src/hotspot/cpu/aarch64/cas.m4 - platform/libcore - Git at Google

 dnl Copyright (c) 2016, Red Hat Inc. All rights reserved.
 dnl DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 dnl
 dnl This code is free software; you can redistribute it and/or modify it
 dnl under the terms of the GNU General Public License version 2 only, as
 dnl published by the Free Software Foundation.
 dnl
 dnl This code is distributed in the hope that it will be useful, but WITHOUT
 dnl ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 dnl FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 dnl version 2 for more details (a copy is included in the LICENSE file that
 dnl accompanied this code).
 dnl
 dnl You should have received a copy of the GNU General Public License version
 dnl 2 along with this work; if not, write to the Free Software Foundation,
 dnl Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 dnl
 dnl Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 dnl or visit www.oracle.com if you need additional information or have any
 dnl questions.
 dnl
 dnl
 dnl Process this file with m4 cas.m4 to generate the CAE and wCAS
 dnl instructions used in aarch64.ad.
 dnl

 // BEGIN This section of the file is automatically generated. Do not edit --------------

 // Sundry CAS operations.  Note that release is always true,
 // regardless of the memory ordering of the CAS.  This is because we
 // need the volatile case to be sequentially consistent but there is
 // no trailing StoreLoad barrier emitted by C2.  Unfortunately we
 // can't check the type of memory ordering here, so we always emit a
 // STLXR.

 // This section is generated from aarch64_ad_cas.m4


 define(`CAS_INSN',
 `
 instruct compareAndExchange$1$5(iReg$2NoSp res, indirect mem, iReg$2 oldval, iReg$2 newval, rFlagsReg cr) %{
   match(Set res (CompareAndExchange$1 mem (Binary oldval newval)));
   ifelse($5,Acq,'  predicate(needs_acquiring_load_exclusive(n));
   ins_cost(VOLATILE_REF_COST);`,'  ins_cost(2 * VOLATILE_REF_COST);`)
   effect(TEMP_DEF res, KILL cr);
   format %{
     "cmpxchg $res = $mem, $oldval, $newval\t# ($3, weak) if $mem == $oldval then $mem <-- $newval"
   %}
   ins_encode %{
     __ cmpxchg($mem$$Register, $oldval$$Register, $newval$$Register,
                Assembler::$4, /*acquire*/ ifelse($5,Acq,true,false), /*release*/ true,
                /*weak*/ false, $res$$Register);
   %}
   ins_pipe(pipe_slow);
 %}')dnl
 define(`CAS_INSN4',
 `
 instruct compareAndExchange$1$7(iReg$2NoSp res, indirect mem, iReg$2 oldval, iReg$2 newval, rFlagsReg cr) %{
   match(Set res (CompareAndExchange$1 mem (Binary oldval newval)));
   ifelse($7,Acq,'  predicate(needs_acquiring_load_exclusive(n));
   ins_cost(VOLATILE_REF_COST);`,'  ins_cost(2 * VOLATILE_REF_COST);`)
   effect(TEMP_DEF res, KILL cr);
   format %{
     "cmpxchg $res = $mem, $oldval, $newval\t# ($3, weak) if $mem == $oldval then $mem <-- $newval"
   %}
   ins_encode %{
     __ $5(rscratch2, $oldval$$Register);
     __ cmpxchg($mem$$Register, rscratch2, $newval$$Register,
                Assembler::$4, /*acquire*/ ifelse($5,Acq,true,false), /*release*/ true,
                /*weak*/ false, $res$$Register);
     __ $6($res$$Register, $res$$Register);
   %}
   ins_pipe(pipe_slow);
 %}')dnl
 CAS_INSN4(B,I,byte,byte,uxtbw,sxtbw)
 CAS_INSN4(S,I,short,halfword,uxthw,sxthw)
 CAS_INSN(I,I,int,word)
 CAS_INSN(L,L,long,xword)
 CAS_INSN(N,N,narrow oop,word)
 CAS_INSN(P,P,ptr,xword)
 dnl
 dnl CAS_INSN4(B,I,byte,byte,uxtbw,sxtbw,Acq)
 dnl CAS_INSN4(S,I,short,halfword,uxthw,sxthw,Acq)
 dnl CAS_INSN(I,I,int,word,Acq)
 dnl CAS_INSN(L,L,long,xword,Acq)
 dnl CAS_INSN(N,N,narrow oop,word,Acq)
 dnl CAS_INSN(P,P,ptr,xword,Acq)
 dnl
 define(`CAS_INSN2',
 `
 instruct weakCompareAndSwap$1$6(iRegINoSp res, indirect mem, iReg$2 oldval, iReg$2 newval, rFlagsReg cr) %{
   match(Set res (WeakCompareAndSwap$1 mem (Binary oldval newval)));
   ifelse($6,Acq,'  predicate(needs_acquiring_load_exclusive(n));
   ins_cost(VOLATILE_REF_COST);`,'  ins_cost(2 * VOLATILE_REF_COST);`)
   effect(KILL cr);
   format %{
     "cmpxchg $res = $mem, $oldval, $newval\t# ($3, weak) if $mem == $oldval then $mem <-- $newval"
     "csetw $res, EQ\t# $res <-- (EQ ? 1 : 0)"
   %}
   ins_encode %{
     __ uxt$5(rscratch2, $oldval$$Register);
     __ cmpxchg($mem$$Register, rscratch2, $newval$$Register,
                Assembler::$4, /*acquire*/ ifelse($6,Acq,true,false), /*release*/ true,
                /*weak*/ true, noreg);
     __ csetw($res$$Register, Assembler::EQ);
   %}
   ins_pipe(pipe_slow);
 %}')dnl
 define(`CAS_INSN3',
 `
 instruct weakCompareAndSwap$1$5(iRegINoSp res, indirect mem, iReg$2 oldval, iReg$2 newval, rFlagsReg cr) %{
   match(Set res (WeakCompareAndSwap$1 mem (Binary oldval newval)));
   ifelse($5,Acq,'  predicate(needs_acquiring_load_exclusive(n));
   ins_cost(VOLATILE_REF_COST);`,'  ins_cost(2 * VOLATILE_REF_COST);`)
   effect(KILL cr);
   format %{
     "cmpxchg $res = $mem, $oldval, $newval\t# ($3, weak) if $mem == $oldval then $mem <-- $newval"
     "csetw $res, EQ\t# $res <-- (EQ ? 1 : 0)"
   %}
   ins_encode %{
     __ cmpxchg($mem$$Register, $oldval$$Register, $newval$$Register,
                Assembler::$4, /*acquire*/ ifelse($5,Acq,true,false), /*release*/ true,
                /*weak*/ true, noreg);
     __ csetw($res$$Register, Assembler::EQ);
   %}
   ins_pipe(pipe_slow);
 %}')dnl
 CAS_INSN2(B,I,byte,byte,bw)
 CAS_INSN2(S,I,short,halfword,hw)
 CAS_INSN3(I,I,int,word)
 CAS_INSN3(L,L,long,xword)
 CAS_INSN3(N,N,narrow oop,word)
 CAS_INSN3(P,P,ptr,xword)
 dnl CAS_INSN2(B,I,byte,byte,bw,Acq)
 dnl CAS_INSN2(S,I,short,halfword,hw,Acq)
 dnl CAS_INSN3(I,I,int,word,Acq)
 dnl CAS_INSN3(L,L,long,xword,Acq)
 dnl CAS_INSN3(N,N,narrow oop,word,Acq)
 dnl CAS_INSN3(P,P,ptr,xword,Acq)
 dnl

