package org.graalvm.compiler.phases.common;
import org.graalvm.compiler.core.common.type.Stamp;
import org.graalvm.compiler.debug.DebugCloseable;
import org.graalvm.compiler.debug.GraalError;
import org.graalvm.compiler.graph.Graph;
import org.graalvm.compiler.graph.Node;
import org.graalvm.compiler.nodes.AbstractBeginNode;
import org.graalvm.compiler.nodes.AbstractMergeNode;
import org.graalvm.compiler.nodes.BeginNode;
import org.graalvm.compiler.nodes.ConstantNode;
import org.graalvm.compiler.nodes.EndNode;
import org.graalvm.compiler.nodes.IfNode;
import org.graalvm.compiler.nodes.LogicNode;
import org.graalvm.compiler.nodes.MergeNode;
import org.graalvm.compiler.nodes.NodeView;
import org.graalvm.compiler.nodes.ShortCircuitOrNode;
import org.graalvm.compiler.nodes.StructuredGraph;
import org.graalvm.compiler.nodes.ValueNode;
import org.graalvm.compiler.nodes.calc.AbstractNormalizeCompareNode;
import org.graalvm.compiler.nodes.calc.ConditionalNode;
import org.graalvm.compiler.phases.Phase;
public class ExpandLogicPhase extends Phase {
private static final double EPSILON = 1E-6;
@Override
@SuppressWarnings("try")
protected void run(StructuredGraph graph) {
for (ShortCircuitOrNode logic : graph.getNodes(ShortCircuitOrNode.TYPE)) {
processBinary(logic);
}
assert graph.getNodes(ShortCircuitOrNode.TYPE).isEmpty();
for (AbstractNormalizeCompareNode logic : graph.getNodes(AbstractNormalizeCompareNode.TYPE)) {
try (DebugCloseable context = logic.withNodeSourcePosition()) {
processNormalizeCompareNode(logic);
}
}
graph.setAfterExpandLogic();
}
private static void processNormalizeCompareNode(AbstractNormalizeCompareNode normalize) {
StructuredGraph graph = normalize.graph();
LogicNode equalComp = graph.addOrUniqueWithInputs(normalize.createEqualComparison());
LogicNode lessComp = graph.addOrUniqueWithInputs(normalize.createLowerComparison());
Stamp stamp = normalize.stamp(NodeView.DEFAULT);
ConditionalNode equalValue = graph.unique(new ConditionalNode(equalComp, ConstantNode.forIntegerStamp(stamp, 0, graph), ConstantNode.forIntegerStamp(stamp, 1, graph)));
ConditionalNode value = graph.unique(new ConditionalNode(lessComp, ConstantNode.forIntegerStamp(stamp, -1, graph), equalValue));
normalize.replaceAtUsagesAndDelete(value);
}
@SuppressWarnings("try")
private static void processBinary(ShortCircuitOrNode binary) {
while (binary.usages().isNotEmpty()) {
Node usage = binary.usages().first();
try (DebugCloseable nsp = usage.withNodeSourcePosition()) {
if (usage instanceof ShortCircuitOrNode) {
processBinary((ShortCircuitOrNode) usage);
} else if (usage instanceof IfNode) {
processIf(binary.getX(), binary.isXNegated(), binary.getY(), binary.isYNegated(), (IfNode) usage, binary.getShortCircuitProbability());
} else if (usage instanceof ConditionalNode) {
processConditional(binary.getX(), binary.isXNegated(), binary.getY(), binary.isYNegated(), (ConditionalNode) usage);
} else {
throw GraalError.shouldNotReachHere();
}
}
}
binary.safeDelete();
}
private static void processIf(LogicNode x, boolean xNegated, LogicNode y, boolean yNegated, IfNode ifNode, double shortCircuitProbability) {
AbstractBeginNode trueTarget = ifNode.trueSuccessor();
AbstractBeginNode falseTarget = ifNode.falseSuccessor();
