X-Git-Url: https://oss.titaniummirror.com/gitweb?a=blobdiff_plain;f=gcc%2Ff%2Ftarget.h;fp=gcc%2Ff%2Ftarget.h;h=0000000000000000000000000000000000000000;hb=6fed43773c9b0ce596dca5686f37ac3fc0fa11c0;hp=df73dab23f7d8e17ec6564dd04ad5ad8ab6fc3ae;hpb=27b11d56b743098deb193d510b337ba22dc52e5c;p=msp430-gcc.git

diff --git a/gcc/f/target.h b/gcc/f/target.h
deleted file mode 100644
index df73dab2..00000000
--- a/gcc/f/target.h
+++ /dev/null
@@ -1,1899 +0,0 @@
-/* target.h -- Public #include File (module.h template V1.0)
-   Copyright (C) 1995, 1996, 2002 Free Software Foundation, Inc.
-   Contributed by James Craig Burley.
-
-This file is part of GNU Fortran.
-
-GNU Fortran 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 2, or (at your option)
-any later version.
-
-GNU Fortran 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 GNU Fortran; see the file COPYING.  If not, write to
-the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
-02111-1307, USA.
-
-   Owning Modules:
-      target.c
-
-   Modifications:
-*/
-
-/* Allow multiple inclusion to work. */
-
-#ifndef GCC_F_TARGET_H
-#define GCC_F_TARGET_H
-
-#ifdef FFE_STANDALONE
-#define HOST_WIDE_INT long
-#else
-#ifndef TREE_CODE
-#include "tree.h"
-#endif
-#endif
-
-/* For now, g77 requires the ability to determine the exact bit pattern
-   of a float on the target machine.  (Hopefully this will be changed
-   soon).  Make sure we can do this.  */
-
-#if !defined (REAL_ARITHMETIC) \
-  && ((TARGET_FLOAT_FORMAT != HOST_FLOAT_FORMAT) \
-      || (FLOAT_WORDS_BIG_ENDIAN != HOST_FLOAT_WORDS_BIG_ENDIAN))
-#error "g77 requires ability to access exact FP representation of target machine"
-#endif
-
-/* Simple definitions and enumerations. */
-
-#define FFETARGET_charactersizeNONE (-1)
-#ifndef FFETARGET_charactersizeMAXIMUM
-#define FFETARGET_charactersizeMAXIMUM 2147483647
-#endif
-
-#ifndef FFETARGET_defaultIS_90
-#define FFETARGET_defaultIS_90 0
-#endif
-#ifndef FFETARGET_defaultIS_AUTOMATIC
-#define FFETARGET_defaultIS_AUTOMATIC 1
-#endif
-#ifndef FFETARGET_defaultIS_BACKSLASH
-#define FFETARGET_defaultIS_BACKSLASH 1
-#endif
-#ifndef FFETARGET_defaultIS_INIT_LOCAL_ZERO
-#define FFETARGET_defaultIS_INIT_LOCAL_ZERO 0
-#endif
-#ifndef FFETARGET_defaultIS_DOLLAR_OK
-#define FFETARGET_defaultIS_DOLLAR_OK 0
-#endif
-#ifndef FFETARGET_defaultIS_F2C
-#define FFETARGET_defaultIS_F2C 1
-#endif
-#ifndef FFETARGET_defaultIS_F2C_LIBRARY
-#define FFETARGET_defaultIS_F2C_LIBRARY 1
-#endif
-#ifndef FFETARGET_defaultIS_FREE_FORM
-#define FFETARGET_defaultIS_FREE_FORM 0
-#endif
-#ifndef FFETARGET_defaultIS_PEDANTIC
-#define FFETARGET_defaultIS_PEDANTIC 0
-#endif
-#ifndef FFETARGET_defaultCASE_INTRIN
-#define FFETARGET_defaultCASE_INTRIN FFE_caseLOWER
-#endif
-#ifndef FFETARGET_defaultCASE_MATCH
-#define FFETARGET_defaultCASE_MATCH FFE_caseLOWER
-#endif
-#ifndef FFETARGET_defaultCASE_SOURCE
-#define FFETARGET_defaultCASE_SOURCE FFE_caseLOWER
-#endif
-#ifndef FFETARGET_defaultCASE_SYMBOL
-#define FFETARGET_defaultCASE_SYMBOL FFE_caseNONE
-#endif
-
-#ifndef FFETARGET_defaultFIXED_LINE_LENGTH
-#define FFETARGET_defaultFIXED_LINE_LENGTH 72
-#endif
-
-/* 1 if external Fortran names ("FOO" in SUBROUTINE FOO, COMMON /FOO/,
-   and even enforced/default-for-unnamed PROGRAM, blank-COMMON, and
-   BLOCK DATA names, but not names of library functions implementing
-   intrinsics or names of local/internal variables) should have an
-   underscore appended (for compatibility with existing systems).  */
-
-#ifndef FFETARGET_defaultEXTERNAL_UNDERSCORED
-#define FFETARGET_defaultEXTERNAL_UNDERSCORED 1
-#endif
-
-/* 1 if external Fortran names with underscores already in them should
-   have an extra underscore appended (in addition to the one they
-   might already have appened if FFETARGET_defaultEXTERNAL_UNDERSCORED). */
-
-#ifndef FFETARGET_defaultUNDERSCORED_EXTERNAL_UNDERSCORED
-#define FFETARGET_defaultUNDERSCORED_EXTERNAL_UNDERSCORED 1
-#endif
-
-/* If FFETARGET_defaultEXTERNAL_UNDERSCORED is 0, the following definitions
-   might also need to be overridden to make g77 objects compatible with
-   f2c+gcc objects.  Although I don't think the unnamed BLOCK DATA one
-   is an issue at all.  Of course, on some systems it isn't f2c
-   compatibility that is the issue -- maybe compatibility with some
-   other compiler(s).  I don't know what to recommend for systems where
-   there is no existing Fortran compiler -- I suppose porting f2c and
-   pretending it's the existing one is best for now.  */
-
-/* 1 if the "FOO" in "PROGRAM FOO" should be overridden and a particular
-   name imposed in place of it in the actual code (normally the case,
-   because the library's main entry point on most systems calls the main
-   function by a particular name).  Someday g77 might do the f2c trick
-   of also outputting a "FOO" procedure that just calls the main procedure,
-   but that'll wait until somebody shows why it is needed.  */
-
-#ifndef FFETARGET_isENFORCED_MAIN
-#define FFETARGET_isENFORCED_MAIN 1
-#endif
-
-/* The enforced name of the main program if ENFORCED_MAIN is 1.  */
-
-#ifndef FFETARGET_nameENFORCED_MAIN_NAME
-#define FFETARGET_nameENFORCED_MAIN_NAME "MAIN__"
-#endif
-
-/* The name used for an unnamed main program if ENFORCED_MAIN is 0.  */
-
-#ifndef FFETARGET_nameUNNAMED_MAIN
-#define FFETARGET_nameUNNAMED_MAIN "MAIN__"
-#endif
-
-/* The name used for an unnamed block data program.  */
-
-#ifndef FFETARGET_nameUNNAMED_BLOCK_DATA
-#define FFETARGET_nameUNNAMED_BLOCK_DATA "_BLOCK_DATA__"
-#endif
-
-/* The name used for blank common.  */
-
-#ifndef FFETARGET_nameBLANK_COMMON
-#define FFETARGET_nameBLANK_COMMON "_BLNK__"
-#endif
-
-#ifndef FFETARGET_integerSMALLEST_POSITIVE
-#define FFETARGET_integerSMALLEST_POSITIVE 0
-#endif
-#ifndef FFETARGET_integerLARGEST_POSITIVE
-#define FFETARGET_integerLARGEST_POSITIVE 2147483647
-#endif
-#ifndef FFETARGET_integerBIG_MAGICAL
-#define FFETARGET_integerBIG_MAGICAL 020000000000	/* 2147483648 */
-#endif
-#ifndef FFETARGET_integerALMOST_BIG_MAGICAL
-#define FFETARGET_integerALMOST_BIG_MAGICAL 214748364
-#endif
-#ifndef FFETARGET_integerALMOST_BIG_OVERFLOW_BINARY
-#define FFETARGET_integerALMOST_BIG_OVERFLOW_BINARY 0x80000000
-#endif
-#ifndef FFETARGET_integerALMOST_BIG_OVERFLOW_HEX
-#define FFETARGET_integerALMOST_BIG_OVERFLOW_HEX 0x10000000
-#endif
-#ifndef FFETARGET_integerALMOST_BIG_OVERFLOW_OCTAL
-#define FFETARGET_integerALMOST_BIG_OVERFLOW_OCTAL 0x20000000
-#endif
-#ifndef FFETARGET_integerFINISH_BIG_MAGICAL
-#define FFETARGET_integerFINISH_BIG_MAGICAL 8
-#endif
-#ifndef FFETARGET_integerFINISH_BIG_OVERFLOW_BINARY
-#define FFETARGET_integerFINISH_BIG_OVERFLOW_BINARY 0
-#endif
-#ifndef FFETARGET_integerFINISH_BIG_OVERFLOW_HEX
-#define FFETARGET_integerFINISH_BIG_OVERFLOW_HEX 0
-#endif
-#ifndef FFETARGET_integerFINISH_BIG_OVERFLOW_OCTAL
-#define FFETARGET_integerFINISH_BIG_OVERFLOW_OCTAL 0
-#endif
-
-#ifndef FFETARGET_offsetNONE
-#define FFETARGET_offsetNONE 0	/* Not used by FFE, for backend if needed. */
-#endif
-
-#define FFETARGET_okINTEGER1 1
-#define FFETARGET_okINTEGER2 1
-#define FFETARGET_okINTEGER3 1
-#define FFETARGET_okINTEGER4 1
-#define FFETARGET_okLOGICAL1 1
-#define FFETARGET_okLOGICAL2 1
-#define FFETARGET_okLOGICAL3 1
-#define FFETARGET_okLOGICAL4 1
-#define FFETARGET_okREAL1 1
-#define FFETARGET_okREAL2 1
-#define FFETARGET_okREAL3 0
-#define FFETARGET_okREALQUAD FFETARGET_okREAL3
-#define FFETARGET_okCOMPLEX1 1
-#define FFETARGET_okCOMPLEX2 1
-#define FFETARGET_okCOMPLEX3 0
-#define FFETARGET_okCOMPLEXDOUBLE FFETARGET_okCOMPLEX2
-#define FFETARGET_okCOMPLEXQUAD FFETARGET_okCOMPLEX3
-#define FFETARGET_okCHARACTER1 1
-
-#define FFETARGET_f2cTYUNKNOWN 0
-#define FFETARGET_f2cTYADDR 1
-#define FFETARGET_f2cTYSHORT 2
-#define FFETARGET_f2cTYLONG 3
-#define FFETARGET_f2cTYREAL 4
-#define FFETARGET_f2cTYDREAL 5
-#define FFETARGET_f2cTYCOMPLEX 6
-#define FFETARGET_f2cTYDCOMPLEX 7
-#define FFETARGET_f2cTYLOGICAL 8
-#define FFETARGET_f2cTYCHAR 9
-#define FFETARGET_f2cTYSUBR 10
-#define FFETARGET_f2cTYINT1 11
-#define FFETARGET_f2cTYLOGICAL1 12
-#define FFETARGET_f2cTYLOGICAL2 13
-#define FFETARGET_f2cTYQUAD 14
-
-#if (!defined(__alpha__) \
-     && (!defined(__hppa__) || !defined(__LP64__)) \
-     && (!defined(__ia64__) || !defined(__LP64__)) \
-     && !defined(__MMIX__) \
-     && (!defined (_ARCH_PPC) || !defined (__64BIT__)) \
-     && !defined(__powerpc64__) \
-     && !defined(__s390x__) \
-     && (!defined(__sparc__) || (!defined(__sparcv9) && !defined(__arch64__)))\
-     && !defined(__x86_64__))
-#define FFETARGET_32bit_longs
-#endif
-
-/* Typedefs. */
-
-typedef unsigned char ffetargetAlign;	/* ffetargetOffset for alignment. */
-#define ffetargetAlign_f ""
-typedef long ffetargetCharacterSize;
-#define ffetargetCharacterSize_f "l"
-typedef void (*ffetargetCopyfunc) (void *, void *, size_t);
-typedef ffetargetCharacterSize ffetargetHollerithSize;
-#define ffetargetHollerithSize_f "l"
-typedef long long ffetargetOffset;
-#define ffetargetOffset_f "ll"
-
-#if FFETARGET_okINTEGER1
-#ifdef FFETARGET_32bit_longs
-typedef long int ffetargetInteger1;
-#define ffetargetInteger1_f "l"
-#else
-typedef int ffetargetInteger1;
-#define ffetargetInteger1_f ""
-#endif
-#endif
-#if FFETARGET_okINTEGER2
-typedef signed char ffetargetInteger2;
-#define ffetargetInteger2_f ""
-#endif
-#if FFETARGET_okINTEGER3
-typedef short int ffetargetInteger3;
-#define ffetargetInteger3_f ""
-#endif
-#if FFETARGET_okINTEGER4
-typedef long long int ffetargetInteger4;
-#define ffetargetInteger4_f "ll"
-#endif
-#if FFETARGET_okINTEGER5
-typedef ? ffetargetInteger5;
-#define ffetargetInteger5_f
-?