 // END This section of the file is automatically generated. Do not edit --------------
	dnl Copyright (c) 2016, Red Hat Inc. All rights reserved.
	dnl DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	dnl
	dnl This code is free software; you can redistribute it and/or modify it
	dnl under the terms of the GNU General Public License version 2 only, as
	dnl published by the Free Software Foundation.
	dnl
	dnl This code is distributed in the hope that it will be useful, but WITHOUT
	dnl ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	dnl FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	dnl version 2 for more details (a copy is included in the LICENSE file that
	dnl accompanied this code).
	dnl
	dnl You should have received a copy of the GNU General Public License version
	dnl 2 along with this work; if not, write to the Free Software Foundation,
	dnl Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	dnl
	dnl Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	dnl or visit www.oracle.com if you need additional information or have any
	dnl questions.
	dnl
	dnl
	dnl Process this file with m4 cas.m4 to generate the CAE and wCAS
	dnl instructions used in aarch64.ad.
	dnl

	// BEGIN This section of the file is automatically generated. Do not edit --------------

	// Sundry CAS operations. Note that release is always true,
	// regardless of the memory ordering of the CAS. This is because we
	// need the volatile case to be sequentially consistent but there is
	// no trailing StoreLoad barrier emitted by C2. Unfortunately we
	// can't check the type of memory ordering here, so we always emit a
	// STLXR.

