freebsd-dev/contrib/gcc/f/bld.h
2004-07-28 03:11:36 +00:00

749 lines
29 KiB
C

/* bld.h -- Public #include File (module.h template V1.0)
Copyright (C) 1995, 1996, 2003 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:
bld.c
Modifications:
*/
/* Allow multiple inclusion to work. */
#ifndef GCC_F_BLD_H
#define GCC_F_BLD_H
/* Simple definitions and enumerations. */
typedef enum
{
FFEBLD_constNONE,
FFEBLD_constINTEGER1,
FFEBLD_constINTEGER2,
FFEBLD_constINTEGER3,
FFEBLD_constINTEGER4,
FFEBLD_constINTEGER5,
FFEBLD_constINTEGER6,
FFEBLD_constINTEGER7,
FFEBLD_constINTEGER8,
FFEBLD_constLOGICAL1,
FFEBLD_constLOGICAL2,
FFEBLD_constLOGICAL3,
FFEBLD_constLOGICAL4,
FFEBLD_constLOGICAL5,
FFEBLD_constLOGICAL6,
FFEBLD_constLOGICAL7,
FFEBLD_constLOGICAL8,
FFEBLD_constREAL1,
FFEBLD_constREAL2,
FFEBLD_constREAL3,
FFEBLD_constREAL4,
FFEBLD_constREAL5,
FFEBLD_constREAL6,
FFEBLD_constREAL7,
FFEBLD_constREAL8,
FFEBLD_constCOMPLEX1,
FFEBLD_constCOMPLEX2,
FFEBLD_constCOMPLEX3,
FFEBLD_constCOMPLEX4,
FFEBLD_constCOMPLEX5,
FFEBLD_constCOMPLEX6,
FFEBLD_constCOMPLEX7,
FFEBLD_constCOMPLEX8,
FFEBLD_constCHARACTER1,
FFEBLD_constCHARACTER2,
FFEBLD_constCHARACTER3,
FFEBLD_constCHARACTER4,
FFEBLD_constCHARACTER5,
FFEBLD_constCHARACTER6,
FFEBLD_constCHARACTER7,
FFEBLD_constCHARACTER8,
FFEBLD_constHOLLERITH,
FFEBLD_constTYPELESS_FIRST,
FFEBLD_constBINARY_MIL = FFEBLD_constTYPELESS_FIRST,
FFEBLD_constBINARY_VXT,
FFEBLD_constOCTAL_MIL,
FFEBLD_constOCTAL_VXT,
FFEBLD_constHEX_X_MIL,
FFEBLD_constHEX_X_VXT,
FFEBLD_constHEX_Z_MIL,
FFEBLD_constHEX_Z_VXT,
FFEBLD_constTYPELESS_LAST = FFEBLD_constHEX_Z_VXT,
FFEBLD_const
} ffebldConst;
typedef enum
{
#define FFEBLD_OP(KWD,NAME,ARITY) KWD,
#include "bld-op.def"
#undef FFEBLD_OP
FFEBLD_op
} ffebldOp;
/* Typedefs. */
typedef struct _ffebld_ *ffebld;
typedef unsigned char ffebldArity;
typedef union _ffebld_constant_array_ ffebldConstantArray;
typedef struct _ffebld_constant_ *ffebldConstant;
typedef union _ffebld_constant_union_ ffebldConstantUnion;
typedef ffebld *ffebldListBottom;
typedef unsigned int ffebldListLength;
#define ffebldListLength_f ""
typedef struct _ffebld_pool_stack_ *ffebldPoolstack_;
/* Include files needed by this one. */
#include "bit.h"
#include "com.h"
#include "info.h"
#include "intrin.h"
#include "lab.h"
#include "lex.h"
#include "malloc.h"
#include "symbol.h"
#include "target.h"
#define FFEBLD_whereconstPROGUNIT_ 1
#define FFEBLD_whereconstFILE_ 2
#define FFEBLD_whereconstCURRENT_ FFEBLD_whereconstFILE_
/* Structure definitions. */
#define FFEBLD_constINTEGERDEFAULT FFEBLD_constINTEGER1
#define FFEBLD_constLOGICALDEFAULT FFEBLD_constLOGICAL1
#define FFEBLD_constREALDEFAULT FFEBLD_constREAL1
#define FFEBLD_constREALDOUBLE FFEBLD_constREAL2
#define FFEBLD_constREALQUAD FFEBLD_constREAL3
#define FFEBLD_constCOMPLEX FFEBLD_constCOMPLEX1
#define FFEBLD_constCOMPLEXDOUBLE FFEBLD_constCOMPLEX2
#define FFEBLD_constCOMPLEXQUAD FFEBLD_constCOMPLEX3
#define FFEBLD_constCHARACTERDEFAULT FFEBLD_constCHARACTER1
union _ffebld_constant_union_
{
ffetargetTypeless typeless;
ffetargetHollerith hollerith;
#if FFETARGET_okINTEGER1
ffetargetInteger1 integer1;
#endif
#if FFETARGET_okINTEGER2
ffetargetInteger2 integer2;
#endif
#if FFETARGET_okINTEGER3
ffetargetInteger3 integer3;
#endif
#if FFETARGET_okINTEGER4
ffetargetInteger4 integer4;
#endif
#if FFETARGET_okLOGICAL1
ffetargetLogical1 logical1;
#endif
#if FFETARGET_okLOGICAL2
ffetargetLogical2 logical2;
#endif
#if FFETARGET_okLOGICAL3
ffetargetLogical3 logical3;
#endif
#if FFETARGET_okLOGICAL4
ffetargetLogical4 logical4;
#endif
