package org.graalvm.compiler.nodes.calc;
import jdk.vm.ci.meta.ConstantReflectionProvider;
import jdk.vm.ci.meta.MetaAccessProvider;
import org.graalvm.compiler.core.common.calc.Condition;
import org.graalvm.compiler.core.common.type.AbstractPointerStamp;
import org.graalvm.compiler.core.common.type.FloatStamp;
import org.graalvm.compiler.core.common.type.IntegerStamp;
import org.graalvm.compiler.core.common.type.Stamp;
import org.graalvm.compiler.debug.GraalError;
import org.graalvm.compiler.graph.Node;
import org.graalvm.compiler.graph.NodeClass;
import org.graalvm.compiler.graph.spi.Canonicalizable.BinaryCommutative;
import org.graalvm.compiler.graph.spi.CanonicalizerTool;
import org.graalvm.compiler.nodeinfo.NodeInfo;
import org.graalvm.compiler.nodes.ConstantNode;
import org.graalvm.compiler.nodes.LogicConstantNode;
import org.graalvm.compiler.nodes.LogicNegationNode;
import org.graalvm.compiler.nodes.LogicNode;
import org.graalvm.compiler.nodes.NodeView;
import org.graalvm.compiler.nodes.ValueNode;
import org.graalvm.compiler.nodes.util.GraphUtil;
import jdk.vm.ci.meta.Constant;
import jdk.vm.ci.meta.JavaKind;
import jdk.vm.ci.meta.PrimitiveConstant;
import jdk.vm.ci.meta.TriState;
import org.graalvm.compiler.options.OptionValues;
@NodeInfo(shortName = "==")
public final class IntegerEqualsNode extends CompareNode implements BinaryCommutative<ValueNode> {
public static final NodeClass<IntegerEqualsNode> TYPE = NodeClass.create(IntegerEqualsNode.class);
private static final IntegerEqualsOp OP = new IntegerEqualsOp();
public IntegerEqualsNode(ValueNode x, ValueNode y) {
super(TYPE, Condition.EQ, false, x, y);
assert !x.getStackKind().isNumericFloat() && x.getStackKind() != JavaKind.Object;
assert !y.getStackKind().isNumericFloat() && y.getStackKind() != JavaKind.Object;
}
public static LogicNode create(ValueNode x, ValueNode y, NodeView view) {
LogicNode result = CompareNode.tryConstantFoldPrimitive(Condition.EQ, x, y, false, view);
if (result != null) {
return result;
}
if (x instanceof ConditionalNode) {
ConditionalNode conditionalNode = (ConditionalNode) x;
if (conditionalNode.trueValue() == y) {
return conditionalNode.condition();
}
if (conditionalNode.falseValue() == y) {
return LogicNegationNode.create(conditionalNode.condition());
}
} else if (y instanceof ConditionalNode) {
ConditionalNode conditionalNode = (ConditionalNode) y;
if (conditionalNode.trueValue() == x) {
return conditionalNode.condition();
}
if (conditionalNode.falseValue() == x) {
return LogicNegationNode.create(conditionalNode.condition());
}
}
return new IntegerEqualsNode(x, y).maybeCommuteInputs();
}
public static LogicNode create(ConstantReflectionProvider constantReflection, MetaAccessProvider metaAccess, OptionValues options, Integer smallestCompareWidth, ValueNode x, ValueNode y,
NodeView view) {
LogicNode value = OP.canonical(constantReflection, metaAccess, options, smallestCompareWidth, Condition.EQ, false, x, y, view);
if (value != null) {
return value;
}
return create(x, y, view);
}
@Override
public Node canonical(CanonicalizerTool tool, ValueNode forX, ValueNode forY) {
NodeView view = NodeView.from(tool);
ValueNode value = OP.canonical(tool.getConstantReflection(), tool.getMetaAccess(), tool.getOptions(), tool.smallestCompareWidth(), Condition.EQ, false, forX, forY, view);
if (value != null) {
return value;
}
return this;
}
public static class IntegerEqualsOp extends CompareOp {
@Override
protected LogicNode optimizeNormalizeCompare(ConstantReflectionProvider constantReflection, MetaAccessProvider metaAccess, OptionValues options, Integer smallestCompareWidth,
Constant constant, NormalizeCompareNode normalizeNode, boolean mirrored, NodeView view) {
PrimitiveConstant primitive = (PrimitiveConstant) constant;
ValueNode a = normalizeNode.getX();
ValueNode b = normalizeNode.getY();
long cst = primitive.asLong();
if (cst == 0) {
