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/* Copyright (C) 2009-2015 Free Software Foundation, Inc.
   Contributed by Anatoly Sokolov (aesok@post.ru)

   This file is part of GCC.

   GCC 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.
   
   GCC 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 GCC; see the file COPYING3.  If not see
   <http://www.gnu.org/licenses/>.  */

/* Not included in avr.c since this requires C front end.  */

#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "tm_p.h"
#include "cpplib.h"
#include "tree.h"
#include "stor-layout.h"
#include "target.h"
#include "c-family/c-common.h"
#include "langhooks.h"


/* IDs for all the AVR builtins.  */

enum avr_builtin_id
  {
#define DEF_BUILTIN(NAME, N_ARGS, TYPE, CODE, LIBNAME)  \
    AVR_BUILTIN_ ## NAME,
#include "builtins.def"
#undef DEF_BUILTIN

    AVR_BUILTIN_COUNT
  };


/* Implement `TARGET_RESOLVE_OVERLOADED_PLUGIN'.  */

static tree
avr_resolve_overloaded_builtin (unsigned int iloc, tree fndecl, void *vargs)
{
  tree type0, type1, fold = NULL_TREE;
  enum avr_builtin_id id = AVR_BUILTIN_COUNT;
  location_t loc = (location_t) iloc;
  vec<tree, va_gc> &args = * (vec<tree, va_gc>*) vargs;

  switch (DECL_FUNCTION_CODE (fndecl))
    {
    default:
      break;

    case AVR_BUILTIN_ABSFX:
      if (args.length() != 1)
        {
          error_at (loc, "%qs expects 1 argument but %d given",
                    "absfx", (int) args.length());

          fold = error_mark_node;
          break;
        }

      type0 = TREE_TYPE (args[0]);

      if (!FIXED_POINT_TYPE_P (type0))
        {
          error_at (loc, "%qs expects a fixed-point value as argument",
                    "absfx");

          fold = error_mark_node;
        }

      switch (TYPE_MODE (type0))
        {
        case QQmode: id = AVR_BUILTIN_ABSHR; break;
        case HQmode: id = AVR_BUILTIN_ABSR; break;
        case SQmode: id = AVR_BUILTIN_ABSLR; break;
        case DQmode: id = AVR_BUILTIN_ABSLLR; break;

        case HAmode: id = AVR_BUILTIN_ABSHK; break;
        case SAmode: id = AVR_BUILTIN_ABSK; break;
        case DAmode: id = AVR_BUILTIN_ABSLK; break;
        case TAmode: id = AVR_BUILTIN_ABSLLK; break;

        case UQQmode:
        case UHQmode:
        case USQmode:
        case UDQmode:
        case UHAmode:
        case USAmode:
        case UDAmode:
        case UTAmode:
          warning_at (loc, 0, "using %qs with unsigned type has no effect",
                      "absfx");
          return args[0];

        default:
          error_at (loc, "no matching fixed-point overload found for %qs",
                    "absfx");

          fold = error_mark_node;
          break;
        }

      fold = targetm.builtin_decl (id, true);

      if (fold != error_mark_node)
        fold = build_function_call_vec (loc, vNULL, fold, &args, NULL);

      break; // absfx

    case AVR_BUILTIN_ROUNDFX:
      if (args.length() != 2)
        {
          error_at (loc, "%qs expects 2 arguments but %d given",
                    "roundfx", (int) args.length());

          fold = error_mark_node;
          break;
        }

      type0 = TREE_TYPE (args[0]);
      type1 = TREE_TYPE (args[1]);

      if (!FIXED_POINT_TYPE_P (type0))
        {
          error_at (loc, "%qs expects a fixed-point value as first argument",
                    "roundfx");

          fold = error_mark_node;
        }

      if (!INTEGRAL_TYPE_P (type1))
        {
          error_at (loc, "%qs expects an integer value as second argument",
                    "roundfx");

          fold = error_mark_node;
        }

      switch (TYPE_MODE (type0))
        {
        case QQmode: id = AVR_BUILTIN_ROUNDHR; break;
        case HQmode: id = AVR_BUILTIN_ROUNDR; break;
        case SQmode: id = AVR_BUILTIN_ROUNDLR; break;
        case DQmode: id = AVR_BUILTIN_ROUNDLLR; break;

        case UQQmode: id = AVR_BUILTIN_ROUNDUHR; break;
        case UHQmode: id = AVR_BUILTIN_ROUNDUR; break;
        case USQmode: id = AVR_BUILTIN_ROUNDULR; break;
        case UDQmode: id = AVR_BUILTIN_ROUNDULLR; break;

        case HAmode: id = AVR_BUILTIN_ROUNDHK; break;
        case SAmode: id = AVR_BUILTIN_ROUNDK; break;
        case DAmode: id = AVR_BUILTIN_ROUNDLK; break;
        case TAmode: id = AVR_BUILTIN_ROUNDLLK; break;