#if FFETARGET_okREAL1
ffetargetReal1 real1;
#endif
#if FFETARGET_okREAL2
ffetargetReal2 real2;
#endif
#if FFETARGET_okREAL3
ffetargetReal3 real3;
#endif
#if FFETARGET_okCOMPLEX1
ffetargetComplex1 complex1;
#endif
#if FFETARGET_okCOMPLEX2
ffetargetComplex2 complex2;
#endif
#if FFETARGET_okCOMPLEX3
ffetargetComplex3 complex3;
#endif
#if FFETARGET_okCHARACTER1
ffetargetCharacter1 character1;
#endif
};
union _ffebld_constant_array_
{
#if FFETARGET_okINTEGER1
ffetargetInteger1 *integer1;
#endif
#if FFETARGET_okINTEGER2
ffetargetInteger2 *integer2;
#endif
#if FFETARGET_okINTEGER3
ffetargetInteger3 *integer3;
#endif
#if FFETARGET_okINTEGER4
ffetargetInteger4 *integer4;
#endif
#if FFETARGET_okLOGICAL1
ffetargetLogical1 *logical1;
#endif
#if FFETARGET_okLOGICAL2
ffetargetLogical2 *logical2;
#endif
#if FFETARGET_okLOGICAL3
ffetargetLogical3 *logical3;
#endif
#if FFETARGET_okLOGICAL4
ffetargetLogical4 *logical4;
#endif
#if FFETARGET_okREAL1
ffetargetReal1 *real1;
#endif
#if FFETARGET_okREAL2
ffetargetReal2 *real2;
#endif
#if FFETARGET_okREAL3
ffetargetReal3 *real3;
#endif
#if FFETARGET_okCOMPLEX1
ffetargetComplex1 *complex1;
#endif
#if FFETARGET_okCOMPLEX2
ffetargetComplex2 *complex2;
#endif
#if FFETARGET_okCOMPLEX3
ffetargetComplex3 *complex3;
#endif
#if FFETARGET_okCHARACTER1
ffetargetCharacterUnit1 *character1;
#endif
};
struct _ffebld_
{
ffebldOp op;
ffeinfo info; /* Not used or valid for
op=={STAR,ITEM,BOUNDS,REPEAT,LABTER,
LABTOK,IMPDO}. */
union
{
struct
{
ffebld left;
ffebld right;
ffecomNonter hook; /* Whatever the compiler/backend wants! */
}
nonter;
struct
{
ffebld head;
ffebld trail;
}
item;
struct
{
ffebldConstant expr;
ffebld orig; /* Original expression, or NULL if none. */
ffetargetAlign pad; /* Initial padding (for DATA, etc.). */
}
conter;
struct
{
ffebldConstantArray array;
ffetargetOffset size;
ffetargetAlign pad; /* Initial padding (for DATA, etc.). */
}
arrter;
struct
{
ffebldConstantArray array;
ffebit bits;
ffetargetAlign pad; /* Initial padding (for DATA, etc.). */
}
accter;
struct
{
ffesymbol symbol;
ffeintrinGen generic; /* Id for generic intrinsic. */
ffeintrinSpec specific; /* Id for specific intrinsic. */
ffeintrinImp implementation; /* Id for implementation. */
bool do_iter; /* TRUE if this ref is a read-only ref by
definition (ref within DO loop using this
var as iterator). */
}
symter;
ffelab labter;
ffelexToken labtok;
}
u;
};
struct _ffebld_constant_
{
ffebldConstant rlink;
ffebldConstant llink;
ffebldConstant first_complex; /* First complex const with me as
real. */
ffebldConst consttype;
ffecomConstant hook; /* Whatever the compiler/backend wants! */
bool numeric; /* A numeric kind of constant. */
ffebldConstantUnion u;
};
struct _ffebld_pool_stack_
{
ffebldPoolstack_ next;
mallocPool pool;
};
/* Global objects accessed by users of this module. */
extern const ffebldArity ffebld_arity_op_[(int) FFEBLD_op];
extern struct _ffebld_pool_stack_ ffebld_pool_stack_;
/* Declare functions with prototypes. */
int ffebld_constant_cmp (ffebldConstant c1, ffebldConstant c2);
bool ffebld_constant_is_magical (ffebldConstant c);
bool ffebld_constant_is_zero (ffebldConstant c);
#if FFETARGET_okCHARACTER1
ffebldConstant ffebld_constant_new_character1 (ffelexToken t);
ffebldConstant ffebld_constant_new_character1_val (ffetargetCharacter1 val);
#endif
#if FFETARGET_okCOMPLEX1
ffebldConstant ffebld_constant_new_complex1 (ffebldConstant real,
ffebldConstant imaginary);
ffebldConstant ffebld_constant_new_complex1_val (ffetargetComplex1 val);
#endif
#if FFETARGET_okCOMPLEX2
