stan/jdk-24
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
cbccc4c817
jdk-24/test/jdk/java/foreign/TestMemoryAccessInstance.java
Per Minborg cbccc4c817 8304265: Implementation of Foreign Function and Memory API (Third Preview) 
Co-authored-by: Maurizio Cimadamore <mcimadamore@openjdk.org>
Co-authored-by: Jorn Vernee <jvernee@openjdk.org>
Co-authored-by: Paul Sandoz <psandoz@openjdk.org>
Co-authored-by: Feilong Jiang <fjiang@openjdk.org>
Co-authored-by: Per Minborg <pminborg@openjdk.org>
Reviewed-by: erikj, jvernee, vlivanov, psandoz
2023-04-27 09:00:58 +00:00

263 lines
12 KiB
Java
Raw Blame History

/*
* Copyright (c) 2021, 2023, 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.
*
* 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.
*/
/*
* @test
* @enablePreview
* @run testng/othervm --enable-native-access=ALL-UNNAMED TestMemoryAccessInstance
*/
import java.lang.foreign.MemorySegment;
import java.lang.foreign.Arena;
import java.lang.foreign.ValueLayout;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.util.function.Function;
import org.testng.annotations.*;
import org.testng.SkipException;
import static org.testng.Assert.*;
public class TestMemoryAccessInstance {
static class Accessor<T, X, L extends ValueLayout> {
interface SegmentGetter<T, X, L> {
X get(T buffer, L layout, long offset);
}
interface SegmentSetter<T, X, L> {
void set(T buffer, L layout, long offset, X o);
}
interface BufferGetter<X> {
X get(ByteBuffer segment, int offset);
}
interface BufferSetter<X> {
void set(ByteBuffer buffer, int offset, X o);
}
final X value;
final L layout;
final Function<MemorySegment, T> transform;
final SegmentGetter<T, X, L> segmentGetter;
final SegmentSetter<T, X, L> segmentSetter;
final BufferGetter<X> bufferGetter;
final BufferSetter<X> bufferSetter;
Accessor(Function<MemorySegment, T> transform, L layout, X value,
SegmentGetter<T, X, L> segmentGetter, SegmentSetter<T, X, L> segmentSetter,
BufferGetter<X> bufferGetter, BufferSetter<X> bufferSetter) {
this.transform = transform;
this.layout = layout;
this.value = value;
this.segmentGetter = segmentGetter;
this.segmentSetter = segmentSetter;
this.bufferGetter = bufferGetter;
this.bufferSetter = bufferSetter;
}
void test() {
try (Arena arena = Arena.ofConfined()) {
MemorySegment segment = arena.allocate(128, 1);
ByteBuffer buffer = segment.asByteBuffer();
T t = transform.apply(segment);
segmentSetter.set(t, layout, 8, value);
assertEquals(bufferGetter.get(buffer, 8), value);
bufferSetter.set(buffer, 8, value);
assertEquals(value, segmentGetter.get(t, layout, 8));
}
}
@SuppressWarnings("unchecked")
void testHyperAligned() {
try (Arena arena = Arena.ofConfined()) {
MemorySegment segment = arena.allocate(64, 1);
T t = transform.apply(segment);
L alignedLayout = (L)layout.withBitAlignment(layout.byteSize() * 8 * 2);
try {
segmentSetter.set(t, alignedLayout, 0, value);
fail();
} catch (IllegalArgumentException exception) {
assertTrue(exception.getMessage().contains("greater"));
}
try {
segmentGetter.get(t, alignedLayout, 0);
fail();
} catch (IllegalArgumentException exception) {
assertTrue(exception.getMessage().contains("greater"));
}
}
}
static <L extends ValueLayout, X> Accessor<MemorySegment, X, L> ofSegment(L layout, X value,
SegmentGetter<MemorySegment, X, L> segmentGetter, SegmentSetter<MemorySegment, X, L> segmentSetter,
BufferGetter<X> bufferGetter, BufferSetter<X> bufferSetter) {
return new Accessor<>(Function.identity(), layout, value, segmentGetter, segmentSetter, bufferGetter, bufferSetter);
}
}
@Test(dataProvider = "segmentAccessors")
public void testSegmentAccess(String testName, Accessor<?, ?, ?> accessor) {
accessor.test();
}
@Test(dataProvider = "segmentAccessors")
public void testSegmentAccessHyper(String testName, Accessor<?, ?, ?> accessor) {
if (testName.contains("index")) {
accessor.testHyperAligned();
} else {
throw new SkipException("Skipping");
}
}
@Test(expectedExceptions = IllegalArgumentException.class,
expectedExceptionsMessageRegExp = ".*Heap segment not allowed.*")
public void badHeapSegmentSet() {
long byteSize = ValueLayout.ADDRESS.byteSize();
Arena scope = Arena.ofAuto();
MemorySegment targetSegment = scope.allocate(byteSize, 1);
MemorySegment segment = MemorySegment.ofArray(new byte[]{ 0, 1, 2 });
targetSegment.set(ValueLayout.ADDRESS, 0, segment); // should throw
}
@Test(expectedExceptions = IllegalArgumentException.class,
expectedExceptionsMessageRegExp = ".*Heap segment not allowed.*")
public void badHeapSegmentSetAtIndex() {
long byteSize = ValueLayout.ADDRESS.byteSize();
