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The Qbicc builder for the java.base JDK module
/*
* Copyright (c) 2019, Oracle and/or its affiliates. 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. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* 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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package java.lang.invoke;
import jdk.internal.access.foreign.MemorySegmentProxy;
import jdk.internal.misc.ScopedMemoryAccess;
import jdk.internal.vm.annotation.ForceInline;
import java.lang.ref.Reference;
import java.util.Objects;
import org.qbicc.rt.annotation.Tracking;
import static java.lang.invoke.MethodHandleStatics.UNSAFE;
// -- This file was mechanically generated: Do not edit! -- //
@Tracking("src/java.base/share/classes/java/lang/invoke/X-VarHandleMemoryAccess.java.template")
final class MemoryAccessVarHandleIntHelper extends MemoryAccessVarHandleBase {
static final boolean BE = UNSAFE.isBigEndian();
static final ScopedMemoryAccess SCOPED_MEMORY_ACCESS = ScopedMemoryAccess.getScopedMemoryAccess();
static final int VM_ALIGN = Integer.BYTES - 1;
static final VarForm FORM = new VarForm(MemoryAccessVarHandleIntHelper.class, MemorySegmentProxy.class, int.class, long.class);
MemoryAccessVarHandleIntHelper(boolean skipAlignmentMaskCheck, boolean be, long length, long alignmentMask, boolean exact) {
super(FORM, skipAlignmentMaskCheck, be, length, alignmentMask, exact);
}
@Override
final MethodType accessModeTypeUncached(VarHandle.AccessType accessType) {
return accessType.accessModeType(MemorySegmentProxy.class, int.class, long.class);
}
@Override
public MemoryAccessVarHandleIntHelper withInvokeExactBehavior() {
return hasInvokeExactBehavior() ?
this :
new MemoryAccessVarHandleIntHelper(skipAlignmentMaskCheck, be, length, alignmentMask, true);
}
@Override
public MemoryAccessVarHandleIntHelper withInvokeBehavior() {
return !hasInvokeExactBehavior() ?
this :
new MemoryAccessVarHandleIntHelper(skipAlignmentMaskCheck, be, length, alignmentMask, false);
}
@ForceInline
static int convEndian(boolean big, int n) {
return big == BE ? n : Integer.reverseBytes(n);
}
@ForceInline
static MemorySegmentProxy checkAddress(Object obb, long offset, long length, boolean ro) {
MemorySegmentProxy oo = (MemorySegmentProxy)Objects.requireNonNull(obb);
oo.checkAccess(offset, length, ro);
return oo;
}
@ForceInline
static long offset(boolean skipAlignmentMaskCheck, MemorySegmentProxy bb, long offset, long alignmentMask) {
long address = offsetNoVMAlignCheck(skipAlignmentMaskCheck, bb, offset, alignmentMask);
if ((address & VM_ALIGN) != 0) {
throw MemoryAccessVarHandleBase.newIllegalStateExceptionForMisalignedAccess(address);
}
return address;
}
@ForceInline
static long offsetNoVMAlignCheck(boolean skipAlignmentMaskCheck, MemorySegmentProxy bb, long offset, long alignmentMask) {
long base = bb.unsafeGetOffset();
long address = base + offset;
if (skipAlignmentMaskCheck) {
//note: the offset portion has already been aligned-checked, by construction
if ((base & alignmentMask) != 0) {
throw MemoryAccessVarHandleBase.newIllegalStateExceptionForMisalignedAccess(address);
}
} else {
if ((address & alignmentMask) != 0) {
throw MemoryAccessVarHandleBase.newIllegalStateExceptionForMisalignedAccess(address);
}
}
return address;
}
@ForceInline
static int get(VarHandle ob, Object obb, long base) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, true);
return SCOPED_MEMORY_ACCESS.getIntUnaligned(bb.scope(),
bb.unsafeGetBase(),
offsetNoVMAlignCheck(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
handle.be);
}
// @Override
public int get(Object obb, long base) {
MemorySegmentProxy bb = checkAddress(obb, base, length, true);
return SCOPED_MEMORY_ACCESS.getIntUnaligned(bb.scope(),
bb.unsafeGetBase(),
offsetNoVMAlignCheck(skipAlignmentMaskCheck, bb, base, alignmentMask),
be);
}
@ForceInline
static void set(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
SCOPED_MEMORY_ACCESS.putIntUnaligned(bb.scope(),
bb.unsafeGetBase(),
offsetNoVMAlignCheck(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value,
handle.be);
}
// @Override
public void set(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
SCOPED_MEMORY_ACCESS.putIntUnaligned(bb.scope(),
bb.unsafeGetBase(),
offsetNoVMAlignCheck(skipAlignmentMaskCheck, bb, base, alignmentMask),
value, be);
}
@ForceInline
static int getVolatile(VarHandle ob, Object obb, long base) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, true);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.getIntVolatile(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask)));
}
// @Override
public int getVolatile(Object obb, long base) {
MemorySegmentProxy bb = checkAddress(obb, base, length, true);
return convEndian(be, SCOPED_MEMORY_ACCESS.getIntVolatile(bb.scope(),
bb.unsafeGetBase(), offset(skipAlignmentMaskCheck, bb, base, alignmentMask)));
}
@ForceInline
static void setVolatile(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
SCOPED_MEMORY_ACCESS.putIntVolatile(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, value));
}
// @Override
public void setVolatile(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
