Mercurial > hg > truffle
view src/os_cpu/windows_x86/vm/orderAccess_windows_x86.inline.hpp @ 1336:0c3f888b7636
6626217: Fixed loader constraint array handling
Summary: Loader constraints track array elements, not arrays themselves.
Reviewed-by: dcubed, kevinw
author | acorn |
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date | Tue, 19 Jan 2010 16:03:09 -0500 |
parents | bd02caa94611 |
children | c18cbe5936b8 |
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/* * Copyright 2003-2009 Sun Microsystems, Inc. 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. * * This code 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 * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, * CA 95054 USA or visit www.sun.com if you need additional information or * have any questions. * */ #pragma warning(disable: 4035) // Disables warnings reporting missing return statement // Implementation of class OrderAccess. inline void OrderAccess::loadload() { acquire(); } inline void OrderAccess::storestore() { release(); } inline void OrderAccess::loadstore() { acquire(); } inline void OrderAccess::storeload() { fence(); } inline void OrderAccess::acquire() { #ifndef AMD64 __asm { mov eax, dword ptr [esp]; } #endif // !AMD64 } inline void OrderAccess::release() { // A volatile store has release semantics. dummy = 0; } inline void OrderAccess::fence() { #ifdef AMD64 StubRoutines_fence(); #else if (os::is_MP()) { __asm { lock add dword ptr [esp], 0; } } #endif // AMD64 } inline jbyte OrderAccess::load_acquire(volatile jbyte* p) { return *p; } inline jshort OrderAccess::load_acquire(volatile jshort* p) { return *p; } inline jint OrderAccess::load_acquire(volatile jint* p) { return *p; } inline jlong OrderAccess::load_acquire(volatile jlong* p) { return *p; } inline jubyte OrderAccess::load_acquire(volatile jubyte* p) { return *p; } inline jushort OrderAccess::load_acquire(volatile jushort* p) { return *p; } inline juint OrderAccess::load_acquire(volatile juint* p) { return *p; } inline julong OrderAccess::load_acquire(volatile julong* p) { return *p; } inline jfloat OrderAccess::load_acquire(volatile jfloat* p) { return *p; } inline jdouble OrderAccess::load_acquire(volatile jdouble* p) { return *p; } inline intptr_t OrderAccess::load_ptr_acquire(volatile intptr_t* p) { return *p; } inline void* OrderAccess::load_ptr_acquire(volatile void* p) { return *(void* volatile *)p; } inline void* OrderAccess::load_ptr_acquire(const volatile void* p) { return *(void* const volatile *)p; } inline void OrderAccess::release_store(volatile jbyte* p, jbyte v) { *p = v; } inline void OrderAccess::release_store(volatile jshort* p, jshort v) { *p = v; } inline void OrderAccess::release_store(volatile jint* p, jint v) { *p = v; } inline void OrderAccess::release_store(volatile jlong* p, jlong v) { *p = v; } inline void OrderAccess::release_store(volatile jubyte* p, jubyte v) { *p = v; } inline void OrderAccess::release_store(volatile jushort* p, jushort v) { *p = v; } inline void OrderAccess::release_store(volatile juint* p, juint v) { *p = v; } inline void OrderAccess::release_store(volatile julong* p, julong v) { *p = v; } inline void OrderAccess::release_store(volatile jfloat* p, jfloat v) { *p = v; } inline void OrderAccess::release_store(volatile jdouble* p, jdouble v) { *p = v; } inline void OrderAccess::release_store_ptr(volatile intptr_t* p, intptr_t v) { *p = v; } inline void OrderAccess::release_store_ptr(volatile