Subversion Repositories openrisc

/* tc-z80.c -- Assemble code for the Zilog Z80 and ASCII R800

   Copyright 2005, 2006, 2007 Free Software Foundation, Inc.

   Contributed by Arnold Metselaar <arnold_m@operamail.com>

   This file is part of GAS, the GNU Assembler.

   GAS is free software; you can redistribute it and/or modify

   it under the terms of the GNU General Public License as published by

   the Free Software Foundation; either version 3, or (at your option)

   any later version.

   GAS is distributed in the hope that it will be useful,

   but WITHOUT ANY WARRANTY; without even the implied warranty of

   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License

   along with GAS; see the file COPYING.  If not, write to the Free

   Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA

   02110-1301, USA.  */

#include "as.h"

#include "safe-ctype.h"

#include "subsegs.h"

/* Exported constants.  */

const char comment_chars[] = ";\0";

const char line_comment_chars[] = "#;\0";

const char line_separator_chars[] = "\0";

const char EXP_CHARS[] = "eE\0";

const char FLT_CHARS[] = "RrFf\0";

/* For machine specific options.  */

const char * md_shortopts = ""; /* None yet.  */

enum options

{

  OPTION_MACH_Z80 = OPTION_MD_BASE,

  OPTION_MACH_R800,

  OPTION_MACH_IUD,

  OPTION_MACH_WUD,

  OPTION_MACH_FUD,

  OPTION_MACH_IUP,

  OPTION_MACH_WUP,

  OPTION_MACH_FUP

};

#define INS_Z80    1

#define INS_UNDOC  2

#define INS_UNPORT 4

#define INS_R800   8

struct option md_longopts[] =

{

  { "z80",       no_argument, NULL, OPTION_MACH_Z80},

  { "r800",      no_argument, NULL, OPTION_MACH_R800},

  { "ignore-undocumented-instructions", no_argument, NULL, OPTION_MACH_IUD },

  { "Wnud",  no_argument, NULL, OPTION_MACH_IUD },

  { "warn-undocumented-instructions",  no_argument, NULL, OPTION_MACH_WUD },

  { "Wud",  no_argument, NULL, OPTION_MACH_WUD },

  { "forbid-undocumented-instructions", no_argument, NULL, OPTION_MACH_FUD },

  { "Fud",  no_argument, NULL, OPTION_MACH_FUD },

  { "ignore-unportable-instructions", no_argument, NULL, OPTION_MACH_IUP },

  { "Wnup",  no_argument, NULL, OPTION_MACH_IUP },

  { "warn-unportable-instructions",  no_argument, NULL, OPTION_MACH_WUP },

  { "Wup",  no_argument, NULL, OPTION_MACH_WUP },

  { "forbid-unportable-instructions", no_argument, NULL, OPTION_MACH_FUP },

  { "Fup",  no_argument, NULL, OPTION_MACH_FUP },

  { NULL, no_argument, NULL, 0 }

} ;

size_t md_longopts_size = sizeof (md_longopts);

extern int coff_flags;

/* Instruction classes that silently assembled.  */

static int ins_ok = INS_Z80 | INS_UNDOC;

/* Instruction classes that generate errors.  */

static int ins_err = INS_R800;

/* Instruction classes actually used, determines machine type.  */

static int ins_used = INS_Z80;

int

md_parse_option (int c, char* arg ATTRIBUTE_UNUSED)

{

  switch (c)

    {

    default:

      return 0;

    case OPTION_MACH_Z80:

      ins_ok &= ~INS_R800;

      ins_err |= INS_R800;

      break;

    case OPTION_MACH_R800:

      ins_ok = INS_Z80 | INS_UNDOC | INS_R800;

      ins_err = INS_UNPORT;

      break;

    case OPTION_MACH_IUD:

      ins_ok |= INS_UNDOC;

      ins_err &= ~INS_UNDOC;

      break;

    case OPTION_MACH_IUP:

      ins_ok |= INS_UNDOC | INS_UNPORT;

      ins_err &= ~(INS_UNDOC | INS_UNPORT);

      break;

    case OPTION_MACH_WUD:

      if ((ins_ok & INS_R800) == 0)

        {

          ins_ok &= ~(INS_UNDOC|INS_UNPORT);

          ins_err &= ~INS_UNDOC;

        }

      break;

    case OPTION_MACH_WUP:

      ins_ok &= ~INS_UNPORT;

      ins_err &= ~(INS_UNDOC|INS_UNPORT);

      break;

    case OPTION_MACH_FUD:

      if ((ins_ok & INS_R800) == 0)

