Retro68/gcc/libgcc/libgcc2.h

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2012-03-27 23:13:14 +00:00
/* Header file for libgcc2.c. */
2014-09-21 17:33:12 +00:00
/* Copyright (C) 2000-2014 Free Software Foundation, Inc.
2012-03-27 23:13:14 +00:00
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_LIBGCC2_H
#define GCC_LIBGCC2_H
#ifndef HIDE_EXPORTS
#pragma GCC visibility push(default)
#endif
extern int __gcc_bcmp (const unsigned char *, const unsigned char *, size_t);
extern void __clear_cache (char *, char *);
extern void __eprintf (const char *, const char *, unsigned int, const char *)
__attribute__ ((__noreturn__));
#ifndef LIBGCC2_LONG_DOUBLE_TYPE_SIZE
#define LIBGCC2_LONG_DOUBLE_TYPE_SIZE LONG_DOUBLE_TYPE_SIZE
#endif
#ifndef LIBGCC2_HAS_SF_MODE
#define LIBGCC2_HAS_SF_MODE (BITS_PER_UNIT == 8)
#endif
#ifndef LIBGCC2_HAS_DF_MODE
#define LIBGCC2_HAS_DF_MODE \
(BITS_PER_UNIT == 8 \
&& (__SIZEOF_DOUBLE__ * __CHAR_BIT__ == 64 \
|| LIBGCC2_LONG_DOUBLE_TYPE_SIZE == 64))
#endif
#ifndef LIBGCC2_HAS_XF_MODE
#define LIBGCC2_HAS_XF_MODE \
(BITS_PER_UNIT == 8 && LIBGCC2_LONG_DOUBLE_TYPE_SIZE == 80)
#endif
#ifndef LIBGCC2_HAS_TF_MODE
#define LIBGCC2_HAS_TF_MODE \
(BITS_PER_UNIT == 8 && LIBGCC2_LONG_DOUBLE_TYPE_SIZE == 128)
#endif
#ifndef SF_SIZE
#if LIBGCC2_HAS_SF_MODE
#define SF_SIZE FLT_MANT_DIG
#else
#define SF_SIZE 0
#endif
#endif
#ifndef DF_SIZE
#if LIBGCC2_HAS_DF_MODE
#if __SIZEOF_DOUBLE__ * __CHAR_BIT__ == 64
#define DF_SIZE DBL_MANT_DIG
#elif LIBGCC2_LONG_DOUBLE_TYPE_SIZE == 64
#define DF_SIZE LDBL_MANT_DIG
#else
#define DF_SIZE 0
#endif
#else
#define DF_SIZE 0
#endif
#endif
#ifndef XF_SIZE
#if LIBGCC2_HAS_XF_MODE
#define XF_SIZE LDBL_MANT_DIG
#else
#define XF_SIZE 0
#endif
#endif
#ifndef TF_SIZE
#if LIBGCC2_HAS_TF_MODE
#define TF_SIZE LDBL_MANT_DIG
#else
#define TF_SIZE 0
#endif
#endif
/* FIXME: This #ifdef probably should be removed, ie. enable the test
for mips too. */
/* Don't use IBM Extended Double TFmode for TI->SF calculations.
The conversion from long double to float suffers from double
rounding, because we convert via double. In other cases, going
through the software fp routines is much slower than the fallback. */
#ifdef __powerpc__
#define AVOID_FP_TYPE_CONVERSION(SIZE) (SIZE == 106)
#elif defined(WIDEST_HARDWARE_FP_SIZE)
#define AVOID_FP_TYPE_CONVERSION(SIZE) (SIZE > WIDEST_HARDWARE_FP_SIZE)
#else
#define AVOID_FP_TYPE_CONVERSION(SIZE) 0
#endif
/* In the first part of this file, we are interfacing to calls generated
by the compiler itself. These calls pass values into these routines
which have very specific modes (rather than very specific types), and
these compiler-generated calls also expect any return values to have
very specific modes (rather than very specific types). Thus, we need
to avoid using regular C language type names in this part of the file
because the sizes for those types can be configured to be anything.
