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AMD64StringUTF16Substitutions
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byteArrayBaseOffset(MetaAccessProvider): int
-
byteArrayIndexScale(MetaAccessProvider): int
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charArrayBaseOffset(MetaAccessProvider): int
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charArrayIndexScale(MetaAccessProvider): int
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INJECTED: MetaAccessProvider
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length(byte[]): int
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compareTo(byte[], byte[]): int
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compareToLatin1(byte[], byte[]): int
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indexOfCharUnsafe(byte[], int, int, int): int
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pointer(byte[]): Word
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charOffsetPointer(byte[], int): Word
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indexOfUnsafe(byte[], int, byte[], int, int): int
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indexOfLatin1Unsafe(byte[], int, byte[], int, int): int
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compress(char[], int, byte[], int, int): int
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compress(byte[], int, byte[], int, int): int
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/*
* Copyright (c) 2017, 2018, 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.
*/
package org.graalvm.compiler.replacements.amd64;
import jdk.vm.ci.meta.DeoptimizationAction;
import jdk.vm.ci.meta.DeoptimizationReason;
import jdk.vm.ci.meta.JavaKind;
import jdk.vm.ci.meta.MetaAccessProvider;
import org.graalvm.compiler.api.replacements.ClassSubstitution;
import org.graalvm.compiler.api.replacements.Fold;
import org.graalvm.compiler.api.replacements.Fold.InjectedParameter;
import org.graalvm.compiler.api.replacements.MethodSubstitution;
import org.graalvm.compiler.nodes.DeoptimizeNode;
import org.graalvm.compiler.replacements.ReplacementsUtil;
import org.graalvm.compiler.replacements.StringUTF16Substitutions;
import org.graalvm.compiler.replacements.nodes.ArrayCompareToNode;
import org.graalvm.compiler.replacements.nodes.ArrayRegionEqualsNode;
import org.graalvm.compiler.word.Word;
import jdk.internal.vm.compiler.word.Pointer;
// JaCoCo Exclude
Substitutions for java.lang.StringUTF16 methods.
Since JDK 9.
/**
* Substitutions for {@code java.lang.StringUTF16} methods.
* <p>
* Since JDK 9.
*/
@ClassSubstitution(className = "java.lang.StringUTF16", optional = true)
public class AMD64StringUTF16Substitutions {
@Fold
static int byteArrayBaseOffset(@InjectedParameter MetaAccessProvider metaAccess) {
return metaAccess.getArrayBaseOffset(JavaKind.Byte);
}
@Fold
static int byteArrayIndexScale(@InjectedParameter MetaAccessProvider metaAccess) {
return metaAccess.getArrayIndexScale(JavaKind.Byte);
}
@Fold
static int charArrayBaseOffset(@InjectedParameter MetaAccessProvider metaAccess) {
return metaAccess.getArrayBaseOffset(JavaKind.Char);
}
@Fold
static int charArrayIndexScale(@InjectedParameter MetaAccessProvider metaAccess) {
return metaAccess.getArrayIndexScale(JavaKind.Char);
}
Marker value for the InjectedParameter injected parameter. /**
* Marker value for the {@link InjectedParameter} injected parameter.
*/
static final MetaAccessProvider INJECTED = null;
public static int length(byte[] value) {
return value.length >> 1;
}
Params: - value – is char[]
- other – is char[]
/**
* @param value is char[]
* @param other is char[]
*/
@MethodSubstitution
public static int compareTo(byte[] value, byte[] other) {
return ArrayCompareToNode.compareTo(value, other, value.length, other.length, JavaKind.Char, JavaKind.Char);
}
Params: - value – is char[]
- other – is byte[]
/**
* @param value is char[]
* @param other is byte[]
*/
@MethodSubstitution
public static int compareToLatin1(byte[] value, byte[] other) {
/*
* Swapping array arguments because intrinsic expects order to be byte[]/char[] but kind
* arguments stay in original order.
