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/*******************************************************************************
* Copyright (c) 2015, 2016 Willink Transformations and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* E.D.Willink - Initial API and implementation
*******************************************************************************/
package org.eclipse.qvtd.compiler.internal.qvtp2qvts.impl;
import java.util.ArrayList;
import java.util.Comparator;
import java.util.List;
import java.util.Set;
import org.eclipse.emf.ecore.EcorePackage;
import org.eclipse.jdt.annotation.NonNull;
import org.eclipse.jdt.annotation.Nullable;
import org.eclipse.ocl.pivot.CompleteClass;
import org.eclipse.ocl.pivot.DataType;
import org.eclipse.ocl.pivot.Property;
import org.eclipse.ocl.pivot.TypedElement;
import org.eclipse.ocl.pivot.internal.prettyprint.PrettyPrinter;
import org.eclipse.ocl.pivot.utilities.ClassUtil;
import org.eclipse.ocl.pivot.utilities.NameUtil;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.AbstractRegion;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.ClassDatumAnalysis;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.Connection;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.Edge;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.NavigableEdge;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.Node;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.NodeConnection;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.NodeRole;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.Region;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.RegionUtil;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.Role;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.RootScheduledRegion;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.SchedulerConstants;
import org.eclipse.qvtd.compiler.internal.qvtp2qvts.Visitor;
import org.eclipse.qvtd.pivot.qvtbase.TypedModel;
import org.eclipse.qvtd.pivot.qvtbase.graphs.GraphStringBuilder;
import org.eclipse.qvtd.pivot.qvtcore.analysis.DomainUsage;
import org.eclipse.qvtd.pivot.qvtcore.analysis.DomainUsageAnalysis;
import com.google.common.collect.Iterables;
/**
* AbstractNode provides the analysis and status of a node in the pattern match or construction of a Mapping
* or Composite Region.
*/
public abstract class NodeImpl implements Node
{
public static final class NodeComparator implements Comparator<@NonNull Node>
{
public static final @NonNull NodeComparator INSTANCE = new NodeComparator();
@Override
public int compare(@NonNull Node o1, @NonNull Node o2) {
String n1 = NameUtil.getSafeName(o1);
String n2 = NameUtil.getSafeName(o2);
int diff = ClassUtil.safeCompareTo(n1, n2);
if (diff != 0) {
return diff;
}
n1 = o1.getCompleteClass().getPrimaryClass().toString();
n2 = o2.getCompleteClass().getPrimaryClass().toString();
diff = ClassUtil.safeCompareTo(n1, n2);
if (diff != 0) {
return diff;
}
return diff;
}
}
private @Nullable NodeRole nodeRole; // null is only permitted during construction
private @Nullable Region region; // null is only permitted during construction
private @Nullable String name; // null is only permitted during construction
private @Nullable ClassDatumAnalysis classDatumAnalysis; // null is only permitted during construction
private boolean isDataType;
private boolean isHead = false;
private @Nullable NodeConnection incomingConnection = null;
private @Nullable List<@NonNull Edge> incomingEdges = null;
private @Nullable List<@NonNull NodeConnection> outgoingConnections = null;
private @Nullable List<@NonNull Edge> outgoingEdges = null;
private final @NonNull List<@NonNull TypedElement> typedElements = new ArrayList<@NonNull TypedElement>();
@Override
public <R> R accept(@NonNull Visitor<R> visitor) {