-#endif
-#if FFETARGET_okINTEGER6
-typedef ? ffetargetInteger6;
-#define ffetargetInteger6_f
-?
-#endif
-#if FFETARGET_okINTEGER7
-typedef ? ffetargetInteger7;
-#define ffetargetInteger7_f
-?
-#endif
-#if FFETARGET_okINTEGER8
-typedef ? ffetargetInteger8;
-#define ffetargetInteger8_f
-?
-#endif
-#if FFETARGET_okLOGICAL1
-#ifdef FFETARGET_32bit_longs
-typedef long int ffetargetLogical1;
-#define ffetargetLogical1_f "l"
-#else
-typedef int ffetargetLogical1;
-#define ffetargetLogical1_f ""
-#endif
-#endif
-#if FFETARGET_okLOGICAL2
-typedef signed char ffetargetLogical2;
-#define ffetargetLogical2_f ""
-#endif
-#if FFETARGET_okLOGICAL3
-typedef short int ffetargetLogical3;
-#define ffetargetLogical3_f ""
-#endif
-#if FFETARGET_okLOGICAL4
-typedef long long int ffetargetLogical4;
-#define ffetargetLogical4_f "ll"
-#endif
-#if FFETARGET_okLOGICAL5
-typedef ? ffetargetLogical5;
-#define ffetargetLogical5_f
-?
-#endif
-#if FFETARGET_okLOGICAL6
-typedef ? ffetargetLogical6;
-#define ffetargetLogical6_f
-?
-#endif
-#if FFETARGET_okLOGICAL7
-typedef ? ffetargetLogical7;
-#define ffetargetLogical7_f
-?
-#endif
-#if FFETARGET_okLOGICAL8
-typedef ? ffetargetLogical8;
-#define ffetargetLogical8_f
-?
-#endif
-#if FFETARGET_okREAL1
-#ifdef REAL_ARITHMETIC
-#ifdef FFETARGET_32bit_longs
-typedef long int ffetargetReal1;
-#define ffetargetReal1_f "l"
-#define ffetarget_cvt_r1_to_rv_ REAL_VALUE_UNTO_TARGET_SINGLE
-#define ffetarget_cvt_rv_to_r1_ REAL_VALUE_TO_TARGET_SINGLE
-#else
-typedef int ffetargetReal1;
-#define ffetargetReal1_f ""
-#define ffetarget_cvt_r1_to_rv_(in) \
-  ({ REAL_VALUE_TYPE _rv; \
-     _rv = REAL_VALUE_UNTO_TARGET_SINGLE ((long) (in)); \
-     _rv; })
-#define ffetarget_cvt_rv_to_r1_(in, out) \
-  ({ long _tmp; \
-     REAL_VALUE_TO_TARGET_SINGLE ((in), _tmp); \
-     (out) = (ffetargetReal1) _tmp; })
-#endif
-#else	/* REAL_ARITHMETIC */
-typedef float ffetargetReal1;
-#define ffetargetReal1_f ""
-#endif	/* REAL_ARITHMETIC */
-#endif
-#if FFETARGET_okREAL2
-#ifdef REAL_ARITHMETIC
-#ifdef FFETARGET_32bit_longs
-typedef struct
-  {
-    long int v[2];
-  }
-ffetargetReal2;
-#define ffetargetReal2_f "l"
-#define ffetarget_cvt_r2_to_rv_ REAL_VALUE_UNTO_TARGET_DOUBLE
-#define ffetarget_cvt_rv_to_r2_ REAL_VALUE_TO_TARGET_DOUBLE
-#else
-typedef struct
-  {
-    int v[2];
-  }
-ffetargetReal2;
-#define ffetargetReal2_f ""
-#define ffetarget_cvt_r2_to_rv_(in) \
-  ({ REAL_VALUE_TYPE _rv; \
-     long _tmp[2]; \
-     _tmp[0] = (in)[0]; \
-     _tmp[1] = (in)[1]; \
-     _rv = REAL_VALUE_UNTO_TARGET_DOUBLE (_tmp); \
-     _rv; })
-#define ffetarget_cvt_rv_to_r2_(in, out) \
-  ({ long _tmp[2]; \
-     REAL_VALUE_TO_TARGET_DOUBLE ((in), _tmp); \
-     (out)[0] = (int) (_tmp[0]); \
-     (out)[1] = (int) (_tmp[1]); })
-#endif
-#else
-typedef double ffetargetReal2;
-#define ffetargetReal2_f ""
-#endif
-#endif
-#if FFETARGET_okREAL3
-#ifdef REAL_ARITHMETIC
-typedef long ffetargetReal3[?];
-#else
-typedef ? ffetargetReal3;
-#define ffetargetReal3_f
-#endif
-?
-#endif
-#if FFETARGET_okREAL4
-#ifdef REAL_ARITHMETIC
-typedef long ffetargetReal4[?];
-#else
-typedef ? ffetargetReal4;
-#define ffetargetReal4_f
-#endif
-?
-#endif
-#if FFETARGET_okREAL5
-#ifdef REAL_ARITHMETIC
-typedef long ffetargetReal5[?];
-#else
-typedef ? ffetargetReal5;
-#define ffetargetReal5_f
-#endif
-?
-#endif
-#if FFETARGET_okREAL6
-#ifdef REAL_ARITHMETIC
-typedef long ffetargetReal6[?];
-#else
-typedef ? ffetargetReal6;
-#define ffetargetReal6_f
-#endif
-?
-#endif
-#if FFETARGET_okREAL7
-#ifdef REAL_ARITHMETIC
-typedef long ffetargetReal7[?];
-#else
-typedef ? ffetargetReal7;
-#define ffetargetReal7_f
-#endif
-?
-#endif
-#if FFETARGET_okREAL8
-#ifdef REAL_ARITHMETIC
-typedef long ffetargetReal8[?];
-#else
-typedef ? ffetargetReal8;
-#define ffetargetReal8_f
-#endif
-?