        {

          ins_ok &= (INS_UNDOC | INS_UNPORT);

          ins_err |= INS_UNDOC | INS_UNPORT;

        }

      break;

    case OPTION_MACH_FUP:

      ins_ok &= ~INS_UNPORT;

      ins_err |= INS_UNPORT;

      break;

    }

  return 1;

}

void

md_show_usage (FILE * f)

{

  fprintf (f, "\n\

CPU model/instruction set options:\n\

\n\

  -z80\t\t  assemble for Z80\n\

  -ignore-undocumented-instructions\n\

  -Wnud\n\

\tsilently assemble undocumented Z80-instructions that work on R800\n\

  -ignore-unportable-instructions\n\

  -Wnup\n\

\tsilently assemble all undocumented Z80-instructions\n\

  -warn-undocumented-instructions\n\

  -Wud\n\

\tissue warnings for undocumented Z80-instructions that work on R800\n\

  -warn-unportable-instructions\n\

  -Wup\n\

\tissue warnings for other undocumented Z80-instructions\n\

  -forbid-undocumented-instructions\n\

  -Fud\n\

\ttreat all undocumented z80-instructions as errors\n\

  -forbid-unportable-instructions\n\

  -Fup\n\

\ttreat undocumented z80-instructions that do not work on R800 as errors\n\

  -r800\t  assemble for R800\n\n\

Default: -z80 -ignore-undocument-instructions -warn-unportable-instructions.\n");

}

static symbolS * zero;

void

md_begin (void)

{

  expressionS nul;

  char * p;

  p = input_line_pointer;

  input_line_pointer = "0";

  nul.X_md=0;

  expression (& nul);

  input_line_pointer = p;

  zero = make_expr_symbol (& nul);

  /* We do not use relaxation (yet).  */

  linkrelax = 0;

}

void

z80_md_end (void)

{

  int mach_type;

  if (ins_used & (INS_UNPORT | INS_R800))

    ins_used |= INS_UNDOC;

  switch (ins_used)

    {

    case INS_Z80:

      mach_type = bfd_mach_z80strict;

      break;

    case INS_Z80|INS_UNDOC:

      mach_type = bfd_mach_z80;

      break;

    case INS_Z80|INS_UNDOC|INS_UNPORT:

      mach_type = bfd_mach_z80full;

      break;

    case INS_Z80|INS_UNDOC|INS_R800:

      mach_type = bfd_mach_r800;

      break;

    default:

      mach_type = 0;

    }

  bfd_set_arch_mach (stdoutput, TARGET_ARCH, mach_type);

}

static const char *

skip_space (const char *s)

{

  while (*s == ' ' || *s == '\t')

    ++s;

  return s;

}

/* A non-zero return-value causes a continue in the

   function read_a_source_file () in ../read.c.  */

int

z80_start_line_hook (void)

{

  char *p, quote;

  char buf[4];

  /* Convert one character constants.  */

  for (p = input_line_pointer; *p && *p != '\n'; ++p)

    {

      switch (*p)

        {

        case '\'':

          if (p[1] != 0 && p[1] != '\'' && p[2] == '\'')

            {

              snprintf (buf, 4, "%3d", (unsigned char)p[1]);

              *p++ = buf[0];

              *p++ = buf[1];

              *p++ = buf[2];

              break;

            }

        case '"':

          for (quote = *p++; quote != *p && '\n' != *p; ++p)

            /* No escapes.  */ ;

          if (quote != *p)

            {

              as_bad (_("-- unterminated string"));

              ignore_rest_of_line ();

              return 1;

            }

          break;

        }

    }

  /* Check for <label>[:] [.](EQU|DEFL) <value>.  */

  if (is_name_beginner (*input_line_pointer))

    {

      char c, *rest, *line_start;

      int len;

      symbolS * symbolP;

      line_start = input_line_pointer;

      LISTING_NEWLINE ();

      if (ignore_input ())

        return 0;

      c = get_symbol_end ();

      rest = input_line_pointer + 1;

      if (*rest == ':')

        ++rest;

      if (*rest == ' ' || *rest == '\t')

        ++rest;

      if (*rest == '.')