if (normalizeNode.getX().getStackKind() == JavaKind.Double || normalizeNode.getX().getStackKind() == JavaKind.Float) {
return FloatEqualsNode.create(constantReflection, metaAccess, options, smallestCompareWidth, a, b, view);
} else {
return IntegerEqualsNode.create(constantReflection, metaAccess, options, smallestCompareWidth, a, b, view);
}
} else if (cst == 1) {
if (normalizeNode.getX().getStackKind() == JavaKind.Double || normalizeNode.getX().getStackKind() == JavaKind.Float) {
return FloatLessThanNode.create(b, a, !normalizeNode.isUnorderedLess, view);
} else {
return IntegerLessThanNode.create(constantReflection, metaAccess, options, smallestCompareWidth, b, a, view);
}
} else if (cst == -1) {
if (normalizeNode.getX().getStackKind() == JavaKind.Double || normalizeNode.getX().getStackKind() == JavaKind.Float) {
return FloatLessThanNode.create(a, b, normalizeNode.isUnorderedLess, view);
} else {
return IntegerLessThanNode.create(constantReflection, metaAccess, options, smallestCompareWidth, a, b, view);
}
} else {
return LogicConstantNode.contradiction();
}
}
@Override
protected CompareNode duplicateModified(ValueNode newX, ValueNode newY, boolean unorderedIsTrue, NodeView view) {
if (newX.stamp(view) instanceof FloatStamp && newY.stamp(view) instanceof FloatStamp) {
return new FloatEqualsNode(newX, newY);
} else if (newX.stamp(view) instanceof IntegerStamp && newY.stamp(view) instanceof IntegerStamp) {
return new IntegerEqualsNode(newX, newY);
} else if (newX.stamp(view) instanceof AbstractPointerStamp && newY.stamp(view) instanceof AbstractPointerStamp) {
return new IntegerEqualsNode(newX, newY);
}
throw GraalError.shouldNotReachHere();
}
@Override
public LogicNode canonical(ConstantReflectionProvider constantReflection, MetaAccessProvider metaAccess, OptionValues options, Integer smallestCompareWidth, Condition condition,
boolean unorderedIsTrue, ValueNode forX, ValueNode forY, NodeView view) {
if (GraphUtil.unproxify(forX) == GraphUtil.unproxify(forY)) {
return LogicConstantNode.tautology();
} else if (forX.stamp(view).alwaysDistinct(forY.stamp(view))) {
return LogicConstantNode.contradiction();
}
if (forX instanceof AddNode && forY instanceof AddNode) {
AddNode addX = (AddNode) forX;
AddNode addY = (AddNode) forY;
ValueNode v1 = null;
ValueNode v2 = null;
if (addX.getX() == addY.getX()) {
v1 = addX.getY();
v2 = addY.getY();
} else if (addX.getX() == addY.getY()) {
v1 = addX.getY();
v2 = addY.getX();
} else if (addX.getY() == addY.getX()) {
v1 = addX.getX();
v2 = addY.getY();
} else if (addX.getY() == addY.getY()) {
v1 = addX.getX();
v2 = addY.getX();
}
if (v1 != null) {
assert v2 != null;
return create(v1, v2, view);
}
}
return super.canonical(constantReflection, metaAccess, options, smallestCompareWidth, condition, unorderedIsTrue, forX, forY, view);
}
@Override
protected LogicNode canonicalizeSymmetricConstant(ConstantReflectionProvider constantReflection, MetaAccessProvider metaAccess, OptionValues options, Integer smallestCompareWidth,
Condition condition, Constant constant, ValueNode nonConstant, boolean mirrored, boolean unorderedIsTrue, NodeView view) {
if (constant instanceof PrimitiveConstant) {
PrimitiveConstant primitiveConstant = (PrimitiveConstant) constant;
IntegerStamp nonConstantStamp = ((IntegerStamp) nonConstant.stamp(view));
if ((primitiveConstant.asLong() == 1 && nonConstantStamp.upperBound() == 1 && nonConstantStamp.lowerBound() == 0) ||
(primitiveConstant.asLong() == -1 && nonConstantStamp.upperBound() == 0 && nonConstantStamp.lowerBound() == -1)) {
return LogicNegationNode.create(
IntegerEqualsNode.create(constantReflection, metaAccess, options, smallestCompareWidth, nonConstant, ConstantNode.forIntegerKind(nonConstant.getStackKind(), 0),
view));
} else if (primitiveConstant.asLong() == 0) {
if (nonConstant instanceof AndNode) {
AndNode andNode = (AndNode) nonConstant;