ffebldConstant ffebld_constant_new_complex2 (ffebldConstant real,
ffebldConstant imaginary);
ffebldConstant ffebld_constant_new_complex2_val (ffetargetComplex2 val);
#endif
#if FFETARGET_okCOMPLEX3
ffebldConstant ffebld_constant_new_complex3 (ffebldConstant real,
ffebldConstant imaginary);
ffebldConstant ffebld_constant_new_complex3_val (ffetargetComplex3 val);
#endif
ffebldConstant ffebld_constant_new_hollerith (ffelexToken t);
ffebldConstant ffebld_constant_new_hollerith_val (ffetargetHollerith val);
#if FFETARGET_okINTEGER1
ffebldConstant ffebld_constant_new_integer1 (ffelexToken t);
ffebldConstant ffebld_constant_new_integer1_val (ffetargetInteger1 val);
#endif
#if FFETARGET_okINTEGER2
ffebldConstant ffebld_constant_new_integer2 (ffelexToken t);
ffebldConstant ffebld_constant_new_integer2_val (ffetargetInteger2 val);
#endif
#if FFETARGET_okINTEGER3
ffebldConstant ffebld_constant_new_integer3 (ffelexToken t);
ffebldConstant ffebld_constant_new_integer3_val (ffetargetInteger3 val);
#endif
#if FFETARGET_okINTEGER4
ffebldConstant ffebld_constant_new_integer4 (ffelexToken t);
ffebldConstant ffebld_constant_new_integer4_val (ffetargetInteger4 val);
#endif
ffebldConstant ffebld_constant_new_integerbinary (ffelexToken t);
ffebldConstant ffebld_constant_new_integerhex (ffelexToken t);
ffebldConstant ffebld_constant_new_integeroctal (ffelexToken t);
#if FFETARGET_okLOGICAL1
ffebldConstant ffebld_constant_new_logical1 (bool truth);
ffebldConstant ffebld_constant_new_logical1_val (ffetargetLogical1 val);
#endif
#if FFETARGET_okLOGICAL2
ffebldConstant ffebld_constant_new_logical2 (bool truth);
ffebldConstant ffebld_constant_new_logical2_val (ffetargetLogical2 val);
#endif
#if FFETARGET_okLOGICAL3
ffebldConstant ffebld_constant_new_logical3 (bool truth);
ffebldConstant ffebld_constant_new_logical3_val (ffetargetLogical3 val);
#endif
#if FFETARGET_okLOGICAL4
ffebldConstant ffebld_constant_new_logical4 (bool truth);
ffebldConstant ffebld_constant_new_logical4_val (ffetargetLogical4 val);
#endif
#if FFETARGET_okREAL1
ffebldConstant ffebld_constant_new_real1 (ffelexToken integer,
ffelexToken decimal, ffelexToken fraction, ffelexToken exponent,
ffelexToken exponent_sign, ffelexToken exponent_digits);
ffebldConstant ffebld_constant_new_real1_val (ffetargetReal1 val);
#endif
#if FFETARGET_okREAL2
ffebldConstant ffebld_constant_new_real2 (ffelexToken integer,
ffelexToken decimal, ffelexToken fraction, ffelexToken exponent,
ffelexToken exponent_sign, ffelexToken exponent_digits);
ffebldConstant ffebld_constant_new_real2_val (ffetargetReal2 val);
#endif
#if FFETARGET_okREAL3
ffebldConstant ffebld_constant_new_real3 (ffelexToken integer,
ffelexToken decimal, ffelexToken fraction, ffelexToken exponent,
ffelexToken exponent_sign, ffelexToken exponent_digits);
ffebldConstant ffebld_constant_new_real3_val (ffetargetReal3 val);
#endif
ffebldConstant ffebld_constant_new_typeless_bm (ffelexToken t);
ffebldConstant ffebld_constant_new_typeless_bv (ffelexToken t);
ffebldConstant ffebld_constant_new_typeless_hxm (ffelexToken t);
ffebldConstant ffebld_constant_new_typeless_hxv (ffelexToken t);
ffebldConstant ffebld_constant_new_typeless_hzm (ffelexToken t);
ffebldConstant ffebld_constant_new_typeless_hzv (ffelexToken t);
ffebldConstant ffebld_constant_new_typeless_om (ffelexToken t);
ffebldConstant ffebld_constant_new_typeless_ov (ffelexToken t);
ffebldConstant ffebld_constant_new_typeless_val (ffebldConst type,
ffetargetTypeless val);
ffebldConstant ffebld_constant_negated (ffebldConstant c);
ffebldConstantUnion ffebld_constantarray_get (ffebldConstantArray array,