Arena scope = Arena.ofAuto();
MemorySegment targetSegment = scope.allocate(byteSize, 1);
MemorySegment segment = MemorySegment.ofArray(new byte[]{ 0, 1, 2 });
targetSegment.setAtIndex(ValueLayout.ADDRESS, 0, segment); // should throw
}
static final ByteOrder NE = ByteOrder.nativeOrder();
@DataProvider(name = "segmentAccessors")
static Object[][] segmentAccessors() {
return new Object[][]{
{"byte", Accessor.ofSegment(ValueLayout.JAVA_BYTE, (byte) 42,
MemorySegment::get, MemorySegment::set,
ByteBuffer::get, ByteBuffer::put)
},
{"boolean", Accessor.ofSegment(ValueLayout.JAVA_BOOLEAN, false,
MemorySegment::get, MemorySegment::set,
(bb, pos) -> bb.get(pos) != 0, (bb, pos, v) -> bb.put(pos, v ? (byte)1 : (byte)0))
},
{"char", Accessor.ofSegment(ValueLayout.JAVA_CHAR, (char) 42,
MemorySegment::get, MemorySegment::set,
(bb, pos) -> bb.order(NE).getChar(pos), (bb, pos, v) -> bb.order(NE).putChar(pos, v))
},
{"short", Accessor.ofSegment(ValueLayout.JAVA_SHORT, (short) 42,
MemorySegment::get, MemorySegment::set,
(bb, pos) -> bb.order(NE).getShort(pos), (bb, pos, v) -> bb.order(NE).putShort(pos, v))
},
{"int", Accessor.ofSegment(ValueLayout.JAVA_INT, 42,
MemorySegment::get, MemorySegment::set,
(bb, pos) -> bb.order(NE).getInt(pos), (bb, pos, v) -> bb.order(NE).putInt(pos, v))
},
{"float", Accessor.ofSegment(ValueLayout.JAVA_FLOAT, 42f,
MemorySegment::get, MemorySegment::set,
(bb, pos) -> bb.order(NE).getFloat(pos), (bb, pos, v) -> bb.order(NE).putFloat(pos, v))
},
{"long", Accessor.ofSegment(ValueLayout.JAVA_LONG, 42L,
MemorySegment::get, MemorySegment::set,
(bb, pos) -> bb.order(NE).getLong(pos), (bb, pos, v) -> bb.order(NE).putLong(pos, v))
},
{"double", Accessor.ofSegment(ValueLayout.JAVA_DOUBLE, 42d,
MemorySegment::get, MemorySegment::set,
(bb, pos) -> bb.order(NE).getDouble(pos), (bb, pos, v) -> bb.order(NE).putDouble(pos, v))
},
{ "address", Accessor.ofSegment(ValueLayout.ADDRESS, MemorySegment.ofAddress(42),
MemorySegment::get, MemorySegment::set,
(bb, pos) -> {
ByteBuffer nb = bb.order(NE);
long addr = ValueLayout.ADDRESS.byteSize() == 8 ?
nb.getLong(pos) : nb.getInt(pos);
return MemorySegment.ofAddress(addr);
},
(bb, pos, v) -> {
ByteBuffer nb = bb.order(NE);
if (ValueLayout.ADDRESS.byteSize() == 8) {
nb.putLong(pos, v.address());
} else {
nb.putInt(pos, (int)v.address());
}
})
},
{"byte/index", Accessor.ofSegment(ValueLayout.JAVA_BYTE, (byte) 42,
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> bb.order(NE).get(pos), (bb, pos, v) -> bb.order(NE).put(pos, v))
},
{"boolean/index", Accessor.ofSegment(ValueLayout.JAVA_BOOLEAN, true,
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> bb.order(NE).get(pos) != 0, (bb, pos, v) -> bb.order(NE).put(pos, (byte) (v ? 1 : 0)))
},
{"char/index", Accessor.ofSegment(ValueLayout.JAVA_CHAR, (char) 42,
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> bb.order(NE).getChar(pos * 2), (bb, pos, v) -> bb.order(NE).putChar(pos * 2, v))
},
{"short/index", Accessor.ofSegment(ValueLayout.JAVA_SHORT, (short) 42,
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> bb.order(NE).getShort(pos * 2), (bb, pos, v) -> bb.order(NE).putShort(pos * 2, v))
},
{"int/index", Accessor.ofSegment(ValueLayout.JAVA_INT, 42,
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> bb.order(NE).getInt(pos * 4), (bb, pos, v) -> bb.order(NE).putInt(pos * 4, v))
},
{"float/index", Accessor.ofSegment(ValueLayout.JAVA_FLOAT, 42f,
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> bb.order(NE).getFloat(pos * 4), (bb, pos, v) -> bb.order(NE).putFloat(pos * 4, v))
},
{"long/index", Accessor.ofSegment(ValueLayout.JAVA_LONG, 42L,
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> bb.order(NE).getLong(pos * 8), (bb, pos, v) -> bb.order(NE).putLong(pos * 8, v))
},
{"double/index", Accessor.ofSegment(ValueLayout.JAVA_DOUBLE, 42d,
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> bb.order(NE).getDouble(pos * 8), (bb, pos, v) -> bb.order(NE).putDouble(pos * 8, v))
},
{ "address/index", Accessor.ofSegment(ValueLayout.ADDRESS, MemorySegment.ofAddress(42),
MemorySegment::getAtIndex, MemorySegment::setAtIndex,
(bb, pos) -> {
ByteBuffer nb = bb.order(NE);
long addr = ValueLayout.ADDRESS.byteSize() == 8 ?
nb.getLong(pos * 8) : nb.getInt(pos * 4);
return MemorySegment.ofAddress(addr);
},
(bb, pos, v) -> {
ByteBuffer nb = bb.order(NE);
if (ValueLayout.ADDRESS.byteSize() == 8) {
nb.putLong(pos * 8, v.address());
} else {
nb.putInt(pos * 4, (int)v.address());
}
})
},
};
}
}
Reference in New Issue View Git Blame Copy Permalink