        case UHAmode: id = AVR_BUILTIN_ROUNDUHK; break;
        case USAmode: id = AVR_BUILTIN_ROUNDUK; break;
        case UDAmode: id = AVR_BUILTIN_ROUNDULK; break;
        case UTAmode: id = AVR_BUILTIN_ROUNDULLK; break;

        default:
          error_at (loc, "no matching fixed-point overload found for %qs",
                    "roundfx");

          fold = error_mark_node;
          break;
        }

      fold = targetm.builtin_decl (id, true);

      if (fold != error_mark_node)
        fold = build_function_call_vec (loc, vNULL, fold, &args, NULL);

      break; // roundfx

    case AVR_BUILTIN_COUNTLSFX:
      if (args.length() != 1)
        {
          error_at (loc, "%qs expects 1 argument but %d given",
                    "countlsfx", (int) args.length());

          fold = error_mark_node;
          break;
        }

      type0 = TREE_TYPE (args[0]);

      if (!FIXED_POINT_TYPE_P (type0))
        {
          error_at (loc, "%qs expects a fixed-point value as first argument",
                    "countlsfx");

          fold = error_mark_node;
        }

      switch (TYPE_MODE (type0))
        {
        case QQmode: id = AVR_BUILTIN_COUNTLSHR; break;
        case HQmode: id = AVR_BUILTIN_COUNTLSR; break;
        case SQmode: id = AVR_BUILTIN_COUNTLSLR; break;
        case DQmode: id = AVR_BUILTIN_COUNTLSLLR; break;

        case UQQmode: id = AVR_BUILTIN_COUNTLSUHR; break;
        case UHQmode: id = AVR_BUILTIN_COUNTLSUR; break;
        case USQmode: id = AVR_BUILTIN_COUNTLSULR; break;
        case UDQmode: id = AVR_BUILTIN_COUNTLSULLR; break;

        case HAmode: id = AVR_BUILTIN_COUNTLSHK; break;
        case SAmode: id = AVR_BUILTIN_COUNTLSK; break;
        case DAmode: id = AVR_BUILTIN_COUNTLSLK; break;
        case TAmode: id = AVR_BUILTIN_COUNTLSLLK; break;

        case UHAmode: id = AVR_BUILTIN_COUNTLSUHK; break;
        case USAmode: id = AVR_BUILTIN_COUNTLSUK; break;
        case UDAmode: id = AVR_BUILTIN_COUNTLSULK; break;
        case UTAmode: id = AVR_BUILTIN_COUNTLSULLK; break;

        default:
          error_at (loc, "no matching fixed-point overload found for %qs",
                    "countlsfx");

          fold = error_mark_node;
          break;
        }

      fold = targetm.builtin_decl (id, true);

      if (fold != error_mark_node)
        fold = build_function_call_vec (loc, vNULL, fold, &args, NULL);

      break; // countlsfx
    }

  return fold;
}
  

/* Implement `REGISTER_TARGET_PRAGMAS'.  */

void
avr_register_target_pragmas (void)
{
  int i;

  gcc_assert (ADDR_SPACE_GENERIC == ADDR_SPACE_RAM);

  /* Register address spaces.  The order must be the same as in the respective
     enum from avr.h (or designated initializers must be used in avr.c).  */

  for (i = 0; i < ADDR_SPACE_COUNT; i++)
    {
      gcc_assert (i == avr_addrspace[i].id);

      if (!ADDR_SPACE_GENERIC_P (i))
        c_register_addr_space (avr_addrspace[i].name, avr_addrspace[i].id);
    }

  targetm.resolve_overloaded_builtin = avr_resolve_overloaded_builtin;
}


/* Transform LO into uppercase and write the result to UP.
   You must provide enough space for UP.  Return UP.  */

static char*
avr_toupper (char *up, const char *lo)
{
  char *up0 = up;

  for (; *lo; lo++, up++)
    *up = TOUPPER (*lo);

  *up = '\0';

  return up0;
}

/* Worker function for TARGET_CPU_CPP_BUILTINS.  */

void
avr_cpu_cpp_builtins (struct cpp_reader *pfile)
{
  int i;

  builtin_define_std ("AVR");

  if (avr_current_arch->macro)
    cpp_define_formatted (pfile, "__AVR_ARCH__=%s", avr_current_arch->macro);
  if (AVR_HAVE_RAMPD)    cpp_define (pfile, "__AVR_HAVE_RAMPD__");
  if (AVR_HAVE_RAMPX)    cpp_define (pfile, "__AVR_HAVE_RAMPX__");
  if (AVR_HAVE_RAMPY)    cpp_define (pfile, "__AVR_HAVE_RAMPY__");
  if (AVR_HAVE_RAMPZ)    cpp_define (pfile, "__AVR_HAVE_RAMPZ__");
  if (AVR_HAVE_ELPM)     cpp_define (pfile, "__AVR_HAVE_ELPM__");
  if (AVR_HAVE_ELPMX)    cpp_define (pfile, "__AVR_HAVE_ELPMX__");
  if (AVR_HAVE_MOVW)     cpp_define (pfile, "__AVR_HAVE_MOVW__");
  if (AVR_HAVE_LPMX)     cpp_define (pfile, "__AVR_HAVE_LPMX__");