-#endif
-#if FFETARGET_okCOMPLEX1
-struct _ffetarget_complex_1_
-  {
-    ffetargetReal1 real;
-    ffetargetReal1 imaginary;
-  };
-typedef struct _ffetarget_complex_1_ ffetargetComplex1;
-#endif
-#if FFETARGET_okCOMPLEX2
-struct _ffetarget_complex_2_
-  {
-    ffetargetReal2 real;
-    ffetargetReal2 imaginary;
-  };
-typedef struct _ffetarget_complex_2_ ffetargetComplex2;
-#endif
-#if FFETARGET_okCOMPLEX3
-struct _ffetarget_complex_3_
-  {
-    ffetargetReal3 real;
-    ffetargetReal3 imaginary;
-  };
-typedef struct _ffetarget_complex_3_ ffetargetComplex3;
-#endif
-#if FFETARGET_okCOMPLEX4
-struct _ffetarget_complex_4_
-  {
-    ffetargetReal4 real;
-    ffetargetReal4 imaginary;
-  };
-typedef struct _ffetarget_complex_4_ ffetargetComplex4;
-#endif
-#if FFETARGET_okCOMPLEX5
-struct _ffetarget_complex_5_
-  {
-    ffetargetReal5 real;
-    ffetargetReal5 imaginary;
-  };
-typedef struct _ffetarget_complex_5_ ffetargetComplex5;
-#endif
-#if FFETARGET_okCOMPLEX6
-struct _ffetarget_complex_6_
-  {
-    ffetargetReal6 real;
-    ffetargetReal6 imaginary;
-  };
-typedef struct _ffetarget_complex_6_ ffetargetComplex6;
-#endif
-#if FFETARGET_okCOMPLEX7
-struct _ffetarget_complex_7_
-  {
-    ffetargetReal7 real;
-    ffetargetReal7 imaginary;
-  };
-typedef struct _ffetarget_complex_7_ ffetargetComplex7;
-#endif
-#if FFETARGET_okCOMPLEX8
-struct _ffetarget_complex_8_
-  {
-    ffetargetReal8 real;
-    ffetargetReal8 imaginary;
-  };
-typedef struct _ffetarget_complex_8_ ffetargetComplex8;
-#endif
-#if FFETARGET_okCHARACTER1
-struct _ffetarget_char_1_
-  {
-    ffetargetCharacterSize length;
-    unsigned char *text;
-  };
-typedef struct _ffetarget_char_1_ ffetargetCharacter1;
-typedef unsigned char ffetargetCharacterUnit1;
-#endif
-#if FFETARGET_okCHARACTER2
-typedef ? ffetargetCharacter2;
-typedef ? ffetargetCharacterUnit2;
-#endif
-#if FFETARGET_okCHARACTER3
-typedef ? ffetargetCharacter3;
-typedef ? ffetargetCharacterUnit3;
-#endif
-#if FFETARGET_okCHARACTER4
-typedef ? ffetargetCharacter4;
-typedef ? ffetargetCharacterUnit4;
-#endif
-#if FFETARGET_okCHARACTER5
-typedef ? ffetargetCharacter5;
-typedef ? ffetargetCharacterUnit5;
-#endif
-#if FFETARGET_okCHARACTER6
-typedef ? ffetargetCharacter6;
-typedef ? ffetargetCharacterUnit6;
-#endif
-#if FFETARGET_okCHARACTER7
-typedef ? ffetargetCharacter7;
-typedef ? ffetargetCharacterUnit7;
-#endif
-#if FFETARGET_okCHARACTER8
-typedef ? ffetargetCharacter8;
-typedef ? ffetargetCharacterUnit8;
-#endif
-
-typedef unsigned long long int ffetargetTypeless;
-
-struct _ffetarget_hollerith_
-  {
-    ffetargetHollerithSize length;
-    unsigned char *text;
-  };
-typedef struct _ffetarget_hollerith_ ffetargetHollerith;
-
-typedef ffetargetCharacter1 ffetargetCharacterDefault;
-typedef ffetargetComplex1 ffetargetComplexDefault;
-#if FFETARGET_okCOMPLEXDOUBLE
-typedef ffetargetComplex2 ffetargetComplexDouble;
-#endif
-#if FFETARGET_okCOMPLEXQUAD
-typedef ffetargetComplex3 ffetargetComplexQuad;
-#endif
-typedef ffetargetInteger1 ffetargetIntegerDefault;
-#define ffetargetIntegerDefault_f ffetargetInteger1_f
-typedef ffetargetLogical1 ffetargetLogicalDefault;
-#define ffetargetLogicalDefault_f ffetargetLogical1_f
-typedef ffetargetReal1 ffetargetRealDefault;
-#define ffetargetRealDefault_f ffetargetReal1_f
-typedef ffetargetReal2 ffetargetRealDouble;
-#define ffetargetRealDouble_f ffetargetReal2_f
-#if FFETARGET_okREALQUAD
-typedef ffetargetReal3 ffetargetRealQuad;
-#define ffetargetRealQuad_f ffetargetReal3_f
-#endif
-
-/* Include files needed by this one. */
-
-#include "bad.h"
-#include "info.h"
-#include "lex.h"
-#include "malloc.h"
-
-/* Structure definitions. */
-
-
-/* Global objects accessed by users of this module. */
-
-extern char ffetarget_string_[40];	/* Temp for ascii-to-double (atof). */
-extern HOST_WIDE_INT ffetarget_long_val_;
-extern HOST_WIDE_INT ffetarget_long_junk_;
-
-/* Declare functions with prototypes. */
-
-void ffetarget_aggregate_info (ffeinfoBasictype *ebt, ffeinfoKindtype *ekt,
-			       ffetargetAlign *units, ffeinfoBasictype abt,
-			       ffeinfoKindtype akt);
-ffetargetAlign ffetarget_align (ffetargetAlign *updated_alignment,
-				ffetargetAlign *updated_modulo,
-				ffetargetOffset offset,
-				ffetargetAlign alignment,
-				ffetargetAlign modulo);
-#if FFETARGET_okCHARACTER1
-bool ffetarget_character1 (ffetargetCharacter1 *val, ffelexToken character,
-			   mallocPool pool);
-int ffetarget_cmp_character1 (ffetargetCharacter1 l, ffetargetCharacter1 r);
-ffebad ffetarget_concatenate_character1 (ffetargetCharacter1 *res,
-					 ffetargetCharacter1 l,
-					 ffetargetCharacter1 r,
-					 mallocPool pool,
-					 ffetargetCharacterSize *len);
-ffebad ffetarget_convert_character1_character1 (ffetargetCharacter1 *res,
-					    ffetargetCharacterSize res_size,
-						ffetargetCharacter1 l,
-						mallocPool pool);
-ffebad ffetarget_convert_character1_hollerith (ffetargetCharacter1 *res,
-					    ffetargetCharacterSize res_size,
-					       ffetargetHollerith l,
-					       mallocPool pool);
-ffebad ffetarget_convert_character1_integer4 (ffetargetCharacter1 *res,
-					      ffetargetCharacterSize res_size,
-					      ffetargetInteger4 l,
-					      mallocPool pool);
-ffebad ffetarget_convert_character1_logical4 (ffetargetCharacter1 *res,
-					      ffetargetCharacterSize res_size,
-					      ffetargetLogical4 l,
-					      mallocPool pool);
-ffebad ffetarget_convert_character1_typeless (ffetargetCharacter1 *res,
-					    ffetargetCharacterSize res_size,
-					      ffetargetTypeless l,
-					      mallocPool pool);
-ffebad ffetarget_eq_character1 (bool *res, ffetargetCharacter1 l,
-				ffetargetCharacter1 r);
-ffebad ffetarget_le_character1 (bool *res, ffetargetCharacter1 l,
-				ffetargetCharacter1 r);
-ffebad ffetarget_ge_character1 (bool *res, ffetargetCharacter1 l,
-				ffetargetCharacter1 r);
-ffebad ffetarget_gt_character1 (bool *res, ffetargetCharacter1 l,
-				ffetargetCharacter1 r);
-ffebad ffetarget_lt_character1 (bool *res, ffetargetCharacter1 l,
-				ffetargetCharacter1 r);
-ffebad ffetarget_ne_character1 (bool *res, ffetargetCharacter1 l,
-				ffetargetCharacter1 r);
-ffebad ffetarget_substr_character1 (ffetargetCharacter1 *res,
-				    ffetargetCharacter1 l,
-				    ffetargetCharacterSize first,
-				    ffetargetCharacterSize last,
-				    mallocPool pool,
-				    ffetargetCharacterSize *len);
-#endif
-int ffetarget_cmp_hollerith (ffetargetHollerith l, ffetargetHollerith r);
-bool ffetarget_hollerith (ffetargetHollerith *val, ffelexToken hollerith,
-			  mallocPool pool);
-int ffetarget_cmp_typeless (ffetargetTypeless l, ffetargetTypeless r);
-ffebad ffetarget_convert_any_character1_ (char *res, size_t size,
-					  ffetargetCharacter1 l);
-ffebad ffetarget_convert_any_hollerith_ (char *res, size_t size,
-					 ffetargetHollerith l);
-ffebad ffetarget_convert_any_typeless_ (char *res, size_t size,
-					ffetargetTypeless l);
-#if FFETARGET_okCOMPLEX1
-ffebad ffetarget_divide_complex1 (ffetargetComplex1 *res, ffetargetComplex1 l,
-				  ffetargetComplex1 r);
-#endif
-#if FFETARGET_okCOMPLEX2
-ffebad ffetarget_divide_complex2 (ffetargetComplex2 *res, ffetargetComplex2 l,
-				  ffetargetComplex2 r);
-#endif
-#if FFETARGET_okCOMPLEX3
-ffebad ffetarget_divide_complex3 (ffetargetComplex3 *res, ffetargetComplex3 l,
-				  ffetargetComplex3 r);
-#endif
-#if FFETARGET_okCOMPLEX4
-ffebad ffetarget_divide_complex4 (ffetargetComplex4 *res, ffetargetComplex4 l,
-				  ffetargetComplex4 r);
-#endif
-#if FFETARGET_okCOMPLEX5
-ffebad ffetarget_divide_complex5 (ffetargetComplex5 *res, ffetargetComplex5 l,
-				  ffetargetComplex5 r);
-#endif
-#if FFETARGET_okCOMPLEX6
-ffebad ffetarget_divide_complex6 (ffetargetComplex6 *res, ffetargetComplex6 l,
-				  ffetargetComplex6 r);
-#endif
-#if FFETARGET_okCOMPLEX7
-ffebad ffetarget_divide_complex7 (ffetargetComplex7 *res, ffetargetComplex7 l,
-				  ffetargetComplex7 r);
-#endif
-#if FFETARGET_okCOMPLEX8
-ffebad ffetarget_divide_complex8 (ffetargetComplex8 *res, ffetargetComplex8 l,
-				  ffetargetComplex8 r);
-#endif
-#if FFETARGET_okINTEGER1
-bool ffetarget_integer1 (ffetargetInteger1 *val, ffelexToken integer);
-#endif
-#if FFETARGET_okINTEGER2
-bool ffetarget_integer2 (ffetargetInteger2 *val, ffelexToken integer);
-#endif
-#if FFETARGET_okINTEGER3
-bool ffetarget_integer3 (ffetargetInteger3 *val, ffelexToken integer);
-#endif
-#if FFETARGET_okINTEGER4
-bool ffetarget_integer4 (ffetargetInteger4 *val, ffelexToken integer);
-#endif
-#if FFETARGET_okINTEGER5
-bool ffetarget_integer5 (ffetargetInteger5 *val, ffelexToken integer);
-#endif
-#if FFETARGET_okINTEGER6
-bool ffetarget_integer6 (ffetargetInteger6 *val, ffelexToken integer);
-#endif
-#if FFETARGET_okINTEGER7
-bool ffetarget_integer7 (ffetargetInteger7 *val, ffelexToken integer);
-#endif
-#if FFETARGET_okINTEGER8
-bool ffetarget_integer8 (ffetargetInteger8 *val, ffelexToken integer);
-#endif
-bool ffetarget_integerbinary (ffetargetIntegerDefault *val,
-			     ffelexToken integer);
-bool ffetarget_integerhex (ffetargetIntegerDefault *val,
-			     ffelexToken integer);
-bool ffetarget_integeroctal (ffetargetIntegerDefault *val,
-			     ffelexToken integer);
-void ffetarget_integer_bad_magical (ffelexToken t);
-void ffetarget_integer_bad_magical_binary (ffelexToken integer, ffelexToken minus);
-void ffetarget_integer_bad_magical_precedence (ffelexToken integer,
-					       ffelexToken uminus,
-					       ffelexToken higher_op);
-void ffetarget_integer_bad_magical_precedence_binary (ffelexToken integer,
-						      ffelexToken minus,
-						      ffelexToken higher_op);
-#if FFETARGET_okCHARACTER1
-bool ffetarget_iszero_character1 (ffetargetCharacter1 constant);
-#endif
-bool ffetarget_iszero_hollerith (ffetargetHollerith constant);
-void ffetarget_layout (const char *error_text, ffetargetAlign *alignment,
-		       ffetargetAlign *modulo, ffetargetOffset *size,
-		       ffeinfoBasictype bt, ffeinfoKindtype kt,
-		       ffetargetCharacterSize charsize,
-		       ffetargetIntegerDefault num_elements);
-#if FFETARGET_okCOMPLEX1
-ffebad ffetarget_multiply_complex1 (ffetargetComplex1 *res,
-				    ffetargetComplex1 l,
-				    ffetargetComplex1 r);
-#endif
-#if FFETARGET_okCOMPLEX2
-ffebad ffetarget_multiply_complex2 (ffetargetComplex2 *res,
-				    ffetargetComplex2 l,
-				    ffetargetComplex2 r);
-#endif
-#if FFETARGET_okCOMPLEX3
-ffebad ffetarget_multiply_complex3 (ffetargetComplex3 *res,
-				    ffetargetComplex3 l,
-				    ffetargetComplex3 r);
-#endif
-#if FFETARGET_okCOMPLEX4
-ffebad ffetarget_multiply_complex4 (ffetargetComplex4 *res,
-				    ffetargetComplex4 l,
-				    ffetargetComplex4 r);
-#endif
-#if FFETARGET_okCOMPLEX5
-ffebad ffetarget_multiply_complex5 (ffetargetComplex5 *res,
-				    ffetargetComplex5 l,
-				    ffetargetComplex5 r);
-#endif
-#if FFETARGET_okCOMPLEX6
-ffebad ffetarget_multiply_complex6 (ffetargetComplex6 *res,