        ++rest;

      if (strncasecmp (rest, "EQU", 3) == 0)

        len = 3;

      else if (strncasecmp (rest, "DEFL", 4) == 0)

        len = 4;

      else

        len = 0;

      if (len && (rest[len] == ' ' || rest[len] == '\t'))

        {

          /* Handle assignment here.  */

          input_line_pointer = rest + len;

          if (line_start[-1] == '\n')

            bump_line_counters ();

          /* Most Z80 assemblers require the first definition of a

             label to use "EQU" and redefinitions to have "DEFL".  */

          if (len == 3 && (symbolP = symbol_find (line_start)) != NULL)

            {

              if (S_IS_DEFINED (symbolP) || symbol_equated_p (symbolP))

                as_bad (_("symbol `%s' is already defined"), line_start);

            }

          equals (line_start, 1);

          return 1;

        }

      else

        {

          /* Restore line and pointer.  */

          *input_line_pointer = c;

          input_line_pointer = line_start;

        }

    }

  return 0;

}

symbolS *

md_undefined_symbol (char *name ATTRIBUTE_UNUSED)

{

  return NULL;

}

char *

md_atof (int type ATTRIBUTE_UNUSED, char *litP ATTRIBUTE_UNUSED,

         int *sizeP ATTRIBUTE_UNUSED)

{

  return _("floating point numbers are not implemented");

}

valueT

md_section_align (segT seg ATTRIBUTE_UNUSED, valueT size)

{

  return size;

}

long

md_pcrel_from (fixS * fixp)

{

  return fixp->fx_where +

    fixp->fx_frag->fr_address + 1;

}

typedef const char * (asfunc)(char, char, const char*);

typedef struct _table_t

{

  char* name;

  char prefix;

  char opcode;

  asfunc * fp;

} table_t;

/* Compares the key for structs that start with a char * to the key.  */

static int

key_cmp (const void * a, const void * b)

{

  const char *str_a, *str_b;

  str_a = *((const char**)a);

  str_b = *((const char**)b);

  return strcmp (str_a, str_b);

}

#define BUFLEN 8 /* Large enough for any keyword.  */

char buf[BUFLEN];

const char *key = buf;

#define R_STACKABLE (0x80)

#define R_ARITH     (0x40)

#define R_IX        (0x20)

#define R_IY        (0x10)

#define R_INDEX     (R_IX | R_IY)

#define REG_A (7)

#define REG_B (0)

#define REG_C (1)

#define REG_D (2)

#define REG_E (3)

#define REG_H (4)

#define REG_L (5)

#define REG_F (6 | 8)

#define REG_I (9)

#define REG_R (10)

#define REG_AF (3 | R_STACKABLE)

#define REG_BC (0 | R_STACKABLE | R_ARITH)

#define REG_DE (1 | R_STACKABLE | R_ARITH)

#define REG_HL (2 | R_STACKABLE | R_ARITH)

#define REG_SP (3 | R_ARITH)

static const struct reg_entry

{

  char* name;

  int number;

} regtable[] =

{

  {"a",  REG_A },

  {"af", REG_AF },

  {"b",  REG_B },

  {"bc", REG_BC },

  {"c",  REG_C },

  {"d",  REG_D },

  {"de", REG_DE },

  {"e",  REG_E },

  {"f",  REG_F },

  {"h",  REG_H },

  {"hl", REG_HL },

  {"i",  REG_I },

  {"ix", REG_HL | R_IX },

  {"ixh",REG_H | R_IX },

  {"ixl",REG_L | R_IX },

  {"iy", REG_HL | R_IY },

  {"iyh",REG_H | R_IY },

  {"iyl",REG_L | R_IY },

  {"l",  REG_L },

  {"r",  REG_R },

  {"sp", REG_SP },

} ;

/* Prevent an error on a line from also generating

   a "junk at end of line" error message.  */

static char err_flag;

static void

error (const char * message)

{

  as_bad (message);

  err_flag = 1;

}

static void

ill_op (void)

{

  error (_("illegal operand"));

}

static void

wrong_mach (int ins_type)

{

  const char *p;

  switch (ins_type)

    {

    case INS_UNDOC:

      p = "undocumented instruction";

      break;

    case INS_UNPORT:

      p = "instruction does not work on R800";

      break;

    case INS_R800:

      p = "instruction only works R800";

      break;

    default:

      p = 0; /* Not reachable.  */

    }

  if (ins_type & ins_err)

    error (_(p));

  else

    as_warn (_(p));

}

static void

check_mach (int ins_type)

{

  if ((ins_type & ins_ok) == 0)

    wrong_mach (ins_type);

  ins_used |= ins_type;

}

/* Check whether an expression is indirect.  */

static int

is_indir (const char *s)

{

  char quote;

  const char *p;

  int indir, depth;

  /* Indirection is indicated with parentheses.  */

  indir = (*s == '(');

  for (p = s, depth = 0; *p && *p != ','; ++p)

    {

      switch (*p)

