b110101,15.m,14.sz,12.0,11.S,10.1,9./,4.IndOff::::dld.u r
"dld.u%s<sz> r<IndOff>%s<S> (r<Base>%s<m>), r<Dest>"
{
  do_dld_u (_SD, rDest, vBase, rBase, m, sz, S, rIndOff);
}
31.Dest,26.Base,21.0b110101,15.m,14.sz,12.1,11.S,10.1,9./+LongSignedImmediateOffset::::dld.u l
"dld.u%s<sz> 0x%08lx<LongSignedImmediateOffset>%s<S> (r<Base>%s<m>), r<Dest>"
{
  do_dld_u (_SD, rDest, vBase, rBase, m, sz, S, LongSignedImmediateOffset);
}

// dst[{.b|.h|.d}]
void::function::do_dst:int Source, unsigned32 base, unsigned32 *rBase, int m , int sz, int S, unsigned32 offset
{
  do_st (_SD, Source, base, rBase, m, sz, S, offset);
}
31.Source,26.Base,21.0b110110,15.m,14.sz,12.0,11.S,10.1,9./,4.IndOff::::dst r
"dst%s<sz> r<IndOff>%s<S> (r<Base>%s<m>), r<Source>"
{
  do_dst (_SD, Source, vBase, rBase, m, sz, S, rIndOff);
}
31.Source,26.Base,21.0b110110,15.m,14.sz,12.1,11.S,10.1,9./+LongSignedImmediateOffset::::dst l
"dst%s<sz> 0x%08lx<LongSignedImmediateOffset>%s<S> (r<Base>%s<m>), r<Source>"
{
  do_dst (_SD, Source, vBase, rBase, m, sz, S, LongSignedImmediateOffset);
}

// estop
31./,21.0b1111111,14.1,13.0,12.0,11./::::estop

// etrap
31./,27.1,26./,21.0b0000001,14.UTN::::etrap i
31./,27.1,26./,21.0b110000001,12.0,11./,4.iUTN::::etrap r
31./,27.1,26./,21.0b110000001,12.1,11./::::etrap l


// exts - see shift.ds


// extu - see shift.dz


sim_fpu::function::get_fp_reg:int reg, unsigned32 val, int precision
{
  sim_fpu ans;
  switch (precision)
    {
    case 0: /* single */
      sim_fpu_32to (&ans, val);
      break;
    case 1: /* double */
      if (reg < 0)
        sim_engine_abort (SD, CPU, cia, "DP immediate invalid");
      if (reg & 1)
        sim_engine_abort (SD, CPU, cia, "DP FP register must be even");
      if (reg <= 1)
        sim_engine_abort (SD, CPU, cia, "DP FP register must be >= 2");
      sim_fpu_232to (&ans, GPR (reg + 1), GPR (reg));
      break;
    case 2: /* 32 bit signed integer */
      sim_fpu_i32to (&ans, val, 0);
      break;
    case 3: /* 32 bit unsigned integer */
      sim_fpu_u32to (&ans, val, 0);
      break;
    default:
      sim_engine_abort (SD, CPU, cia, "Unsupported FP precision");
    }
  return ans;
}
void::function::set_fp_reg:int Dest, sim_fpu val, int PD
{
  switch (PD)
    {
    case 0: /* single */
      {
        sim_fpu_to32 (&GPR (Dest), &val);
        break;
      }
    case 1: /* double */
      {
        if (Dest & 1)
          sim_engine_abort (SD, CPU, cia, "DP FP Dest register must be even");
        if (Dest <= 1)
          sim_engine_abort (SD, CPU, cia, "DP FP Dest register must be >= 2");
        sim_fpu_to232 (&GPR (Dest + 1), &GPR (Dest + 0), &val);
        break;
      }
    case 2: /* signed */
      {
        sim_fpu_to32i (&GPR (Dest), &val, 0);
        break;
      }
    case 3: /* unsigned */
      {
        sim_fpu_to32u (&GPR (Dest), &val, 0);
        break;
      }
    default:
      sim_engine_abort (SD, CPU, cia, "Unsupported FP precision");
    }

}
// fadd.{s|d}{s|d}{s|d}
void::function::do_fadd:int Dest, int PD, sim_fpu s1, sim_fpu s2
{
  sim_fpu ans;
  sim_fpu_add (&ans, &s1, &s2);
  TRACE_FPU3 (ans, s1, s2);
  set_fp_reg (_SD, Dest, ans, PD);
}
const char *::function::str_PX:int PX
{
  switch (PX)
    {
    case 0: return "s";
    case 1: return "d";
    case 2: return "i";
    case 3: return "u";
    default: return "?";
    }
}
31.Dest,26.Source2,21.0b111110000,12.0,11.r,10.PD,8.P2,6.P1,4.Source1::f::fadd r
"fadd.%s<PX#P1>%s<PX#P2>%s<PX#PD> r<Source1>, r<Source2>, r<Dest>"
{
  do_fadd (_SD, Dest, PD,
           get_fp_reg (_SD, Source1, vSource1, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}
31.Dest,26.Source2,21.0b111110000,12.1,11.r,10.PD,8.P2,6.P1,4./+SinglePrecisionFloatingPoint::f::fadd l
"fadd.%s<PX#P1>%s<PX#P2>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Source2>, r<Dest>"
{
  do_fadd (_SD, Dest, PD,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));