-				    ffetargetComplex6 l,
-				    ffetargetComplex6 r);
-#endif
-#if FFETARGET_okCOMPLEX7
-ffebad ffetarget_multiply_complex7 (ffetargetComplex7 *res,
-				    ffetargetComplex7 l,
-				    ffetargetComplex7 r);
-#endif
-#if FFETARGET_okCOMPLEX8
-ffebad ffetarget_multiply_complex8 (ffetargetComplex8 *res,
-				    ffetargetComplex8 l,
-				    ffetargetComplex8 r);
-#endif
-ffebad ffetarget_power_complexdefault_integerdefault (ffetargetComplexDefault *res,
-						  ffetargetComplexDefault l,
-						 ffetargetIntegerDefault r);
-#if FFETARGET_okCOMPLEXDOUBLE
-ffebad ffetarget_power_complexdouble_integerdefault (ffetargetComplexDouble *res,
-						   ffetargetComplexDouble l,
-						 ffetargetIntegerDefault r);
-#endif
-ffebad ffetarget_power_integerdefault_integerdefault (ffetargetIntegerDefault *res,
-						  ffetargetIntegerDefault l,
-						 ffetargetIntegerDefault r);
-ffebad ffetarget_power_realdefault_integerdefault (ffetargetRealDefault *res,
-						   ffetargetRealDefault l,
-						 ffetargetIntegerDefault r);
-ffebad ffetarget_power_realdouble_integerdefault (ffetargetRealDouble *res,
-						  ffetargetRealDouble l,
-						  ffetargetIntegerDefault r);
-void ffetarget_print_binary (FILE *f, ffetargetTypeless val);
-void ffetarget_print_character1 (FILE *f, ffetargetCharacter1 val);
-void ffetarget_print_hollerith (FILE *f, ffetargetHollerith val);
-void ffetarget_print_octal (FILE *f, ffetargetTypeless val);
-void ffetarget_print_hex (FILE *f, ffetargetTypeless val);
-#if FFETARGET_okREAL1
-bool ffetarget_real1 (ffetargetReal1 *value, ffelexToken integer,
-		      ffelexToken decimal, ffelexToken fraction,
-		      ffelexToken exponent, ffelexToken exponent_sign,
-		      ffelexToken exponent_digits);
-#endif
-#if FFETARGET_okREAL2
-bool ffetarget_real2 (ffetargetReal2 *value, ffelexToken integer,
-		      ffelexToken decimal, ffelexToken fraction,
-		      ffelexToken exponent, ffelexToken exponent_sign,
-		      ffelexToken exponent_digits);
-#endif
-#if FFETARGET_okREAL3
-bool ffetarget_real3 (ffetargetReal3 *value, ffelexToken integer,
-		      ffelexToken decimal, ffelexToken fraction,
-		      ffelexToken exponent, ffelexToken exponent_sign,
-		      ffelexToken exponent_digits);
-#endif
-#if FFETARGET_okREAL4
-bool ffetarget_real4 (ffetargetReal4 *value, ffelexToken integer,
-		      ffelexToken decimal, ffelexToken fraction,
-		      ffelexToken exponent, ffelexToken exponent_sign,
-		      ffelexToken exponent_digits);
-#endif
-#if FFETARGET_okREAL5
-bool ffetarget_real5 (ffetargetReal5 *value, ffelexToken integer,
-		      ffelexToken decimal, ffelexToken fraction,
-		      ffelexToken exponent, ffelexToken exponent_sign,
-		      ffelexToken exponent_digits);
-#endif
-#if FFETARGET_okREAL6
-bool ffetarget_real6 (ffetargetReal6 *value, ffelexToken integer,
-		      ffelexToken decimal, ffelexToken fraction,
-		      ffelexToken exponent, ffelexToken exponent_sign,
-		      ffelexToken exponent_digits);
-#endif
-#if FFETARGET_okREAL7
-bool ffetarget_real7 (ffetargetReal7 *value, ffelexToken integer,
-		      ffelexToken decimal, ffelexToken fraction,
-		      ffelexToken exponent, ffelexToken exponent_sign,
-		      ffelexToken exponent_digits);
-#endif
-#if FFETARGET_okREAL8
-bool ffetarget_real8 (ffetargetReal8 *value, ffelexToken integer,
-		      ffelexToken decimal, ffelexToken fraction,
-		      ffelexToken exponent, ffelexToken exponent_sign,
-		      ffelexToken exponent_digits);
-#endif
-bool ffetarget_typeless_binary (ffetargetTypeless *value, ffelexToken token);
-bool ffetarget_typeless_octal (ffetargetTypeless *value, ffelexToken token);
-bool ffetarget_typeless_hex (ffetargetTypeless *value, ffelexToken token);
-void ffetarget_verify_character1 (mallocPool pool, ffetargetCharacter1 val);
-int ffetarget_num_digits_ (ffelexToken t);
-void *ffetarget_memcpy_ (void *dst, void *src, size_t len);
-
-/* Define macros. */
-
-#define FFETARGET_REAL_VALUE_FROM_INT_(resr, lf, kt)			\
-  REAL_VALUE_FROM_INT (resr, (long) lf, (long) ((lf < 0) ? -1 : 0),	\
-		       ((kt == 1) ? SFmode : DFmode))
-
-#ifdef REAL_ARITHMETIC
-#define ffetarget_add_complex1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, li, rr, ri, resr, resi; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l).real); \
-     li = ffetarget_cvt_r1_to_rv_ ((l).imaginary); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r).real); \
-     ri = ffetarget_cvt_r1_to_rv_ ((r).imaginary); \
-     REAL_ARITHMETIC (resr, PLUS_EXPR, lr, rr); \
-     REAL_ARITHMETIC (resi, PLUS_EXPR, li, ri); \
-     ffetarget_cvt_rv_to_r1_ (resr, (res)->real); \
-     ffetarget_cvt_rv_to_r1_ (resi, (res)->imaginary); \
-     FFEBAD; })
-#define ffetarget_add_complex2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, li, rr, ri, resr, resi; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).real.v[0])); \
-     li = ffetarget_cvt_r2_to_rv_ (&((l).imaginary.v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).real.v[0])); \
-     ri = ffetarget_cvt_r2_to_rv_ (&((r).imaginary.v[0])); \
-     REAL_ARITHMETIC (resr, PLUS_EXPR, lr, rr); \
-     REAL_ARITHMETIC (resi, PLUS_EXPR, li, ri); \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->real.v[0])); \
-     ffetarget_cvt_rv_to_r2_ (resi, &((res)->imaginary.v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_add_complex1(res,l,r) \
-  ((res)->real = (l).real + (r).real, \
-   (res)->imaginary = (l).imaginary + (r).imaginary, FFEBAD)
-#define ffetarget_add_complex2(res,l,r) \
-  ((res)->real = (l).real + (r).real, \
-   (res)->imaginary = (l).imaginary + (r).imaginary, FFEBAD)
-#endif
-#define ffetarget_add_integer1(res,l,r) (*(res) = (l) + (r), FFEBAD)
-#define ffetarget_add_integer2(res,l,r) (*(res) = (l) + (r), FFEBAD)
-#define ffetarget_add_integer3(res,l,r) (*(res) = (l) + (r), FFEBAD)
-#define ffetarget_add_integer4(res,l,r) (*(res) = (l) + (r), FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_add_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr, resr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     REAL_ARITHMETIC (resr, PLUS_EXPR, lr, rr); \
-     ffetarget_cvt_rv_to_r1_ (resr, *(res)); \
-     FFEBAD; })
-#define ffetarget_add_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr, resr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     REAL_ARITHMETIC (resr, PLUS_EXPR, lr, rr); \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_add_real1(res,l,r) (*(res) = (l) + (r), FFEBAD)
-#define ffetarget_add_real2(res,l,r) (*(res) = (l) + (r), FFEBAD)
-#endif
-#define ffetarget_aggregate_ptr_memcpy(dbt,dkt,sbt,skt) \
-  ((ffetargetCopyfunc) ffetarget_memcpy_)
-#define ffetarget_and_integer1(res,l,r) (*(res) = (l) & (r), FFEBAD)
-#define ffetarget_and_integer2(res,l,r) (*(res) = (l) & (r), FFEBAD)
-#define ffetarget_and_integer3(res,l,r) (*(res) = (l) & (r), FFEBAD)
-#define ffetarget_and_integer4(res,l,r) (*(res) = (l) & (r), FFEBAD)
-#define ffetarget_and_logical1(res,l,r) (*(res) = (l) && (r), FFEBAD)
-#define ffetarget_and_logical2(res,l,r) (*(res) = (l) && (r), FFEBAD)
-#define ffetarget_and_logical3(res,l,r) (*(res) = (l) && (r), FFEBAD)
-#define ffetarget_and_logical4(res,l,r) (*(res) = (l) && (r), FFEBAD)
-#define ffetarget_binarymil(v,t) ffetarget_typeless_binary (v, t)
-#define ffetarget_binaryvxt(v,t) ffetarget_typeless_binary (v, t)
-#define ffetarget_cmp_integer1(l,r) ((l) == (r) ? 0 : ((l) < (r) ? -1 : 1))
-#define ffetarget_cmp_integer2(l,r) ((l) == (r) ? 0 : ((l) < (r) ? -1 : 1))
-#define ffetarget_cmp_integer3(l,r) ((l) == (r) ? 0 : ((l) < (r) ? -1 : 1))
-#define ffetarget_cmp_integer4(l,r) ((l) == (r) ? 0 : ((l) < (r) ? -1 : 1))
-#define ffetarget_cmp_logical1(l,r) ((l) == (r) ? 0 : ((l) < (r) ? -1 : 1))
-#define ffetarget_cmp_logical2(l,r) ((l) == (r) ? 0 : ((l) < (r) ? -1 : 1))
-#define ffetarget_cmp_logical3(l,r) ((l) == (r) ? 0 : ((l) < (r) ? -1 : 1))
-#define ffetarget_cmp_logical4(l,r) ((l) == (r) ? 0 : ((l) < (r) ? -1 : 1))
-#define ffetarget_cmp_real1(l,r) memcmp (&(l), &(r), sizeof(l))
-#define ffetarget_cmp_real2(l,r) memcmp (&(l), &(r), sizeof(l))
-#define ffetarget_cmp_real3(l,r) memcmp (&(l), &(r), sizeof(l))
-#define ffetarget_cmp_typeless(l,r) \
-  memcmp (&(l), &(r), sizeof ((l)))
-#define ffetarget_convert_character1_integer1(res,res_size,l,pool) \
-        ffetarget_convert_character1_integer4(res,res_size,(ffetargetInteger4)l,pool)
-#define ffetarget_convert_character1_integer2(res,res_size,l,pool) \
-        ffetarget_convert_character1_integer4(res,res_size,(ffetargetInteger4)l,pool)
-#define ffetarget_convert_character1_integer3(res,res_size,l,pool) \
-        ffetarget_convert_character1_integer4(res,res_size,(ffetargetInteger4)l,pool)
-#define ffetarget_convert_character1_logical1(res,res_size,l,pool) \
-        ffetarget_convert_character1_logical4(res,res_size,(ffetargetLogical4)l,pool)
-#define ffetarget_convert_character1_logical2(res,res_size,l,pool) \
-        ffetarget_convert_character1_logical4(res,res_size,(ffetargetLogical4)l,pool)
-#define ffetarget_convert_character1_logical3(res,res_size,l,pool) \
-        ffetarget_convert_character1_logical4(res,res_size,(ffetargetLogical4)l,pool)
-#define ffetarget_convert_complex1_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_complex1_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_complex1_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_complex1_complex2(res,l) \
-  ({ REAL_VALUE_TYPE lr, li; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).real.v[0])); \
-     li = ffetarget_cvt_r2_to_rv_ (&((l).imaginary.v[0])); \
-     ffetarget_cvt_rv_to_r1_ (lr, (res)->real); \
-     ffetarget_cvt_rv_to_r1_ (li, (res)->imaginary), \
-     FFEBAD; })
-#else
-#define ffetarget_convert_complex1_complex2(res,l) \
-  ((res)->real = (l).real, (res)->imaginary = (l).imaginary, FFEBAD)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_complex1_integer(res,l) \
-  ({ REAL_VALUE_TYPE resi, resr; \
-     ffetargetInteger1 lf = (l); \
-     FFETARGET_REAL_VALUE_FROM_INT_ (resr, lf, 1); \
-     resi = dconst0; \
-     ffetarget_cvt_rv_to_r1_ (resr, (res)->real); \
-     ffetarget_cvt_rv_to_r1_ (resi, (res)->imaginary); \
-     FFEBAD; })
-#else
-#define ffetarget_convert_complex1_integer(res,l) \
-  ((res)->real = (l), (res)->imaginary = 0, FFEBAD)
-#endif
-#define ffetarget_convert_complex1_integer1 ffetarget_convert_complex1_integer
-#define ffetarget_convert_complex1_integer2 ffetarget_convert_complex1_integer
-#define ffetarget_convert_complex1_integer3 ffetarget_convert_complex1_integer
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_complex1_integer4(res,l) FFEBAD_NOCANDO
-#else
-#define ffetarget_convert_complex1_integer4 ffetarget_convert_complex1_integer
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_complex1_real1(res,l) \
-  ((res)->real = (l), \
-   ffetarget_cvt_rv_to_r1_ (dconst0, (res)->imaginary), \