ffeinfoBasictype bt, ffeinfoKindtype kt, ffetargetOffset offset);
void ffebld_constantarray_kill (ffebldConstantArray array, ffeinfoBasictype bt,
ffeinfoKindtype kt, ffetargetOffset size);
ffebldConstantArray ffebld_constantarray_new (ffeinfoBasictype bt,
ffeinfoKindtype kt, ffetargetOffset size);
void ffebld_constantarray_prepare (void **aptr, void **cptr, size_t *size,
ffebldConstantArray array, ffeinfoBasictype abt, ffeinfoKindtype akt,
ffetargetOffset offset, ffebldConstantUnion *constant,
ffeinfoBasictype cbt, ffeinfoKindtype ckt);
void ffebld_constantarray_preparray (void **aptr, void **cptr, size_t *size,
ffebldConstantArray array, ffeinfoBasictype abt, ffeinfoKindtype akt,
ffetargetOffset offset, ffebldConstantArray source_array,
ffeinfoBasictype cbt, ffeinfoKindtype ckt);
void ffebld_constantarray_put (ffebldConstantArray array, ffeinfoBasictype bt,
ffeinfoKindtype kt, ffetargetOffset offset, ffebldConstantUnion constant);
void ffebld_init_0 (void);
void ffebld_init_1 (void);
void ffebld_init_2 (void);
ffebldListLength ffebld_list_length (ffebld l);
ffebld ffebld_new_accter (ffebldConstantArray array, ffebit b);
ffebld ffebld_new_arrter (ffebldConstantArray array, ffetargetOffset size);
ffebld ffebld_new_conter_with_orig (ffebldConstant c, ffebld orig);
ffebld ffebld_new_item (ffebld head, ffebld trail);
ffebld ffebld_new_labter (ffelab l);
ffebld ffebld_new_labtok (ffelexToken t);
ffebld ffebld_new_none (ffebldOp o);
ffebld ffebld_new_symter (ffesymbol s, ffeintrinGen gen, ffeintrinSpec spec,
ffeintrinImp imp);
ffebld ffebld_new_one (ffebldOp o, ffebld left);
ffebld ffebld_new_two (ffebldOp o, ffebld left, ffebld right);
const char *ffebld_op_string (ffebldOp o);
void ffebld_pool_pop (void);
void ffebld_pool_push (mallocPool pool);
ffetargetCharacterSize ffebld_size_max (ffebld b);
/* Define macros. */
#define ffebld_accter(b) ((b)->u.accter.array)
#define ffebld_accter_bits(b) ((b)->u.accter.bits)
#define ffebld_accter_pad(b) ((b)->u.accter.pad)
#define ffebld_accter_set_bits(b,bt) ((b)->u.accter.bits = (bt))
#define ffebld_accter_set_pad(b,p) ((b)->u.accter.pad = (p))
#define ffebld_accter_size(b) ffebit_size((b)->u.accter.bits)
#define ffebld_append_item(b,i) (**(b) = ffebld_new_item((i),NULL), \
*(b) = &((**(b))->u.item.trail))
#define ffebld_arity(b) ffebld_arity_op(ffebld_op(b))
#define ffebld_arity_op(o) (ffebld_arity_op_[o])
#define ffebld_arrter(b) ((b)->u.arrter.array)
#define ffebld_arrter_pad(b) ((b)->u.arrter.pad)
#define ffebld_arrter_set_pad(b,p) ((b)->u.arrter.pad = (p))
#define ffebld_arrter_set_size(b,s) ((b)->u.arrter.size = (s))
#define ffebld_arrter_size(b) ((b)->u.arrter.size)
#define ffebld_basictype(b) (ffeinfo_basictype (ffebld_info ((b))))
#if FFEBLD_whereconstCURRENT_ == FFEBLD_whereconstPROGUNIT_
#define ffebld_constant_pool() ffe_pool_program_unit()
#elif FFEBLD_whereconstCURRENT_ == FFEBLD_whereconstFILE_
#define ffebld_constant_pool() ffe_pool_file()
#else
#error
#endif
#define ffebld_constant_character1(c) ((c)->u.character1)
#define ffebld_constant_character2(c) ((c)->u.character2)
#define ffebld_constant_character3(c) ((c)->u.character3)
#define ffebld_constant_character4(c) ((c)->u.character4)
#define ffebld_constant_character5(c) ((c)->u.character5)
#define ffebld_constant_character6(c) ((c)->u.character6)
#define ffebld_constant_character7(c) ((c)->u.character7)
#define ffebld_constant_character8(c) ((c)->u.character8)
#define ffebld_constant_characterdefault ffebld_constant_character1
#define ffebld_constant_complex1(c) ((c)->u.complex1)