}

// fcmp.{s|d}{s|d}{s|d}
void::function::do_fcmp:unsigned32 *rDest, sim_fpu s1, sim_fpu s2
{
  unsigned32 result = 0;
  if (sim_fpu_is_nan (&s1) || sim_fpu_is_nan (&s2))
    result |= BIT32 (30);
  else
    {
      result |= BIT32 (31);
      if (sim_fpu_is_eq (&s1, &s2)) result |= BIT32(20);
      if (sim_fpu_is_ne (&s1, &s2)) result |= BIT32(21);
      if (sim_fpu_is_gt (&s1, &s2)) result |= BIT32(22);
      if (sim_fpu_is_le (&s1, &s2)) result |= BIT32(23);
      if (sim_fpu_is_lt (&s1, &s2)) result |= BIT32(24);
      if (sim_fpu_is_ge (&s1, &s2)) result |= BIT32(25);
      if (sim_fpu_is_lt (&s1, &sim_fpu_zero)
          || sim_fpu_is_gt (&s1, &s2)) result |= BIT32(26);
      if (sim_fpu_is_lt (&sim_fpu_zero, &s1)
          && sim_fpu_is_lt (&s1, &s2)) result |= BIT32(27);
      if (sim_fpu_is_le (&sim_fpu_zero, &s1)
          && sim_fpu_is_le (&s1, &s2)) result |= BIT32(28);
      if (sim_fpu_is_le (&s1, &sim_fpu_zero)
          || sim_fpu_is_ge (&s1, &s2)) result |= BIT32(29);
    }
  *rDest = result;
  TRACE_FPU2CMP (result, s1, s2);
}
31.Dest,26.Source2,21.0b111110101,12.0,11./,10.0,8.P2,6.P1,4.Source1::f::fcmp r
"fcmp.%s<PX#P1>%s<PX#P2> r<Source1>, r<Source2>, r<Dest>"
{
  do_fcmp (_SD, rDest,
           get_fp_reg (_SD, Source1, vSource1, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}
31.Dest,26.Source2,21.0b111110101,12.1,11./,10.0,8.P2,6.P1,4./+SinglePrecisionFloatingPoint::f::fcmp l
"fcmp.%s<PX#P1>%s<PX#P2> 0x%08lx<SinglePrecisionFloatingPoint>, r<Source2>, r<Dest>"
{
  do_fcmp (_SD, rDest,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}


// fdiv.{s|d}{s|d}{s|d}
void::function::do_fdiv:int Dest, int PD, sim_fpu s1, sim_fpu s2
{
  sim_fpu ans;
  sim_fpu_div (&ans, &s1, &s2);
  TRACE_FPU3 (ans, s1, s2);
  set_fp_reg (_SD, Dest, ans, PD);
}
31.Dest,26.Source2,21.0b111110011,12.0,11./,10.PD,8.P2,6.P1,4.Source1::f::fdiv r
"fdiv.%s<PX#P1>%s<PX#P2>%s<PX#PD> r<Source1>, r<Source2>, r<Dest>"
{
  do_fdiv (_SD, Dest, PD,
           get_fp_reg (_SD, Source1, vSource1, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}
31.Dest,26.Source2,21.0b111110011,12.1,11./,10.PD,8.P2,6.P1,4./+SinglePrecisionFloatingPoint::f::fdiv l
"fdiv.%s<PX#P1>%s<PX#P2>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Source2>, r<Dest>"
{
  do_fdiv (_SD, Dest, PD,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}

// fmpy.{s|d|i|u}{s|d|i|u}{s|d|i|u}
void::function::do_fmpy:int Dest, int PD, sim_fpu s1, sim_fpu s2
{
  switch (PD)
    {
    case 2: /* signed */
      {
        signed64 i1;
        signed64 i2;
        sim_fpu_to64i (&i1, &s1, 0);
        sim_fpu_to64i (&i2, &s2, 0);
        GPR (Dest) = i1 * i2;
        TRACE_FPU2I (GPR (Dest), s1, s2);
        break;
      }
    case 3: /* unsigned */
      {
        unsigned64 u1;
        unsigned64 u2;
        sim_fpu_to64u (&u1, &s1, 0);
        sim_fpu_to64u (&u2, &s2, 0);
        GPR (Dest) = u1 * u2;
        TRACE_FPU2I (GPR (Dest), s1, s2);
        break;
      }
    default:
      {
        sim_fpu ans;
        sim_fpu_mul (&ans, &s1, &s2);
        set_fp_reg (_SD, Dest, ans, PD);
        TRACE_FPU3 (ans, s1, s2);
      }
    }
}
31.Dest,26.Source2,21.0b111110010,12.0,11./,10.PD,8.P2,6.P1,4.Source1::f::fmpy r
"fmpy.%s<PX#P1>%s<PX#P2>%s<PX#PD> r<Source1>, r<Source2>, r<Dest>"
{
  do_fmpy (_SD, Dest, PD,
           get_fp_reg (_SD, Source1, vSource1, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}
31.Dest,26.Source2,21.0b111110010,12.1,11./,10.PD,8.P2,6.P1,4./+SinglePrecisionFloatingPoint::f::fmpy l
"fmpy.%s<PX#P1>%s<PX#P2>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Source2>, r<Dest>"
{
  do_fmpy (_SD, Dest, PD,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}

// frndm.{s|d|i|u}{s|d|i|u}
void::function::do_frnd:int Dest, int PD, sim_fpu s1
{
  set_fp_reg (_SD, Dest, s1, PD);
  TRACE_FPU1 (s1);
}
31.Dest,26./,21.0b111110100,12.0,11.r,10.PD,8.0b11,6.P1,4.Source::f::frndm r
"frndm.%s<PX#P1>%s<PX#PD> r<Source>, r<Dest>"
{
  do_frnd (_SD, Dest, PD,
           get_fp_reg (_SD, Source, vSource, P1));
}
31.Dest,26./,21.0b111110100,12.1,11.r,10.PD,8.0b11,6.P1,4./+SinglePrecisionFloatingPoint::f::frndm l
"frndm.%s<PX#P1>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Dest>"
{
  do_frnd (_SD, Dest, PD,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1));
}