*/
return ArrayCompareToNode.compareTo(other, value, other.length, value.length, JavaKind.Char, JavaKind.Byte);
}
@MethodSubstitution
public static int indexOfCharUnsafe(byte[] value, int ch, int fromIndex, int max) {
Pointer sourcePointer = charOffsetPointer(value, fromIndex);
int result = AMD64ArrayIndexOf.indexOf1Char(sourcePointer, max - fromIndex, (char) ch);
if (result != -1) {
return result + fromIndex;
}
return result;
}
private static Word pointer(byte[] target) {
return Word.objectToTrackedPointer(target).add(byteArrayBaseOffset(INJECTED));
}
private static Word charOffsetPointer(byte[] value, int offset) {
return pointer(value).add(offset * charArrayIndexScale(INJECTED));
}
@MethodSubstitution
public static int indexOfUnsafe(byte[] source, int sourceCount, byte[] target, int targetCount, int fromIndex) {
ReplacementsUtil.runtimeAssert(fromIndex >= 0, "StringUTF16.indexOfUnsafe invalid args: fromIndex negative");
ReplacementsUtil.runtimeAssert(targetCount > 0, "StringUTF16.indexOfUnsafe invalid args: targetCount <= 0");
ReplacementsUtil.runtimeAssert(targetCount <= length(target), "StringUTF16.indexOfUnsafe invalid args: targetCount > length(target)");
ReplacementsUtil.runtimeAssert(sourceCount >= targetCount, "StringUTF16.indexOfUnsafe invalid args: sourceCount < targetCount");
int totalOffset = fromIndex;
if (targetCount == 1) {
Pointer sourcePointer = charOffsetPointer(source, totalOffset);
int indexOfResult = AMD64ArrayIndexOf.indexOf1Char(sourcePointer, sourceCount - fromIndex, StringUTF16Substitutions.getChar(target, 0));
if (indexOfResult >= 0) {
return indexOfResult + totalOffset;
}
return indexOfResult;
} else if (targetCount == 2) {
Pointer sourcePointer = charOffsetPointer(source, totalOffset);
int indexOfResult = AMD64ArrayIndexOf.indexOfTwoConsecutiveChars(sourcePointer, sourceCount - fromIndex, StringUTF16Substitutions.getChar(target, 0),
StringUTF16Substitutions.getChar(target, 1));
if (indexOfResult >= 0) {
return indexOfResult + totalOffset;
}
return indexOfResult;
} else {
int haystackLength = sourceCount - (fromIndex + (targetCount - 2));
while (haystackLength > 0) {
Pointer sourcePointer = charOffsetPointer(source, totalOffset);
int indexOfResult = AMD64ArrayIndexOf.indexOfTwoConsecutiveChars(sourcePointer, haystackLength, StringUTF16Substitutions.getChar(target, 0),
StringUTF16Substitutions.getChar(target, 1));
if (indexOfResult < 0) {
return -1;
}
totalOffset += indexOfResult;
haystackLength -= (indexOfResult + 1);
Pointer cmpSourcePointer = charOffsetPointer(source, totalOffset);
Pointer targetPointer = pointer(target);
if (ArrayRegionEqualsNode.regionEquals(cmpSourcePointer, targetPointer, targetCount, JavaKind.Char)) {
return totalOffset;
}
totalOffset++;
}
return -1;
}
}
@MethodSubstitution
public static int indexOfLatin1Unsafe(byte[] source, int sourceCount, byte[] target, int targetCount, int fromIndex) {
ReplacementsUtil.runtimeAssert(fromIndex >= 0, "StringUTF16.indexOfLatin1Unsafe invalid args: fromIndex negative");
ReplacementsUtil.runtimeAssert(targetCount > 0, "StringUTF16.indexOfLatin1Unsafe invalid args: targetCount <= 0");
ReplacementsUtil.runtimeAssert(targetCount <= target.length, "StringUTF16.indexOfLatin1Unsafe invalid args: targetCount > length(target)");
ReplacementsUtil.runtimeAssert(sourceCount >= targetCount, "StringUTF16.indexOfLatin1Unsafe invalid args: sourceCount < targetCount");
int totalOffset = fromIndex;
if (targetCount == 1) {
Pointer sourcePointer = charOffsetPointer(source, totalOffset);
int indexOfResult = AMD64ArrayIndexOf.indexOf1Char(sourcePointer, sourceCount - fromIndex, (char) Byte.toUnsignedInt(target[0]));
if (indexOfResult >= 0) {