#define ffebld_constant_complex2(c) ((c)->u.complex2)
#define ffebld_constant_complex3(c) ((c)->u.complex3)
#define ffebld_constant_complex4(c) ((c)->u.complex4)
#define ffebld_constant_complex5(c) ((c)->u.complex5)
#define ffebld_constant_complex6(c) ((c)->u.complex6)
#define ffebld_constant_complex7(c) ((c)->u.complex7)
#define ffebld_constant_complex8(c) ((c)->u.complex8)
#define ffebld_constant_complexdefault ffebld_constant_complex1
#define ffebld_constant_complexdouble ffebld_constant_complex2
#define ffebld_constant_complexquad ffebld_constant_complex3
#define ffebld_constant_copy(c) (c)
#define ffebld_constant_hollerith(c) ((c)->u.hollerith)
#define ffebld_constant_hook(c) ((c)->hook)
#define ffebld_constant_integer1(c) ((c)->u.integer1)
#define ffebld_constant_integer2(c) ((c)->u.integer2)
#define ffebld_constant_integer3(c) ((c)->u.integer3)
#define ffebld_constant_integer4(c) ((c)->u.integer4)
#define ffebld_constant_integer5(c) ((c)->u.integer5)
#define ffebld_constant_integer6(c) ((c)->u.integer6)
#define ffebld_constant_integer7(c) ((c)->u.integer7)
#define ffebld_constant_integer8(c) ((c)->u.integer8)
#define ffebld_constant_integerdefault ffebld_constant_integer1
#define ffebld_constant_is_numeric(c) ((c)->numeric)
#define ffebld_constant_logical1(c) ((c)->u.logical1)
#define ffebld_constant_logical2(c) ((c)->u.logical2)
#define ffebld_constant_logical3(c) ((c)->u.logical3)
#define ffebld_constant_logical4(c) ((c)->u.logical4)
#define ffebld_constant_logical5(c) ((c)->u.logical5)
#define ffebld_constant_logical6(c) ((c)->u.logical6)
#define ffebld_constant_logical7(c) ((c)->u.logical7)
#define ffebld_constant_logical8(c) ((c)->u.logical8)
#define ffebld_constant_logicaldefault ffebld_constant_logical1
#define ffebld_constant_new_characterdefault ffebld_constant_new_character1
#define ffebld_constant_new_characterdefault_val ffebld_constant_new_character1_val
#define ffebld_constant_new_complexdefault ffebld_constant_new_complex1
#define ffebld_constant_new_complexdefault_val ffebld_constant_new_complex1_val
#define ffebld_constant_new_complexdouble ffebld_constant_new_complex2
#define ffebld_constant_new_complexdouble_val ffebld_constant_new_complex2_val
#define ffebld_constant_new_complexquad ffebld_constant_new_complex3
#define ffebld_constant_new_complexquad_valffebld_constant_new_complex3_val
#define ffebld_constant_new_integerdefault ffebld_constant_new_integer1
#define ffebld_constant_new_integerdefault_val ffebld_constant_new_integer1_val
#define ffebld_constant_new_logicaldefault ffebld_constant_new_logical1
#define ffebld_constant_new_logicaldefault_val ffebld_constant_new_logical1_val
#define ffebld_constant_new_realdefault ffebld_constant_new_real1
#define ffebld_constant_new_realdefault_val ffebld_constant_new_real1_val
#define ffebld_constant_new_realdouble ffebld_constant_new_real2
#define ffebld_constant_new_realdouble_val ffebld_constant_new_real2_val
#define ffebld_constant_new_realquad ffebld_constant_new_real3
#define ffebld_constant_new_realquad_val ffebld_constant_new_real3_val
#define ffebld_constant_ptr_to_union(c) (&(c)->u)
#define ffebld_constant_real1(c) ((c)->u.real1)
#define ffebld_constant_real2(c) ((c)->u.real2)
#define ffebld_constant_real3(c) ((c)->u.real3)
#define ffebld_constant_real4(c) ((c)->u.real4)
#define ffebld_constant_real5(c) ((c)->u.real5)
#define ffebld_constant_real6(c) ((c)->u.real6)
#define ffebld_constant_real7(c) ((c)->u.real7)
#define ffebld_constant_real8(c) ((c)->u.real8)
#define ffebld_constant_realdefault ffebld_constant_real1