// frndn.{s|d|i|u}{s|d|i|u}
31.Dest,26./,21.0b111110100,12.0,11.r,10.PD,8.0b00,6.P1,4.Source::f::frndn r
"frndn.%s<PX#P1>%s<PX#PD> r<Source>, r<Dest>"
{
  do_frnd (_SD, Dest, PD,
           get_fp_reg (_SD, Source, vSource, P1));
}
31.Dest,26./,21.0b111110100,12.1,11.r,10.PD,8.0b00,6.P1,4./+SinglePrecisionFloatingPoint::f::frndn l
"frndn.%s<PX#P1>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Dest>"
{
  do_frnd (_SD, Dest, PD,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1));
}

// frndp.{s|d|i|u}{s|d|i|u}
31.Dest,26./,21.0b111110100,12.0,11.r,10.PD,8.0b10,6.P1,4.Source::f::frndp r
"frndp.%s<PX#P1>%s<PX#PD> r<Source>, r<Dest>"
{
  do_frnd (_SD, Dest, PD,
           get_fp_reg (_SD, Source, vSource, P1));
}
31.Dest,26./,21.0b111110100,12.1,11.r,10.PD,8.0b10,6.P1,4./+SinglePrecisionFloatingPoint::f::frndp l
"frndp.%s<PX#P1>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Dest>"
{
  do_frnd (_SD, Dest, PD,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1));
}

// frndz.{s|d|i|u}{s|d|i|u}
31.Dest,26./,21.0b111110100,12.0,11.r,10.PD,8.0b01,6.P1,4.Source::f::frndz r
"frndz.%s<PX#P1>%s<PX#PD> r<Source>, r<Dest>"
{
  do_frnd (_SD, Dest, PD,
           get_fp_reg (_SD, Source, vSource, P1));
}
31.Dest,26./,21.0b111110100,12.1,11.r,10.PD,8.0b01,6.P1,4./+SinglePrecisionFloatingPoint::f::frndz l
"frndz.%s<PX#P1>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Dest>"
{
  do_frnd (_SD, Dest, PD,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1));
}

// fsqrt.{s|d}{s|d}{s|d}
#void::function::do_fsqrt:unsigned32 *rDest, unsigned32 Source, unsigned32 Source2
#  sim_io_error ("fsqrt");
31.Dest,26./,21.0b111110111,12.0,11./,10.PD,8.//,6.P1,4.Source::f::fsqrt r
"fsqrt.%s<PX#P1>%s<PX#PD> r<Source>, r<Dest>"
#  do_fsqrt (_SD, rDest, vSource);
31.Dest,26./,21.0b111110111,12.1,11./,10.PD,8.//,6.P1,4./+SinglePrecisionFloatingPoint::f::fsqrt l
"fsqrt.%s<PX#P1>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Dest>"
#  do_fsqrt (_SD, rDest, SinglePrecisionFloatingPoint);


// fsub.{s|d}{s|d}{s|d}
void::function::do_fsub:int Dest, int PD, sim_fpu s1, sim_fpu s2
{
  sim_fpu ans;
  sim_fpu_sub (&ans, &s1, &s2);
  TRACE_FPU3 (ans, s1, s2);
  set_fp_reg (_SD, Dest, ans, PD);
}
31.Dest,26.Source2,21.0b111110001,12.0,11.r,10.PD,8.P2,6.P1,4.Source1::f::fsub r
"fsub.%s<PX#P1>%s<PX#P2>%s<PX#PD> r<Source1>, r<Source2>, r<Dest>"
{
  do_fsub (_SD, Dest, PD,
           get_fp_reg (_SD, Source1, vSource1, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}
31.Dest,26.Source2,21.0b111110001,12.1,11.r,10.PD,8.P2,6.P1,4./+SinglePrecisionFloatingPoint::f::fsub l
"fsub.%s<PX#P1>%s<PX#P2>%s<PX#PD> 0x%08lx<SinglePrecisionFloatingPoint>, r<Source2>, r<Dest>"
{
  do_fsub (_SD, Dest, PD,
           get_fp_reg (_SD, -1, SinglePrecisionFloatingPoint, P1),
           get_fp_reg (_SD, Source2, vSource2, P2));
}

// illop
31./,21.0b0000000,14./::::illop
"illop"
31./,21.0b111111111,12./::::illop l
"illop"


// ins - see sl.im


// jsr[.a]
instruction_address::function::do_jsr:instruction_address nia, signed32 *rLink, int annul, unsigned32 offset, unsigned32 base
{
  address_word target = offset + base;
  TRACE_UCOND_BR (MY_INDEX, target);
  nia = do_branch (_SD, annul, target, 1, rLink);
  if (nia.dp & 0x3)
    sim_engine_abort (SD, CPU, cia,
                      "0x%lx: destination address 0x%lx misaligned",
                      (unsigned long) cia.ip,
                      (unsigned long) nia.dp);
  return nia;
}
31.Link,26.Base,21.0b100010,15.A,14.SignedOffset::::jsr i
"jsr%s<A> <SignedOffset>, r<Link>"
{
  nia = do_jsr (_SD, nia, rLink, A, vSignedOffset, vBase);
}
31.Link,26.Base,21.0b11100010,13.A,12.0,11./,4.IndOff::::jsr r
"jsr%s<A> r<IndOff>, r<Link>"
{
  nia = do_jsr (_SD, nia, rLink, A, rIndOff, vBase);
}
31.Link,26.Base,21.0b11100010,13.A,12.1,11./+LongSignedImmediate::::jsr l
"jsr%s<A> <LongSignedImmediate>, r<Link>"
{
  nia = do_jsr (_SD, nia, rLink, A, LongSignedImmediate, vBase);
}

