/* PowerPC E500 user include file.
Copyright (C) 2002-2013 Free Software Foundation, Inc.
Contributed by Aldy Hernandez (aldyh@redhat.com).
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
. */
#ifndef _SPE_H
#define _SPE_H
#define __vector __attribute__((vector_size(8)))
typedef int int32_t;
typedef unsigned uint32_t;
typedef short int16_t;
typedef unsigned short uint16_t;
typedef long long int64_t;
typedef unsigned long long uint64_t;
typedef short __vector __ev64_s16__;
typedef unsigned short __vector __ev64_u16__;
typedef int __vector __ev64_s32__;
typedef unsigned __vector __ev64_u32__;
typedef long long __vector __ev64_s64__;
typedef unsigned long long __vector __ev64_u64__;
typedef float __vector __ev64_fs__;
#define __v2si __ev64_opaque__
#define __v2sf __ev64_fs__
#define __ev_addw __builtin_spe_evaddw
#define __ev_addiw __builtin_spe_evaddiw
#define __ev_subfw(a,b) __builtin_spe_evsubfw ((b), (a))
#define __ev_subw __builtin_spe_evsubfw
#define __ev_subifw(a,b) __builtin_spe_evsubifw ((b), (a))
#define __ev_subiw __builtin_spe_evsubifw
#define __ev_abs __builtin_spe_evabs
#define __ev_neg __builtin_spe_evneg
#define __ev_extsb __builtin_spe_evextsb
#define __ev_extsh __builtin_spe_evextsh
#define __ev_and __builtin_spe_evand
#define __ev_or __builtin_spe_evor
#define __ev_xor __builtin_spe_evxor
#define __ev_nand __builtin_spe_evnand
#define __ev_nor __builtin_spe_evnor
#define __ev_eqv __builtin_spe_eveqv
#define __ev_andc __builtin_spe_evandc
#define __ev_orc __builtin_spe_evorc
#define __ev_rlw __builtin_spe_evrlw
#define __ev_rlwi __builtin_spe_evrlwi
#define __ev_slw __builtin_spe_evslw
#define __ev_slwi __builtin_spe_evslwi
#define __ev_srws __builtin_spe_evsrws
#define __ev_srwu __builtin_spe_evsrwu
#define __ev_srwis __builtin_spe_evsrwis
#define __ev_srwiu __builtin_spe_evsrwiu
#define __ev_cntlzw __builtin_spe_evcntlzw
#define __ev_cntlsw __builtin_spe_evcntlsw
#define __ev_rndw __builtin_spe_evrndw
#define __ev_mergehi __builtin_spe_evmergehi
#define __ev_mergelo __builtin_spe_evmergelo
#define __ev_mergelohi __builtin_spe_evmergelohi
#define __ev_mergehilo __builtin_spe_evmergehilo
#define __ev_splati __builtin_spe_evsplati
#define __ev_splatfi __builtin_spe_evsplatfi
#define __ev_divws __builtin_spe_evdivws
#define __ev_divwu __builtin_spe_evdivwu
#define __ev_mra __builtin_spe_evmra
#define __brinc __builtin_spe_brinc
/* Loads. */
#define __ev_lddx __builtin_spe_evlddx
#define __ev_ldwx __builtin_spe_evldwx
#define __ev_ldhx __builtin_spe_evldhx
#define __ev_lwhex __builtin_spe_evlwhex
#define __ev_lwhoux __builtin_spe_evlwhoux
#define __ev_lwhosx __builtin_spe_evlwhosx
#define __ev_lwwsplatx __builtin_spe_evlwwsplatx
#define __ev_lwhsplatx __builtin_spe_evlwhsplatx
#define __ev_lhhesplatx __builtin_spe_evlhhesplatx
#define __ev_lhhousplatx __builtin_spe_evlhhousplatx
#define __ev_lhhossplatx __builtin_spe_evlhhossplatx
#define __ev_ldd __builtin_spe_evldd
#define __ev_ldw __builtin_spe_evldw
#define __ev_ldh __builtin_spe_evldh
#define __ev_lwhe __builtin_spe_evlwhe
#define __ev_lwhou __builtin_spe_evlwhou
#define __ev_lwhos __builtin_spe_evlwhos
#define __ev_lwwsplat __builtin_spe_evlwwsplat
#define __ev_lwhsplat __builtin_spe_evlwhsplat
#define __ev_lhhesplat __builtin_spe_evlhhesplat
#define __ev_lhhousplat __builtin_spe_evlhhousplat
#define __ev_lhhossplat __builtin_spe_evlhhossplat
/* Stores. */
#define __ev_stddx __builtin_spe_evstddx
#define __ev_stdwx __builtin_spe_evstdwx
#define __ev_stdhx __builtin_spe_evstdhx
#define __ev_stwwex __builtin_spe_evstwwex
#define __ev_stwwox __builtin_spe_evstwwox
#define __ev_stwhex __builtin_spe_evstwhex
#define __ev_stwhox __builtin_spe_evstwhox
#define __ev_stdd __builtin_spe_evstdd
#define __ev_stdw __builtin_spe_evstdw
#define __ev_stdh __builtin_spe_evstdh
#define __ev_stwwe __builtin_spe_evstwwe
#define __ev_stwwo __builtin_spe_evstwwo