return visitor.visitNode(this);
}
@Override
public final void addIncomingConnection(@NonNull NodeConnection connection) {
assert (incomingConnection == null) || (incomingConnection == connection);
assert Iterables.contains(connection.getTargetNodes(), this);
// assert edge.getRegion() == getRegion();
incomingConnection = connection;
}
@Override
public final void addIncomingEdge(@NonNull Edge edge) {
assert edge.getTarget() == this;
// assert edge.getRegion() == getRegion();
List<@NonNull Edge> incomingEdges2 = incomingEdges;
if (incomingEdges2 == null) {
incomingEdges = incomingEdges2 = new ArrayList<@NonNull Edge>();
}
else {
assert !incomingEdges2.contains(edge);
}
incomingEdges2.add(edge);
}
@Override
public final void addOutgoingConnection(@NonNull NodeConnection connection) {
assert Iterables.contains(connection.getSources(), this);
// assert edge.getRegion() == getRegion();
List<@NonNull NodeConnection> outgoingConnections2 = outgoingConnections;
if (outgoingConnections2 == null) {
outgoingConnections = outgoingConnections2 = new ArrayList<@NonNull NodeConnection>();
}
else {
assert !outgoingConnections2.contains(connection);
}
outgoingConnections2.add(connection);
}
@Override
public final void addOutgoingEdge(@NonNull Edge edge) {
assert edge.getSource() == this;
// assert edge.getRegion() == getRegion();
List<@NonNull Edge> outgoingEdges2 = outgoingEdges;
if (outgoingEdges2 == null) {
outgoingEdges = outgoingEdges2 = new ArrayList<@NonNull Edge>();
}
else {
assert !outgoingEdges2.contains(edge);
}
outgoingEdges2.add(edge);
}
@Override
public void addTypedElement(@NonNull TypedElement typedElement) {
if (!typedElements.contains(typedElement)) {
typedElements.add(typedElement);
Region region2 = region;
assert region2 != null;
if (isPattern() && isMatched() && !isRealized() && (typedElements.size() == 1) && !region2.isOperationRegion()) {
boolean isMatched = RegionUtil.isMatched(typedElement);
if (!isMatched) {
isMatched = RegionUtil.isMatched(typedElement);
}
if (!isMatched) {
region2.getMultiRegion().getSchedulerConstants().addProblem(region2.createWarning("Cannot add unmatched " + typedElement + " to " + this));
}
}
}
}
@Override
public void appendNode(@NonNull GraphStringBuilder s, @NonNull String nodeName) {
boolean isHead = isHead();
if (isHead) {
s.setHead();
// s.append("{rank=source;");
}
setLabel(s);
String shape = getShape();
if (shape != null) {
s.setShape(shape);
}
String style = getStyle();
if (style != null) {
s.setStyle(style);
}
s.setColor(getColor());
s.setPenwidth(getPenwidth());
s.appendAttributedNode(nodeName);
// if (isHead) {
// s.append("}");
// }
}
@Override
public void destroy() {
assert region != null;
region.removeNode(this);
Connection incomingConnection2 = incomingConnection;
if (incomingConnection2 != null) {
incomingConnection2.destroy();
}
List<NodeConnection> outgoingConnections2 = outgoingConnections;
if (outgoingConnections2 != null) {
while (!outgoingConnections2.isEmpty()) {
outgoingConnections2.get(0).destroy();
}
}
List<Edge> incomingEdges2 = incomingEdges;
if (incomingEdges2 != null) {
while (!incomingEdges2.isEmpty()) {
incomingEdges2.get(0).destroy();
}
}
List<Edge> outgoingEdges2 = outgoingEdges;
if (outgoingEdges2 != null) {
while (!outgoingEdges2.isEmpty()) {
outgoingEdges2.get(0).destroy();
}
}
}
@Override
public void getAllAncestors(@NonNull Set<@NonNull Node> ancestors) {
if (ancestors.add(this)) {
Region region = getRegion();
for (@NonNull Node headNode : region.getHeadNodes()) {
for (@NonNull Node passedBindingSource : headNode.getPassedBindingSources()) {
passedBindingSource.getAllAncestors(ancestors);
}
}
}
}
@Override
public final @NonNull Iterable<@NonNull Edge> getArgumentEdges() {