        {

        case '"':

        case '\'':

          for (quote = *p++; quote != *p && *p != '\n'; ++p)

            if (*p == '\\' && p[1])

              ++p;

          break;

        case '(':

          ++ depth;

          break;

        case ')':

          -- depth;

          if (depth == 0)

            {

              p = skip_space (p + 1);

              if (*p && *p != ',')

                indir = 0;

              --p;

            }

          if (depth < 0)

            error (_("mismatched parentheses"));

          break;

        }

    }

  if (depth != 0)

    error (_("mismatched parentheses"));

  return indir;

}

/* Parse general expression.  */

static const char *

parse_exp2 (const char *s, expressionS *op, segT *pseg)

{

  const char *p;

  int indir;

  int i;

  const struct reg_entry * regp;

  expressionS offset;

  p = skip_space (s);

  op->X_md = indir = is_indir (p);

  if (indir)

    p = skip_space (p + 1);

  for (i = 0; i < BUFLEN; ++i)

    {

      if (!ISALPHA (p[i])) /* Register names consist of letters only.  */

        break;

      buf[i] = TOLOWER (p[i]);

    }

  if ((i < BUFLEN) && ((p[i] == 0) || (strchr (")+-, \t", p[i]))))

    {

      buf[i] = 0;

      regp = bsearch (& key, regtable, ARRAY_SIZE (regtable),

                      sizeof (regtable[0]), key_cmp);

      if (regp)

        {

          *pseg = reg_section;

          op->X_add_symbol = op->X_op_symbol = 0;

          op->X_add_number = regp->number;

          op->X_op = O_register;

          p += strlen (regp->name);

          p = skip_space (p);

          if (indir)

            {

              if (*p == ')')

                ++p;

              if ((regp->number & R_INDEX) && (regp->number & R_ARITH))

                {

                  op->X_op = O_md1;

                  if  ((*p == '+') || (*p == '-'))

                    {

                      input_line_pointer = (char*) p;

                      expression (& offset);

                      p = skip_space (input_line_pointer);

                      if (*p != ')')

                        error (_("bad offset expression syntax"));

                      else

                        ++ p;

                      op->X_add_symbol = make_expr_symbol (& offset);

                      return p;

                    }

                  /* We treat (i[xy]) as (i[xy]+0), which is how it will

                     end up anyway, unless we're processing jp (i[xy]).  */

                  op->X_add_symbol = zero;

                }

            }

          p = skip_space (p);

          if ((*p == 0) || (*p == ','))

            return p;

        }

    }

  /* Not an argument involving a register; use the generic parser.  */

  input_line_pointer = (char*) s ;

  *pseg = expression (op);

  if (op->X_op == O_absent)

    error (_("missing operand"));

  if (op->X_op == O_illegal)

    error (_("bad expression syntax"));

  return input_line_pointer;

}

static const char *

parse_exp (const char *s, expressionS *op)

{

  segT dummy;

  return parse_exp2 (s, op, & dummy);

}

/* Condition codes, including some synonyms provided by HiTech zas.  */

static const struct reg_entry cc_tab[] =

{

  { "age", 6 << 3 },

  { "alt", 7 << 3 },

  { "c",   3 << 3 },

  { "di",  4 << 3 },

  { "ei",  5 << 3 },

  { "lge", 2 << 3 },

  { "llt", 3 << 3 },

  { "m",   7 << 3 },

  { "nc",  2 << 3 },

  { "nz",  0 << 3 },

  { "p",   6 << 3 },

  { "pe",  5 << 3 },

  { "po",  4 << 3 },

  { "z",   1 << 3 },

} ;

/* Parse condition code.  */

static const char *

parse_cc (const char *s, char * op)

{

  const char *p;

  int i;

  struct reg_entry * cc_p;

  for (i = 0; i < BUFLEN; ++i)

    {

      if (!ISALPHA (s[i])) /* Condition codes consist of letters only.  */

        break;

      buf[i] = TOLOWER (s[i]);

    }

  if ((i < BUFLEN)

      && ((s[i] == 0) || (s[i] == ',')))

    {

      buf[i] = 0;

      cc_p = bsearch (&key, cc_tab, ARRAY_SIZE (cc_tab),

                      sizeof (cc_tab[0]), key_cmp);

    }

  else

    cc_p = NULL;

  if (cc_p)

    {

      *op = cc_p->number;

      p = s + i;

    }

  else

    p = NULL;

  return p;

}

static const char *

emit_insn (char prefix, char opcode, const char * args)

{

  char *p;

  if (prefix)

    {

      p = frag_more (2);

      *p++ = prefix;

    }

  else