void* p, void* v) { *(void* volatile *)p = v; } inline void OrderAccess::store_fence(jbyte* p, jbyte v) { #ifdef AMD64 *p = v; fence(); #else __asm { mov edx, p; mov al, v; xchg al, byte ptr [edx]; } #endif // AMD64 } inline void OrderAccess::store_fence(jshort* p, jshort v) { #ifdef AMD64 *p = v; fence(); #else __asm { mov edx, p; mov ax, v; xchg ax, word ptr [edx]; } #endif // AMD64 } inline void OrderAccess::store_fence(jint* p, jint v) { #ifdef AMD64 *p = v; fence(); #else __asm { mov edx, p; mov eax, v; xchg eax, dword ptr [edx]; } #endif // AMD64 } inline void OrderAccess::store_fence(jlong* p, jlong v) { *p = v; fence(); } inline void OrderAccess::store_fence(jubyte* p, jubyte v) { store_fence((jbyte*)p, (jbyte)v); } inline void OrderAccess::store_fence(jushort* p, jushort v) { store_fence((jshort*)p, (jshort)v); } inline void OrderAccess::store_fence(juint* p, juint v) { store_fence((jint*)p, (jint)v); } inline void OrderAccess::store_fence(julong* p, julong v) { store_fence((jlong*)p, (jlong)v); } inline void OrderAccess::store_fence(jfloat* p, jfloat v) { *p = v; fence(); } inline void OrderAccess::store_fence(jdouble* p, jdouble v) { *p = v; fence(); } inline void OrderAccess::store_ptr_fence(intptr_t* p, intptr_t v) { #ifdef AMD64 *p = v; fence(); #else store_fence((jint*)p, (jint)v); #endif // AMD64 } inline void OrderAccess::store_ptr_fence(void** p, void* v) { #ifdef AMD64 *p = v; fence(); #else store_fence((jint*)p, (jint)v); #endif // AMD64 } // Must duplicate definitions instead of calling store_fence because we don't want to cast away volatile. inline void OrderAccess::release_store_fence(volatile jbyte* p, jbyte v) { #ifdef AMD64 *p = v; fence(); #else __asm { mov edx, p; mov al, v; xchg al, byte ptr [edx]; } #endif // AMD64 } inline void OrderAccess::release_store_fence(volatile jshort* p, jshort v) { #ifdef AMD64 *p = v; fence(); #else __asm { mov edx, p; mov ax, v; xchg ax, word ptr [edx]; } #endif // AMD64 } inline void OrderAccess::release_store_fence(volatile jint* p, jint v) { #ifdef AMD64 *p = v; fence(); #else __asm { mov edx, p; mov eax, v; xchg eax, dword ptr [edx]; } #endif // AMD64 } inline void OrderAccess::release_store_fence(volatile jlong* p, jlong v) { *p = v; fence(); } inline void OrderAccess::release_store_fence(volatile jubyte* p, jubyte v) { release_store_fence((volatile jbyte*)p, (jbyte)v); } inline void OrderAccess::release_store_fence(volatile jushort* p, jushort v) { release_store_fence((volatile jshort*)p, (jshort)v); } inline void OrderAccess::release_store_fence(volatile juint* p, juint v) { release_store_fence((volatile jint*)p, (jint)v); } inline void OrderAccess::release_store_fence(volatile julong* p, julong v) { release_store_fence((volatile jlong*)p, (jlong)v); } inline void OrderAccess::release_store_fence(volatile jfloat* p, jfloat v) { *p = v; fence(); } inline void OrderAccess::release_store_fence(volatile jdouble* p, jdouble v) { *p = v; fence(); } inline void OrderAccess::release_store_ptr_fence(volatile intptr_t* p, intptr_t v) { #ifdef AMD64 *p = v; fence(); #else release_store_fence((volatile jint*)p, (jint)v); #endif // AMD64 } inline void OrderAccess::release_store_ptr_fence(volatile void* p, void* v) { #ifdef AMD64 *(void* volatile *)p = v; fence(); #else release_store_fence((volatile jint*)p, (jint)v); #endif // AMD64 } #pragma warning(default: 4035) // Enables warnings reporting missing return statement