#define __ev_stwhe __builtin_spe_evstwhe
#define __ev_stwho __builtin_spe_evstwho
/* Fixed point complex. */
#define __ev_mhossf __builtin_spe_evmhossf
#define __ev_mhosmf __builtin_spe_evmhosmf
#define __ev_mhosmi __builtin_spe_evmhosmi
#define __ev_mhoumi __builtin_spe_evmhoumi
#define __ev_mhessf __builtin_spe_evmhessf
#define __ev_mhesmf __builtin_spe_evmhesmf
#define __ev_mhesmi __builtin_spe_evmhesmi
#define __ev_mheumi __builtin_spe_evmheumi
#define __ev_mhossfa __builtin_spe_evmhossfa
#define __ev_mhosmfa __builtin_spe_evmhosmfa
#define __ev_mhosmia __builtin_spe_evmhosmia
#define __ev_mhoumia __builtin_spe_evmhoumia
#define __ev_mhessfa __builtin_spe_evmhessfa
#define __ev_mhesmfa __builtin_spe_evmhesmfa
#define __ev_mhesmia __builtin_spe_evmhesmia
#define __ev_mheumia __builtin_spe_evmheumia
#define __ev_mhoumf __ev_mhoumi
#define __ev_mheumf __ev_mheumi
#define __ev_mhoumfa __ev_mhoumia
#define __ev_mheumfa __ev_mheumia
#define __ev_mhossfaaw __builtin_spe_evmhossfaaw
#define __ev_mhossiaaw __builtin_spe_evmhossiaaw
#define __ev_mhosmfaaw __builtin_spe_evmhosmfaaw
#define __ev_mhosmiaaw __builtin_spe_evmhosmiaaw
#define __ev_mhousiaaw __builtin_spe_evmhousiaaw
#define __ev_mhoumiaaw __builtin_spe_evmhoumiaaw
#define __ev_mhessfaaw __builtin_spe_evmhessfaaw
#define __ev_mhessiaaw __builtin_spe_evmhessiaaw
#define __ev_mhesmfaaw __builtin_spe_evmhesmfaaw
#define __ev_mhesmiaaw __builtin_spe_evmhesmiaaw
#define __ev_mheusiaaw __builtin_spe_evmheusiaaw
#define __ev_mheumiaaw __builtin_spe_evmheumiaaw
#define __ev_mhousfaaw __ev_mhousiaaw
#define __ev_mhoumfaaw __ev_mhoumiaaw
#define __ev_mheusfaaw __ev_mheusiaaw
#define __ev_mheumfaaw __ev_mheumiaaw
#define __ev_mhossfanw __builtin_spe_evmhossfanw
#define __ev_mhossianw __builtin_spe_evmhossianw
#define __ev_mhosmfanw __builtin_spe_evmhosmfanw
#define __ev_mhosmianw __builtin_spe_evmhosmianw
#define __ev_mhousianw __builtin_spe_evmhousianw
#define __ev_mhoumianw __builtin_spe_evmhoumianw
#define __ev_mhessfanw __builtin_spe_evmhessfanw
#define __ev_mhessianw __builtin_spe_evmhessianw
#define __ev_mhesmfanw __builtin_spe_evmhesmfanw
#define __ev_mhesmianw __builtin_spe_evmhesmianw
#define __ev_mheusianw __builtin_spe_evmheusianw
#define __ev_mheumianw __builtin_spe_evmheumianw
#define __ev_mhousfanw __ev_mhousianw
#define __ev_mhoumfanw __ev_mhoumianw
#define __ev_mheusfanw __ev_mheusianw
#define __ev_mheumfanw __ev_mheumianw
#define __ev_mhogsmfaa __builtin_spe_evmhogsmfaa
#define __ev_mhogsmiaa __builtin_spe_evmhogsmiaa
#define __ev_mhogumiaa __builtin_spe_evmhogumiaa
#define __ev_mhegsmfaa __builtin_spe_evmhegsmfaa
#define __ev_mhegsmiaa __builtin_spe_evmhegsmiaa
#define __ev_mhegumiaa __builtin_spe_evmhegumiaa
#define __ev_mhogumfaa __ev_mhogumiaa
#define __ev_mhegumfaa __ev_mhegumiaa
#define __ev_mhogsmfan __builtin_spe_evmhogsmfan
#define __ev_mhogsmian __builtin_spe_evmhogsmian
#define __ev_mhogumian __builtin_spe_evmhogumian
#define __ev_mhegsmfan __builtin_spe_evmhegsmfan
#define __ev_mhegsmian __builtin_spe_evmhegsmian
#define __ev_mhegumian __builtin_spe_evmhegumian
#define __ev_mhogumfan __ev_mhogumian
#define __ev_mhegumfan __ev_mhegumian
#define __ev_mwhssf __builtin_spe_evmwhssf
#define __ev_mwhsmf __builtin_spe_evmwhsmf
#define __ev_mwhsmi __builtin_spe_evmwhsmi
#define __ev_mwhumi __builtin_spe_evmwhumi
#define __ev_mwhssfa __builtin_spe_evmwhssfa
#define __ev_mwhsmfa __builtin_spe_evmwhsmfa
#define __ev_mwhsmia __builtin_spe_evmwhsmia
#define __ev_mwhumia __builtin_spe_evmwhumia
#define __ev_mwhumf __ev_mwhumi
#define __ev_mwhumfa __ev_mwhumia
#define __ev_mwlumi __builtin_spe_evmwlumi
#define __ev_mwlumia __builtin_spe_evmwlumia
#define __ev_mwlumiaaw __builtin_spe_evmwlumiaaw
#define __ev_mwlssiaaw __builtin_spe_evmwlssiaaw
#define __ev_mwlsmiaaw __builtin_spe_evmwlsmiaaw
#define __ev_mwlusiaaw __builtin_spe_evmwlusiaaw
#define __ev_mwlusiaaw __builtin_spe_evmwlusiaaw