SCOPED_MEMORY_ACCESS.putIntVolatile(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, value));
}
@ForceInline
static int getAcquire(VarHandle ob, Object obb, long base) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, true);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.getIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask)));
}
// @Override
public int getAcquire(Object obb, long base) {
MemorySegmentProxy bb = checkAddress(obb, base, length, true);
return convEndian(be, SCOPED_MEMORY_ACCESS.getIntAcquire(bb.scope(),
bb.unsafeGetBase(), offset(skipAlignmentMaskCheck, bb, base, alignmentMask)));
}
@ForceInline
static void setRelease(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
SCOPED_MEMORY_ACCESS.putIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, value));
}
// @Override
public void setRelease(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
SCOPED_MEMORY_ACCESS.putIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, value));
}
@ForceInline
static int getOpaque(VarHandle ob, Object obb, long base) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, true);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.getIntOpaque(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask)));
}
// @Override
public int getOpaque(Object obb, long base) {
MemorySegmentProxy bb = checkAddress(obb, base, length, true);
return convEndian(be, SCOPED_MEMORY_ACCESS.getIntOpaque(bb.scope(),
bb.unsafeGetBase(), offset(skipAlignmentMaskCheck, bb, base, alignmentMask)));
}
@ForceInline
static void setOpaque(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
SCOPED_MEMORY_ACCESS.putIntOpaque(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, value));
}
// @Override
public void setOpaque(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
SCOPED_MEMORY_ACCESS.putIntVolatile(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, value));
}
@ForceInline
static boolean compareAndSet(VarHandle ob, Object obb, long base, int expected, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return SCOPED_MEMORY_ACCESS.compareAndSetInt(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, expected), convEndian(handle.be, value));
}
// @Override
public boolean compareAndSet(Object obb, long base, int expected, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return SCOPED_MEMORY_ACCESS.compareAndSetInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, expected), convEndian(be, value));
}
@ForceInline
static int compareAndExchange(VarHandle ob, Object obb, long base, int expected, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.compareAndExchangeInt(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, expected), convEndian(handle.be, value)));
}
// @Override
public int compareAndExchange(Object obb, long base, int expected, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return convEndian(be, SCOPED_MEMORY_ACCESS.compareAndExchangeInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, expected), convEndian(be, value)));
}
@ForceInline
static int compareAndExchangeAcquire(VarHandle ob, Object obb, long base, int expected, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.compareAndExchangeIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, expected), convEndian(handle.be, value)));
}
// @Override
public int compareAndExchangeAcquire(Object obb, long base, int expected, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return convEndian(be, SCOPED_MEMORY_ACCESS.compareAndExchangeIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, expected), convEndian(be, value)));
}
@ForceInline
static int compareAndExchangeRelease(VarHandle ob, Object obb, long base, int expected, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.compareAndExchangeIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, expected), convEndian(handle.be, value)));
}
// @Override
public int compareAndExchangeRelease(Object obb, long base, int expected, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return convEndian(be, SCOPED_MEMORY_ACCESS.compareAndExchangeIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, expected), convEndian(be, value)));
}
@ForceInline
static boolean weakCompareAndSetPlain(VarHandle ob, Object obb, long base, int expected, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return SCOPED_MEMORY_ACCESS.weakCompareAndSetIntPlain(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, expected), convEndian(handle.be, value));
}
// @Override
public boolean weakCompareAndSetPlain(Object obb, long base, int expected, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return SCOPED_MEMORY_ACCESS.weakCompareAndSetIntPlain(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, expected), convEndian(be, value));
}
@ForceInline
static boolean weakCompareAndSet(VarHandle ob, Object obb, long base, int expected, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return SCOPED_MEMORY_ACCESS.weakCompareAndSetInt(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, expected), convEndian(handle.be, value));
}
// @Override