return new IntegerTestNode(andNode.getX(), andNode.getY());
} else if (nonConstant instanceof SubNode) {
SubNode subNode = (SubNode) nonConstant;
return IntegerEqualsNode.create(constantReflection, metaAccess, options, smallestCompareWidth, subNode.getX(), subNode.getY(), view);
} else if (nonConstant instanceof ShiftNode && nonConstant.stamp(view) instanceof IntegerStamp) {
if (nonConstant instanceof LeftShiftNode) {
LeftShiftNode shift = (LeftShiftNode) nonConstant;
if (shift.getY().isConstant()) {
int mask = shift.getShiftAmountMask();
int amount = shift.getY().asJavaConstant().asInt() & mask;
if (shift.getX().getStackKind() == JavaKind.Int) {
return new IntegerTestNode(shift.getX(), ConstantNode.forInt(-1 >>> amount));
} else {
assert shift.getX().getStackKind() == JavaKind.Long;
return new IntegerTestNode(shift.getX(), ConstantNode.forLong(-1L >>> amount));
}
}
} else if (nonConstant instanceof RightShiftNode) {
RightShiftNode shift = (RightShiftNode) nonConstant;
if (shift.getY().isConstant() && ((IntegerStamp) shift.getX().stamp(view)).isPositive()) {
int mask = shift.getShiftAmountMask();
int amount = shift.getY().asJavaConstant().asInt() & mask;
if (shift.getX().getStackKind() == JavaKind.Int) {
return new IntegerTestNode(shift.getX(), ConstantNode.forInt(-1 << amount));
} else {
assert shift.getX().getStackKind() == JavaKind.Long;
return new IntegerTestNode(shift.getX(), ConstantNode.forLong(-1L << amount));
}
}
} else if (nonConstant instanceof UnsignedRightShiftNode) {
UnsignedRightShiftNode shift = (UnsignedRightShiftNode) nonConstant;
if (shift.getY().isConstant()) {
int mask = shift.getShiftAmountMask();
int amount = shift.getY().asJavaConstant().asInt() & mask;
if (shift.getX().getStackKind() == JavaKind.Int) {
return new IntegerTestNode(shift.getX(), ConstantNode.forInt(-1 << amount));
} else {
assert shift.getX().getStackKind() == JavaKind.Long;
return new IntegerTestNode(shift.getX(), ConstantNode.forLong(-1L << amount));
}
}
}
}
}
if (nonConstant instanceof AddNode) {
AddNode addNode = (AddNode) nonConstant;
if (addNode.getY().isJavaConstant()) {
return new IntegerEqualsNode(addNode.getX(), ConstantNode.forIntegerStamp(nonConstantStamp, primitiveConstant.asLong() - addNode.getY().asJavaConstant().asLong()));
}
}
if (nonConstant instanceof AndNode) {
AndNode andNode = (AndNode) nonConstant;
if (Long.bitCount(((PrimitiveConstant) constant).asLong()) == 1 && andNode.getY().isConstant() && andNode.getY().asJavaConstant().equals(constant)) {
return new LogicNegationNode(new IntegerTestNode(andNode.getX(), andNode.getY()));
}
}
if (nonConstant instanceof XorNode && nonConstant.stamp(view) instanceof IntegerStamp) {
XorNode xorNode = (XorNode) nonConstant;
if (xorNode.getY().isJavaConstant() && xorNode.getY().asJavaConstant().asLong() == 1 && ((IntegerStamp) xorNode.getX().stamp(view)).upMask() == 1) {
return new IntegerEqualsNode(xorNode.getX(), ConstantNode.forIntegerStamp(xorNode.getX().stamp(view), primitiveConstant.asLong() ^ 1));
}
}
}
return super.canonicalizeSymmetricConstant(constantReflection, metaAccess, options, smallestCompareWidth, condition, constant, nonConstant, mirrored, unorderedIsTrue, view);
}
}
@Override
public Stamp getSucceedingStampForX(boolean negated, Stamp xStamp, Stamp yStamp) {
if (!negated) {
return xStamp.join(yStamp);
}
return null;
}
@Override
public Stamp getSucceedingStampForY(boolean negated, Stamp xStamp, Stamp yStamp) {
if (!negated) {
return xStamp.join(yStamp);
}
return null;
}
@Override
public TriState tryFold(Stamp xStampGeneric, Stamp yStampGeneric) {
if (xStampGeneric instanceof IntegerStamp && yStampGeneric instanceof IntegerStamp) {
IntegerStamp xStamp = (IntegerStamp) xStampGeneric;
IntegerStamp yStamp = (IntegerStamp) yStampGeneric;
if (xStamp.alwaysDistinct(yStamp)) {
return TriState.FALSE;
} else if (xStamp.neverDistinct(yStamp)) {
return TriState.TRUE;
}
}
return TriState.UNKNOWN;
}
}