#define __ev_mwlssianw __builtin_spe_evmwlssianw
#define __ev_mwlsmianw __builtin_spe_evmwlsmianw
#define __ev_mwlusianw __builtin_spe_evmwlusianw
#define __ev_mwlumianw __builtin_spe_evmwlumianw
#define __ev_mwssf __builtin_spe_evmwssf
#define __ev_mwsmf __builtin_spe_evmwsmf
#define __ev_mwsmi __builtin_spe_evmwsmi
#define __ev_mwumi __builtin_spe_evmwumi
#define __ev_mwssfa __builtin_spe_evmwssfa
#define __ev_mwsmfa __builtin_spe_evmwsmfa
#define __ev_mwsmia __builtin_spe_evmwsmia
#define __ev_mwumia __builtin_spe_evmwumia
#define __ev_mwumf __ev_mwumi
#define __ev_mwumfa __ev_mwumia
#define __ev_mwssfaa __builtin_spe_evmwssfaa
#define __ev_mwsmfaa __builtin_spe_evmwsmfaa
#define __ev_mwsmiaa __builtin_spe_evmwsmiaa
#define __ev_mwumiaa __builtin_spe_evmwumiaa
#define __ev_mwumfaa __ev_mwumiaa
#define __ev_mwssfan __builtin_spe_evmwssfan
#define __ev_mwsmfan __builtin_spe_evmwsmfan
#define __ev_mwsmian __builtin_spe_evmwsmian
#define __ev_mwumian __builtin_spe_evmwumian
#define __ev_mwumfan __ev_mwumian
#define __ev_addssiaaw __builtin_spe_evaddssiaaw
#define __ev_addsmiaaw __builtin_spe_evaddsmiaaw
#define __ev_addusiaaw __builtin_spe_evaddusiaaw
#define __ev_addumiaaw __builtin_spe_evaddumiaaw
#define __ev_addusfaaw __ev_addusiaaw
#define __ev_addumfaaw __ev_addumiaaw
#define __ev_addsmfaaw __ev_addsmiaaw
#define __ev_addssfaaw __ev_addssiaaw
#define __ev_subfssiaaw __builtin_spe_evsubfssiaaw
#define __ev_subfsmiaaw __builtin_spe_evsubfsmiaaw
#define __ev_subfusiaaw __builtin_spe_evsubfusiaaw
#define __ev_subfumiaaw __builtin_spe_evsubfumiaaw
#define __ev_subfusfaaw __ev_subfusiaaw
#define __ev_subfumfaaw __ev_subfumiaaw
#define __ev_subfsmfaaw __ev_subfsmiaaw
#define __ev_subfssfaaw __ev_subfssiaaw
/* Floating Point SIMD Instructions */
#define __ev_fsabs __builtin_spe_evfsabs
#define __ev_fsnabs __builtin_spe_evfsnabs
#define __ev_fsneg __builtin_spe_evfsneg
#define __ev_fsadd __builtin_spe_evfsadd
#define __ev_fssub __builtin_spe_evfssub
#define __ev_fsmul __builtin_spe_evfsmul
#define __ev_fsdiv __builtin_spe_evfsdiv
#define __ev_fscfui __builtin_spe_evfscfui
#define __ev_fscfsi __builtin_spe_evfscfsi
#define __ev_fscfuf __builtin_spe_evfscfuf
#define __ev_fscfsf __builtin_spe_evfscfsf
#define __ev_fsctui __builtin_spe_evfsctui
#define __ev_fsctsi __builtin_spe_evfsctsi
#define __ev_fsctuf __builtin_spe_evfsctuf
#define __ev_fsctsf __builtin_spe_evfsctsf
#define __ev_fsctuiz __builtin_spe_evfsctuiz
#define __ev_fsctsiz __builtin_spe_evfsctsiz
/* NOT SUPPORTED IN FIRST e500, support via two instructions: */
#define __ev_mwhusfaaw __ev_mwhusiaaw
#define __ev_mwhumfaaw __ev_mwhumiaaw
#define __ev_mwhusfanw __ev_mwhusianw
#define __ev_mwhumfanw __ev_mwhumianw
#define __ev_mwhgumfaa __ev_mwhgumiaa
#define __ev_mwhgumfan __ev_mwhgumian
#define __ev_mwhgssfaa __internal_ev_mwhgssfaa
#define __ev_mwhgsmfaa __internal_ev_mwhgsmfaa
#define __ev_mwhgsmiaa __internal_ev_mwhgsmiaa
#define __ev_mwhgumiaa __internal_ev_mwhgumiaa
#define __ev_mwhgssfan __internal_ev_mwhgssfan
#define __ev_mwhgsmfan __internal_ev_mwhgsmfan
#define __ev_mwhgsmian __internal_ev_mwhgsmian
#define __ev_mwhgumian __internal_ev_mwhgumian
#define __ev_mwhssiaaw __internal_ev_mwhssiaaw
#define __ev_mwhssfaaw __internal_ev_mwhssfaaw
#define __ev_mwhsmfaaw __internal_ev_mwhsmfaaw
#define __ev_mwhsmiaaw __internal_ev_mwhsmiaaw
#define __ev_mwhusiaaw __internal_ev_mwhusiaaw
#define __ev_mwhumiaaw __internal_ev_mwhumiaaw
#define __ev_mwhssfanw __internal_ev_mwhssfanw
#define __ev_mwhssianw __internal_ev_mwhssianw
#define __ev_mwhsmfanw __internal_ev_mwhsmfanw
#define __ev_mwhsmianw __internal_ev_mwhsmianw
#define __ev_mwhusianw __internal_ev_mwhusianw
#define __ev_mwhumianw __internal_ev_mwhumianw
static inline __ev64_opaque__