// ld[{.b.h.d}]
void::function::do_ld:int Dest, unsigned32 base, unsigned32 *rBase, int m , int sz, int S, unsigned32 offset
{
  unsigned32 addr;
  switch (sz)
    {
    case 0:
      addr = base + (S ? (offset << 0) : offset);
      if (m)
        *rBase = addr;
      GPR(Dest) = MEM (signed, addr, 1);
      break;
    case 1:
      addr = base + (S ? (offset << 1) : offset);
      if (m)
        *rBase = addr;
      GPR(Dest) = MEM (signed, addr, 2);
      break;
    case 2:
      addr = base + (S ? (offset << 2) : offset);
      if (m)
        *rBase = addr;
      GPR(Dest) = MEM (signed, addr, 4);
      break;
    case 3:
      {
        signed64 val;
        if (Dest & 0x1)
          sim_engine_abort (SD, CPU, cia, "0x%lx: ld.d to odd register %d",
                            cia.ip, Dest);
        addr = base + (S ? (offset << 3) : offset);
        if (m)
          *rBase = addr;
        val = MEM (signed, addr, 8);
        GPR(Dest + 1) = VH4_8 (val);
        GPR(Dest + 0) = VL4_8 (val);
      }
      break;
    default:
      addr = -1;
      sim_engine_abort (SD, CPU, cia, "ld - invalid sz %d", sz);
    }
  TRACE_LD (GPR(Dest), m, S, base, offset);
}
const char *::function::str_sz:int sz
{
  switch (sz)
    {
    case 0: return ".b";
    case 1: return ".h";
    case 2: return "";
    case 3: return ".d";
    default: return "?";
    }
}
const char *::function::str_m:int m
{
  if (m)
    return ":m";
  else
    return "";
}
const char *::function::str_S:int S
{
  if (S)
    return ":s";
  else
    return "";
}
31.Dest,26.Base,21.0b0100,17.m,16.sz,14.SignedOffset::::ld i
"ld%s<sz> <SignedOffset> (r<Base>%s<m>), r<Dest>"
{
  do_ld (_SD, Dest, vBase, rBase, m, sz, 0, vSignedOffset);
}
31.Dest,26.Base,21.0b110100,15.m,14.sz,12.0,11.S,10.0,9./,4.IndOff::::ld r
"ld%s<sz> r<IndOff>%s<S> (r<Base>%s<m>), r<Dest>"
{
  do_ld (_SD, Dest, vBase, rBase, m, sz, S, rIndOff);
}
31.Dest,26.Base,21.0b110100,15.m,14.sz,12.1,11.S,10.0,9./+LongSignedImmediateOffset::::ld l
"ld%s<sz> 0x%08lx<LongSignedImmediateOffset>%s<S> (r<Base>%s<m>), r<Dest>"
{
  do_ld (_SD, Dest, vBase, rBase, m, sz, S, LongSignedImmediateOffset);
}

// ld.u[{.b.h.d}]
void::function::do_ld_u:unsigned32 *rDest, unsigned32 base, unsigned32 *rBase, int m , int sz, int S, unsigned32 offset
{
  unsigned32 addr;
  switch (sz)
    {
    case 0:
      addr = base + (S ? (offset << 0) : offset);
      *rDest = MEM (unsigned, addr, 1);
      break;
    case 1:
      addr = base + (S ? (offset << 1) : offset);
      *rDest = MEM (unsigned, addr, 2);
      break;
    default:
      addr = -1;
      sim_engine_abort (SD, CPU, cia, "ld.u - invalid sz %d", sz);
    }
  if (m)
    *rBase = addr;
  TRACE_LD (m, S, *rDest, base, offset);
}
31.Dest,26.Base,21.0b0101,17.m,16.sz,14.SignedOffset::::ld.u i
"ld.u%s<sz> <SignedOffset> (r<Base>%s<m>), r<Dest>"
{
  do_ld_u (_SD, rDest, vBase, rBase, m, sz, 0, vSignedOffset);
}
31.Dest,26.Base,21.0b110101,15.m,14.sz,12.0,11.S,10.0,9./,4.IndOff::::ld.u r
"ld.u%s<sz> r<IndOff>%s<S> (r<Base>%s<m>), r<Dest>"
{
  do_ld_u (_SD, rDest, vBase, rBase, m, sz, S, rIndOff);
}
31.Dest,26.Base,21.0b110101,15.m,14.sz,12.1,11.S,10.0,9./+LongSignedImmediateOffset::::ld.u l
"ld.u%s<sz> 0x%08lx<LongSignedImmediateOffset>%s<S> (r<Base>%s<m>), r<Dest>"
{
  do_ld_u (_SD, rDest, vBase, rBase, m, sz, S, LongSignedImmediateOffset);
}

// lmo
31.Dest,26.Source,21.0b111111000,12.0,11./::::lmo
"lmo r<Source>, r<Dest>"
{
  int b;
  for (b = 0; b < 32; b++)
    if (vSource & BIT32 (31 - b))
      break;
  TRACE_ALU2 (MY_INDEX, b, vSource);
  *rDest = b;
}


