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 * 2 along with this work; if not, write to the Free Software Foundation,
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package org.graalvm.compiler.replacements.nodes.arithmetic;

import static org.graalvm.compiler.core.common.type.IntegerStamp.addOverflowsNegatively;
import static org.graalvm.compiler.core.common.type.IntegerStamp.addOverflowsPositively;
import static org.graalvm.compiler.core.common.type.IntegerStamp.carryBits;
import static org.graalvm.compiler.nodeinfo.NodeCycles.CYCLES_2;
import static org.graalvm.compiler.nodeinfo.NodeSize.SIZE_2;

import org.graalvm.compiler.core.common.type.IntegerStamp;
import org.graalvm.compiler.core.common.type.Stamp;
import org.graalvm.compiler.core.common.type.StampFactory;
import org.graalvm.compiler.graph.NodeClass;
import org.graalvm.compiler.graph.spi.CanonicalizerTool;
import org.graalvm.compiler.nodeinfo.NodeInfo;
import org.graalvm.compiler.nodes.AbstractBeginNode;
import org.graalvm.compiler.nodes.ConstantNode;
import org.graalvm.compiler.nodes.NodeView;
import org.graalvm.compiler.nodes.ValueNode;
import org.graalvm.compiler.nodes.calc.AddNode;
import org.graalvm.compiler.nodes.spi.LoweringTool;

import jdk.vm.ci.code.CodeUtil;
import jdk.vm.ci.meta.JavaConstant;
import jdk.vm.ci.meta.JavaKind;

Node representing an exact integer addition that will throw an ArithmeticException in case the addition would overflow the 32 bit range.
/** * Node representing an exact integer addition that will throw an {@link ArithmeticException} in * case the addition would overflow the 32 bit range. */
@NodeInfo(cycles = CYCLES_2, size = SIZE_2) public final class IntegerAddExactNode extends AddNode implements IntegerExactArithmeticNode { public static final NodeClass<IntegerAddExactNode> TYPE = NodeClass.create(IntegerAddExactNode.class); public IntegerAddExactNode(ValueNode x, ValueNode y) { super(TYPE, x, y); setStamp(x.stamp(NodeView.DEFAULT).unrestricted()); assert x.stamp(NodeView.DEFAULT).isCompatible(y.stamp(NodeView.DEFAULT)) && x.stamp(NodeView.DEFAULT) instanceof IntegerStamp; } @Override public boolean inferStamp() { /* * Note: it is not allowed to use the foldStamp method of the regular add node as we do not * know the result stamp of this node if we do not know whether we may deopt. If we know we * can never overflow we will replace this node with its non overflow checking counterpart * anyway. */ return false; } @Override public Stamp foldStamp(Stamp stampX, Stamp stampY) { IntegerStamp a = (IntegerStamp) stampX; IntegerStamp b = (IntegerStamp) stampY; int bits = a.getBits(); assert bits == b.getBits(); long defaultMask = CodeUtil.mask(bits); long variableBits = (a.downMask() ^ a.upMask()) | (b.downMask() ^ b.upMask()); long variableBitsWithCarry = variableBits | (carryBits(a.downMask(), b.downMask()) ^ carryBits(a.upMask(), b.upMask())); long newDownMask = (a.downMask() + b.downMask()) & ~variableBitsWithCarry; long newUpMask = (a.downMask() + b.downMask()) | variableBitsWithCarry; newDownMask &= defaultMask; newUpMask &= defaultMask; long newLowerBound; long newUpperBound; boolean lowerOverflowsPositively = addOverflowsPositively(a.lowerBound(), b.lowerBound(), bits); boolean upperOverflowsPositively = addOverflowsPositively(a.upperBound(), b.upperBound(), bits); boolean lowerOverflowsNegatively = addOverflowsNegatively(a.lowerBound(), b.lowerBound(), bits); boolean upperOverflowsNegatively = addOverflowsNegatively(a.upperBound(), b.upperBound(), bits); if (lowerOverflowsPositively) { newLowerBound = CodeUtil.maxValue(bits); } else if (lowerOverflowsNegatively) { newLowerBound = CodeUtil.minValue(bits); } else { newLowerBound = CodeUtil.signExtend((a.lowerBound() + b.lowerBound()) & defaultMask, bits); } if (upperOverflowsPositively) { newUpperBound = CodeUtil.maxValue(bits); } else if (upperOverflowsNegatively) { newUpperBound = CodeUtil.minValue(bits); } else { newUpperBound = CodeUtil.signExtend((a.upperBound() + b.upperBound()) & defaultMask, bits); } IntegerStamp limit = StampFactory.forInteger(bits, newLowerBound, newUpperBound); newUpMask &= limit.upMask(); newUpperBound = CodeUtil.signExtend(newUpperBound & newUpMask, bits); newDownMask |= limit.downMask(); newLowerBound |= newDownMask; return IntegerStamp.create(bits, newLowerBound, newUpperBound, newDownMask, newUpMask); } @Override public ValueNode canonical(CanonicalizerTool tool, ValueNode forX, ValueNode forY) { if (forX.isConstant() && !forY.isConstant()) { return new IntegerAddExactNode(forY, forX).canonical(tool); } if (forX.isConstant()) { ConstantNode constantNode = canonicalXconstant(forX, forY); if (constantNode != null) { return constantNode; } } else if (forY.isConstant()) { long c = forY.asJavaConstant().asLong(); if (c == 0) { return forX; } } if (!IntegerStamp.addCanOverflow((IntegerStamp) forX.stamp(NodeView.DEFAULT), (IntegerStamp) forY.stamp(NodeView.DEFAULT))) { return new AddNode(forX, forY).canonical(tool); } return this; } private static ConstantNode canonicalXconstant(ValueNode forX, ValueNode forY) { JavaConstant xConst = forX.asJavaConstant(); JavaConstant yConst = forY.asJavaConstant(); if (xConst != null && yConst != null) { assert xConst.getJavaKind() == yConst.getJavaKind(); try { if (xConst.getJavaKind() == JavaKind.Int) { return ConstantNode.forInt(Math.addExact(xConst.asInt(), yConst.asInt())); } else { assert xConst.getJavaKind() == JavaKind.Long; return ConstantNode.forLong(Math.addExact(xConst.asLong(), yConst.asLong())); } } catch (ArithmeticException ex) { // The operation will result in an overflow exception, so do not canonicalize. } } return null; } @Override public IntegerExactArithmeticSplitNode createSplit(AbstractBeginNode next, AbstractBeginNode deopt) { return graph().add(new IntegerAddExactSplitNode(stamp(NodeView.DEFAULT), getX(), getY(), next, deopt)); } @Override public void lower(LoweringTool tool) { IntegerExactArithmeticSplitNode.lower(tool, this); } }