-   FFEBAD)
-#define ffetarget_convert_complex1_real2(res,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     ffetarget_cvt_rv_to_r1_ (lr, (res)->real); \
-     ffetarget_cvt_rv_to_r1_ (dconst0, (res)->imaginary), \
-     FFEBAD; })
-#else
-#define ffetarget_convert_complex1_real1(res,l) \
-  ((res)->real = (l), (res)->imaginary = 0, FFEBAD)
-#define ffetarget_convert_complex1_real2(res,l) \
-  ((res)->real = (l), (res)->imaginary = 0, FFEBAD)
-#endif
-#define ffetarget_convert_complex2_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_complex2_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_complex2_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_complex2_complex1(res,l) \
-  ({ REAL_VALUE_TYPE lr, li; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l).real); \
-     li = ffetarget_cvt_r1_to_rv_ ((l).imaginary); \
-     ffetarget_cvt_rv_to_r2_ (lr, &((res)->real.v[0])); \
-     ffetarget_cvt_rv_to_r2_ (li, &((res)->imaginary.v[0])), \
-     FFEBAD; })
-#else
-#define ffetarget_convert_complex2_complex1(res,l) \
-  ((res)->real = (l).real, (res)->imaginary = (l).imaginary, FFEBAD)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_complex2_integer(res,l) \
-  ({ REAL_VALUE_TYPE resi, resr; \
-     ffetargetInteger1 lf = (l); \
-     FFETARGET_REAL_VALUE_FROM_INT_ (resr, lf, 2); \
-     resi = dconst0; \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->real.v[0])); \
-     ffetarget_cvt_rv_to_r2_ (resi, &((res)->imaginary.v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_convert_complex2_integer(res,l) \
-  ((res)->real = (l), (res)->imaginary = 0, FFEBAD)
-#endif
-#define ffetarget_convert_complex2_integer1 ffetarget_convert_complex2_integer
-#define ffetarget_convert_complex2_integer2 ffetarget_convert_complex2_integer
-#define ffetarget_convert_complex2_integer3 ffetarget_convert_complex2_integer
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_complex2_integer4(res,l) FFEBAD_NOCANDO
-#else
-#define ffetarget_convert_complex2_integer4 ffetarget_convert_complex2_integer
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_complex2_real1(res,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r1_to_rv_ (l); \
-     ffetarget_cvt_rv_to_r2_ (lr, &((res)->real.v[0])); \
-     ffetarget_cvt_rv_to_r2_ (dconst0, &((res)->imaginary.v[0])), \
-     FFEBAD; })
-#define ffetarget_convert_complex2_real2(res,l) \
-  ((res)->real = (l), \
-   ffetarget_cvt_rv_to_r2_ (dconst0, &((res)->imaginary.v[0])), \
-   FFEBAD)
-#else
-#define ffetarget_convert_complex2_real1(res,l) \
-  ((res)->real = (l), (res)->imaginary = 0, FFEBAD)
-#define ffetarget_convert_complex2_real2(res,l) \
-  ((res)->real = (l), (res)->imaginary = 0, FFEBAD)
-#endif
-#define ffetarget_convert_integer2_character1(res,l) \
-        ffetarget_convert_integer1_character1(res,l)
-#define ffetarget_convert_integer2_complex1(res,l) \
-        ffetarget_convert_integer1_complex1(res,l)
-#define ffetarget_convert_integer2_complex2(res,l) \
-        ffetarget_convert_integer1_complex2(res,l)
-#define ffetarget_convert_integer2_hollerith(res,l) \
-        ffetarget_convert_integer1_hollerith(res,l)
-#define ffetarget_convert_integer2_integer1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer2_integer3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer2_integer4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer2_logical1(res,l) \
-        ffetarget_convert_integer1_logical1(res,l)
-#define ffetarget_convert_integer2_logical2(res,l) \
-        ffetarget_convert_integer2_logical1(res,l)
-#define ffetarget_convert_integer2_logical3(res,l) \
-        ffetarget_convert_integer2_logical1(res,l)
-#define ffetarget_convert_integer2_logical4(res,l) \
-        ffetarget_convert_integer2_logical1(res,l)
-#define ffetarget_convert_integer2_real1(res,l) \
-        ffetarget_convert_integer1_real1(res,l)
-#define ffetarget_convert_integer2_real2(res,l) \
-        ffetarget_convert_integer1_real2(res,l)
-#define ffetarget_convert_integer2_typeless(res,l) \
-        ffetarget_convert_integer1_typeless(res,l)
-#define ffetarget_convert_integer3_character1(res,l) \
-        ffetarget_convert_integer1_character1(res,l)
-#define ffetarget_convert_integer3_complex1(res,l) \
-        ffetarget_convert_integer1_complex1(res,l)
-#define ffetarget_convert_integer3_complex2(res,l) \
-        ffetarget_convert_integer1_complex2(res,l)
-#define ffetarget_convert_integer3_hollerith(res,l) \
-        ffetarget_convert_integer1_hollerith(res,l)
-#define ffetarget_convert_integer3_integer1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer3_integer2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer3_integer4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer3_logical1(res,l) \
-        ffetarget_convert_integer1_logical1(res,l)
-#define ffetarget_convert_integer3_logical2(res,l) \
-        ffetarget_convert_integer3_logical1(res,l)
-#define ffetarget_convert_integer3_logical3(res,l) \
-        ffetarget_convert_integer3_logical1(res,l)
-#define ffetarget_convert_integer3_logical4(res,l) \
-        ffetarget_convert_integer3_logical1(res,l)
-#define ffetarget_convert_integer3_real1(res,l) \
-        ffetarget_convert_integer1_real1(res,l)
-#define ffetarget_convert_integer3_real2(res,l) \
-        ffetarget_convert_integer1_real2(res,l)
-#define ffetarget_convert_integer3_typeless(res,l) \
-        ffetarget_convert_integer1_typeless(res,l)
-#define ffetarget_convert_integer4_character1(res,l) \
-        ffetarget_convert_integer1_character1(res,l)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_integer4_complex1(res,l) FFEBAD_NOCANDO
-#define ffetarget_convert_integer4_complex2(res,l) FFEBAD_NOCANDO
-#else
-#define ffetarget_convert_integer4_complex1(res,l) \
-        ffetarget_convert_integer1_complex1(res,l)
-#define ffetarget_convert_integer4_complex2(res,l) \
-        ffetarget_convert_integer1_complex2(res,l)
-#endif
-#define ffetarget_convert_integer4_hollerith(res,l) \
-        ffetarget_convert_integer1_hollerith(res,l)
-#define ffetarget_convert_integer4_integer1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer4_integer2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer4_integer3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer4_logical1(res,l) \
-        ffetarget_convert_integer1_logical1(res,l)
-#define ffetarget_convert_integer4_logical2(res,l) \
-        ffetarget_convert_integer1_logical1(res,l)
-#define ffetarget_convert_integer4_logical3(res,l) \
-        ffetarget_convert_integer1_logical1(res,l)
-#define ffetarget_convert_integer4_logical4(res,l) \
-        ffetarget_convert_integer1_logical1(res,l)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_integer4_real1(res,l) FFEBAD_NOCANDO
-#define ffetarget_convert_integer4_real2(res,l) FFEBAD_NOCANDO
-#else
-#define ffetarget_convert_integer4_real1(res,l) \
-        ffetarget_convert_integer1_real1(res,l)
-#define ffetarget_convert_integer4_real2(res,l) \
-        ffetarget_convert_integer1_real2(res,l)
-#endif
-#define ffetarget_convert_integer4_typeless(res,l) \
-        ffetarget_convert_integer1_typeless(res,l)
-#define ffetarget_convert_logical1_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical1_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical1_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical1_logical2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical1_logical3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical1_logical4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical1_integer1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical1_integer2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical1_integer3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical1_integer4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical2_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical2_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical2_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical2_logical1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical2_logical3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical2_logical4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical2_integer1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical2_integer2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical2_integer3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical2_integer4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical3_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical3_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical3_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical3_logical1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical3_logical2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical3_logical4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical3_integer1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical3_integer2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical3_integer3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical3_integer4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical4_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical4_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical4_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_logical4_logical1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical4_logical2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical4_logical3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical4_integer1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical4_integer2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical4_integer3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_logical4_integer4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_integer1_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_integer1_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_integer1_integer2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_integer3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_integer4(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_logical1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_logical2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_logical3(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_logical4(res,l) (*(res) = (l), FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_integer1_real1(res,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r1_to_rv_ (l); \
-     REAL_VALUE_TO_INT (&ffetarget_long_val_, &ffetarget_long_junk_, lr); \
-     *(res) = ffetarget_long_val_; \
-     FFEBAD; })
-#define ffetarget_convert_integer1_real2(res,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     REAL_VALUE_TO_INT (&ffetarget_long_val_, &ffetarget_long_junk_, lr); \
-     *(res) = ffetarget_long_val_; \
-     FFEBAD; })
-#define ffetarget_convert_integer1_complex1(res,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l).real); \