// nop - see rdcr 0, r0


void::function::do_or:unsigned32 *rDest, unsigned32 Source1, unsigned32 Source2
{
  unsigned32 result = Source1 | Source2;
  TRACE_ALU3 (MY_INDEX, result, Source1, Source2);
  *rDest = result;
}

// or, or.tt
31.Dest,26.Source2,21.0b0010111,14.UnsignedImmediate::::or.tt i
"or.tt <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110010111,12.0,11./,4.Source1::::or.tt r
"or.tt r<Source1>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110010111,12.1,11./+LongUnsignedImmediate::::or.tt l
"or.tt 0x%08lx<LongUnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, LongUnsignedImmediate, vSource2);
}

// or.ff
31.Dest,26.Source2,21.0b0011110,14.UnsignedImmediate::::or.ff i
"or.ff <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, ~vSource1, ~vSource2);
}
31.Dest,26.Source2,21.0b110011110,12.0,11./,4.Source1::::or.ff r
"or.ff r<Source1>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, ~vSource1, ~vSource2);
}
31.Dest,26.Source2,21.0b110011110,12.1,11./+LongUnsignedImmediate::::or.ff l
"or.ff 0x%08lx<LongUnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, ~LongUnsignedImmediate, ~vSource2);
}

// or.ft
31.Dest,26.Source2,21.0b0011101,14.UnsignedImmediate::::or.ft i
"or.ft <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, ~vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110011101,12.0,11./,4.Source1::::or.ft r
"or.ft r<Source1>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, ~vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110011101,12.1,11./+LongUnsignedImmediate::::or.ft l
"or.ft 0x%08lx<LongUnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, ~LongUnsignedImmediate, vSource2);
}

// or.tf
31.Dest,26.Source2,21.0b0011011,14.UnsignedImmediate::::or.tf i
"or.tf <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, vSource1, ~vSource2);
}
31.Dest,26.Source2,21.0b110011011,12.0,11./,4.Source1::::or.tf r
"or.tf r<Source1>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, vSource1, ~vSource2);
}
31.Dest,26.Source2,21.0b110011011,12.1,11./+LongUnsignedImmediate::::or.tf l
"or.tf 0x%08lx<LongUnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_or (_SD, rDest, LongUnsignedImmediate, ~vSource2);
}

// rdcr
void::function::do_rdcr:unsigned32 Dest, int cr
{
  TRACE_SINK2 (MY_INDEX, Dest, cr);
  GPR (Dest) = CR (cr);
}
31.Dest,26.0,21.0b0000100,14.UCRN::::rdcr i
"rdcr CR[<UCRN>], r<Dest>"
{
  do_rdcr (_SD, Dest, UCRN);
}
31.Dest,26.0,21.0b110000100,12.0,11./,4.INDCR::::rdcr r
"rdcr CR[r<INDCR>], r<Dest>"
{
  do_rdcr (_SD, Dest, UCRN);
}
31.Dest,26.0,21.0b110000100,12.1,11./+UnsignedControlRegisterNumber::::rdcr l
"rdcr CR[<UnsignedControlRegisterNumber>], r<Dest>"
{
  do_rdcr (_SD, Dest, UnsignedControlRegisterNumber);
}

// rmo
31.Dest,26.Source,21.0b111111001,12.0,11./::::rmo
"rmo r<Source>, r<Dest>"
{
  int b;
  for (b = 0; b < 32; b++)
    if (vSource & BIT32 (b))
      break;
  if (b < 32)
    b = 31 - b;
  TRACE_ALU2 (MY_INDEX, b, vSource);
  *rDest = b;
}

// rotl - see sl.dz


// rotr - see sl.dz


// shl - see sl.iz


// sl.{d|e|i}{m|s|z}
void::function::do_shift:int Dest, unsigned32 source, int Merge, int i, int n, int EndMask, int Rotate
{
  /* see 10-30 for a reasonable description */
  unsigned32 input = source;
  unsigned32 rotated;
  unsigned32 endmask;
  unsigned32 shiftmask;
  unsigned32 cm;
  int nRotate;
  /* rotate the source */
  if (n)
    {
      rotated = ROTR32 (source, Rotate);
      nRotate = (- Rotate) & 31;
    }
  else
    {
      rotated = ROTL32 (source, Rotate);
      nRotate = Rotate;
    }
  /* form the end mask */
  if (EndMask == 0)
    endmask = ~ (unsigned32)0;
  else
    endmask = (1 << EndMask) - 1;
  if (i)
    endmask = ~endmask;
  /* form the shiftmask */
  switch (Merge)
    {
    case 0: case 1: case 2:
      shiftmask = ~ (unsigned32)0;  /* disabled */
      break;
    case 3: case 5:      /* enabled - 0 -> 32 */
      if (nRotate == 0)
        shiftmask = ~ (unsigned32)0;
      else
        shiftmask = ((1 << nRotate) - 1);  /* enabled - 0 -> 0 */
      break;
    case 4:
      shiftmask = ((1 << nRotate) - 1);  /* enabled - 0 -> 0 */
      break;
    case 6: case 7:
      shiftmask = ~((1 << nRotate) - 1);  /* inverted */
      break;
    default:
      sim_engine_abort (SD, CPU, cia,
                        "0x%lx: Invalid merge (%d) for shift",
                        (long) cia.ip, (int) source);
      shiftmask = 0;
    }
  /* and the composite mask */
  cm = shiftmask & endmask;
  /* and merge */
  switch (Merge)
    {
    case 0: case 3: case 6:    /* zero */
      GPR (Dest) = rotated & cm;
      break;
    case 1: case 4: case 7:    /* merge */
      GPR (Dest) = (rotated & cm) | (GPR (Dest) & ~cm);
      break;
    case 2: case 5:      /* sign */
      {
        int b;
        GPR (Dest) = rotated & cm;
        for (b = 1; b <= 31; b++)
          if (!MASKED32 (cm, b, b))
            GPR (Dest) |= INSERTED32 (EXTRACTED32 (GPR (Dest), b - 1, b - 1),
                                      b, b);
      }
      break;
    default:
      sim_engine_abort (SD, CPU, cia,
                        "0x%lx: Invalid merge (%d)",
                        (long) cia.ip, (int) source);
    }
  TRACE_SHIFT (MY_INDEX, GPR (Dest), input, i, n, Merge, EndMask, Rotate);
}
const char *::function::str_Merge:int Merge
{
  switch (Merge)
    {
    case 0: return "dz";
    case 1: return "dm";
    case 2: return "ds";
    case 3: return "ez";
    case 4: return "em";
    case 5: return "es";
    case 6: return "iz";
    case 7: return "im";
    default: return "?";
    }
}
31.Dest,26.Source,21.0b0001,17.Merge,14./,11.i,10.n,9.EndMask,4.Rotate::::sl i
"sl.%s<Merge> <Rotate>, <EndMask>, r<Source>, r<Dest>"
{
  do_shift (_SD, Dest, vSource, Merge, i, n, EndMask, Rotate);
}
31.Dest,26.Source,21.0b110001,15.Merge,12.0,11.i,10.n,9.EndMask,4.RotReg::::sl r
"sl.%s<Merge> r<RotReg>, <EndMask>, r<Source>, r<Dest>"
{
  do_shift (_SD, Dest, vSource, Merge, i, n, EndMask, GPR (RotReg) & 31);
}