public boolean weakCompareAndSet(Object obb, long base, int expected, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return SCOPED_MEMORY_ACCESS.weakCompareAndSetInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, expected), convEndian(be, value));
}
@ForceInline
static boolean weakCompareAndSetAcquire(VarHandle ob, Object obb, long base, int expected, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return SCOPED_MEMORY_ACCESS.weakCompareAndSetIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, expected), convEndian(handle.be, value));
}
// @Override
public boolean weakCompareAndSetAcquire(Object obb, long base, int expected, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return SCOPED_MEMORY_ACCESS.weakCompareAndSetIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, expected), convEndian(be, value));
}
@ForceInline
static boolean weakCompareAndSetRelease(VarHandle ob, Object obb, long base, int expected, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return SCOPED_MEMORY_ACCESS.weakCompareAndSetIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, expected), convEndian(handle.be, value));
}
// @Override
public boolean weakCompareAndSetRelease(Object obb, long base, int expected, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return SCOPED_MEMORY_ACCESS.weakCompareAndSetIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, expected), convEndian(be, value));
}
@ForceInline
static int getAndSet(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.getAndSetInt(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, value)));
}
// @Override
public int getAndSet(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return convEndian(be, SCOPED_MEMORY_ACCESS.getAndSetInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, value)));
}
@ForceInline
static int getAndSetAcquire(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.getAndSetIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, value)));
}
// @Override
public int getAndSetAcquire(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return convEndian(be, SCOPED_MEMORY_ACCESS.getAndSetIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, value)));
}
@ForceInline
static int getAndSetRelease(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
return convEndian(handle.be,
SCOPED_MEMORY_ACCESS.getAndSetIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
convEndian(handle.be, value)));
}
// @Override
public int getAndSetRelease(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
return convEndian(be, SCOPED_MEMORY_ACCESS.getAndSetIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
convEndian(be, value)));
}
@ForceInline
static int getAndAdd(VarHandle ob, Object obb, long base, int delta) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndAddInt(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
delta);
} else {
return getAndAddConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), delta);
}
}
// @Override
public int getAndAdd(Object obb, long base, int delta) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndAddInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
delta);
} else {
return getAndAddConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), delta);
}
}
@ForceInline
static int getAndAddAcquire(VarHandle ob, Object obb, long base, int delta) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndAddIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
delta);
} else {
return getAndAddConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), delta);
}
}
// @Override
public int getAndAddAcquire(Object obb, long base, int delta) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndAddIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
delta);
} else {
return getAndAddConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), delta);
}
}
@ForceInline
static int getAndAddRelease(VarHandle ob, Object obb, long base, int delta) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndAddIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
delta);
} else {
return getAndAddConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), delta);
}
}
// @Override
public int getAndAddRelease(Object obb, long base, int delta) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndAddIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
delta);
} else {
return getAndAddConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), delta);
}
}
@ForceInline
static int getAndAddConvEndianWithCAS(MemorySegmentProxy bb, long offset, int delta) {
int nativeExpectedValue, expectedValue;
Object base = bb.unsafeGetBase();
do {
nativeExpectedValue = SCOPED_MEMORY_ACCESS.getIntVolatile(bb.scope(),base, offset);
expectedValue = Integer.reverseBytes(nativeExpectedValue);
} while (!SCOPED_MEMORY_ACCESS.weakCompareAndSetInt(bb.scope(),base, offset,
nativeExpectedValue, Integer.reverseBytes(expectedValue + delta)));
return expectedValue;
}
@ForceInline