@NonNull Iterable<@NonNull Edge> filter = Iterables.filter(getIncomingEdges(), AbstractRegion.IsExpressionEdgePredicate.INSTANCE);
return filter;
}
@Override
public final @Nullable Edge getAssignmentEdge(@NonNull Property source2targetProperty) {
for (Edge edge : getOutgoingEdges()) {
if (edge.isRealized() && (edge instanceof NavigableEdge)) {
if (((NavigableEdge)edge).getProperty() == source2targetProperty) {
return edge;
}
}
}
return null;
}
@Override
public final @NonNull Iterable<@NonNull NavigableEdge> getAssignmentEdges() {
@SuppressWarnings("unchecked")
Iterable<@NonNull NavigableEdge> filter = (Iterable<@NonNull NavigableEdge>)(Object)Iterables.filter(getOutgoingEdges(), AbstractRegion.IsAssignmentEdgePredicate.INSTANCE);
return filter;
}
@Override
public final @NonNull Iterable<@NonNull NavigableEdge> getCastEdges() {
@SuppressWarnings("unchecked")
@NonNull Iterable<@NonNull NavigableEdge> filter = (Iterable<@NonNull NavigableEdge>)(Object)Iterables.filter(getOutgoingEdges(), AbstractRegion.IsCastEdgePredicate.INSTANCE);
return filter;
}
/* @Override
public @NonNull Node getCastEquivalentNode() {
List<Edge> outgoingEdges = getOutgoingEdges();
if ((outgoingEdges != null) && (outgoingEdges.size() == 1)) {
Edge edge = outgoingEdges.get(0);
if (edge.isCast()) {
return edge.getTarget();
}
}
return this;
} */
@Override
public final @NonNull ClassDatumAnalysis getClassDatumAnalysis() {
return ClassUtil.nonNullState(classDatumAnalysis);
}
protected @NonNull String getColor() {
assert nodeRole != null;
return nodeRole.getColor();
}
@Override
public @NonNull CompleteClass getCompleteClass() {
assert classDatumAnalysis != null;
return classDatumAnalysis.getCompleteClass();
}
@Override
public final @NonNull Iterable<@NonNull Edge> getComputationEdges() {
@NonNull Iterable<@NonNull Edge> filter = Iterables.filter(getOutgoingEdges(), AbstractRegion.IsComputationEdgePredicate.INSTANCE);
return filter;
}
@Override
public @NonNull String getDisplayName() {
assert region != null;
return region.getName() + "::" + getName();
}
@Override
public final @Nullable NodeConnection getIncomingConnection() {
return incomingConnection;
}
@Override
public final @NonNull List<@NonNull Edge> getIncomingEdges() {
return incomingEdges != null ? incomingEdges : SchedulerConstants.EMPTY_EDGE_LIST;
}
@Override
public final @Nullable NodeConnection getIncomingPassedConnection() {
NodeConnection incomingConnection2 = incomingConnection;
if ((incomingConnection2 != null) && incomingConnection2.isPassed()) {
return incomingConnection2;
}
else {
return null;
}
}
@Override
public @Nullable NodeConnection getIncomingUsedConnection() {
NodeConnection incomingConnection2 = incomingConnection;
if ((incomingConnection2 != null) && incomingConnection2.isUsed(this)) {
return incomingConnection2;
}
else {
return null;
}
}
@Override
public @NonNull String getLabel() {
return getName();
}
@Override
public @NonNull String getName() {
return ClassUtil.nonNullState(name);
}
@Override
public @Nullable NavigableEdge getNavigationEdge(@NonNull Property source2targetProperty) {
for (@NonNull Edge edge : getOutgoingEdges()) {
if (edge instanceof NavigableEdge) {
NavigableEdge navigationEdge = (NavigableEdge)edge;
if (navigationEdge.getProperty() == source2targetProperty) {
return navigationEdge;
}
}
}
return null;
}
@Override
public final @NonNull Iterable<@NonNull NavigableEdge> getNavigationEdges() {
@SuppressWarnings("unchecked")
@NonNull Iterable<@NonNull NavigableEdge> filter = (Iterable<@NonNull NavigableEdge>)(Object)Iterables.filter(getOutgoingEdges(), AbstractRegion.IsNavigationEdgePredicate.INSTANCE);
return filter;
}
@Override
public @Nullable Node getNavigationTarget(@NonNull Property source2targetProperty) {
for (@NonNull Edge edge : getOutgoingEdges()) {