#define ffebld_constant_realdouble ffebld_constant_real2
#define ffebld_constant_realquad ffebld_constant_real3
#define ffebld_constant_set_hook(c,h) ((c)->hook = (h))
#define ffebld_constant_set_union(c,un) ((c)->u = (un))
#define ffebld_constant_type(c) ((c)->consttype)
#define ffebld_constant_typeless(c) ((c)->u.typeless)
#define ffebld_constant_union(c) ((c)->u)
#define ffebld_conter(b) ((b)->u.conter.expr)
#define ffebld_conter_orig(b) ((b)->u.conter.orig)
#define ffebld_conter_pad(b) ((b)->u.conter.pad)
#define ffebld_conter_set_orig(b,o) ((b)->u.conter.orig = (o))
#define ffebld_conter_set_pad(b,p) ((b)->u.conter.pad = (p))
#define ffebld_copy(b) (b) /* ~~~Someday really make a copy. */
#define ffebld_cu_ptr_typeless(u) &(u).typeless
#define ffebld_cu_ptr_hollerith(u) &(u).hollerith
#define ffebld_cu_ptr_integer1(u) &(u).integer1
#define ffebld_cu_ptr_integer2(u) &(u).integer2
#define ffebld_cu_ptr_integer3(u) &(u).integer3
#define ffebld_cu_ptr_integer4(u) &(u).integer4
#define ffebld_cu_ptr_integer5(u) &(u).integer5
#define ffebld_cu_ptr_integer6(u) &(u).integer6
#define ffebld_cu_ptr_integer7(u) &(u).integer7
#define ffebld_cu_ptr_integer8(u) &(u).integer8
#define ffebld_cu_ptr_integerdefault ffebld_cu_ptr_integer1
#define ffebld_cu_ptr_logical1(u) &(u).logical1
#define ffebld_cu_ptr_logical2(u) &(u).logical2
#define ffebld_cu_ptr_logical3(u) &(u).logical3
#define ffebld_cu_ptr_logical4(u) &(u).logical4
#define ffebld_cu_ptr_logical5(u) &(u).logical5
#define ffebld_cu_ptr_logical6(u) &(u).logical6
#define ffebld_cu_ptr_logical7(u) &(u).logical7
#define ffebld_cu_ptr_logical8(u) &(u).logical8
#define ffebld_cu_ptr_logicaldefault ffebld_cu_ptr_logical1
#define ffebld_cu_ptr_real1(u) &(u).real1
#define ffebld_cu_ptr_real2(u) &(u).real2
#define ffebld_cu_ptr_real3(u) &(u).real3
#define ffebld_cu_ptr_real4(u) &(u).real4
#define ffebld_cu_ptr_real5(u) &(u).real5
#define ffebld_cu_ptr_real6(u) &(u).real6
#define ffebld_cu_ptr_real7(u) &(u).real7
#define ffebld_cu_ptr_real8(u) &(u).real8
#define ffebld_cu_ptr_realdefault ffebld_cu_ptr_real1
#define ffebld_cu_ptr_realdouble ffebld_cu_ptr_real2
#define ffebld_cu_ptr_realquad ffebld_cu_ptr_real3
#define ffebld_cu_ptr_complex1(u) &(u).complex1
#define ffebld_cu_ptr_complex2(u) &(u).complex2
#define ffebld_cu_ptr_complex3(u) &(u).complex3
#define ffebld_cu_ptr_complex4(u) &(u).complex4
#define ffebld_cu_ptr_complex5(u) &(u).complex5
#define ffebld_cu_ptr_complex6(u) &(u).complex6
#define ffebld_cu_ptr_complex7(u) &(u).complex7
#define ffebld_cu_ptr_complex8(u) &(u).complex8
#define ffebld_cu_ptr_complexdefault ffebld_cu_ptr_complex1
#define ffebld_cu_ptr_complexdouble ffebld_cu_ptr_complex2
#define ffebld_cu_ptr_complexquad ffebld_cu_ptr_complex3
#define ffebld_cu_ptr_character1(u) &(u).character1
#define ffebld_cu_ptr_character2(u) &(u).character2
#define ffebld_cu_ptr_character3(u) &(u).character3
#define ffebld_cu_ptr_character4(u) &(u).character4
#define ffebld_cu_ptr_character5(u) &(u).character5
#define ffebld_cu_ptr_character6(u) &(u).character6
#define ffebld_cu_ptr_character7(u) &(u).character7
#define ffebld_cu_ptr_character8(u) &(u).character8
#define ffebld_cu_val_typeless(u) (u).typeless
#define ffebld_cu_val_hollerith(u) (u).hollerith
#define ffebld_cu_val_integer1(u) (u).integer1
#define ffebld_cu_val_integer2(u) (u).integer2
#define ffebld_cu_val_integer3(u) (u).integer3
#define ffebld_cu_val_integer4(u) (u).integer4
#define ffebld_cu_val_integer5(u) (u).integer5
#define ffebld_cu_val_integer6(u) (u).integer6