  if (avr_current_arch->asm_only)
    cpp_define (pfile, "__AVR_ASM_ONLY__");
  if (AVR_HAVE_MUL)
    {
      cpp_define (pfile, "__AVR_ENHANCED__");
      cpp_define (pfile, "__AVR_HAVE_MUL__");
    }
  if (avr_current_arch->have_jmp_call)
    {
      cpp_define (pfile, "__AVR_MEGA__");
      cpp_define (pfile, "__AVR_HAVE_JMP_CALL__");
    }
  if (AVR_XMEGA)
    cpp_define (pfile, "__AVR_XMEGA__");

  if (AVR_TINY)
    {
      cpp_define (pfile, "__AVR_TINY__");

      /* Define macro "__AVR_TINY_PM_BASE_ADDRESS__" with mapped program memory
         start address.  This macro shall be used where mapped program
         memory is accessed, eg. copying data section (__do_copy_data)
         contents to data memory region.
         NOTE:
         Program memory of AVR_TINY devices cannot be accessed directly,
         it has been mapped to the data memory.  For AVR_TINY devices
         (ATtiny4/5/9/10/20 and 40) mapped program memory starts at 0x4000. */

      cpp_define (pfile, "__AVR_TINY_PM_BASE_ADDRESS__=0x4000");
    }

  if (avr_current_arch->have_eijmp_eicall)
    {
      cpp_define (pfile, "__AVR_HAVE_EIJMP_EICALL__");
      cpp_define (pfile, "__AVR_3_BYTE_PC__");
    }
  else
    {
      cpp_define (pfile, "__AVR_2_BYTE_PC__");
    }

  if (AVR_HAVE_8BIT_SP)
    cpp_define (pfile, "__AVR_HAVE_8BIT_SP__");
  else
    cpp_define (pfile, "__AVR_HAVE_16BIT_SP__");

  if (avr_sp8)
    cpp_define (pfile, "__AVR_SP8__");

  if (AVR_HAVE_SPH)
    cpp_define (pfile, "__AVR_HAVE_SPH__");

  if (TARGET_NO_INTERRUPTS)
    cpp_define (pfile, "__NO_INTERRUPTS__");

  if (TARGET_SKIP_BUG)
    {
      cpp_define (pfile, "__AVR_ERRATA_SKIP__");

      if (avr_current_arch->have_jmp_call)
        cpp_define (pfile, "__AVR_ERRATA_SKIP_JMP_CALL__");
    }

  if (TARGET_RMW)
    cpp_define (pfile, "__AVR_ISA_RMW__");

  cpp_define_formatted (pfile, "__AVR_SFR_OFFSET__=0x%x",
                        avr_current_arch->sfr_offset);

#ifdef WITH_AVRLIBC
  cpp_define (pfile, "__WITH_AVRLIBC__");
#endif /* WITH_AVRLIBC */

  /* Define builtin macros so that the user can easily query whether
     non-generic address spaces (and which) are supported or not.
     This is only supported for C.  For C++, a language extension is needed
     (as mentioned in ISO/IEC DTR 18037; Annex F.2) which is not
     implemented in GCC up to now.  */

  if (lang_GNU_C ())
    {
      for (i = 0; i < ADDR_SPACE_COUNT; i++)
        if (!ADDR_SPACE_GENERIC_P (i)
            /* Only supply __FLASH<n> macro if the address space is reasonable
               for this target.  The address space qualifier itself is still
               supported, but using it will throw an error.  */
            && avr_addrspace[i].segment < avr_n_flash
	    /* Only support __MEMX macro if we have LPM.  */
	    && (AVR_HAVE_LPM || avr_addrspace[i].pointer_size <= 2))

          {
            const char *name = avr_addrspace[i].name;
            char *Name = (char*) alloca (1 + strlen (name));

            cpp_define (pfile, avr_toupper (Name, name));
          }
    }

  /* Define builtin macros so that the user can easily query whether or
     not a specific builtin is available. */

#define DEF_BUILTIN(NAME, N_ARGS, TYPE, CODE, LIBNAME)  \
  cpp_define (pfile, "__BUILTIN_AVR_" #NAME);
#include "builtins.def"
#undef DEF_BUILTIN

  /* Builtin macros for the __int24 and __uint24 type.  */

  cpp_define_formatted (pfile, "__INT24_MAX__=8388607%s",
                        INT_TYPE_SIZE == 8 ? "LL" : "L");
  cpp_define (pfile, "__INT24_MIN__=(-__INT24_MAX__-1)");
  cpp_define_formatted (pfile, "__UINT24_MAX__=16777215%s",
                        INT_TYPE_SIZE == 8 ? "ULL" : "UL");
}