Instead we use the following special type names. */
typedef int QItype __attribute__ ((mode (QI)));
typedef unsigned int UQItype __attribute__ ((mode (QI)));
typedef int HItype __attribute__ ((mode (HI)));
typedef unsigned int UHItype __attribute__ ((mode (HI)));
#if MIN_UNITS_PER_WORD > 1
/* These typedefs are usually forbidden on dsp's with UNITS_PER_WORD 1. */
typedef int SItype __attribute__ ((mode (SI)));
typedef unsigned int USItype __attribute__ ((mode (SI)));
#if __SIZEOF_LONG_LONG__ > 4
/* These typedefs are usually forbidden on archs with UNITS_PER_WORD 2. */
typedef int DItype __attribute__ ((mode (DI)));
typedef unsigned int UDItype __attribute__ ((mode (DI)));
#if MIN_UNITS_PER_WORD > 4
/* These typedefs are usually forbidden on archs with UNITS_PER_WORD 4. */
typedef int TItype __attribute__ ((mode (TI)));
typedef unsigned int UTItype __attribute__ ((mode (TI)));
#endif
#endif
#endif
#if LIBGCC2_HAS_SF_MODE
typedef float SFtype __attribute__ ((mode (SF)));
typedef _Complex float SCtype __attribute__ ((mode (SC)));
#endif
#if LIBGCC2_HAS_DF_MODE
typedef float DFtype __attribute__ ((mode (DF)));
typedef _Complex float DCtype __attribute__ ((mode (DC)));
#endif
#if LIBGCC2_HAS_XF_MODE
typedef float XFtype __attribute__ ((mode (XF)));
typedef _Complex float XCtype __attribute__ ((mode (XC)));
#endif
#if LIBGCC2_HAS_TF_MODE
typedef float TFtype __attribute__ ((mode (TF)));
typedef _Complex float TCtype __attribute__ ((mode (TC)));
#endif
typedef int cmp_return_type __attribute__((mode (__libgcc_cmp_return__)));
typedef int shift_count_type __attribute__((mode (__libgcc_shift_count__)));
/* Make sure that we don't accidentally use any normal C language built-in
type names in the first part of this file. Instead we want to use *only*
the type names defined above. The following macro definitions insure
that if we *do* accidentally use some normal C language built-in type name,
we will get a syntax error. */
#define char bogus_type
#define short bogus_type
#define int bogus_type
#define long bogus_type
#define unsigned bogus_type
#define float bogus_type
#define double bogus_type
/* Versions prior to 3.4.4 were not taking into account the word size for
the 5 trapping arithmetic functions absv, addv, subv, mulv and negv. As
a consequence, the si and di variants were always and the only ones emitted.
To maintain backward compatibility, COMPAT_SIMODE_TRAPPING_ARITHMETIC is
defined on platforms where it makes sense to still have the si variants
emitted. As a bonus, their implementation is now correct. Note that the
same mechanism should have been implemented for the di variants, but it
turns out that no platform would define COMPAT_DIMODE_TRAPPING_ARITHMETIC
if it existed. */
#if LIBGCC2_UNITS_PER_WORD == 8
#define W_TYPE_SIZE (8 * BITS_PER_UNIT)
#define Wtype DItype
#define UWtype UDItype
#define HWtype DItype
#define UHWtype UDItype
#define DWtype TItype
#define UDWtype UTItype
#ifdef LIBGCC2_GNU_PREFIX
#define __NW(a,b) __gnu_ ## a ## di ## b
#define __NDW(a,b) __gnu_ ## a ## ti ## b
#else
#define __NW(a,b) __ ## a ## di ## b
#define __NDW(a,b) __ ## a ## ti ## b
#endif