double firstIfTrueProbability = shortCircuitProbability;
double secondIfTrueProbability = sanitizeProbability((ifNode.getTrueSuccessorProbability() - shortCircuitProbability) / (1 - shortCircuitProbability));
double expectedOriginalIfTrueProbability = firstIfTrueProbability + (1 - firstIfTrueProbability) * secondIfTrueProbability;
if (!doubleEquals(ifNode.getTrueSuccessorProbability(), expectedOriginalIfTrueProbability)) {
firstIfTrueProbability = ifNode.getTrueSuccessorProbability() * shortCircuitProbability;
secondIfTrueProbability = sanitizeProbability(1 - (ifNode.probability(falseTarget) / (1 - firstIfTrueProbability)));
}
ifNode.clearSuccessors();
Graph graph = ifNode.graph();
AbstractMergeNode trueTargetMerge = graph.add(new MergeNode());
trueTargetMerge.setNext(trueTarget);
EndNode firstTrueEnd = graph.add(new EndNode());
EndNode secondTrueEnd = graph.add(new EndNode());
trueTargetMerge.addForwardEnd(firstTrueEnd);
trueTargetMerge.addForwardEnd(secondTrueEnd);
AbstractBeginNode firstTrueTarget = BeginNode.begin(firstTrueEnd);
firstTrueTarget.setNodeSourcePosition(trueTarget.getNodeSourcePosition());
AbstractBeginNode secondTrueTarget = BeginNode.begin(secondTrueEnd);
secondTrueTarget.setNodeSourcePosition(trueTarget.getNodeSourcePosition());
if (yNegated) {
secondIfTrueProbability = 1.0 - secondIfTrueProbability;
}
if (xNegated) {
firstIfTrueProbability = 1.0 - firstIfTrueProbability;
}
IfNode secondIf = new IfNode(y, yNegated ? falseTarget : secondTrueTarget, yNegated ? secondTrueTarget : falseTarget, secondIfTrueProbability);
secondIf.setNodeSourcePosition(ifNode.getNodeSourcePosition());
AbstractBeginNode secondIfBegin = BeginNode.begin(graph.add(secondIf));
secondIfBegin.setNodeSourcePosition(falseTarget.getNodeSourcePosition());
IfNode firstIf = graph.add(new IfNode(x, xNegated ? secondIfBegin : firstTrueTarget, xNegated ? firstTrueTarget : secondIfBegin, firstIfTrueProbability));
firstIf.setNodeSourcePosition(ifNode.getNodeSourcePosition());
ifNode.replaceAtPredecessor(firstIf);
ifNode.safeDelete();
}
private static boolean doubleEquals(double a, double b) {
assert !Double.isNaN(a) && !Double.isNaN(b) && !Double.isInfinite(a) && !Double.isInfinite(b);
return a - EPSILON < b && a + EPSILON > b;
}
private static double sanitizeProbability(double value) {
double newValue = Math.min(1.0, Math.max(0.0, value));
if (Double.isNaN(newValue)) {
newValue = 0.5;
}
return newValue;
}
@SuppressWarnings("try")
private static void processConditional(LogicNode x, boolean xNegated, LogicNode y, boolean yNegated, ConditionalNode conditional) {
try (DebugCloseable context = conditional.withNodeSourcePosition()) {
ValueNode trueTarget = conditional.trueValue();
ValueNode falseTarget = conditional.falseValue();
Graph graph = conditional.graph();
ConditionalNode secondConditional = graph.unique(new ConditionalNode(y, yNegated ? falseTarget : trueTarget, yNegated ? trueTarget : falseTarget));
ConditionalNode firstConditional = graph.unique(new ConditionalNode(x, xNegated ? secondConditional : trueTarget, xNegated ? trueTarget : secondConditional));
conditional.replaceAndDelete(firstConditional);
}
}
@Override
public boolean checkContract() {
return false;
}
}