__internal_ev_mwhssfaaw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhssf (a, b);
return __ev_addssiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhssiaaw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmi (a, b);
return __ev_addssiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhsmfaaw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmf (a, b);
return __ev_addsmiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhsmiaaw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmi (a, b);
return __ev_addsmiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhusiaaw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhumi (a, b);
return __ev_addusiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhumiaaw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhumi (a, b);
return __ev_addumiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhssfanw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhssf (a, b);
return __ev_subfssiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhssianw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmi (a, b);
return __ev_subfssiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhsmfanw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmf (a, b);
return __ev_subfsmiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhsmianw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmi (a, b);
return __ev_subfsmiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhusianw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhumi (a, b);
return __ev_subfusiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhumianw (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhumi (a, b);
return __ev_subfumiaaw (t);
}
static inline __ev64_opaque__
__internal_ev_mwhgssfaa (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhssf (a, b);
return __ev_mwsmiaa (t, ((__ev64_s32__){1, 1}));
}
static inline __ev64_opaque__
__internal_ev_mwhgsmfaa (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmf (a, b);
return __ev_mwsmiaa (t, ((__ev64_s32__){1, 1}));
}
static inline __ev64_opaque__
__internal_ev_mwhgsmiaa (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmi (a, b);
return __ev_mwsmiaa (t, ((__ev64_s32__){1, 1}));
}
static inline __ev64_opaque__
__internal_ev_mwhgumiaa (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhumi (a, b);
return __ev_mwumiaa (t, ((__ev64_s32__){1, 1}));
}
static inline __ev64_opaque__
__internal_ev_mwhgssfan (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhssf (a, b);
return __ev_mwsmian (t, ((__ev64_s32__){1, 1}));
}
static inline __ev64_opaque__
__internal_ev_mwhgsmfan (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmf (a, b);
return __ev_mwsmian (t, ((__ev64_s32__){1, 1}));
}
static inline __ev64_opaque__
__internal_ev_mwhgsmian (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhsmi (a, b);
return __ev_mwsmian (t, ((__ev64_s32__){1, 1}));
}
static inline __ev64_opaque__
__internal_ev_mwhgumian (__ev64_opaque__ a, __ev64_opaque__ b)
{
__ev64_opaque__ t;
t = __ev_mwhumi (a, b);
return __ev_mwumian (t, ((__ev64_s32__){1, 1}));
}
/* END OF NOT SUPPORTED */
/* __ev_create* functions. */
#define __ev_create_ufix32_u32 __ev_create_u32
#define __ev_create_sfix32_s32 __ev_create_s32
static inline __ev64_opaque__
__ev_create_s16 (int16_t a, int16_t b, int16_t c, int16_t d)
{
union
{
__ev64_opaque__ v;
int16_t i[4];
} u;
u.i[0] = a;
u.i[1] = b;
u.i[2] = c;
u.i[3] = d;
return u.v;
}
static inline __ev64_opaque__
__ev_create_u16 (uint16_t a, uint16_t b, uint16_t c, uint16_t d)
{
union
{
__ev64_opaque__ v;
uint16_t i[4];
} u;
u.i[0] = a;
u.i[1] = b;
u.i[2] = c;
u.i[3] = d;
return u.v;
}
static inline __ev64_opaque__
__ev_create_s32 (int32_t a, int32_t b)
{
union
{
__ev64_opaque__ v;
int32_t i[2];
} u;
u.i[0] = a;
u.i[1] = b;
return u.v;
}
static inline __ev64_opaque__
__ev_create_u32 (uint32_t a, uint32_t b)
{
union
{
__ev64_opaque__ v;
uint32_t i[2];
} u;
u.i[0] = a;
u.i[1] = b;
return u.v;
}
static inline __ev64_opaque__
__ev_create_fs (float a, float b)
{