if (edge instanceof NavigableEdge) {
NavigableEdge navigationEdge = (NavigableEdge)edge;
if (navigationEdge.getProperty() == source2targetProperty) {
return navigationEdge.getTarget();
}
}
}
return null;
}
@Override
public @NonNull Iterable<@NonNull Node> getNavigationTargets() {
@NonNull Iterable<@NonNull Edge> filter = Iterables.filter(getOutgoingEdges(), AbstractRegion.IsNavigationEdgePredicate.INSTANCE);
@NonNull Iterable<@NonNull Node> transform = Iterables.transform(filter, AbstractRegion.EdgeTargetFunction.INSTANCE);
return transform;
}
@Override
public @NonNull NodeRole getNodeRole() {
return ClassUtil.nonNullState(nodeRole);
}
@Override
public final @NonNull List<@NonNull NodeConnection> getOutgoingConnections() {
return outgoingConnections != null ? outgoingConnections : SchedulerConstants.EMPTY_NODE_CONNECTION_LIST;
}
@Override
public final @NonNull List<@NonNull Edge> getOutgoingEdges() {
return outgoingEdges != null ? outgoingEdges : SchedulerConstants.EMPTY_EDGE_LIST;
}
@Override
public final @NonNull Iterable<@NonNull NodeConnection> getOutgoingPassedConnections() {
@NonNull Iterable<@NonNull NodeConnection> filter = Iterables.filter(getOutgoingConnections(), RootScheduledRegion.IsPassedBindingEdgePredicate.INSTANCE);
return filter;
}
@Override
public final @NonNull Iterable<@NonNull NodeConnection> getOutgoingUsedBindingEdges() {
@NonNull Iterable<@NonNull NodeConnection> filter = Iterables.filter(getOutgoingConnections(), RootScheduledRegion.IsUsedBindingEdgePredicate.INSTANCE);
return filter;
}
@Override
public @NonNull Iterable<@NonNull Node> getPassedBindingSources() {
List<@NonNull Node> sources = new ArrayList<@NonNull Node>();
NodeConnection connection = getIncomingPassedConnection();
if (connection != null) {
for (@NonNull Node source : connection.getSources()) {
if (!sources.contains(source)) {
sources.add(source);
}
}
}
return sources;
}
@Override
public @NonNull Iterable<@NonNull Node> getPassedBindingTargets() {
List<@NonNull Node> targets = new ArrayList<@NonNull Node>();
for (@NonNull NodeConnection connection : getOutgoingPassedConnections()) {
for (@NonNull Node target : connection.getTargetNodes()) {
if (!targets.contains(target)) {
targets.add(target);
}
}
}
return targets;
}
protected @NonNull Integer getPenwidth() {
return isHead() ? Role.HEAD_WIDTH : !isExpression() ? 2*Role.LINE_WIDTH : Role.LINE_WIDTH;
}
@Override
public final @Nullable Edge getPredicateEdge(@NonNull Property source2targetProperty) {
for (@NonNull Edge edge : getOutgoingEdges()) {
if (edge.isPredicated() && (edge instanceof NavigableEdge)) {
if (((NavigableEdge)edge).getProperty() == source2targetProperty) {
return edge;
}
}
}
return null;
}
@Override
public final @NonNull Iterable<@NonNull NavigableEdge> getPredicateEdges() {
@SuppressWarnings("unchecked")
Iterable<@NonNull NavigableEdge> filter = (Iterable<@NonNull NavigableEdge>)(Object)Iterables.filter(getOutgoingEdges(), AbstractRegion.IsPredicatedEdgePredicate.INSTANCE);
return filter;
}
@Override
public final @NonNull Iterable<@NonNull Edge> getRecursionEdges() {
@NonNull Iterable<@NonNull Edge> filter = Iterables.filter(getOutgoingEdges(), AbstractRegion.IsRecursionEdgePredicate.INSTANCE);
return filter;
}
@Override
public @NonNull Iterable<@NonNull Node> getRecursionSources() {
@NonNull Iterable<@NonNull Edge> filter = Iterables.filter(getIncomingEdges(), AbstractRegion.IsRecursionEdgePredicate.INSTANCE);
@NonNull Iterable<@NonNull Node> transform = Iterables.transform(filter, AbstractRegion.EdgeSourceFunction.INSTANCE);
return transform;
}
@Override
public @NonNull Iterable<@NonNull Node> getRecursionTargets() {
@NonNull Iterable<@NonNull Edge> filter = Iterables.filter(getOutgoingEdges(), AbstractRegion.IsRecursionEdgePredicate.INSTANCE);