-     REAL_VALUE_TO_INT (&ffetarget_long_val_, &ffetarget_long_junk_, lr); \
-     *(res) = ffetarget_long_val_; \
-     FFEBAD; })
-#define ffetarget_convert_integer1_complex2(res,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).real.v[0])); \
-     REAL_VALUE_TO_INT (&ffetarget_long_val_, &ffetarget_long_junk_, lr); \
-     *(res) = ffetarget_long_val_; \
-     FFEBAD; })
-#else
-#define ffetarget_convert_integer1_real1(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_real2(res,l) (*(res) = (l), FFEBAD)
-#define ffetarget_convert_integer1_complex1(res,l) (*(res) = (l).real, FFEBAD)
-#define ffetarget_convert_integer1_complex2(res,l) (*(res) = (l).real, FFEBAD)
-#endif
-#define ffetarget_convert_real1_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_real1_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_real1_integer2(res,l) \
-        ffetarget_convert_real1_integer1(res,l)
-#define ffetarget_convert_real1_integer3(res,l) \
-        ffetarget_convert_real1_integer1(res,l)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_real1_integer4(res,l) FFEBAD_NOCANDO
-#else
-#define ffetarget_convert_real1_integer4(res,l) \
-        ffetarget_convert_real1_integer1(res,l)
-#endif
-#define ffetarget_convert_real1_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_real1_complex1(res,l) (*(res) = (l).real, FFEBAD)
-#define ffetarget_convert_real1_complex2(res,l) \
-  ffetarget_convert_real1_real2 ((res), (l).real)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_real1_integer1(res,l) \
-  ({ REAL_VALUE_TYPE resr; \
-     ffetargetInteger1 lf = (l); \
-     FFETARGET_REAL_VALUE_FROM_INT_ (resr, lf, 1); \
-     ffetarget_cvt_rv_to_r1_ (resr, *(res)); \
-     FFEBAD; })
-#else
-#define ffetarget_convert_real1_integer1(res,l) (*(res) = (l), FFEBAD)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_real1_real2(res,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     ffetarget_cvt_rv_to_r1_ (lr, *(res)); \
-     FFEBAD; })
-#else
-#define ffetarget_convert_real1_real2(res,l) (*(res) = (l), FFEBAD)
-#endif
-#define ffetarget_convert_real2_character1(res,l) \
-  ffetarget_convert_any_character1_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_real2_hollerith(res,l) \
-  ffetarget_convert_any_hollerith_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_real2_integer2(res,l) \
-        ffetarget_convert_real2_integer1(res,l)
-#define ffetarget_convert_real2_integer3(res,l) \
-        ffetarget_convert_real2_integer1(res,l)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_real2_integer4(res,l) FFEBAD_NOCANDO
-#else
-#define ffetarget_convert_real2_integer4(res,l) \
-        ffetarget_convert_real2_integer1(res,l)
-#endif
-#define ffetarget_convert_real2_typeless(res,l) \
-  ffetarget_convert_any_typeless_ ((char *) (res), sizeof(*(res)), l)
-#define ffetarget_convert_real2_complex1(res,l) \
-  ffetarget_convert_real2_real1 ((res), (l).real)
-#define ffetarget_convert_real2_complex2(res,l) (*(res) = (l).real, FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_real2_integer(res,l) \
-  ({ REAL_VALUE_TYPE resr; \
-     ffetargetInteger1 lf = (l); \
-     FFETARGET_REAL_VALUE_FROM_INT_ (resr, lf, 2); \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->v[0])); \
-     FFEBAD; })
-#define ffetarget_convert_real2_integer1 ffetarget_convert_real2_integer
-#else
-#define ffetarget_convert_real2_integer1(res,l) (*(res) = (l), FFEBAD)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_convert_real2_real1(res,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     ffetarget_cvt_rv_to_r2_ (lr, &((res)->v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_convert_real2_real1(res,l) (*(res) = (l), FFEBAD)
-#endif
-#define ffetarget_divide_integer1(res,l,r) \
-  (((r) == 0) ? (*(res) = 0, FFEBAD_DIV_BY_ZERO)  \
-   : (*(res) = (l) / (r), FFEBAD))
-#define ffetarget_divide_integer2(res,l,r) \
-        ffetarget_divide_integer1(res,l,r)
-#define ffetarget_divide_integer3(res,l,r) \
-        ffetarget_divide_integer1(res,l,r)
-#define ffetarget_divide_integer4(res,l,r) \
-        ffetarget_divide_integer1(res,l,r)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_divide_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr, resr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     REAL_VALUES_EQUAL (rr, dconst0) \
-       ? ({ ffetarget_cvt_rv_to_r1_ (dconst0, *(res)); \
-	    FFEBAD_DIV_BY_ZERO; \
-	  }) \
-	 : ({ REAL_ARITHMETIC (resr, RDIV_EXPR, lr, rr); \
-	      ffetarget_cvt_rv_to_r1_ (resr, *(res)); \
-	      FFEBAD; \
-	    }); \
-	 })
-#define ffetarget_divide_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr, resr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     REAL_VALUES_EQUAL (rr, dconst0) \
-       ? ({ ffetarget_cvt_rv_to_r2_ (dconst0, &((res)->v[0])); \
-	    FFEBAD_DIV_BY_ZERO; \
-	  }) \
-	 : ({ REAL_ARITHMETIC (resr, RDIV_EXPR, lr, rr); \
-	      ffetarget_cvt_rv_to_r2_ (resr, &((res)->v[0])); \
-	      FFEBAD; \
-	    }); \
-	 })
-#else
-#define ffetarget_divide_real1(res,l,r) \
-  (((r) == 0) ? (*(res) = 0, FFEBAD_DIV_BY_ZERO)  \
-   : (*(res) = (l) / (r), FFEBAD))
-#define ffetarget_divide_real2(res,l,r) \
-  (((r) == 0) ? (*(res) = 0, FFEBAD_DIV_BY_ZERO)  \
-   : (*(res) = (l) / (r), FFEBAD))
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_eq_complex1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, li, rr, ri; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l).real); \
-     li = ffetarget_cvt_r1_to_rv_ ((l).imaginary); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r).real); \
-     ri = ffetarget_cvt_r1_to_rv_ ((r).imaginary); \
-     *(res) = (REAL_VALUES_EQUAL (lr, rr) && REAL_VALUES_EQUAL (li, ri)) \
-       ? TRUE : FALSE; \
-     FFEBAD; })
-#define ffetarget_eq_complex2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, li, rr, ri; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).real.v[0])); \
-     li = ffetarget_cvt_r2_to_rv_ (&((l).imaginary.v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).real.v[0])); \
-     ri = ffetarget_cvt_r2_to_rv_ (&((r).imaginary.v[0])); \
-     *(res) = (REAL_VALUES_EQUAL (lr, rr) && REAL_VALUES_EQUAL (li, ri)) \
-       ? TRUE : FALSE; \
-     FFEBAD; })
-#else
-#define ffetarget_eq_complex1(res,l,r) \
-  (*(res) = (((l).real == (r).real) && ((l).imaginary == (r).imaginary))  \
-   ? TRUE : FALSE, FFEBAD)
-#define ffetarget_eq_complex2(res,l,r) \
-  (*(res) = (((l).real == (r).real) && ((l).imaginary == (r).imaginary))  \
-   ? TRUE : FALSE, FFEBAD)
-#endif
-#define ffetarget_eq_integer1(res,l,r) \
-  (*(res) = ((l) == (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_eq_integer2(res,l,r) \
-  (*(res) = ((l) == (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_eq_integer3(res,l,r) \
-  (*(res) = ((l) == (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_eq_integer4(res,l,r) \
-  (*(res) = ((l) == (r)) ? TRUE : FALSE, FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_eq_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     *(res) = REAL_VALUES_EQUAL (lr, rr) ? TRUE : FALSE; \
-     FFEBAD; })
-#define ffetarget_eq_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     *(res) = REAL_VALUES_EQUAL (lr, rr) ? TRUE : FALSE; \
-     FFEBAD; })
-#else
-#define ffetarget_eq_real1(res,l,r) \
-  (*(res) = ((l) == (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_eq_real2(res,l,r) \
-  (*(res) = ((l) == (r)) ? TRUE : FALSE, FFEBAD)
-#endif
-#define ffetarget_eqv_integer1(res,l,r) (*(res) = (l) ^ ~(r), FFEBAD)
-#define ffetarget_eqv_integer2(res,l,r) (*(res) = (l) ^ ~(r), FFEBAD)
-#define ffetarget_eqv_integer3(res,l,r) (*(res) = (l) ^ ~(r), FFEBAD)
-#define ffetarget_eqv_integer4(res,l,r) (*(res) = (l) ^ ~(r), FFEBAD)
-#define ffetarget_eqv_logical1(res,l,r) (*(res) = (l) == (r), FFEBAD)
-#define ffetarget_eqv_logical2(res,l,r) (*(res) = (l) == (r), FFEBAD)
-#define ffetarget_eqv_logical3(res,l,r) (*(res) = (l) == (r), FFEBAD)
-#define ffetarget_eqv_logical4(res,l,r) (*(res) = (l) == (r), FFEBAD)
-#define ffetarget_ge_integer1(res,l,r) \
-  (*(res) = ((l) >= (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ge_integer2(res,l,r) \
-  (*(res) = ((l) >= (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ge_integer3(res,l,r) \
-  (*(res) = ((l) >= (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ge_integer4(res,l,r) \
-  (*(res) = ((l) >= (r)) ? TRUE : FALSE, FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_ge_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     *(res) = REAL_VALUES_LESS (lr, rr) ? FALSE : TRUE; \
-     FFEBAD; })
-#define ffetarget_ge_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     *(res) = REAL_VALUES_LESS (lr, rr) ? FALSE : TRUE; \
-     FFEBAD; })
-#else
-#define ffetarget_ge_real1(res,l,r) \
-  (*(res) = ((l) >= (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ge_real2(res,l,r) \
-  (*(res) = ((l) >= (r)) ? TRUE : FALSE, FFEBAD)
-#endif
-#define ffetarget_gt_integer1(res,l,r) \
-  (*(res) = ((l) > (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_gt_integer2(res,l,r) \
-  (*(res) = ((l) > (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_gt_integer3(res,l,r) \
-  (*(res) = ((l) > (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_gt_integer4(res,l,r) \
-  (*(res) = ((l) > (r)) ? TRUE : FALSE, FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_gt_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     *(res) = (REAL_VALUES_LESS (lr, rr) || REAL_VALUES_EQUAL (lr, rr)) \
-       ? FALSE : TRUE; \
-     FFEBAD; })
-#define ffetarget_gt_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     *(res) = (REAL_VALUES_LESS (lr, rr) || REAL_VALUES_EQUAL (lr, rr)) \
-       ? FALSE : TRUE; \
-     FFEBAD; })
-#else
-#define ffetarget_gt_real1(res,l,r) \
-  (*(res) = ((l) > (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_gt_real2(res,l,r) \
-  (*(res) = ((l) > (r)) ? TRUE : FALSE, FFEBAD)
-#endif
-#define ffetarget_hexxmil(v,t) ffetarget_typeless_hex (v, t)
-#define ffetarget_hexxvxt(v,t) ffetarget_typeless_hex (v, t)
-#define ffetarget_hexzmil(v,t) ffetarget_typeless_hex (v, t)
-#define ffetarget_hexzvxt(v,t) ffetarget_typeless_hex (v, t)
-#define ffetarget_init_0()
-#define ffetarget_init_1()
-#define ffetarget_init_2()
-#define ffetarget_init_3()
-#define ffetarget_init_4()
-#ifdef FFETARGET_32bit_longs
-#define ffetarget_integerdefault_is_magical(i) \
-  (((unsigned long int) i) == FFETARGET_integerBIG_MAGICAL)
-#else
-#define ffetarget_integerdefault_is_magical(i) \
-  (((unsigned int) i) == FFETARGET_integerBIG_MAGICAL)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_iszero_real1(l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     REAL_VALUES_EQUAL (lr, dconst0); \
-   })
-#define ffetarget_iszero_real2(l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     REAL_VALUES_EQUAL (lr, dconst0); \
-   })
-#else
-#define ffetarget_iszero_real1(l) ((l) == 0.)