union
{
__ev64_opaque__ v;
float f[2];
} u;
u.f[0] = a;
u.f[1] = b;
return u.v;
}
static inline __ev64_opaque__
__ev_create_sfix32_fs (float a, float b)
{
__ev64_opaque__ ev;
ev = (__ev64_opaque__) __ev_create_fs (a, b);
return (__ev64_opaque__) __builtin_spe_evfsctsf ((__v2sf) ev);
}
static inline __ev64_opaque__
__ev_create_ufix32_fs (float a, float b)
{
__ev64_opaque__ ev;
ev = (__ev64_opaque__) __ev_create_fs (a, b);
return (__ev64_opaque__) __builtin_spe_evfsctuf ((__v2sf) ev);
}
static inline __ev64_opaque__
__ev_create_s64 (int64_t a)
{
union
{
__ev64_opaque__ v;
int64_t i;
} u;
u.i = a;
return u.v;
}
static inline __ev64_opaque__
__ev_create_u64 (uint64_t a)
{
union
{
__ev64_opaque__ v;
uint64_t i;
} u;
u.i = a;
return u.v;
}
static inline uint64_t
__ev_convert_u64 (__ev64_opaque__ a)
{
return (uint64_t) a;
}
static inline int64_t
__ev_convert_s64 (__ev64_opaque__ a)
{
return (int64_t) a;
}
/* __ev_get_* functions. */
#define __ev_get_upper_u32(a) __ev_get_u32_internal ((a), 0)
#define __ev_get_lower_u32(a) __ev_get_u32_internal ((a), 1)
#define __ev_get_upper_s32(a) __ev_get_s32_internal ((a), 0)
#define __ev_get_lower_s32(a) __ev_get_s32_internal ((a), 1)
#define __ev_get_upper_fs(a) __ev_get_fs_internal ((a), 0)
#define __ev_get_lower_fs(a) __ev_get_fs_internal ((a), 1)
#define __ev_get_upper_ufix32_u32 __ev_get_upper_u32
#define __ev_get_lower_ufix32_u32 __ev_get_lower_u32
#define __ev_get_upper_sfix32_s32 __ev_get_upper_s32
#define __ev_get_lower_sfix32_s32 __ev_get_lower_s32
#define __ev_get_upper_sfix32_fs(a) __ev_get_sfix32_fs ((a), 0)
#define __ev_get_lower_sfix32_fs(a) __ev_get_sfix32_fs ((a), 1)
#define __ev_get_upper_ufix32_fs(a) __ev_get_ufix32_fs ((a), 0)
#define __ev_get_lower_ufix32_fs(a) __ev_get_ufix32_fs ((a), 1)
#define __ev_get_u32 __ev_get_u32_internal
#define __ev_get_s32 __ev_get_s32_internal
#define __ev_get_fs __ev_get_fs_internal
#define __ev_get_u16 __ev_get_u16_internal
#define __ev_get_s16 __ev_get_s16_internal
#define __ev_get_ufix32_u32 __ev_get_u32
#define __ev_get_sfix32_s32 __ev_get_s32
#define __ev_get_ufix32_fs __ev_get_ufix32_fs_internal
#define __ev_get_sfix32_fs __ev_get_sfix32_fs_internal
static inline uint32_t
__ev_get_u32_internal (__ev64_opaque__ a, uint32_t pos)
{
union
{
__ev64_opaque__ v;
uint32_t i[2];
} u;
u.v = a;
return u.i[pos];
}
static inline int32_t
__ev_get_s32_internal (__ev64_opaque__ a, uint32_t pos)
{
union
{
__ev64_opaque__ v;
int32_t i[2];
} u;
u.v = a;
return u.i[pos];
}
static inline float
__ev_get_fs_internal (__ev64_opaque__ a, uint32_t pos)
{
union
{
__ev64_opaque__ v;
float f[2];
} u;
u.v = a;
return u.f[pos];
}
static inline float
__ev_get_sfix32_fs_internal (__ev64_opaque__ a, uint32_t pos)
{
__ev64_fs__ v;
v = __builtin_spe_evfscfsf ((__v2sf) a);
return __ev_get_fs_internal ((__ev64_opaque__) v, pos);
}
static inline float
__ev_get_ufix32_fs_internal (__ev64_opaque__ a, uint32_t pos)
{
__ev64_fs__ v;
v = __builtin_spe_evfscfuf ((__v2sf) a);
return __ev_get_fs_internal ((__ev64_opaque__) v, pos);
}
static inline uint16_t
__ev_get_u16_internal (__ev64_opaque__ a, uint32_t pos)
{
union
{
__ev64_opaque__ v;
uint16_t i[4];
} u;
u.v = a;
return u.i[pos];
}
static inline int16_t
__ev_get_s16_internal (__ev64_opaque__ a, uint32_t pos)
{
union
{
__ev64_opaque__ v;
int16_t i[4];
} u;
u.v = a;
return u.i[pos];
}
/* __ev_set_* functions. */
#define __ev_set_u32 __ev_set_u32_internal
#define __ev_set_s32 __ev_set_s32_internal
#define __ev_set_fs __ev_set_fs_internal
#define __ev_set_u16 __ev_set_u16_internal
#define __ev_set_s16 __ev_set_s16_internal
#define __ev_set_ufix32_u32 __ev_set_u32
#define __ev_set_sfix32_s32 __ev_set_s32
#define __ev_set_sfix32_fs __ev_set_sfix32_fs_internal
#define __ev_set_ufix32_fs __ev_set_ufix32_fs_internal
#define __ev_set_upper_u32(a, b) __ev_set_u32 (a, b, 0)
#define __ev_set_lower_u32(a, b) __ev_set_u32 (a, b, 1)
