package org.graalvm.compiler.nodes;
import static org.graalvm.compiler.nodeinfo.InputType.Condition;
import static org.graalvm.compiler.nodeinfo.NodeSize.SIZE_1;
import org.graalvm.compiler.core.common.type.StampFactory;
import org.graalvm.compiler.graph.Node.IndirectCanonicalization;
import org.graalvm.compiler.graph.NodeClass;
import org.graalvm.compiler.nodeinfo.NodeInfo;
import org.graalvm.compiler.nodes.calc.FloatingNode;
@NodeInfo(allowedUsageTypes = {Condition}, size = SIZE_1)
public abstract class LogicNode extends FloatingNode implements IndirectCanonicalization {
public static final NodeClass<LogicNode> TYPE = NodeClass.create(LogicNode.class);
public LogicNode(NodeClass<? extends LogicNode> c) {
super(c, StampFactory.forVoid());
}
public static LogicNode and(LogicNode a, LogicNode b, double shortCircuitProbability) {
return and(a, false, b, false, shortCircuitProbability);
}
public static LogicNode and(LogicNode a, boolean negateA, LogicNode b, boolean negateB, double shortCircuitProbability) {
StructuredGraph graph = a.graph();
ShortCircuitOrNode notAorNotB = graph.unique(new ShortCircuitOrNode(a, !negateA, b, !negateB, shortCircuitProbability));
return graph.unique(new LogicNegationNode(notAorNotB));
}
public static LogicNode or(LogicNode a, LogicNode b, double shortCircuitProbability) {
return or(a, false, b, false, shortCircuitProbability);
}
public static LogicNode or(LogicNode a, boolean negateA, LogicNode b, boolean negateB, double shortCircuitProbability) {
return a.graph().unique(new ShortCircuitOrNode(a, negateA, b, negateB, shortCircuitProbability));
}
public final boolean isTautology() {
if (this instanceof LogicConstantNode) {
LogicConstantNode logicConstantNode = (LogicConstantNode) this;
return logicConstantNode.getValue();
}
return false;
}
public final boolean isContradiction() {
if (this instanceof LogicConstantNode) {
LogicConstantNode logicConstantNode = (LogicConstantNode) this;
return !logicConstantNode.getValue();
}
return false;
}
}