static int getAndBitwiseOr(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseOrInt(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseOrConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseOr(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseOrInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseOrConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseOrRelease(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseOrIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseOrConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseOrRelease(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseOrInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseOrConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseOrAcquire(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseOrIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseOrConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseOrAcquire(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseOrInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseOrConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseOrConvEndianWithCAS(MemorySegmentProxy bb, long offset, int value) {
int nativeExpectedValue, expectedValue;
Object base = bb.unsafeGetBase();
do {
nativeExpectedValue = SCOPED_MEMORY_ACCESS.getIntVolatile(bb.scope(),base, offset);
expectedValue = Integer.reverseBytes(nativeExpectedValue);
} while (!SCOPED_MEMORY_ACCESS.weakCompareAndSetInt(bb.scope(),base, offset,
nativeExpectedValue, Integer.reverseBytes(expectedValue | value)));
return expectedValue;
}
@ForceInline
static int getAndBitwiseAnd(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseAndInt(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseAndConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseAnd(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseAndInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseAndConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseAndRelease(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseAndIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseAndConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseAndRelease(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseAndIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseAndConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseAndAcquire(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseAndIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseAndConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseAndAcquire(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseAndIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseAndConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseAndConvEndianWithCAS(MemorySegmentProxy bb, long offset, int value) {
int nativeExpectedValue, expectedValue;
Object base = bb.unsafeGetBase();
do {
nativeExpectedValue = SCOPED_MEMORY_ACCESS.getIntVolatile(bb.scope(),base, offset);
expectedValue = Integer.reverseBytes(nativeExpectedValue);
} while (!SCOPED_MEMORY_ACCESS.weakCompareAndSetInt(bb.scope(),base, offset,
nativeExpectedValue, Integer.reverseBytes(expectedValue & value)));
return expectedValue;
}
@ForceInline
static int getAndBitwiseXor(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseXorInt(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseXorConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseXor(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseXorInt(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseXorConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseXorRelease(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseXorIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseXorConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseXorRelease(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseXorIntRelease(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseXorConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseXorAcquire(VarHandle ob, Object obb, long base, int value) {
MemoryAccessVarHandleBase handle = (MemoryAccessVarHandleBase)ob;
MemorySegmentProxy bb = checkAddress(obb, base, handle.length, false);
if (handle.be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseXorIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask),
value);
} else {
return getAndBitwiseXorConvEndianWithCAS(bb, offset(handle.skipAlignmentMaskCheck, bb, base, handle.alignmentMask), value);
}
}
// @Override
public int getAndBitwiseXorAcquire(Object obb, long base, int value) {
MemorySegmentProxy bb = checkAddress(obb, base, length, false);
if (be == BE) {
return SCOPED_MEMORY_ACCESS.getAndBitwiseXorIntAcquire(bb.scope(),
bb.unsafeGetBase(),
offset(skipAlignmentMaskCheck, bb, base, alignmentMask),
value);
} else {
return getAndBitwiseXorConvEndianWithCAS(bb, offset(skipAlignmentMaskCheck, bb, base, alignmentMask), value);
}
}
@ForceInline
static int getAndBitwiseXorConvEndianWithCAS(MemorySegmentProxy bb, long offset, int value) {
int nativeExpectedValue, expectedValue;
Object base = bb.unsafeGetBase();
do {
nativeExpectedValue = SCOPED_MEMORY_ACCESS.getIntVolatile(bb.scope(),base, offset);
expectedValue = Integer.reverseBytes(nativeExpectedValue);
} while (!SCOPED_MEMORY_ACCESS.weakCompareAndSetInt(bb.scope(),base, offset,
nativeExpectedValue, Integer.reverseBytes(expectedValue ^ value)));
return expectedValue;
}
}
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