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changecom(`/*', `*/')dnl
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 2004-2011. All Rights Reserved.
*
* The contents of this file are subject to the Erlang Public License,
* Version 1.1, (the "License"); you may not use this file except in
* compliance with the License. You should have received a copy of the
* Erlang Public License along with this software. If not, it can be
* retrieved online at http://www.erlang.org/.
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
* %CopyrightEnd%
*/
`#ifndef HIPE_PPC_ASM_H
#define HIPE_PPC_ASM_H'
/*
* Handle 32 vs 64-bit.
*/
ifelse(ARCH,ppc64,`
/* 64-bit PowerPC */
define(LOAD,ld)dnl
define(STORE,std)dnl
define(CMPI,cmpdi)dnl
define(WSIZE,8)dnl
',`
/* 32-bit PowerPC */
define(LOAD,lwz)dnl
define(STORE,stw)dnl
define(CMPI,cmpwi)dnl
define(WSIZE,4)dnl
')dnl
`#define LOAD 'LOAD
`#define STORE 'STORE
`#define CMPI 'CMPI
/*
* Tunables.
*/
define(LEAF_WORDS,16)dnl number of stack words for leaf functions
define(NR_ARG_REGS,4)dnl admissible values are 0 to 6, inclusive
`#define PPC_LEAF_WORDS 'LEAF_WORDS
/*
* Workarounds for Darwin.
*/
ifelse(OPSYS,darwin,``
/* Darwin */
#define JOIN(X,Y) X##Y
#define CSYM(NAME) JOIN(_,NAME)
#define ASYM(NAME) CSYM(NAME)
#define GLOBAL(NAME) .globl NAME
#define SEMI @
#define SET_SIZE(NAME) /*empty*/
#define TYPE_FUNCTION(NAME) /*empty*/
'',``
/* Not Darwin */''
`ifelse(ARCH,ppc64,``
/* 64-bit */
#define JOIN(X,Y) X##Y
#define CSYM(NAME) JOIN(.,NAME)
'',``
/* 32-bit */
#define CSYM(NAME) NAME
'')'
``#define ASYM(NAME) NAME
#define GLOBAL(NAME) .global NAME
#define SEMI ;
#define SET_SIZE(NAME) .size NAME,.-NAME
#define TYPE_FUNCTION(NAME) .type NAME,@function
#define lo16(X) X@l
#define ha16(X) X@ha
/*
* Standard register names.
*/
#define r0 0
#define r1 1
#define r2 2
#define r3 3
#define r4 4
#define r5 5
#define r6 6
#define r7 7
#define r8 8
#define r9 9
#define r10 10
#define r11 11
#define r12 12
#define r13 13
#define r14 14
#define r15 15
#define r16 16
#define r17 17
#define r18 18
#define r19 19
#define r20 20
#define r21 21
#define r22 22
#define r23 23
#define r24 24
#define r25 25
#define r26 26
#define r27 27
#define r28 28
#define r29 29
#define r30 30
#define r31 31
'')dnl
/*
* Reserved registers.
*/
`#define P r31'
`#define NSP r30'
`#define HP r29'
`#define TEMP_LR r28'
/*
* Context switching macros.
*
* RESTORE_CONTEXT and RESTORE_CONTEXT_QUICK do not affect
* the condition register.
*/
`#define SAVE_CONTEXT_QUICK \
mflr TEMP_LR'
`#define RESTORE_CONTEXT_QUICK \
mtlr TEMP_LR'
`#define SAVE_CACHED_STATE \
STORE HP, P_HP(P) SEMI\
STORE NSP, P_NSP(P)'
`#define RESTORE_CACHED_STATE \
LOAD HP, P_HP(P) SEMI\
LOAD NSP, P_NSP(P)'
`#define SAVE_CONTEXT_BIF \
mflr TEMP_LR SEMI \
STORE HP, P_HP(P)'
`#define RESTORE_CONTEXT_BIF \
mtlr TEMP_LR SEMI \
LOAD HP, P_HP(P)'
`#define SAVE_CONTEXT_GC \
mflr TEMP_LR SEMI \
STORE TEMP_LR, P_NRA(P) SEMI \
STORE NSP, P_NSP(P) SEMI \
STORE HP, P_HP(P)'
`#define RESTORE_CONTEXT_GC \
mtlr TEMP_LR SEMI \
LOAD HP, P_HP(P)'
/*
* Argument (parameter) registers.
*/
`#define PPC_NR_ARG_REGS 'NR_ARG_REGS
`#define NR_ARG_REGS 'NR_ARG_REGS
define(defarg,`define(ARG$1,`$2')dnl
#`define ARG'$1 $2'
)dnl
ifelse(eval(NR_ARG_REGS >= 1),0,,
`defarg(0,`r4')')dnl
ifelse(eval(NR_ARG_REGS >= 2),0,,
`defarg(1,`r5')')dnl
ifelse(eval(NR_ARG_REGS >= 3),0,,
`defarg(2,`r6')')dnl
ifelse(eval(NR_ARG_REGS >= 4),0,,
`defarg(3,`r7')')dnl
ifelse(eval(NR_ARG_REGS >= 5),0,,
`defarg(4,`r8')')dnl
ifelse(eval(NR_ARG_REGS >= 6),0,,
`defarg(5,`r9')')dnl
/*
* TEMP_ARG0:
* Used in nbif_stack_trap_ra to preserve the return value.
* Must be a C callee-save register.
* Must be otherwise unused in the return path.
*
* TEMP_ARG0:
* Used in hipe_ppc_inc_stack to preserve the return address
* (TEMP_LR contains the caller's saved return address).