return indexOfResult + totalOffset;
}
return indexOfResult;
} else if (targetCount == 2) {
Pointer sourcePointer = charOffsetPointer(source, totalOffset);
int indexOfResult = AMD64ArrayIndexOf.indexOfTwoConsecutiveChars(sourcePointer, sourceCount - fromIndex, (char) Byte.toUnsignedInt(target[0]), (char) Byte.toUnsignedInt(target[1]));
if (indexOfResult >= 0) {
return indexOfResult + totalOffset;
}
return indexOfResult;
} else {
int haystackLength = sourceCount - (fromIndex + (targetCount - 2));
while (haystackLength > 0) {
Pointer sourcePointer = charOffsetPointer(source, totalOffset);
int indexOfResult = AMD64ArrayIndexOf.indexOfTwoConsecutiveChars(sourcePointer, haystackLength, (char) Byte.toUnsignedInt(target[0]), (char) Byte.toUnsignedInt(target[1]));
if (indexOfResult < 0) {
return -1;
}
totalOffset += indexOfResult;
haystackLength -= (indexOfResult + 1);
Pointer cmpSourcePointer = charOffsetPointer(source, totalOffset);
Pointer targetPointer = pointer(target);
if (ArrayRegionEqualsNode.regionEquals(cmpSourcePointer, targetPointer, targetCount, JavaKind.Char, JavaKind.Byte)) {
return totalOffset;
}
totalOffset++;
}
return -1;
}
}
Intrinsic for java.lang.StringUTF16.compress([CI[BII)I. @HotSpotIntrinsicCandidate
public static int compress(char[] src, int src_indx, byte[] dst, int dst_indx, int len)
/**
* Intrinsic for {@code java.lang.StringUTF16.compress([CI[BII)I}.
*
* <pre>
* @HotSpotIntrinsicCandidate
* public static int compress(char[] src, int src_indx, byte[] dst, int dst_indx, int len)
* </pre>
*/
@MethodSubstitution
public static int compress(char[] src, int srcIndex, byte[] dest, int destIndex, int len) {
if (len < 0 || srcIndex < 0 || (srcIndex + len > src.length) || destIndex < 0 || (destIndex + len > dest.length)) {
DeoptimizeNode.deopt(DeoptimizationAction.None, DeoptimizationReason.BoundsCheckException);
}
Pointer srcPointer = Word.objectToTrackedPointer(src).add(charArrayBaseOffset(INJECTED)).add(srcIndex * charArrayIndexScale(INJECTED));
Pointer destPointer = Word.objectToTrackedPointer(dest).add(byteArrayBaseOffset(INJECTED)).add(destIndex * byteArrayIndexScale(INJECTED));
return AMD64StringUTF16CompressNode.compress(srcPointer, destPointer, len, JavaKind.Char);
}
Intrinsic for @HotSpotIntrinsicCandidate
public static int compress(byte[] src, int src_indx, byte[] dst, int dst_indx, int len)
In this variant dest refers to a byte array containing 2 byte per char so srcIndex and len are in terms of char elements and have to be scaled by 2 when referring to src.
/**
* Intrinsic for {@code }java.lang.StringUTF16.compress([BI[BII)I}.
*
* <pre>
* @HotSpotIntrinsicCandidate
* public static int compress(byte[] src, int src_indx, byte[] dst, int dst_indx, int len)
* </pre>
* <p>
* In this variant {@code dest} refers to a byte array containing 2 byte per char so
* {@code srcIndex} and {@code len} are in terms of char elements and have to be scaled by 2
* when referring to {@code src}.
*/
@MethodSubstitution
public static int compress(byte[] src, int srcIndex, byte[] dest, int destIndex, int len) {
if (len < 0 || srcIndex < 0 || (srcIndex * 2 + len * 2 > src.length) || destIndex < 0 || (destIndex + len > dest.length)) {
DeoptimizeNode.deopt(DeoptimizationAction.None, DeoptimizationReason.BoundsCheckException);
}
Pointer srcPointer = Word.objectToTrackedPointer(src).add(byteArrayBaseOffset(INJECTED)).add(srcIndex * 2 * byteArrayIndexScale(INJECTED));
Pointer destPointer = Word.objectToTrackedPointer(dest).add(byteArrayBaseOffset(INJECTED)).add(destIndex * byteArrayIndexScale(INJECTED));
return AMD64StringUTF16CompressNode.compress(srcPointer, destPointer, len, JavaKind.Byte);
}
}