// sli.{d|e|i}{m|s|z} - see shift


// sr.{d|e|i}{m|s|z} - see shift


// sra - see sr.es - see shift


// sri.{d|e|i}{m|s|z} - see shift


// srl - see sr.ez


// st[{.b|.h|.d}]
void::function::do_st:int Source, unsigned32 base, unsigned32 *rBase, int m , int sz, int S, unsigned32 offset
{
  unsigned32 addr;
  switch (sz)
    {
    case 0:
      addr = base + (S ? (offset << 0) : offset);
      STORE (addr, 1, GPR(Source));
      break;
    case 1:
      addr = base + (S ? (offset << 1) : offset);
      STORE (addr, 2, GPR(Source));
      break;
    case 2:
      addr = base + (S ? (offset << 2) : offset);
      STORE (addr, 4, GPR(Source));
      break;
    case 3:
      {
        signed64 val;
        if (Source & 0x1)
          sim_engine_abort (SD, CPU, cia,
                            "0x%lx: st.d with odd source register %d",
                            cia.ip, Source);
        addr = base + (S ? (offset << 3) : offset);
        val = U8_4 (GPR(Source + 1), GPR(Source));
        STORE (addr, 8, val);
      }
      break;
    default:
      addr = -1;
      sim_engine_abort (SD, CPU, cia, "st - invalid sz %d", sz);
    }
  if (m)
    *rBase = addr;
  TRACE_ST (Source, m, S, base, offset);
}
31.Source,26.Base,21.0b0110,17.m,16.sz,14.SignedOffset::::st i
"st%s<sz> <SignedOffset> (r<Base>%s<m>), r<Source>"
{
  do_st (_SD, Source, vBase, rBase, m, sz, 0, vSignedOffset);
}
31.Source,26.Base,21.0b110110,15.m,14.sz,12.0,11.S,10.0,9./,4.IndOff::::st r
"st%s<sz> r<IndOff>%s<S> (r<Base>%s<m>), r<Source>"
{
  do_st (_SD, Source, vBase, rBase, m, sz, S, rIndOff);
}
31.Source,26.Base,21.0b110110,15.m,14.sz,12.1,11.S,10.0,9./+LongSignedImmediateOffset::::st l
"st%s<sz> 0x%08lx<LongSignedImmediateOffset>%s<S> (r<Base>%s<m>), r<Source>"
{
  do_st (_SD, Source, vBase, rBase, m, sz, S, LongSignedImmediateOffset);
}

// sub
void::function::do_sub:signed32 *rDest, signed32 Source1, signed32 Source2
{
  ALU_BEGIN (Source1);
  ALU_SUB (Source2);
  ALU_END (*rDest);
  TRACE_ALU3 (MY_INDEX, *rDest, Source1, Source2);
}
31.Dest,26.Source2,21.0b101101,15.0,14.SignedImmediate::::sub i
"sub <SignedImmediate>, r<Source2>, r<Dest>"
{
  do_sub (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b11101101,13.0,12.0,11./,4.Source1::::sub r
"sub r<Source1>, r<Source2>, r<Dest>"
{
  do_sub (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b11101101,13.0,12.1,11./+LongSignedImmediate::::sub l
"sub 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_sub (_SD, rDest, LongSignedImmediate, vSource2);
}

// subu
void::function::do_subu:unsigned32 *rDest, unsigned32 Source1, signed32 Source2
{
  unsigned32 result = Source1 - Source2;
  TRACE_ALU3 (MY_INDEX, result, Source1, Source2);
  *rDest = result;
}
// NOTE - the book has 15.1 which conflicts with subu.
31.Dest,26.Source2,21.0b101101,15.1,14.SignedImmediate::::subu i
"subu <SignedImmediate>, r<Source2>, r<Dest>"
{
  do_subu (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b11101101,13.1,12.0,11./,4.Source1::::subu r
"subu r<Source1>, r<Source2>, r<Dest>"
{
  do_subu (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b11101101,13.1,12.1,11./+LongSignedImmediate::::subu l
"subu 0x%08lx<LongSignedImmediate>, r<Source2>, r<Dest>"
{
  do_subu (_SD, rDest, LongSignedImmediate, vSource2);
}