#define ffebld_cu_val_integer7(u) (u).integer7
#define ffebld_cu_val_integer8(u) (u).integer8
#define ffebld_cu_val_integerdefault ffebld_cu_val_integer1
#define ffebld_cu_val_logical1(u) (u).logical1
#define ffebld_cu_val_logical2(u) (u).logical2
#define ffebld_cu_val_logical3(u) (u).logical3
#define ffebld_cu_val_logical4(u) (u).logical4
#define ffebld_cu_val_logical5(u) (u).logical5
#define ffebld_cu_val_logical6(u) (u).logical6
#define ffebld_cu_val_logical7(u) (u).logical7
#define ffebld_cu_val_logical8(u) (u).logical8
#define ffebld_cu_val_logicaldefault ffebld_cu_val_logical
#define ffebld_cu_val_real1(u) (u).real1
#define ffebld_cu_val_real2(u) (u).real2
#define ffebld_cu_val_real3(u) (u).real3
#define ffebld_cu_val_real4(u) (u).real4
#define ffebld_cu_val_real5(u) (u).real5
#define ffebld_cu_val_real6(u) (u).real6
#define ffebld_cu_val_real7(u) (u).real7
#define ffebld_cu_val_real8(u) (u).real8
#define ffebld_cu_val_realdefault ffebld_cu_val_real1
#define ffebld_cu_val_realdouble ffebld_cu_val_real2
#define ffebld_cu_val_realquad ffebld_cu_val_real3
#define ffebld_cu_val_complex1(u) (u).complex1
#define ffebld_cu_val_complex2(u) (u).complex2
#define ffebld_cu_val_complex3(u) (u).complex3
#define ffebld_cu_val_complex4(u) (u).complex4
#define ffebld_cu_val_complex5(u) (u).complex5
#define ffebld_cu_val_complex6(u) (u).complex6
#define ffebld_cu_val_complex7(u) (u).complex7
#define ffebld_cu_val_complex8(u) (u).complex8
#define ffebld_cu_val_complexdefault ffebld_cu_val_complex1
#define ffebld_cu_val_complexdouble ffebld_cu_val_complex2
#define ffebld_cu_val_complexquad ffebld_cu_val_complex3
#define ffebld_cu_val_character1(u) (u).character1
#define ffebld_cu_val_character2(u) (u).character2
#define ffebld_cu_val_character3(u) (u).character3
#define ffebld_cu_val_character4(u) (u).character4
#define ffebld_cu_val_character5(u) (u).character5
#define ffebld_cu_val_character6(u) (u).character6
#define ffebld_cu_val_character7(u) (u).character7
#define ffebld_cu_val_character8(u) (u).character8
#define ffebld_end_list(b) (*(b) = NULL)
#define ffebld_head(b) ((b)->u.item.head)
#define ffebld_info(b) ((b)->info)
#define ffebld_init_3()
#define ffebld_init_4()
#define ffebld_init_list(l,b) (*(l) = NULL, *(b) = (l))
#define ffebld_item_hook(b) ((b)->u.item.hook)
#define ffebld_item_set_hook(b,h) ((b)->u.item.hook = (h))
#define ffebld_kind(b) (ffeinfo_kind (ffebld_info ((b))))
#define ffebld_kindtype(b) (ffeinfo_kindtype (ffebld_info ((b))))
#define ffebld_labter(b) ((b)->u.labter)
#define ffebld_labtok(b) ((b)->u.labtok)
#define ffebld_left(b) ((b)->u.nonter.left)
#define ffebld_name_string(n) ((n)->name)
#define ffebld_new() \
((ffebld) malloc_new_kp(ffebld_pool(), "FFEBLD",sizeof(struct _ffebld_)))
#define ffebld_new_any() ffebld_new_none(FFEBLD_opANY)
#define ffebld_new_conter(c) ffebld_new_conter_with_orig((c),NULL)
#define ffebld_new_star() ffebld_new_none(FFEBLD_opSTAR)
#define ffebld_new_uplus(l) ffebld_new_one(FFEBLD_opUPLUS,(l))
#define ffebld_new_uminus(l) ffebld_new_one(FFEBLD_opUMINUS,(l))
#define ffebld_new_add(l,r) ffebld_new_two(FFEBLD_opADD,(l),(r))
#define ffebld_new_subtract(l,r) ffebld_new_two(FFEBLD_opSUBTRACT,(l),(r))
#define ffebld_new_multiply(l,r) ffebld_new_two(FFEBLD_opMULTIPLY,(l),(r))
#define ffebld_new_divide(l,r) ffebld_new_two(FFEBLD_opDIVIDE,(l),(r))
#define ffebld_new_power(l,r) ffebld_new_two(FFEBLD_opPOWER,(l),(r))
#define ffebld_new_bounds(l,r) ffebld_new_two(FFEBLD_opBOUNDS,(l),(r))
#define ffebld_new_concatenate(l,r) ffebld_new_two(FFEBLD_opCONCATENATE,(l),(r))