* Must be a C callee-save register.
* Must be otherwise unused in the call path.
*/
`#define TEMP_ARG0 r27'
dnl XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
dnl X X
dnl X hipe_ppc_glue.S support X
dnl X X
dnl XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
dnl
dnl LOAD_ARG_REGS
dnl
define(LAR_1,`LOAD ARG$1, P_ARG$1(P) SEMI ')dnl
define(LAR_N,`ifelse(eval($1 >= 0),0,,`LAR_N(eval($1-1))LAR_1($1)')')dnl
define(LOAD_ARG_REGS,`LAR_N(eval(NR_ARG_REGS-1))')dnl
`#define LOAD_ARG_REGS 'LOAD_ARG_REGS
dnl
dnl STORE_ARG_REGS
dnl
define(SAR_1,`STORE ARG$1, P_ARG$1(P) SEMI ')dnl
define(SAR_N,`ifelse(eval($1 >= 0),0,,`SAR_N(eval($1-1))SAR_1($1)')')dnl
define(STORE_ARG_REGS,`SAR_N(eval(NR_ARG_REGS-1))')dnl
`#define STORE_ARG_REGS 'STORE_ARG_REGS
dnl XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
dnl X X
dnl X hipe_ppc_bifs.m4 support X
dnl X X
dnl XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
dnl
dnl NBIF_ARG(DST,ARITY,ARGNO)
dnl Access a formal parameter.
dnl It will be a memory load via NSP when ARGNO >= NR_ARG_REGS.
dnl It will be a register move when 0 <= ARGNO < NR_ARG_REGS; if
dnl the source and destination are the same, the move is suppressed.
dnl
define(NBIF_MOVE_REG,`ifelse($1,$2,`# mr $1, $2',`mr $1, $2')')dnl
define(NBIF_REG_ARG,`NBIF_MOVE_REG($1,ARG$2)')dnl
define(NBIF_STK_LOAD,`LOAD $1, $2(NSP)')dnl
define(NBIF_STK_ARG,`NBIF_STK_LOAD($1,eval(WSIZE*(($2-$3)-1)))')dnl
define(NBIF_ARG,`ifelse(eval($3 >= NR_ARG_REGS),0,`NBIF_REG_ARG($1,$3)',`NBIF_STK_ARG($1,$2,$3)')')dnl
`/* #define NBIF_ARG_1_0 'NBIF_ARG(r3,1,0)` */'
`/* #define NBIF_ARG_2_0 'NBIF_ARG(r3,2,0)` */'
`/* #define NBIF_ARG_2_1 'NBIF_ARG(r3,2,1)` */'
`/* #define NBIF_ARG_3_0 'NBIF_ARG(r3,3,0)` */'
`/* #define NBIF_ARG_3_1 'NBIF_ARG(r3,3,1)` */'
`/* #define NBIF_ARG_3_2 'NBIF_ARG(r3,3,2)` */'
`/* #define NBIF_ARG_5_0 'NBIF_ARG(r3,5,0)` */'
`/* #define NBIF_ARG_5_1 'NBIF_ARG(r3,5,1)` */'
`/* #define NBIF_ARG_5_2 'NBIF_ARG(r3,5,2)` */'
`/* #define NBIF_ARG_5_3 'NBIF_ARG(r3,5,3)` */'
`/* #define NBIF_ARG_5_4 'NBIF_ARG(r3,5,4)` */'
dnl
dnl NBIF_RET(ARITY)
dnl Generates a return from a native BIF, taking care to pop
dnl any stacked formal parameters.
dnl
define(NSP_RETN,`addi NSP, NSP, $1
blr')dnl
define(NSP_RET0,`blr')dnl
define(RET_POP,`ifelse(eval($1 > NR_ARG_REGS),0,0,eval(WSIZE*($1 - NR_ARG_REGS)))')dnl
define(NBIF_RET_N,`ifelse(eval($1),0,`NSP_RET0',`NSP_RETN($1)')')dnl
define(NBIF_RET,`NBIF_RET_N(eval(RET_POP($1)))')dnl
`/* #define NBIF_RET_0 'NBIF_RET(0)` */'
`/* #define NBIF_RET_1 'NBIF_RET(1)` */'
`/* #define NBIF_RET_2 'NBIF_RET(2)` */'
`/* #define NBIF_RET_3 'NBIF_RET(3)` */'
`/* #define NBIF_RET_5 'NBIF_RET(5)` */'
dnl
dnl QUICK_CALL_RET(CFUN,ARITY)
dnl Used in nocons_nofail and noproc primop interfaces to optimise
dnl SAVE_CONTEXT_QUICK; bl CFUN; RESTORE_CONTEXT_QUICK; NBIF_RET(ARITY).
dnl
define(NBIF_POP_N,`ifelse(eval($1),0,`',`addi NSP, NSP, $1 SEMI ')')dnl
define(QUICK_CALL_RET,`NBIF_POP_N(eval(RET_POP($2)))b $1')dnl
`/* #define QUICK_CALL_RET_F_0 'QUICK_CALL_RET(F,0)` */'
`/* #define QUICK_CALL_RET_F_1 'QUICK_CALL_RET(F,1)` */'
`/* #define QUICK_CALL_RET_F_2 'QUICK_CALL_RET(F,2)` */'
`/* #define QUICK_CALL_RET_F_3 'QUICK_CALL_RET(F,3)` */'
`/* #define QUICK_CALL_RET_F_5 'QUICK_CALL_RET(F,5)` */'
`#endif /* HIPE_PPC_ASM_H */'
|