#define COMPAT_SIMODE_TRAPPING_ARITHMETIC
#elif LIBGCC2_UNITS_PER_WORD == 4
#define W_TYPE_SIZE (4 * BITS_PER_UNIT)
#define Wtype SItype
#define UWtype USItype
#define HWtype SItype
#define UHWtype USItype
#define DWtype DItype
#define UDWtype UDItype
#ifdef LIBGCC2_GNU_PREFIX
#define __NW(a,b) __gnu_ ## a ## si ## b
#define __NDW(a,b) __gnu_ ## a ## di ## b
#else
#define __NW(a,b) __ ## a ## si ## b
#define __NDW(a,b) __ ## a ## di ## b
#endif
#elif LIBGCC2_UNITS_PER_WORD == 2
#define W_TYPE_SIZE (2 * BITS_PER_UNIT)
#define Wtype HItype
#define UWtype UHItype
#define HWtype HItype
#define UHWtype UHItype
#define DWtype SItype
#define UDWtype USItype
#ifdef LIBGCC2_GNU_PREFIX
#define __NW(a,b) __gnu_ ## a ## hi ## b
#define __NDW(a,b) __gnu_ ## a ## si ## b
#else
#define __NW(a,b) __ ## a ## hi ## b
#define __NDW(a,b) __ ## a ## si ## b
#endif
#else
#define W_TYPE_SIZE BITS_PER_UNIT
#define Wtype QItype
#define UWtype UQItype
#define HWtype QItype
#define UHWtype UQItype
#define DWtype HItype
#define UDWtype UHItype
#ifdef LIBGCC2_GNU_PREFIX
#define __NW(a,b) __gnu_ ## a ## qi ## b
#define __NDW(a,b) __gnu_ ## a ## hi ## b
#else
#define __NW(a,b) __ ## a ## qi ## b
#define __NDW(a,b) __ ## a ## hi ## b
#endif
#endif
#ifdef LIBGCC2_GNU_PREFIX
#define __N(a) __gnu_ ## a
#else
#define __N(a) __ ## a
#endif
#define Wtype_MAX ((Wtype)(((UWtype)1 << (W_TYPE_SIZE - 1)) - 1))
#define Wtype_MIN (- Wtype_MAX - 1)
#if W_TYPE_SIZE == 8
# define Wtype_MAXp1_F 0x1p8f
#elif W_TYPE_SIZE == 16
# define Wtype_MAXp1_F 0x1p16f
#elif W_TYPE_SIZE == 32
# define Wtype_MAXp1_F 0x1p32f
#elif W_TYPE_SIZE == 64
# define Wtype_MAXp1_F 0x1p64f
#else
# error "expand the table"
#endif
#define __muldi3 __NDW(mul,3)
#define __divdi3 __NDW(div,3)
#define __udivdi3 __NDW(udiv,3)
#define __moddi3 __NDW(mod,3)
#define __umoddi3 __NDW(umod,3)
#define __negdi2 __NDW(neg,2)
#define __lshrdi3 __NDW(lshr,3)
#define __ashldi3 __NDW(ashl,3)
#define __ashrdi3 __NDW(ashr,3)
#define __cmpdi2 __NDW(cmp,2)
#define __ucmpdi2 __NDW(ucmp,2)
#define __udivmoddi4 __NDW(udivmod,4)
#define __fixunstfDI __NDW(fixunstf,)
#define __fixtfdi __NDW(fixtf,)
#define __fixunsxfDI __NDW(fixunsxf,)
#define __fixxfdi __NDW(fixxf,)
#define __fixunsdfDI __NDW(fixunsdf,)
#define __fixdfdi __NDW(fixdf,)
#define __fixunssfDI __NDW(fixunssf,)
#define __fixsfdi __NDW(fixsf,)
#define __floatdixf __NDW(float,xf)
#define __floatditf __NDW(float,tf)
#define __floatdidf __NDW(float,df)
#define __floatdisf __NDW(float,sf)
#define __floatundixf __NDW(floatun,xf)
#define __floatunditf __NDW(floatun,tf)
#define __floatundidf __NDW(floatun,df)
#define __floatundisf __NDW(floatun,sf)
#define __fixunsxfSI __NW(fixunsxf,)
#define __fixunstfSI __NW(fixunstf,)
#define __fixunsdfSI __NW(fixunsdf,)
#define __fixunssfSI __NW(fixunssf,)
#define __absvSI2 __NW(absv,2)
#define __addvSI3 __NW(addv,3)
#define __subvSI3 __NW(subv,3)
#define __mulvSI3 __NW(mulv,3)
#define __negvSI2 __NW(negv,2)
#define __absvDI2 __NDW(absv,2)
#define __addvDI3 __NDW(addv,3)
#define __subvDI3 __NDW(subv,3)
#define __mulvDI3 __NDW(mulv,3)
#define __negvDI2 __NDW(negv,2)
#define __ffsSI2 __NW(ffs,2)
#define __clzSI2 __NW(clz,2)