-#define ffetarget_iszero_real2(l) ((l) == 0.)
-#endif
-#define ffetarget_iszero_typeless(l) ((l) == 0)
-#define ffetarget_logical1(v,truth) (*(v) = truth ? 1 : 0)
-#define ffetarget_le_integer1(res,l,r) \
-  (*(res) = ((l) <= (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_le_integer2(res,l,r) \
-  (*(res) = ((l) <= (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_le_integer3(res,l,r) \
-  (*(res) = ((l) <= (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_le_integer4(res,l,r) \
-  (*(res) = ((l) <= (r)) ? TRUE : FALSE, FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_le_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     *(res) = (REAL_VALUES_LESS (lr, rr) || REAL_VALUES_EQUAL (lr, rr)) \
-       ? TRUE : FALSE; \
-     FFEBAD; })
-#define ffetarget_le_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     *(res) = (REAL_VALUES_LESS (lr, rr) || REAL_VALUES_EQUAL (lr, rr)) \
-       ? TRUE : FALSE; \
-     FFEBAD; })
-#else
-#define ffetarget_le_real1(res,l,r) \
-  (*(res) = ((l) <= (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_le_real2(res,l,r) \
-  (*(res) = ((l) <= (r)) ? TRUE : FALSE, FFEBAD)
-#endif
-#define ffetarget_lt_integer1(res,l,r) \
-  (*(res) = ((l) < (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_lt_integer2(res,l,r) \
-  (*(res) = ((l) < (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_lt_integer3(res,l,r) \
-  (*(res) = ((l) < (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_lt_integer4(res,l,r) \
-  (*(res) = ((l) < (r)) ? TRUE : FALSE, FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_lt_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     *(res) = REAL_VALUES_LESS (lr, rr) ? TRUE : FALSE; \
-     FFEBAD; })
-#define ffetarget_lt_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     *(res) = REAL_VALUES_LESS (lr, rr) ? TRUE : FALSE; \
-     FFEBAD; })
-#else
-#define ffetarget_lt_real1(res,l,r) \
-  (*(res) = ((l) < (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_lt_real2(res,l,r) \
-  (*(res) = ((l) < (r)) ? TRUE : FALSE, FFEBAD)
-#endif
-#define ffetarget_length_character1(c) ((c).length)
-#define ffetarget_length_characterdefault ffetarget_length_character1
-#ifdef REAL_ARITHMETIC
-#define ffetarget_make_real1(res,lr) \
-  ffetarget_cvt_rv_to_r1_ ((lr), *(res))
-#define ffetarget_make_real2(res,lr) \
-  ffetarget_cvt_rv_to_r2_ ((lr), &((res)->v[0]))
-#else
-#define ffetarget_make_real1(res,lr) (*(res) = (lr))
-#define ffetarget_make_real2(res,lr) (*(res) = (lr))
-#endif
-#define ffetarget_multiply_integer1(res,l,r) (*(res) = (l) * (r), FFEBAD)
-#define ffetarget_multiply_integer2(res,l,r) (*(res) = (l) * (r), FFEBAD)
-#define ffetarget_multiply_integer3(res,l,r) (*(res) = (l) * (r), FFEBAD)
-#define ffetarget_multiply_integer4(res,l,r) (*(res) = (l) * (r), FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_multiply_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr, resr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     REAL_ARITHMETIC (resr, MULT_EXPR, lr, rr); \
-     ffetarget_cvt_rv_to_r1_ (resr, *(res)); \
-     FFEBAD; })
-#define ffetarget_multiply_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr, resr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     REAL_ARITHMETIC (resr, MULT_EXPR, lr, rr); \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_multiply_real1(res,l,r) (*(res) = (l) * (r), FFEBAD)
-#define ffetarget_multiply_real2(res,l,r) (*(res) = (l) * (r), FFEBAD)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_ne_complex1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, li, rr, ri; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l).real); \
-     li = ffetarget_cvt_r1_to_rv_ ((l).imaginary); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r).real); \
-     ri = ffetarget_cvt_r1_to_rv_ ((r).imaginary); \
-     *(res) = (REAL_VALUES_EQUAL (lr, rr) && REAL_VALUES_EQUAL (li, ri)) \
-       ? FALSE : TRUE; \
-     FFEBAD; })
-#define ffetarget_ne_complex2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, li, rr, ri; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).real.v[0])); \
-     li = ffetarget_cvt_r2_to_rv_ (&((l).imaginary.v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).real.v[0])); \
-     ri = ffetarget_cvt_r2_to_rv_ (&((r).imaginary.v[0])); \
-     *(res) = (REAL_VALUES_EQUAL (lr, rr) && REAL_VALUES_EQUAL (li, ri)) \
-       ? FALSE : TRUE; \
-     FFEBAD; })
-#else
-#define ffetarget_ne_complex1(res,l,r) \
-  (*(res) = (((l).real != (r).real) || ((l).imaginary != (r).imaginary))  \
-   ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ne_complex2(res,l,r) \
-  (*(res) = (((l).real != (r).real) || ((l).imaginary != (r).imaginary))  \
-   ? TRUE : FALSE, FFEBAD)
-#endif
-#define ffetarget_ne_integer1(res,l,r) \
-  (*(res) = ((l) != (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ne_integer2(res,l,r) \
-  (*(res) = ((l) != (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ne_integer3(res,l,r) \
-  (*(res) = ((l) != (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ne_integer4(res,l,r) \
-  (*(res) = ((l) != (r)) ? TRUE : FALSE, FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_ne_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     *(res) = REAL_VALUES_EQUAL (lr, rr) ? FALSE : TRUE; \
-     FFEBAD; })
-#define ffetarget_ne_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     *(res) = REAL_VALUES_EQUAL (lr, rr) ? FALSE : TRUE; \
-     FFEBAD; })
-#else
-#define ffetarget_ne_real1(res,l,r) \
-  (*(res) = ((l) != (r)) ? TRUE : FALSE, FFEBAD)
-#define ffetarget_ne_real2(res,l,r) \
-  (*(res) = ((l) != (r)) ? TRUE : FALSE, FFEBAD)
-#endif
-#define ffetarget_neqv_integer1(res,l,r) (*(res) = (l) ^ (r), FFEBAD)
-#define ffetarget_neqv_integer2(res,l,r) (*(res) = (l) ^ (r), FFEBAD)
-#define ffetarget_neqv_integer3(res,l,r) (*(res) = (l) ^ (r), FFEBAD)
-#define ffetarget_neqv_integer4(res,l,r) (*(res) = (l) ^ (r), FFEBAD)
-#define ffetarget_neqv_logical1(res,l,r) (*(res) = (l) != (r), FFEBAD)
-#define ffetarget_neqv_logical2(res,l,r) (*(res) = (l) != (r), FFEBAD)
-#define ffetarget_neqv_logical3(res,l,r) (*(res) = (l) != (r), FFEBAD)
-#define ffetarget_neqv_logical4(res,l,r) (*(res) = (l) != (r), FFEBAD)
-#define ffetarget_not_integer1(res,l) (*(res) = ~(l), FFEBAD)
-#define ffetarget_not_integer2(res,l) (*(res) = ~(l), FFEBAD)
-#define ffetarget_not_integer3(res,l) (*(res) = ~(l), FFEBAD)
-#define ffetarget_not_integer4(res,l) (*(res) = ~(l), FFEBAD)
-#define ffetarget_not_logical1(res,l) (*(res) = !(l), FFEBAD)
-#define ffetarget_not_logical2(res,l) (*(res) = !(l), FFEBAD)
-#define ffetarget_not_logical3(res,l) (*(res) = !(l), FFEBAD)
-#define ffetarget_not_logical4(res,l) (*(res) = !(l), FFEBAD)
-#define ffetarget_octalmil(v,t) ffetarget_typeless_octal (v, t)
-#define ffetarget_octalvxt(v,t) ffetarget_typeless_octal (v, t)
-#define ffetarget_offset(res,l) (*(res) = (l), TRUE)	/* Overflow? */
-#define ffetarget_offset_add(res,l,r) (*(res) = (l) + (r), TRUE)	/* Overflow? */
-#define ffetarget_offset_charsize(res,l,u) (*(res) = (l) * (u), TRUE)	/* Ov? */
-#define ffetarget_offset_multiply(res,l,r) (*(res) = (l) * (r), TRUE)	/* Ov? */
-#define ffetarget_offset_overflow(text) ((void) 0)	/* ~~no message? */
-#define ffetarget_or_integer1(res,l,r) (*(res) = (l) | (r), FFEBAD)
-#define ffetarget_or_integer2(res,l,r) (*(res) = (l) | (r), FFEBAD)
-#define ffetarget_or_integer3(res,l,r) (*(res) = (l) | (r), FFEBAD)
-#define ffetarget_or_integer4(res,l,r) (*(res) = (l) | (r), FFEBAD)
-#define ffetarget_or_logical1(res,l,r) (*(res) = (l) || (r), FFEBAD)
-#define ffetarget_or_logical2(res,l,r) (*(res) = (l) || (r), FFEBAD)
-#define ffetarget_or_logical3(res,l,r) (*(res) = (l) || (r), FFEBAD)
-#define ffetarget_or_logical4(res,l,r) (*(res) = (l) || (r), FFEBAD)
-#define ffetarget_print_binarymil(f,v) ffetarget_print_binary (f, v)
-#define ffetarget_print_binaryvxt(f,v) ffetarget_print_binary (f, v)
-#define ffetarget_print_hexxmil(f,v) ffetarget_print_hex (f, v)
-#define ffetarget_print_hexxvxt(f,v) ffetarget_print_hex (f, v)
-#define ffetarget_print_hexzmil(f,v) ffetarget_print_hex (f, v)
-#define ffetarget_print_hexzvxt(f,v) ffetarget_print_hex (f, v)
-#define ffetarget_print_integer1(f,v) \
-  fprintf ((f), "%" ffetargetInteger1_f "d", (v))
-#define ffetarget_print_integer2(f,v) \
-  fprintf ((f), "%" ffetargetInteger2_f "d", (v))
-#define ffetarget_print_integer3(f,v) \
-  fprintf ((f), "%" ffetargetInteger3_f "d", (v))
-#define ffetarget_print_integer4(f,v) \
-  fprintf ((f), "%" ffetargetInteger4_f "d", (v))
-#define ffetarget_print_logical1(f,v) \
-  fprintf ((f), "%" ffetargetLogical1_f "d", (v))
-#define ffetarget_print_logical2(f,v) \
-  fprintf ((f), "%" ffetargetLogical2_f "d", (v))
-#define ffetarget_print_logical3(f,v) \
-  fprintf ((f), "%" ffetargetLogical3_f "d", (v))
-#define ffetarget_print_logical4(f,v) \
-  fprintf ((f), "%" ffetargetLogical4_f "d", (v))
-#define ffetarget_print_octalmil(f,v) ffetarget_print_octal(f,v)
-#define ffetarget_print_octalvxt(f,v) ffetarget_print_octal(f,v)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_print_real1(f,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     REAL_VALUE_TO_DECIMAL (lr, bad_fmt_val??, ffetarget_string_); \
-     fputs (ffetarget_string_, (f)); \
-   })
-#define ffetarget_print_real2(f,l) \
-  ({ REAL_VALUE_TYPE lr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     REAL_VALUE_TO_DECIMAL (lr, bad_fmt_val??, ffetarget_string_); \
-     fputs (ffetarget_string_, (f)); \
-   })
-#else
-#define ffetarget_print_real1(f,v) \
-  fprintf ((f), "%" ffetargetReal1_f "g", (v))
-#define ffetarget_print_real2(f,v) \
-  fprintf ((f), "%" ffetargetReal2_f "g", (v))
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_real1_one(res) ffetarget_cvt_rv_to_r1_ (dconst1, *(res))
-#define ffetarget_real2_one(res) ffetarget_cvt_rv_to_r2_ (dconst1, &((res)->v[0]))
-#else
-#define ffetarget_real1_one(res) (*(res) = (float) 1.)
