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The Checker Framework enhances Java's type system to make it more powerful and useful. This lets software developers detect and prevent errors in their Java programs. The Checker Framework includes compiler plug-ins ("checkers") that find bugs or verify their absence. It also permits you to write your own compiler plug-ins.

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package org.checkerframework.dataflow.busyexpr;

import org.checkerframework.dataflow.analysis.BackwardTransferFunction;
import org.checkerframework.dataflow.analysis.RegularTransferResult;
import org.checkerframework.dataflow.analysis.TransferInput;
import org.checkerframework.dataflow.analysis.TransferResult;
import org.checkerframework.dataflow.analysis.UnusedAbstractValue;
import org.checkerframework.dataflow.cfg.UnderlyingAST;
import org.checkerframework.dataflow.cfg.node.AbstractNodeVisitor;
import org.checkerframework.dataflow.cfg.node.AssignmentNode;
import org.checkerframework.dataflow.cfg.node.MethodInvocationNode;
import org.checkerframework.dataflow.cfg.node.Node;
import org.checkerframework.dataflow.cfg.node.ObjectCreationNode;
import org.checkerframework.dataflow.cfg.node.ReturnNode;

import java.util.List;

/** A busy expression transfer function */
public class BusyExprTransfer
        extends AbstractNodeVisitor<
                TransferResult,
                TransferInput>
        implements BackwardTransferFunction {

    @Override
    public BusyExprStore initialNormalExitStore(
            UnderlyingAST underlyingAST, List returnNodes) {
        return new BusyExprStore();
    }

    @Override
    public BusyExprStore initialExceptionalExitStore(UnderlyingAST underlyingAST) {
        return new BusyExprStore();
    }

    @Override
    public RegularTransferResult visitNode(
            Node n, TransferInput p) {
        return new RegularTransferResult<>(null, p.getRegularStore());
    }

    @Override
    public RegularTransferResult visitAssignment(
            AssignmentNode n, TransferInput p) {
        RegularTransferResult transferResult =
                (RegularTransferResult)
                        super.visitAssignment(n, p);
        BusyExprStore store = transferResult.getRegularStore();
        store.killBusyExpr(n.getTarget());
        store.addUseInExpression(n.getExpression());
        return transferResult;
    }

    @Override
    public RegularTransferResult visitMethodInvocation(
            MethodInvocationNode n, TransferInput p) {
        RegularTransferResult transferResult =
                (RegularTransferResult)
                        super.visitMethodInvocation(n, p);
        BusyExprStore store = transferResult.getRegularStore();
        for (Node arg : n.getArguments()) {
            store.addUseInExpression(arg);
        }
        return transferResult;
    }

    @Override
    public RegularTransferResult visitObjectCreation(
            ObjectCreationNode n, TransferInput p) {
        RegularTransferResult transferResult =
                (RegularTransferResult)
                        super.visitObjectCreation(n, p);
        BusyExprStore store = transferResult.getRegularStore();
        for (Node arg : n.getArguments()) {
            store.addUseInExpression(arg);
        }
        return transferResult;
    }

    @Override
    public RegularTransferResult visitReturn(
            ReturnNode n, TransferInput p) {
        RegularTransferResult transferResult =
                (RegularTransferResult) super.visitReturn(n, p);
        Node result = n.getResult();
        if (result != null) {
            BusyExprStore store = transferResult.getRegularStore();
            store.addUseInExpression(result);
        }
        return transferResult;
    }
}




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