#define __ctzSI2 __NW(ctz,2)
#define __clrsbSI2 __NW(clrsb,2)
#define __popcountSI2 __NW(popcount,2)
#define __paritySI2 __NW(parity,2)
#define __ffsDI2 __NDW(ffs,2)
#define __clzDI2 __NDW(clz,2)
#define __ctzDI2 __NDW(ctz,2)
#define __clrsbDI2 __NDW(clrsb,2)
#define __popcountDI2 __NDW(popcount,2)
#define __parityDI2 __NDW(parity,2)
#define __clz_tab __N(clz_tab)
#define __bswapsi2 __N(bswapsi2)
#define __bswapdi2 __N(bswapdi2)
#define __udiv_w_sdiv __N(udiv_w_sdiv)
#define __clear_cache __N(clear_cache)
#define __enable_execute_stack __N(enable_execute_stack)
#ifndef __powisf2
#define __powisf2 __N(powisf2)
#endif
#ifndef __powidf2
#define __powidf2 __N(powidf2)
#endif
#ifndef __powitf2
#define __powitf2 __N(powitf2)
#endif
#ifndef __powixf2
#define __powixf2 __N(powixf2)
#endif
#ifndef __mulsc3
#define __mulsc3 __N(mulsc3)
#endif
#ifndef __muldc3
#define __muldc3 __N(muldc3)
#endif
#ifndef __mulxc3
#define __mulxc3 __N(mulxc3)
#endif
#ifndef __multc3
#define __multc3 __N(multc3)
#endif
#ifndef __divsc3
#define __divsc3 __N(divsc3)
#endif
#ifndef __divdc3
#define __divdc3 __N(divdc3)
#endif
#ifndef __divxc3
#define __divxc3 __N(divxc3)
#endif
#ifndef __divtc3
#define __divtc3 __N(divtc3)
#endif
extern DWtype __muldi3 (DWtype, DWtype);
extern DWtype __divdi3 (DWtype, DWtype);
extern UDWtype __udivdi3 (UDWtype, UDWtype);
extern UDWtype __umoddi3 (UDWtype, UDWtype);
extern DWtype __moddi3 (DWtype, DWtype);
/* __udivmoddi4 is static inline when building other libgcc2 portions. */
#if (!defined (L_udivdi3) && !defined (L_divdi3) && \
!defined (L_umoddi3) && !defined (L_moddi3))
extern UDWtype __udivmoddi4 (UDWtype, UDWtype, UDWtype *);
#endif
/* __negdi2 is static inline when building other libgcc2 portions. */
#if !defined(L_divdi3) && !defined(L_moddi3)
extern DWtype __negdi2 (DWtype);
#endif
extern DWtype __lshrdi3 (DWtype, shift_count_type);
extern DWtype __ashldi3 (DWtype, shift_count_type);
extern DWtype __ashrdi3 (DWtype, shift_count_type);
/* __udiv_w_sdiv is static inline when building other libgcc2 portions. */
#if (!defined(L_udivdi3) && !defined(L_divdi3) && \
!defined(L_umoddi3) && !defined(L_moddi3))
extern UWtype __udiv_w_sdiv (UWtype *, UWtype, UWtype, UWtype);
#endif
extern cmp_return_type __cmpdi2 (DWtype, DWtype);
extern cmp_return_type __ucmpdi2 (DWtype, DWtype);
#if MIN_UNITS_PER_WORD > 1
extern SItype __bswapsi2 (SItype);
#endif
#if __SIZEOF_LONG_LONG__ > 4
extern DItype __bswapdi2 (DItype);
#endif
extern Wtype __absvSI2 (Wtype);
extern Wtype __addvSI3 (Wtype, Wtype);
extern Wtype __subvSI3 (Wtype, Wtype);
extern Wtype __mulvSI3 (Wtype, Wtype);
extern Wtype __negvSI2 (Wtype);
extern DWtype __absvDI2 (DWtype);
extern DWtype __addvDI3 (DWtype, DWtype);
extern DWtype __subvDI3 (DWtype, DWtype);
extern DWtype __mulvDI3 (DWtype, DWtype);
extern DWtype __negvDI2 (DWtype);
#ifdef COMPAT_SIMODE_TRAPPING_ARITHMETIC
#define __absvsi2 __N(absvsi2)
#define __negvsi2 __N(negvsi2)
#define __addvsi3 __N(addvsi3)
#define __subvsi3 __N(subvsi3)
#define __mulvsi3 __N(mulvsi3)
extern SItype __absvsi2 (SItype);
extern SItype __addvsi3 (SItype, SItype);
extern SItype __subvsi3 (SItype, SItype);