#define ffebld_new_not(l) ffebld_new_one(FFEBLD_opNOT,(l))
#define ffebld_new_lt(l,r) ffebld_new_two(FFEBLD_opLT,(l),(r))
#define ffebld_new_le(l,r) ffebld_new_two(FFEBLD_opLE,(l),(r))
#define ffebld_new_eq(l,r) ffebld_new_two(FFEBLD_opEQ,(l),(r))
#define ffebld_new_ne(l,r) ffebld_new_two(FFEBLD_opNE,(l),(r))
#define ffebld_new_gt(l,r) ffebld_new_two(FFEBLD_opGT,(l),(r))
#define ffebld_new_ge(l,r) ffebld_new_two(FFEBLD_opGE,(l),(r))
#define ffebld_new_and(l,r) ffebld_new_two(FFEBLD_opAND,(l),(r))
#define ffebld_new_or(l,r) ffebld_new_two(FFEBLD_opOR,(l),(r))
#define ffebld_new_xor(l,r) ffebld_new_two(FFEBLD_opXOR,(l),(r))
#define ffebld_new_eqv(l,r) ffebld_new_two(FFEBLD_opEQV,(l),(r))
#define ffebld_new_neqv(l,r) ffebld_new_two(FFEBLD_opNEQV,(l),(r))
#define ffebld_new_paren(l) ffebld_new_one(FFEBLD_opPAREN,(l))
#define ffebld_new_repeat(l,r) ffebld_new_two(FFEBLD_opREPEAT,(l),(r))
#define ffebld_new_percent_descr(l) ffebld_new_one(FFEBLD_opPERCENT_DESCR,(l))
#define ffebld_new_percent_loc(l) ffebld_new_one(FFEBLD_opPERCENT_LOC,(l))
#define ffebld_new_percent_ref(l) ffebld_new_one(FFEBLD_opPERCENT_REF,(l))
#define ffebld_new_percent_val(l) ffebld_new_one(FFEBLD_opPERCENT_VAL,(l))
#define ffebld_new_complex(l,r) ffebld_new_two(FFEBLD_opCOMPLEX,(l),(r))
#define ffebld_new_convert(l) ffebld_new_one(FFEBLD_opCONVERT,(l))
#define ffebld_new_funcref(l,r) ffebld_new_two(FFEBLD_opFUNCREF,(l),(r))
#define ffebld_new_subrref(l,r) ffebld_new_two(FFEBLD_opSUBRREF,(l),(r))
#define ffebld_new_arrayref(l,r) ffebld_new_two(FFEBLD_opARRAYREF,(l),(r))
#define ffebld_new_substr(l,r) ffebld_new_two(FFEBLD_opSUBSTR,(l),(r))
#define ffebld_new_impdo(l,r) ffebld_new_two(FFEBLD_opIMPDO,(l),(r))
#define ffebld_nonter_hook(b) ((b)->u.nonter.hook)
#define ffebld_nonter_set_hook(b,h) ((b)->u.nonter.hook = (h))
#define ffebld_op(b) ((b)->op)
#define ffebld_pool() (ffebld_pool_stack_.pool)
#define ffebld_rank(b) (ffeinfo_rank (ffebld_info ((b))))
#define ffebld_right(b) ((b)->u.nonter.right)
#define ffebld_set_accter(b,a) ((b)->u.accter.array = (a))
#define ffebld_set_arrter(b,a) ((b)->u.arrter.array = (a))
#define ffebld_set_conter(b,c) ((b)->u.conter.expr = (c))
#define ffebld_set_info(b,i) ((b)->info = (i))
#define ffebld_set_labter(b,l) ((b)->u.labter = (l))
#define ffebld_set_op(b,o) ((b)->op = (o))
#define ffebld_set_head(b,h) ((b)->u.item.head = (h))
#define ffebld_set_left(b,l) ((b)->u.nonter.left = (l))
#define ffebld_set_right(b,r) ((b)->u.nonter.right = (r))
#define ffebld_set_trail(b,t) ((b)->u.item.trail = (t))
#define ffebld_size(b) (ffeinfo_size (ffebld_info ((b))))
#define ffebld_size_known(b) ffebld_size((b))
#define ffebld_symter(b) ((b)->u.symter.symbol)
#define ffebld_symter_generic(b) ((b)->u.symter.generic)
#define ffebld_symter_doiter(b) ((b)->u.symter.do_iter)
#define ffebld_symter_implementation(b) ((b)->u.symter.implementation)
#define ffebld_symter_specific(b) ((b)->u.symter.specific)
#define ffebld_symter_set_generic(b,g) ((b)->u.symter.generic = (g))
#define ffebld_symter_set_implementation(b,i) \
((b)->u.symter.implementation = (i))
#define ffebld_symter_set_is_doiter(b,f) ((b)->u.symter.do_iter = (f))
#define ffebld_symter_set_specific(b,s) ((b)->u.symter.specific = (s))
#define ffebld_terminate_0()
#define ffebld_terminate_1()
#define ffebld_terminate_2()
#define ffebld_terminate_3()
#define ffebld_terminate_4()
#define ffebld_trail(b) ((b)->u.item.trail)
#define ffebld_where(b) (ffeinfo_where (ffebld_info ((b))))
/* End of #include file. */
#endif /* ! GCC_F_BLD_H */