#define __ev_set_upper_s32(a, b) __ev_set_s32 (a, b, 0)
#define __ev_set_lower_s32(a, b) __ev_set_s32 (a, b, 1)
#define __ev_set_upper_fs(a, b) __ev_set_fs (a, b, 0)
#define __ev_set_lower_fs(a, b) __ev_set_fs (a, b, 1)
#define __ev_set_upper_ufix32_u32 __ev_set_upper_u32
#define __ev_set_lower_ufix32_u32 __ev_set_lower_u32
#define __ev_set_upper_sfix32_s32 __ev_set_upper_s32
#define __ev_set_lower_sfix32_s32 __ev_set_lower_s32
#define __ev_set_upper_sfix32_fs(a, b) __ev_set_sfix32_fs (a, b, 0)
#define __ev_set_lower_sfix32_fs(a, b) __ev_set_sfix32_fs (a, b, 1)
#define __ev_set_upper_ufix32_fs(a, b) __ev_set_ufix32_fs (a, b, 0)
#define __ev_set_lower_ufix32_fs(a, b) __ev_set_ufix32_fs (a, b, 1)
#define __ev_set_acc_vec64 __builtin_spe_evmra
static inline __ev64_opaque__
__ev_set_acc_u64 (uint64_t a)
{
__ev64_opaque__ ev32;
ev32 = __ev_create_u64 (a);
__ev_mra (ev32);
return ev32;
}
static inline __ev64_opaque__
__ev_set_acc_s64 (int64_t a)
{
__ev64_opaque__ ev32;
ev32 = __ev_create_s64 (a);
__ev_mra (ev32);
return ev32;
}
static inline __ev64_opaque__
__ev_set_u32_internal (__ev64_opaque__ a, uint32_t b, uint32_t pos)
{
union
{
__ev64_opaque__ v;
uint32_t i[2];
} u;
u.v = a;
u.i[pos] = b;
return u.v;
}
static inline __ev64_opaque__
__ev_set_s32_internal (__ev64_opaque__ a, int32_t b, uint32_t pos)
{
union
{
__ev64_opaque__ v;
int32_t i[2];
} u;
u.v = a;
u.i[pos] = b;
return u.v;
}
static inline __ev64_opaque__
__ev_set_fs_internal (__ev64_opaque__ a, float b, uint32_t pos)
{
union
{
__ev64_opaque__ v;
float f[2];
} u;
u.v = a;
u.f[pos] = b;
return u.v;
}
static inline __ev64_opaque__
__ev_set_sfix32_fs_internal (__ev64_opaque__ a, float b, uint32_t pos)
{
__ev64_opaque__ v;
float other;
/* Get other half. */
other = __ev_get_fs_internal (a, pos ^ 1);
/* Make an sfix32 with 'b'. */
v = __ev_create_sfix32_fs (b, b);
/* Set other half to what it used to be. */
return __ev_set_fs_internal (v, other, pos ^ 1);
}
static inline __ev64_opaque__
__ev_set_ufix32_fs_internal (__ev64_opaque__ a, float b, uint32_t pos)
{
__ev64_opaque__ v;
float other;
/* Get other half. */
other = __ev_get_fs_internal (a, pos ^ 1);
/* Make an ufix32 with 'b'. */
v = __ev_create_ufix32_fs (b, b);
/* Set other half to what it used to be. */
return __ev_set_fs_internal (v, other, pos ^ 1);
}
static inline __ev64_opaque__
__ev_set_u16_internal (__ev64_opaque__ a, uint16_t b, uint32_t pos)
{
union
{
__ev64_opaque__ v;
uint16_t i[4];
} u;
u.v = a;
u.i[pos] = b;
return u.v;
}
static inline __ev64_opaque__
__ev_set_s16_internal (__ev64_opaque__ a, int16_t b, uint32_t pos)
{
union
{
__ev64_opaque__ v;
int16_t i[4];
} u;
u.v = a;
u.i[pos] = b;
return u.v;
}
/* Predicates. */
#define __pred_all 0
#define __pred_any 1
#define __pred_upper 2
#define __pred_lower 3
#define __ev_any_gts(a, b) __builtin_spe_evcmpgts (__pred_any, (a), (b))
#define __ev_all_gts(a, b) __builtin_spe_evcmpgts (__pred_all, (a), (b))
#define __ev_upper_gts(a, b) __builtin_spe_evcmpgts (__pred_upper, (a), (b))
#define __ev_lower_gts(a, b) __builtin_spe_evcmpgts (__pred_lower, (a), (b))
#define __ev_select_gts __builtin_spe_evsel_gts
#define __ev_any_gtu(a, b) __builtin_spe_evcmpgtu (__pred_any, (a), (b))
#define __ev_all_gtu(a, b) __builtin_spe_evcmpgtu (__pred_all, (a), (b))
#define __ev_upper_gtu(a, b) __builtin_spe_evcmpgtu (__pred_upper, (a), (b))
#define __ev_lower_gtu(a, b) __builtin_spe_evcmpgtu (__pred_lower, (a), (b))
#define __ev_select_gtu __builtin_spe_evsel_gtu
#define __ev_any_lts(a, b) __builtin_spe_evcmplts (__pred_any, (a), (b))
#define __ev_all_lts(a, b) __builtin_spe_evcmplts (__pred_all, (a), (b))
#define __ev_upper_lts(a, b) __builtin_spe_evcmplts (__pred_upper, (a), (b))
#define __ev_lower_lts(a, b) __builtin_spe_evcmplts (__pred_lower, (a), (b))
#define __ev_select_lts(a, b, c, d) ((__v2si) __builtin_spe_evsel_lts ((a), (b), (c), (d)))