	// This section is generated from aarch64_ad_cas.m4


	define(`CAS_INSN',
	`
	instruct compareAndExchange$1$5(iReg$2NoSp res, indirect mem, iReg$2 oldval, iReg$2 newval, rFlagsReg cr) %{
	match(Set res (CompareAndExchange$1 mem (Binary oldval newval)));
	ifelse($5,Acq,' predicate(needs_acquiring_load_exclusive(n));
	ins_cost(VOLATILE_REF_COST);`,' ins_cost(2 * VOLATILE_REF_COST);`)
	effect(TEMP_DEF res, KILL cr);
	format %{
	"cmpxchg $res = $mem, $oldval, $newval\t# ($3, weak) if $mem == $oldval then $mem <-- $newval"
	%}
	ins_encode %{
	__ cmpxchg($mem$$Register, $oldval$$Register, $newval$$Register,
	Assembler::$4, /acquire/ ifelse($5,Acq,true,false), /release/ true,
	/weak/ false, $res$$Register);
	%}
	ins_pipe(pipe_slow);
	%}')dnl
	define(`CAS_INSN4',
	`
	instruct compareAndExchange$1$7(iReg$2NoSp res, indirect mem, iReg$2 oldval, iReg$2 newval, rFlagsReg cr) %{
	match(Set res (CompareAndExchange$1 mem (Binary oldval newval)));
	ifelse($7,Acq,' predicate(needs_acquiring_load_exclusive(n));
	ins_cost(VOLATILE_REF_COST);`,' ins_cost(2 * VOLATILE_REF_COST);`)
	effect(TEMP_DEF res, KILL cr);
	format %{
	"cmpxchg $res = $mem, $oldval, $newval\t# ($3, weak) if $mem == $oldval then $mem <-- $newval"
	%}
	ins_encode %{
	__ $5(rscratch2, $oldval$$Register);
	__ cmpxchg($mem$$Register, rscratch2, $newval$$Register,
	Assembler::$4, /acquire/ ifelse($5,Acq,true,false), /release/ true,
	/weak/ false, $res$$Register);
	__ $6($res$$Register, $res$$Register);
	%}
	ins_pipe(pipe_slow);
	%}')dnl
	CAS_INSN4(B,I,byte,byte,uxtbw,sxtbw)
	CAS_INSN4(S,I,short,halfword,uxthw,sxthw)
	CAS_INSN(I,I,int,word)
	CAS_INSN(L,L,long,xword)
	CAS_INSN(N,N,narrow oop,word)
	CAS_INSN(P,P,ptr,xword)
	dnl
	dnl CAS_INSN4(B,I,byte,byte,uxtbw,sxtbw,Acq)
	dnl CAS_INSN4(S,I,short,halfword,uxthw,sxthw,Acq)
	dnl CAS_INSN(I,I,int,word,Acq)
	dnl CAS_INSN(L,L,long,xword,Acq)
	dnl CAS_INSN(N,N,narrow oop,word,Acq)
	dnl CAS_INSN(P,P,ptr,xword,Acq)
	dnl
	define(`CAS_INSN2',
	`
	instruct weakCompareAndSwap$1$6(iRegINoSp res, indirect mem, iReg$2 oldval, iReg$2 newval, rFlagsReg cr) %{
	match(Set res (WeakCompareAndSwap$1 mem (Binary oldval newval)));
	ifelse($6,Acq,' predicate(needs_acquiring_load_exclusive(n));
	ins_cost(VOLATILE_REF_COST);`,' ins_cost(2 * VOLATILE_REF_COST);`)
	effect(KILL cr);
	format %{
	"cmpxchg $res = $mem, $oldval, $newval\t# ($3, weak) if $mem == $oldval then $mem <-- $newval"
	"csetw $res, EQ\t# $res <-- (EQ ? 1 : 0)"
	%}
	ins_encode %{
	__ uxt$5(rscratch2, $oldval$$Register);
	__ cmpxchg($mem$$Register, rscratch2, $newval$$Register,
	Assembler::$4, /acquire/ ifelse($6,Acq,true,false), /release/ true,
	/weak/ true, noreg);
	__ csetw($res$$Register, Assembler::EQ);
	%}
	ins_pipe(pipe_slow);
	%}')dnl
	define(`CAS_INSN3',
	`
	instruct weakCompareAndSwap$1$5(iRegINoSp res, indirect mem, iReg$2 oldval, iReg$2 newval, rFlagsReg cr) %{
	match(Set res (WeakCompareAndSwap$1 mem (Binary oldval newval)));
	ifelse($5,Acq,' predicate(needs_acquiring_load_exclusive(n));
	ins_cost(VOLATILE_REF_COST);`,' ins_cost(2 * VOLATILE_REF_COST);`)
	effect(KILL cr);
	format %{
	"cmpxchg $res = $mem, $oldval, $newval\t# ($3, weak) if $mem == $oldval then $mem <-- $newval"
	"csetw $res, EQ\t# $res <-- (EQ ? 1 : 0)"
	%}
	ins_encode %{
	__ cmpxchg($mem$$Register, $oldval$$Register, $newval$$Register,
	Assembler::$4, /acquire/ ifelse($5,Acq,true,false), /release/ true,
	/weak/ true, noreg);
	__ csetw($res$$Register, Assembler::EQ);
	%}
	ins_pipe(pipe_slow);
	%}')dnl
	CAS_INSN2(B,I,byte,byte,bw)
	CAS_INSN2(S,I,short,halfword,hw)
	CAS_INSN3(I,I,int,word)
	CAS_INSN3(L,L,long,xword)
	CAS_INSN3(N,N,narrow oop,word)
	CAS_INSN3(P,P,ptr,xword)
	dnl CAS_INSN2(B,I,byte,byte,bw,Acq)
	dnl CAS_INSN2(S,I,short,halfword,hw,Acq)
	dnl CAS_INSN3(I,I,int,word,Acq)
	dnl CAS_INSN3(L,L,long,xword,Acq)
	dnl CAS_INSN3(N,N,narrow oop,word,Acq)
	dnl CAS_INSN3(P,P,ptr,xword,Acq)
	dnl

	// END This section of the file is automatically generated. Do not edit --------------