@NonNull Iterable<@NonNull Node> transform = Iterables.transform(filter, AbstractRegion.EdgeTargetFunction.INSTANCE);
return transform;
}
@Override
public @NonNull Region getRegion() {
return ClassUtil.nonNullState(region);
}
@Override
public final @NonNull Iterable<@NonNull ? extends Edge> getResultEdges() {
@NonNull Iterable<@NonNull Edge> filter = Iterables.filter(getOutgoingEdges(), AbstractRegion.IsExpressionEdgePredicate.INSTANCE);
return filter;
}
@Override
public @NonNull SchedulerConstants getSchedulerConstants() {
assert region != null;
return region.getSchedulerConstants();
}
protected @Nullable String getShape() {
return null;
}
protected @Nullable String getStyle() {
// if (isNull()) {
// return "rounded";
// }
// if (isTrue() || getNodeRole().isExtraGuardVariable()) {
// return null;
// }
boolean isDashed = !isMatched(); //!isRequired() && (isExpression() || !isRealized());
if (isDataType()) {
return isDashed ? "\"rounded,dashed\"" : "rounded";
}
else {
return isDashed ? "dashed" : null;
}
}
@Override
public @NonNull Iterable<@NonNull TypedElement> getTypedElements() {
return typedElements;
}
@Override
public @NonNull Iterable<@NonNull Node> getUsedBindingSources() {
List<@NonNull Node> sources = new ArrayList<@NonNull Node>();
NodeConnection connection = getIncomingUsedConnection();
if (connection != null) {
for (@NonNull Node source : connection.getSources()) {
if (!sources.contains(source)) {
sources.add(source);
}
}
}
return sources;
}
protected void initialize(@NonNull NodeRole nodeRole, @NonNull Region region, @NonNull String name, @NonNull ClassDatumAnalysis classDatumAnalysis) {
this.nodeRole = nodeRole;
this.region = region;
this.name = name;
this.classDatumAnalysis = classDatumAnalysis;
this.isDataType = classDatumAnalysis.getCompleteClass().getPrimaryClass() instanceof DataType;
region.addNode(this);
}
@Override
public final boolean isClass() {
return !isDataType;
}
@Override
public boolean isComposed() {
return false;
}
@Override
public boolean isConstant() {
assert nodeRole != null;
return nodeRole.isConstant();
}
@Override
public final boolean isDataType() {
return isDataType;
}
@Override
public boolean isDependency() {
return false;
}
@Override
public boolean isExplicitNull() {
return false;
}
@Override
public boolean isExpression() {
return false;
}
@Override
public boolean isHead() {
return isHead;
}
@Override
public boolean isIterator() {
return false;
}
@Override
public boolean isLoaded() {
assert nodeRole != null;
return nodeRole.isLoaded();
}
@Override
public boolean isMatched() {
return false;
}
@Override
public boolean isNew() {
assert nodeRole != null;
return nodeRole.isNew();
}
@Override
public boolean isOld() {
assert nodeRole != null;
return nodeRole.isOld();
}
@Override
public boolean isOperation() {
return false;
}
@Override
public boolean isPattern() {
return false;
}
@Override
public boolean isPredicated() {
assert nodeRole != null;
if (nodeRole.isSpeculated()) {
assert nodeRole != null;
return nodeRole.isPredicated();
}
else {
assert nodeRole != null;
return nodeRole.isPredicated();
}
}
@Override
public boolean isRealized() {
assert nodeRole != null;
return nodeRole.isRealized();
}
@Override
public boolean isSpeculated() {
assert nodeRole != null;
return nodeRole.isSpeculated();
}
@Override
public boolean isSpeculation() {
assert nodeRole != null;
return nodeRole.isSpeculation();
}
@Override
public boolean isTrue() {
return false;
}
@Override
public boolean refineClassDatumAnalysis(@NonNull ClassDatumAnalysis newClassDatumAnalysis) {
ClassDatumAnalysis classDatumAnalysis2 = classDatumAnalysis;
assert classDatumAnalysis2 != null;
CompleteClass oldCompleteClass = classDatumAnalysis2.getCompleteClass();
CompleteClass newCompleteClass = newClassDatumAnalysis.getCompleteClass();
