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src/cpu/ppc/vm/assembler_ppc.inline.hpp
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@@ -1,8 +1,8 @@
/*
- * Copyright (c) 2002, 2013, Oracle and/or its affiliates. All rights reserved.
- * Copyright 2012, 2014 SAP AG. All rights reserved.
+ * Copyright (c) 2002, 2018, Oracle and/or its affiliates. All rights reserved.
+ * Copyright 2012, 2018 SAP AG. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
@@ -502,15 +502,18 @@
// atomics
// Use ra0mem to disallow R0 as base.
inline void Assembler::lwarx_unchecked(Register d, Register a, Register b, int eh1) { emit_int32( LWARX_OPCODE | rt(d) | ra0mem(a) | rb(b) | eh(eh1)); }
inline void Assembler::ldarx_unchecked(Register d, Register a, Register b, int eh1) { emit_int32( LDARX_OPCODE | rt(d) | ra0mem(a) | rb(b) | eh(eh1)); }
+inline void Assembler::lqarx_unchecked(Register d, Register a, Register b, int eh1) { emit_int32( LQARX_OPCODE | rt(d) | ra0mem(a) | rb(b) | eh(eh1)); }
inline bool Assembler::lxarx_hint_exclusive_access() { return VM_Version::has_lxarxeh(); }
inline void Assembler::lwarx( Register d, Register a, Register b, bool hint_exclusive_access) { lwarx_unchecked(d, a, b, (hint_exclusive_access && lxarx_hint_exclusive_access() && UseExtendedLoadAndReserveInstructionsPPC64) ? 1 : 0); }
inline void Assembler::ldarx( Register d, Register a, Register b, bool hint_exclusive_access) { ldarx_unchecked(d, a, b, (hint_exclusive_access && lxarx_hint_exclusive_access() && UseExtendedLoadAndReserveInstructionsPPC64) ? 1 : 0); }
+inline void Assembler::lqarx( Register d, Register a, Register b, bool hint_exclusive_access) { lqarx_unchecked(d, a, b, (hint_exclusive_access && lxarx_hint_exclusive_access() && UseExtendedLoadAndReserveInstructionsPPC64) ? 1 : 0); }
inline void Assembler::stwcx_(Register s, Register a, Register b) { emit_int32( STWCX_OPCODE | rs(s) | ra0mem(a) | rb(b) | rc(1)); }
inline void Assembler::stdcx_(Register s, Register a, Register b) { emit_int32( STDCX_OPCODE | rs(s) | ra0mem(a) | rb(b) | rc(1)); }
+inline void Assembler::stqcx_(Register s, Register a, Register b) { emit_int32( STQCX_OPCODE | rs(s) | ra0mem(a) | rb(b) | rc(1)); }
// Instructions for adjusting thread priority
// for simultaneous multithreading (SMT) on POWER5.
inline void Assembler::smt_prio_very_low() { Assembler::or_unchecked(R31, R31, R31); }
inline void Assembler::smt_prio_low() { Assembler::or_unchecked(R1, R1, R1); }
@@ -622,10 +625,12 @@
inline void Assembler::stvxl( VectorRegister d, Register s1, Register s2) { emit_int32( STVXL_OPCODE | vrt(d) | ra0mem(s1) | rb(s2)); }
inline void Assembler::lvsl( VectorRegister d, Register s1, Register s2) { emit_int32( LVSL_OPCODE | vrt(d) | ra0mem(s1) | rb(s2)); }
inline void Assembler::lvsr( VectorRegister d, Register s1, Register s2) { emit_int32( LVSR_OPCODE | vrt(d) | ra0mem(s1) | rb(s2)); }
// Vector-Scalar (VSX) instructions.
+inline void Assembler::lxvd2x (VectorSRegister d, Register s1, Register s2) { emit_int32( LXVD2X_OPCODE | vsrt(d) | ra(s1) | rb(s2)); }
+inline void Assembler::stxvd2x(VectorSRegister d, Register s1, Register s2) { emit_int32( STXVD2X_OPCODE | vsrt(d) | ra(s1) | rb(s2)); }
inline void Assembler::mtvrd( VectorRegister d, Register a) { emit_int32( MTVSRD_OPCODE | vrt(d) | ra(a) | 1u); } // 1u: d is treated as Vector (VMX/Altivec).
inline void Assembler::mfvrd( Register a, VectorRegister d) { emit_int32( MFVSRD_OPCODE | vrt(d) | ra(a) | 1u); } // 1u: d is treated as Vector (VMX/Altivec).
inline void Assembler::vpkpx( VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VPKPX_OPCODE | vrt(d) | vra(a) | vrb(b)); }
inline void Assembler::vpkshss( VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VPKSHSS_OPCODE | vrt(d) | vra(a) | vrb(b)); }
@@ -831,14 +836,17 @@
inline void Assembler::dcbtstct(Register s2, int ct) { emit_int32( DCBTST_OPCODE | rb(s2) | thct(ct)); }
// ra0 version
inline void Assembler::lwarx_unchecked(Register d, Register b, int eh1) { emit_int32( LWARX_OPCODE | rt(d) | rb(b) | eh(eh1)); }
inline void Assembler::ldarx_unchecked(Register d, Register b, int eh1) { emit_int32( LDARX_OPCODE | rt(d) | rb(b) | eh(eh1)); }
+inline void Assembler::lqarx_unchecked(Register d, Register b, int eh1) { emit_int32( LQARX_OPCODE | rt(d) | rb(b) | eh(eh1)); }
inline void Assembler::lwarx( Register d, Register b, bool hint_exclusive_access){ lwarx_unchecked(d, b, (hint_exclusive_access && lxarx_hint_exclusive_access() && UseExtendedLoadAndReserveInstructionsPPC64) ? 1 : 0); }
inline void Assembler::ldarx( Register d, Register b, bool hint_exclusive_access){ ldarx_unchecked(d, b, (hint_exclusive_access && lxarx_hint_exclusive_access() && UseExtendedLoadAndReserveInstructionsPPC64) ? 1 : 0); }
+inline void Assembler::lqarx( Register d, Register b, bool hint_exclusive_access){ lqarx_unchecked(d, b, (hint_exclusive_access && lxarx_hint_exclusive_access() && UseExtendedLoadAndReserveInstructionsPPC64) ? 1 : 0); }
inline void Assembler::stwcx_(Register s, Register b) { emit_int32( STWCX_OPCODE | rs(s) | rb(b) | rc(1)); }
inline void Assembler::stdcx_(Register s, Register b) { emit_int32( STDCX_OPCODE | rs(s) | rb(b) | rc(1)); }
+inline void Assembler::stqcx_(Register s, Register b) { emit_int32( STQCX_OPCODE | rs(s) | rb(b) | rc(1)); }
// ra0 version
inline void Assembler::lfs( FloatRegister d, int si16) { emit_int32( LFS_OPCODE | frt(d) | simm(si16,16)); }
inline void Assembler::lfsx(FloatRegister d, Register b) { emit_int32( LFSX_OPCODE | frt(d) | rb(b)); }
inline void Assembler::lfd( FloatRegister d, int si16) { emit_int32( LFD_OPCODE | frt(d) | simm(si16,16)); }
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