// swcr
void::function::do_swcr:int Dest, signed32 source, signed32 cr
{
  tic80_control_regs reg = tic80_index2cr (cr);
  /* cache the old CR value */
  unsigned32 old_cr = CR (cr);
  /* Handle the write if allowed */
  if (cr >= 0x4000 || !(CPU)->is_user_mode)
    switch (reg)
      {
      case INTPEN_CR:
        CR (cr) &= ~source;
        break;
      default:
        CR (cr) = source;
        break;
      }
  /* Finish off the read */
  GPR (Dest) = old_cr;
  TRACE_SINK3 (MY_INDEX, source, cr, Dest);
}
31.Dest,26.Source,21.0b000010,15.1,14.UCRN::::swcr i
"swcr CR[<UCRN>], r<Dest>"
{
  do_swcr (_SD, Dest, vSource, UCRN);
}
31.Dest,26.Source,21.0b11000010,13.1,12.0,11./,4.INDCR::::swcr r
"swcr CR[r<INDCR>], r<Dest>"
{
  do_swcr (_SD, Dest, vSource, UCRN);
}
31.Dest,26.Source,21.0b11000010,13.1,12.1,11./+LongUnsignedControlRegisterNumber::::swcr l
"swcr CR[<LongUnsignedControlRegisterNumber>], r<Dest>"
{
  do_swcr (_SD, Dest, vSource, LongUnsignedControlRegisterNumber);
}

// trap
void::function::do_trap:unsigned32 trap_number
{
  int i;
  TRACE_SINK1 (MY_INDEX, trap_number);
  switch (trap_number)
    {
    case 72:
      switch (GPR(15))
        {
        case 1: /* EXIT */
          {
            sim_engine_halt (SD, CPU, NULL, cia, sim_exited, GPR(2));
            break;
          }
        case 4: /* WRITE */
          {
            unsigned i;
            if (GPR(2) == 1)
        for (i = 0; i < GPR(6); i++)
                {
            char c;
            c = MEM (unsigned, GPR(4) + i, 1);
                  sim_io_write_stdout (SD, &c, 1);
                }
            else if (GPR(2) == 2)
        for (i = 0; i < GPR(6); i++)
                {
            char c;
            c = MEM (unsigned, GPR(4) + i, 1);
                  sim_io_write_stderr (SD, &c, 1);
                }
            else
              sim_engine_abort (SD, CPU, cia,
                                "0x%lx: write to invalid fid %d",
                                (long) cia.ip, (int) GPR(2));
            GPR(2) = GPR(6);
            break;
          }
        case 20: /* GETPID */
    {
      GPR(2) = getpid ();
      break;
    }
        case 37: /* KILL */
    if ( GPR (2) != (unsigned) getpid ())
      {
        int ret = kill (GPR(2), GPR(4));
        if (ret < 0)
          ret = -errno;
        GPR (2) = ret;
        break;
      }
    else
      {
        sim_engine_halt (SD, CPU, NULL, cia, sim_signalled, GPR(4));
        break;
      }
        default:
    /* For system calls which are defined, just return EINVAL instead of trapping */
    if (GPR(15) <= 204)
      {
        GPR(2) = -22;    /* -EINVAL */
        break;
      }
          sim_engine_abort (SD, CPU, cia,
                            "0x%lx: unknown syscall %d",
                            (long) cia.ip, (int) GPR(15));
        }
      break;
    case 73:
      sim_engine_halt (SD, CPU, NULL, cia, sim_stopped, SIM_SIGTRAP);

    /* Add a few traps for now to print the register state */
    case 74:
    case 75:
    case 76:
    case 77:
    case 78:
    case 79:
      if (!TRACE_ALU_P (CPU))
        trace_one_insn (SD, CPU, cia.ip, 1, itable[MY_INDEX].file,
            itable[MY_INDEX].line_nr, "trap",
            "Trap %ld", (long) trap_number);

      for (i = 0; i < 32; i++)
        sim_io_eprintf (SD, "%s0x%.8lx%s", ((i % 8) == 0) ? "\t" : " ", (long)GPR(i),
            (((i+1) % 8) == 0) ? "\n" : "");
      sim_io_write_stderr (SD, "\n", 1);
      break;

    default:
      sim_engine_abort (SD, CPU, cia,
                        "0x%lx: unsupported trap %d",
                        (long) cia.ip, (int) trap_number);
    }
}
31./,27.0,26./,21.0b0000001,14.UTN::::trap i
"trap <UTN>"
{
  do_trap (_SD, UTN);
}
31./,27.0,26./,21.0b110000001,12.0,11./,4.INDTR::::trap r
"trap r<INDTR>"
{
  do_trap (_SD, UTN);
}
31./,27.0,26./,21.0b110000001,12.1,11./+UTN::::trap l
"trap 0x%08lx<UTN>"
{
  do_trap (_SD, UTN);
}

// vadd.{s|d}{s|d}
31.*,26.Dest,21.0b11110,16./,15.0b000,12.0,11./,10.*,9.*,7.PD,6.*,5.P1,4.Source::f::vadd r
31.*,26.Dest,21.0b11110,16./,15.0b000,12.1,11./,10.*,9.*,7.PD,6.*,5.P1,4.Source::f::vadd l