if (oldCompleteClass.conformsTo(newCompleteClass)) {
DomainUsageAnalysis.Root domainAnalysis = getSchedulerConstants().getDomainAnalysis();
DomainUsage.Internal oldDomainUsage = (DomainUsage.Internal) classDatumAnalysis2.getDomainUsage();
DomainUsage.Internal newDomainUsage = (DomainUsage.Internal) newClassDatumAnalysis.getDomainUsage();
int refinedBitMask = oldDomainUsage.getMask() & newDomainUsage.getMask();
DomainUsage refinedDomainUsage = domainAnalysis.getConstantUsage(refinedBitMask);
TypedModel refinedTypedModel = refinedDomainUsage.getTypedModel(oldCompleteClass);
assert refinedTypedModel != null;
classDatumAnalysis = getSchedulerConstants().getClassDatumAnalysis(oldCompleteClass, refinedTypedModel);
return true;
}
else if (newCompleteClass.conformsTo(oldCompleteClass)) {
DomainUsageAnalysis.Root domainAnalysis = getSchedulerConstants().getDomainAnalysis();
DomainUsage.Internal oldDomainUsage = (DomainUsage.Internal) classDatumAnalysis2.getDomainUsage();
DomainUsage.Internal newDomainUsage = (DomainUsage.Internal) newClassDatumAnalysis.getDomainUsage();
int refinedBitMask = oldDomainUsage.getMask() & newDomainUsage.getMask();
DomainUsage refinedDomainUsage = domainAnalysis.getConstantUsage(refinedBitMask);
TypedModel refinedTypedModel = refinedDomainUsage.getTypedModel(newCompleteClass);
assert refinedTypedModel != null;
classDatumAnalysis = getSchedulerConstants().getClassDatumAnalysis(newCompleteClass, refinedTypedModel);
return true;
}
else if (oldCompleteClass.getPrimaryClass().getESObject() == EcorePackage.Literals.EOBJECT) {
classDatumAnalysis = newClassDatumAnalysis;
return true;
}
else {
return false;
}
}
@Override
public final void removeIncomingConnection(@NonNull NodeConnection connection) {
assert Iterables.contains(connection.getTargetNodes(), this);
// assert edge.getRegion() == getRegion();
assert incomingConnection != null;
incomingConnection = null;
}
@Override
public final void removeIncomingEdge(@NonNull Edge edge) {
assert edge.getTarget() == this;
// assert edge.getRegion() == getRegion();
List<Edge> incomingEdges2 = incomingEdges;
assert incomingEdges2 != null;
boolean wasRemoved = incomingEdges2.remove(edge);
assert wasRemoved;
}
@Override
public final void removeOutgoingConnection(@NonNull NodeConnection connection) {
assert Iterables.contains(connection.getSources(), this);
// assert edge.getRegion() == getRegion();
List<NodeConnection> outgoingConnections2 = outgoingConnections;
assert outgoingConnections2 != null;
@SuppressWarnings("unused")
boolean wasRemoved = outgoingConnections2.remove(connection);
// assert wasRemoved;
}
@Override
public final void removeOutgoingEdge(@NonNull Edge edge) {
assert edge.getSource() == this;
// assert edge.getRegion() == getRegion();
List<Edge> outgoingEdges2 = outgoingEdges;
assert outgoingEdges2 != null;
boolean wasRemoved = outgoingEdges2.remove(edge);
assert wasRemoved;
}
@Override
public void resetHead() {
this.isHead = false;
}
@Override
public void setHead() {
this.isHead = true;
}
public void setLabel(@NonNull GraphStringBuilder s) {
StringBuilder n = new StringBuilder();
n.append(getName());
if (!isExplicitNull() && !isTrue()) {
n.append("\\n");
n.append(PrettyPrinter.printType(getCompleteClass().getPrimaryClass()));
}
@NonNull String string = n.toString();
s.setLabel(string);
}
@Override
public void toGraph(@NonNull GraphStringBuilder s) {
s.appendNode(this);
}
@Override
public @NonNull String toString() {
StringBuilder s = new StringBuilder();
s.append(getNodeRole().getPhase());
s.append("-");
s.append(getClass().getSimpleName().replace("Impl", ""));
s.append("(");
s.append(getName());
s.append(" : ");
s.append(String.valueOf(classDatumAnalysis));
s.append(")");
return s.toString();
}
}
|