extern SItype __mulvsi3 (SItype, SItype);
extern SItype __negvsi2 (SItype);
#endif /* COMPAT_SIMODE_TRAPPING_ARITHMETIC */
#undef int
#if LIBGCC2_HAS_SF_MODE
extern DWtype __fixsfdi (SFtype);
extern SFtype __floatdisf (DWtype);
extern SFtype __floatundisf (UDWtype);
extern UWtype __fixunssfSI (SFtype);
extern UDWtype __fixunssfDI (SFtype);
extern SFtype __powisf2 (SFtype, int);
extern SCtype __divsc3 (SFtype, SFtype, SFtype, SFtype);
extern SCtype __mulsc3 (SFtype, SFtype, SFtype, SFtype);
#endif
#if LIBGCC2_HAS_DF_MODE
extern DWtype __fixdfdi (DFtype);
extern DFtype __floatdidf (DWtype);
extern DFtype __floatundidf (UDWtype);
extern UWtype __fixunsdfSI (DFtype);
extern UDWtype __fixunsdfDI (DFtype);
extern DFtype __powidf2 (DFtype, int);
extern DCtype __divdc3 (DFtype, DFtype, DFtype, DFtype);
extern DCtype __muldc3 (DFtype, DFtype, DFtype, DFtype);
#endif
#if LIBGCC2_HAS_XF_MODE
extern DWtype __fixxfdi (XFtype);
extern UDWtype __fixunsxfDI (XFtype);
extern XFtype __floatdixf (DWtype);
extern XFtype __floatundixf (UDWtype);
extern UWtype __fixunsxfSI (XFtype);
extern XFtype __powixf2 (XFtype, int);
extern XCtype __divxc3 (XFtype, XFtype, XFtype, XFtype);
extern XCtype __mulxc3 (XFtype, XFtype, XFtype, XFtype);
#endif
#if LIBGCC2_HAS_TF_MODE
extern UDWtype __fixunstfDI (TFtype);
extern DWtype __fixtfdi (TFtype);
extern TFtype __floatditf (DWtype);
extern TFtype __floatunditf (UDWtype);
extern TFtype __powitf2 (TFtype, int);
extern TCtype __divtc3 (TFtype, TFtype, TFtype, TFtype);
extern TCtype __multc3 (TFtype, TFtype, TFtype, TFtype);
#endif
#define int bogus_type
/* DWstructs are pairs of Wtype values in the order determined by
__BYTE_ORDER__. */
#if __BYTE_ORDER__ != __ORDER_LITTLE_ENDIAN__
struct DWstruct {Wtype high, low;};
#else
struct DWstruct {Wtype low, high;};
#endif
/* We need this union to unpack/pack DImode values, since we don't have
any arithmetic yet. Incoming DImode parameters are stored into the
`ll' field, and the unpacked result is read from the struct `s'. */
typedef union
{
struct DWstruct s;
DWtype ll;
} DWunion;
/* Defined for L_popcount_tab. Exported here because some targets may
want to use it for their own versions of the __popcount builtins. */
extern const UQItype __popcount_tab[256];
/* Defined for L_clz. Exported here because some targets may want to use
it for their own versions of the __clz builtins. It contains the bit
position of the first set bit for the numbers 0 - 255. This avoids the
need for a separate table for the __ctz builtins. */
extern const UQItype __clz_tab[256];
#include "longlong.h"
#undef int
extern int __clzDI2 (UDWtype);
extern int __clzSI2 (UWtype);
extern int __ctzSI2 (UWtype);
extern int __ctzDI2 (UDWtype);
extern int __clrsbSI2 (Wtype);
extern int __clrsbDI2 (DWtype);
extern int __ffsSI2 (UWtype);
extern int __ffsDI2 (DWtype);
extern int __popcountSI2 (UWtype);
extern int __popcountDI2 (UDWtype);
extern int __paritySI2 (UWtype);
extern int __parityDI2 (UDWtype);
#define int bogus_type
extern void __enable_execute_stack (void *);
#ifndef HIDE_EXPORTS
#pragma GCC visibility pop
#endif
#endif /* ! GCC_LIBGCC2_H */