// vld{0|1}.{s|d} - see above - same instruction
#31.Dest,26.*,21.0b11110,16.*,10.1,9.S,8.*,6.p,7.******::f::vld


// vmac.ss{s|d}
#31.*,   26.Source2,21.0b11110,16.a0,15.0b110,12.0,11.a1,10.*,9.*, 8.Z,7./,6.*,5./,4.Source1::f::vmac.ss ra
31.Dest,26.Source2,21.0b11110,16.a0,15.0b110,12.0,11.a1,10.0,9.PD,8.Z,7./,6.0,5./,4.Source1::f::vmac.ss rr
#31.*,   26.Source2,21.0b11110,16.a0,15.0b110,12.1,11.a1,10.*,9.*, 8.Z,7./,6.*,5./,4./::f::vmac.ss ia
31.Dest,26.Source2,21.0b11110,16.a0,15.0b110,12.1,11.a1,10.0,9.PD,8.Z,7./,6.0,5./,4./::f::vmac.ss ir


// vmpy.{s|d}{s|d}
31.*,26.Dest,21.0b11110,16./,15.0b010,12.0,11./,10.*,8.*,7.PD,6.*,5.P1,4.Source::f::vmpy r
31.*,26.Dest,21.0b11110,16./,15.0b010,12.1,11./,10.*,8.*,7.PD,6.*,5.P1,4./::f::vmpy l


// vmsc.ss{s|d}
#31.*,   26.Source2,21.0b11110,16.a0,15.0b111,12.0,11.a1,10.*,9.*, 8.Z,7./,6.*,5./,4.Source1::f::vmsc.ss ra
31.Dest,26.Source2,21.0b11110,16.a0,15.0b111,12.0,11.a1,10.0,9.PD,8.Z,7./,6.0,5./,4.Source1::f::vmsc.ss rr
#31.*,   26.Source2,21.0b11110,16.a0,15.0b111,12.1,11.a1,10.*,9.*, 8.Z,7./,6.*,5./,4./::f::vmsc.ss ia
31.Dest,26.Source2,21.0b11110,16.a0,15.0b111,12.1,11.a1,10.0,9.PD,8.Z,7./,6.0,5./,4./::f::vmsc.ss ir


// vmsub.{s|d}{s|d}
31.*,26.Dest,21.0b11110,16.a0,15.0b011,12.0,11.a1,10.*,8.Z,7.PD,6.*,5./,4.Source::f::vmsub r
31.*,26.Dest,21.0b11110,16.a0,15.0b011,12.1,11.a1,10.*,8.Z,7.PD,6.*,5./,4./::f::vmsub l


// vrnd.{s|d}{s|d}
31.*,26.Dest,21.0b11110,16.a0,15.0b100,12.0,11.a1,10.*,8.PD,6.*,5.P1,4.Source::f::vrnd f r
31.*,26.Dest,21.0b11110,16.a0,15.0b100,12.1,11.a1,10.*,8.PD,6.*,5.P1,4./::f::vrnd f l


// vrnd.{i|u}{s|d}
31.*,26.Dest,21.0b11110,16./,15.0b101,12.0,11./,10.*,8./,7.PD,6.*,5.P1,4.Source::f::vrnd i r
31.*,26.Dest,21.0b11110,16./,15.0b101,12.1,11./,10.*,8./,7.PD,6.*,5.P1,4./::f::vrnd i l


// vst.{s|d} - see above - same instruction
#31.Source,26.*,21.0b11110,16.*,10.0,9.S,8.*,6.1,5.*::f::vst


// vsub.{i|u}{s|d}
31.*,26.Dest,21.0b11110,16./,15.0b001,12.0,11./,10.*,8./,7.PD,6.*,5.P1,4.Source::f::vsub r
31.*,26.Dest,21.0b11110,16./,15.0b001,12.1,11./,10.*,8./,7.PD,6.*,5.P1,4./::f::vsub l


// wrcr - see swcr, creg, source, r0


// xnor
void::function::do_xnor:signed32 *rDest, signed32 source1, signed32 source2
{
  unsigned32 result = ~ (source1 ^ source2);
  TRACE_ALU3 (MY_INDEX, result, source1, source2);
  *rDest = result;
}
31.Dest,26.Source2,21.0b0011001,14.UnsignedImmediate::::xnor i
"xnor <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_xnor (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110011001,12.0,11./,4.Source1::::xnor r
"xnor r<Source1>, r<Source2>, r<Dest>"
{
  do_xnor (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110011001,12.1,11./+LongUnsignedImmediate::::xnor l
"xnor 0x%08lx<LongUnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_xnor (_SD, rDest, LongUnsignedImmediate, vSource2);
}

// xor
void::function::do_xor:signed32 *rDest, signed32 source1, signed32 source2
{
  unsigned32 result = source1 ^ source2;
  TRACE_ALU3 (MY_INDEX, result, source1, source2);
  *rDest = result;
}
31.Dest,26.Source2,21.0b0010110,14.UnsignedImmediate::::xor i
"xor <UnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_xor (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110010110,12.0,11./,4.Source1::::xor r
"xor r<Source1>, r<Source2>, r<Dest>"
{
  do_xor (_SD, rDest, vSource1, vSource2);
}
31.Dest,26.Source2,21.0b110010110,12.1,11./+LongUnsignedImmediate::::xor l
"xor 0x%08lx<LongUnsignedImmediate>, r<Source2>, r<Dest>"
{
  do_xor (_SD, rDest, LongUnsignedImmediate, vSource2);
}

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