-#define ffetarget_real2_one(res) (*(res) = 1.)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_real1_two(res) ffetarget_cvt_rv_to_r1_ (dconst2, *(res))
-#define ffetarget_real2_two(res) ffetarget_cvt_rv_to_r2_ (dconst2, &((res)->v[0]))
-#else
-#define ffetarget_real1_two(res) (*(res) = (float) 2.)
-#define ffetarget_real2_two(res) (*(res) = 2.)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_real1_zero(res) ffetarget_cvt_rv_to_r1_ (dconst0, *(res))
-#define ffetarget_real2_zero(res) ffetarget_cvt_rv_to_r2_ (dconst0, &((res)->v[0]))
-#else
-#define ffetarget_real1_zero(res) (*(res) = (float) 0.)
-#define ffetarget_real2_zero(res) (*(res) = 0.)
-#endif
-#define ffetarget_size_typeless_binary(t) ((ffetarget_num_digits_(t) + 7) / 8)
-#define ffetarget_size_typeless_octal(t) \
-  ((ffetarget_num_digits_(t) * 3 + 7) / 8)
-#define ffetarget_size_typeless_hex(t) ((ffetarget_num_digits_(t) + 1) / 2)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_subtract_complex1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, li, rr, ri, resr, resi; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l).real); \
-     li = ffetarget_cvt_r1_to_rv_ ((l).imaginary); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r).real); \
-     ri = ffetarget_cvt_r1_to_rv_ ((r).imaginary); \
-     REAL_ARITHMETIC (resr, MINUS_EXPR, lr, rr); \
-     REAL_ARITHMETIC (resi, MINUS_EXPR, li, ri); \
-     ffetarget_cvt_rv_to_r1_ (resr, (res)->real); \
-     ffetarget_cvt_rv_to_r1_ (resi, (res)->imaginary); \
-     FFEBAD; })
-#define ffetarget_subtract_complex2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, li, rr, ri, resr, resi; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).real.v[0])); \
-     li = ffetarget_cvt_r2_to_rv_ (&((l).imaginary.v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).real.v[0])); \
-     ri = ffetarget_cvt_r2_to_rv_ (&((r).imaginary.v[0])); \
-     REAL_ARITHMETIC (resr, MINUS_EXPR, lr, rr); \
-     REAL_ARITHMETIC (resi, MINUS_EXPR, li, ri); \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->real.v[0])); \
-     ffetarget_cvt_rv_to_r2_ (resi, &((res)->imaginary.v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_subtract_complex1(res,l,r) \
-  ((res)->real = (l).real - (r).real, \
-   (res)->imaginary = (l).imaginary - (r).imaginary, FFEBAD)
-#define ffetarget_subtract_complex2(res,l,r) \
-  ((res)->real = (l).real - (r).real, \
-   (res)->imaginary = (l).imaginary - (r).imaginary, FFEBAD)
-#endif
-#define ffetarget_subtract_integer1(res,l,r) (*(res) = (l) - (r), FFEBAD)
-#define ffetarget_subtract_integer2(res,l,r) (*(res) = (l) - (r), FFEBAD)
-#define ffetarget_subtract_integer3(res,l,r) (*(res) = (l) - (r), FFEBAD)
-#define ffetarget_subtract_integer4(res,l,r) (*(res) = (l) - (r), FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_subtract_real1(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr, resr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     rr = ffetarget_cvt_r1_to_rv_ ((r)); \
-     REAL_ARITHMETIC (resr, MINUS_EXPR, lr, rr); \
-     ffetarget_cvt_rv_to_r1_ (resr, *(res)); \
-     FFEBAD; })
-#define ffetarget_subtract_real2(res,l,r) \
-  ({ REAL_VALUE_TYPE lr, rr, resr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     rr = ffetarget_cvt_r2_to_rv_ (&((r).v[0])); \
-     REAL_ARITHMETIC (resr, MINUS_EXPR, lr, rr); \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_subtract_real1(res,l,r) (*(res) = (l) - (r), FFEBAD)
-#define ffetarget_subtract_real2(res,l,r) (*(res) = (l) - (r), FFEBAD)
-#endif
-#define ffetarget_terminate_0()
-#define ffetarget_terminate_1()
-#define ffetarget_terminate_2()
-#define ffetarget_terminate_3()
-#define ffetarget_terminate_4()
-#define ffetarget_text_character1(c) ((c).text)
-#define ffetarget_text_characterdefault ffetarget_text_character1
-#ifdef REAL_ARITHMETIC
-#define ffetarget_uminus_complex1(res,l) \
-  ({ REAL_VALUE_TYPE lr, li, resr, resi; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l).real); \
-     li = ffetarget_cvt_r1_to_rv_ ((l).imaginary); \
-     resr = REAL_VALUE_NEGATE (lr); \
-     resi = REAL_VALUE_NEGATE (li); \
-     ffetarget_cvt_rv_to_r1_ (resr, (res)->real); \
-     ffetarget_cvt_rv_to_r1_ (resi, (res)->imaginary); \
-     FFEBAD; })
-#define ffetarget_uminus_complex2(res,l) \
-  ({ REAL_VALUE_TYPE lr, li, resr, resi; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).real.v[0])); \
-     li = ffetarget_cvt_r2_to_rv_ (&((l).imaginary.v[0])); \
-     resr = REAL_VALUE_NEGATE (lr); \
-     resi = REAL_VALUE_NEGATE (li); \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->real.v[0])); \
-     ffetarget_cvt_rv_to_r2_ (resi, &((res)->imaginary.v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_uminus_complex1(res,l) \
-  ((res)->real = -(l).real, (res)->imaginary = -(l).imaginary, FFEBAD)
-#define ffetarget_uminus_complex2(res,l) \
-  ((res)->real = -(l).real, (res)->imaginary = -(l).imaginary, FFEBAD)
-#endif
-#define ffetarget_uminus_integer1(res,l) (*(res) = -(l), FFEBAD)
-#define ffetarget_uminus_integer2(res,l) (*(res) = -(l), FFEBAD)
-#define ffetarget_uminus_integer3(res,l) (*(res) = -(l), FFEBAD)
-#define ffetarget_uminus_integer4(res,l) (*(res) = -(l), FFEBAD)
-#ifdef REAL_ARITHMETIC
-#define ffetarget_uminus_real1(res,l) \
-  ({ REAL_VALUE_TYPE lr, resr; \
-     lr = ffetarget_cvt_r1_to_rv_ ((l)); \
-     resr = REAL_VALUE_NEGATE (lr); \
-     ffetarget_cvt_rv_to_r1_ (resr, *(res)); \
-     FFEBAD; })
-#define ffetarget_uminus_real2(res,l) \
-  ({ REAL_VALUE_TYPE lr, resr; \
-     lr = ffetarget_cvt_r2_to_rv_ (&((l).v[0])); \
-     resr = REAL_VALUE_NEGATE (lr); \
-     ffetarget_cvt_rv_to_r2_ (resr, &((res)->v[0])); \
-     FFEBAD; })
-#else
-#define ffetarget_uminus_real1(res,l) (*(res) = -(l), FFEBAD)
-#define ffetarget_uminus_real2(res,l) (*(res) = -(l), FFEBAD)
-#endif
-#ifdef REAL_ARITHMETIC
-#define ffetarget_value_real1(lr) ffetarget_cvt_r1_to_rv_ ((lr))
-#define ffetarget_value_real2(lr) ffetarget_cvt_r2_to_rv_ (&((lr).v[0]))
-#else
-#define ffetarget_value_real1
-#define ffetarget_value_real2
-#endif
-#define ffetarget_xor_integer1(res,l,r) (*(res) = (l) ^ (r), FFEBAD)
-#define ffetarget_xor_integer2(res,l,r) (*(res) = (l) ^ (r), FFEBAD)
-#define ffetarget_xor_integer3(res,l,r) (*(res) = (l) ^ (r), FFEBAD)
-#define ffetarget_xor_integer4(res,l,r) (*(res) = (l) ^ (r), FFEBAD)
-#define ffetarget_xor_logical1(res,l,r) (*(res) = (l) != (r), FFEBAD)
-#define ffetarget_xor_logical2(res,l,r) (*(res) = (l) != (r), FFEBAD)
-#define ffetarget_xor_logical3(res,l,r) (*(res) = (l) != (r), FFEBAD)
-#define ffetarget_xor_logical4(res,l,r) (*(res) = (l) != (r), FFEBAD)
-
-/* End of #include file. */
-
-#endif /* ! GCC_F_TARGET_H */