#define __ev_any_ltu(a, b) __builtin_spe_evcmpltu (__pred_any, (a), (b))
#define __ev_all_ltu(a, b) __builtin_spe_evcmpltu (__pred_all, (a), (b))
#define __ev_upper_ltu(a, b) __builtin_spe_evcmpltu (__pred_upper, (a), (b))
#define __ev_lower_ltu(a, b) __builtin_spe_evcmpltu (__pred_lower, (a), (b))
#define __ev_select_ltu __builtin_spe_evsel_ltu
#define __ev_any_eq(a, b) __builtin_spe_evcmpeq (__pred_any, (a), (b))
#define __ev_all_eq(a, b) __builtin_spe_evcmpeq (__pred_all, (a), (b))
#define __ev_upper_eq(a, b) __builtin_spe_evcmpeq (__pred_upper, (a), (b))
#define __ev_lower_eq(a, b) __builtin_spe_evcmpeq (__pred_lower, (a), (b))
#define __ev_select_eq __builtin_spe_evsel_eq
#define __ev_any_fs_gt(a, b) __builtin_spe_evfscmpgt (__pred_any, (a), (b))
#define __ev_all_fs_gt(a, b) __builtin_spe_evfscmpgt (__pred_all, (a), (b))
#define __ev_upper_fs_gt(a, b) __builtin_spe_evfscmpgt (__pred_upper, (a), (b))
#define __ev_lower_fs_gt(a, b) __builtin_spe_evfscmpgt (__pred_lower, (a), (b))
#define __ev_select_fs_gt __builtin_spe_evsel_fsgt
#define __ev_any_fs_lt(a, b) __builtin_spe_evfscmplt (__pred_any, (a), (b))
#define __ev_all_fs_lt(a, b) __builtin_spe_evfscmplt (__pred_all, (a), (b))
#define __ev_upper_fs_lt(a, b) __builtin_spe_evfscmplt (__pred_upper, (a), (b))
#define __ev_lower_fs_lt(a, b) __builtin_spe_evfscmplt (__pred_lower, (a), (b))
#define __ev_select_fs_lt __builtin_spe_evsel_fslt
#define __ev_any_fs_eq(a, b) __builtin_spe_evfscmpeq (__pred_any, (a), (b))
#define __ev_all_fs_eq(a, b) __builtin_spe_evfscmpeq (__pred_all, (a), (b))
#define __ev_upper_fs_eq(a, b) __builtin_spe_evfscmpeq (__pred_upper, (a), (b))
#define __ev_lower_fs_eq(a, b) __builtin_spe_evfscmpeq (__pred_lower, (a), (b))
#define __ev_select_fs_eq __builtin_spe_evsel_fseq
#define __ev_any_fs_tst_gt(a, b) __builtin_spe_evfststgt (__pred_any, (a), (b))
#define __ev_all_fs_tst_gt(a, b) __builtin_spe_evfststgt (__pred_all, (a), (b))
#define __ev_upper_fs_tst_gt(a, b) __builtin_spe_evfststgt (__pred_upper, (a), (b))
#define __ev_lower_fs_tst_gt(a, b) __builtin_spe_evfststgt (__pred_lower, (a), (b))
#define __ev_select_fs_tst_gt __builtin_spe_evsel_fststgt
#define __ev_any_fs_tst_lt(a, b) __builtin_spe_evfststlt (__pred_any, (a), (b))
#define __ev_all_fs_tst_lt(a, b) __builtin_spe_evfststlt (__pred_all, (a), (b))
#define __ev_upper_fs_tst_lt(a, b) __builtin_spe_evfststlt (__pred_upper, (a), (b))
#define __ev_lower_fs_tst_lt(a, b) __builtin_spe_evfststlt (__pred_lower, (a), (b))
#define __ev_select_fs_tst_lt __builtin_spe_evsel_fststlt
#define __ev_any_fs_tst_eq(a, b) __builtin_spe_evfststeq (__pred_any, (a), (b))
#define __ev_all_fs_tst_eq(a, b) __builtin_spe_evfststeq (__pred_all, (a), (b))
#define __ev_upper_fs_tst_eq(a, b) __builtin_spe_evfststeq (__pred_upper, (a), (b))
#define __ev_lower_fs_tst_eq(a, b) __builtin_spe_evfststeq (__pred_lower, (a), (b))
#define __ev_select_fs_tst_eq __builtin_spe_evsel_fststeq
/* SPEFSCR accessor functions. */
#define __SPEFSCR_SOVH 0x80000000
#define __SPEFSCR_OVH 0x40000000
#define __SPEFSCR_FGH 0x20000000
#define __SPEFSCR_FXH 0x10000000
#define __SPEFSCR_FINVH 0x08000000
#define __SPEFSCR_FDBZH 0x04000000
#define __SPEFSCR_FUNFH 0x02000000
#define __SPEFSCR_FOVFH 0x01000000
/* 2 unused bits. */
#define __SPEFSCR_FINXS 0x00200000
#define __SPEFSCR_FINVS 0x00100000
#define __SPEFSCR_FDBZS 0x00080000
#define __SPEFSCR_FUNFS 0x00040000
#define __SPEFSCR_FOVFS 0x00020000
#define __SPEFSCR_MODE 0x00010000
#define __SPEFSCR_SOV 0x00008000
#define __SPEFSCR_OV 0x00004000
#define __SPEFSCR_FG 0x00002000
#define __SPEFSCR_FX 0x00001000
#define __SPEFSCR_FINV 0x00000800
#define __SPEFSCR_FDBZ 0x00000400
#define __SPEFSCR_FUNF 0x00000200
#define __SPEFSCR_FOVF 0x00000100
/* 1 unused bit. */
#define __SPEFSCR_FINXE 0x00000040
#define __SPEFSCR_FINVE 0x00000020
#define __SPEFSCR_FDBZE 0x00000010
#define __SPEFSCR_FUNFE 0x00000008
#define __SPEFSCR_FOVFE 0x00000004
#define __SPEFSCR_FRMC 0x00000003
#define __ev_get_spefscr_sovh() (__builtin_spe_mfspefscr () & __SPEFSCR_SOVH)
#define __ev_get_spefscr_ovh() (__builtin_spe_mfspefscr () & __SPEFSCR_OVH)
#define __ev_get_spefscr_fgh() (__builtin_spe_mfspefscr () & __SPEFSCR_FGH)
#define __ev_get_spefscr_fxh() (__builtin_spe_mfspefscr () & __SPEFSCR_FXH)
#define __ev_get_spefscr_finvh() (__builtin_spe_mfspefscr () & __SPEFSCR_FINVH)
#define __ev_get_spefscr_fdbzh() (__builtin_spe_mfspefscr () & __SPEFSCR_FDBZH)
#define __ev_get_spefscr_funfh() (__builtin_spe_mfspefscr () & __SPEFSCR_FUNFH)
#define __ev_get_spefscr_fovfh() (__builtin_spe_mfspefscr () & __SPEFSCR_FOVFH)
#define __ev_get_spefscr_finxs() (__builtin_spe_mfspefscr () & __SPEFSCR_FINXS)
#define __ev_get_spefscr_finvs() (__builtin_spe_mfspefscr () & __SPEFSCR_FINVS)
#define __ev_get_spefscr_fdbzs() (__builtin_spe_mfspefscr () & __SPEFSCR_FDBZS)
#define __ev_get_spefscr_funfs() (__builtin_spe_mfspefscr () & __SPEFSCR_FUNFS)
#define __ev_get_spefscr_fovfs() (__builtin_spe_mfspefscr () & __SPEFSCR_FOVFS)
#define __ev_get_spefscr_mode() (__builtin_spe_mfspefscr () & __SPEFSCR_MODE)
#define __ev_get_spefscr_sov() (__builtin_spe_mfspefscr () & __SPEFSCR_SOV)
#define __ev_get_spefscr_ov() (__builtin_spe_mfspefscr () & __SPEFSCR_OV)
#define __ev_get_spefscr_fg() (__builtin_spe_mfspefscr () & __SPEFSCR_FG)
#define __ev_get_spefscr_fx() (__builtin_spe_mfspefscr () & __SPEFSCR_FX)
#define __ev_get_spefscr_finv() (__builtin_spe_mfspefscr () & __SPEFSCR_FINV)
#define __ev_get_spefscr_fdbz() (__builtin_spe_mfspefscr () & __SPEFSCR_FDBZ)
#define __ev_get_spefscr_funf() (__builtin_spe_mfspefscr () & __SPEFSCR_FUNF)
#define __ev_get_spefscr_fovf() (__builtin_spe_mfspefscr () & __SPEFSCR_FOVF)
#define __ev_get_spefscr_finxe() (__builtin_spe_mfspefscr () & __SPEFSCR_FINXE)
#define __ev_get_spefscr_finve() (__builtin_spe_mfspefscr () & __SPEFSCR_FINVE)
#define __ev_get_spefscr_fdbze() (__builtin_spe_mfspefscr () & __SPEFSCR_FDBZE)
#define __ev_get_spefscr_funfe() (__builtin_spe_mfspefscr () & __SPEFSCR_FUNFE)
#define __ev_get_spefscr_fovfe() (__builtin_spe_mfspefscr () & __SPEFSCR_FOVFE)
#define __ev_get_spefscr_frmc() (__builtin_spe_mfspefscr () & __SPEFSCR_FRMC)
static inline void
__ev_clr_spefscr_field (int mask)
{
int i;
i = __builtin_spe_mfspefscr ();
i &= ~mask;
__builtin_spe_mtspefscr (i);
}
#define __ev_clr_spefscr_sovh() __ev_clr_spefscr_field (__SPEFSCR_SOVH)
#define __ev_clr_spefscr_sov() __ev_clr_spefscr_field (__SPEFSCR_SOV)
#define __ev_clr_spefscr_finxs() __ev_clr_spefscr_field (__SPEFSCR_FINXS)
#define __ev_clr_spefscr_finvs() __ev_clr_spefscr_field (__SPEFSCR_FINVS)
#define __ev_clr_spefscr_fdbzs() __ev_clr_spefscr_field (__SPEFSCR_FDBZS)
#define __ev_clr_spefscr_funfs() __ev_clr_spefscr_field (__SPEFSCR_FUNFS)
#define __ev_clr_spefscr_fovfs() __ev_clr_spefscr_field (__SPEFSCR_FOVFS)
/* Set rounding mode:
rnd = 0 (nearest)
rnd = 1 (zero)
rnd = 2 (+inf)
rnd = 3 (-inf). */
static inline void
__ev_set_spefscr_frmc (int rnd)
{
int i;
i = __builtin_spe_mfspefscr ();
i &= ~__SPEFSCR_FRMC;
i |= rnd;
__builtin_spe_mtspefscr (i);
}
/* The SPE PIM says these are declared in , although they are
not provided by GCC: they must be taken from a separate
library. */
extern short int atosfix16 (const char *);
extern int atosfix32 (const char *);
extern long long atosfix64 (const char *);
extern unsigned short atoufix16 (const char *);
extern unsigned int atoufix32 (const char *);
extern unsigned long long atoufix64 (const char *);
extern short int strtosfix16 (const char *, char **);
extern int strtosfix32 (const char *, char **);
extern long long strtosfix64 (const char *, char **);
extern unsigned short int strtoufix16 (const char *, char **);
extern unsigned int strtoufix32 (const char *, char **);
extern unsigned long long strtoufix64 (const char *, char **);
#endif /* _SPE_H */