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/*
* Copyright 2001-present Stephen Colebourne
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.joda.beans.gen;
import java.util.ArrayList;
import java.util.List;
import java.util.SortedSet;
import java.util.TreeSet;
/**
* A bean that can be generated.
*
* @author Stephen Colebourne
*/
class BeanData {
/** The list of current imports. */
private final SortedSet currentImports = new TreeSet<>();
/** The list of new imports. */
private final SortedSet newImports = new TreeSet<>();
/** The last import line. */
private int lastImportLine;
/** The bean style. */
private String beanStyle;
/** The bean meta scope. */
private String beanMetaScope;
/** The bean builder scope. */
private String beanBuilderScope;
/** The factory method name. */
private String factoryName;
/** Whether to cache the hash code. */
private boolean cacheHashCode;
/** Whether the class is immutable. */
private boolean immutable;
/** Whether the class can be constructed. */
private boolean constructable;
/** Whether the class has a manual constructor for immutable beans. */
private int immutableConstructor;
/** The method name of the immutable validator. */
private String immutableValidator;
/** The method name of the immutable defaults. */
private String immutableDefaults;
/** The method name of the immutable pre-build. */
private String immutablePreBuild;
/** The style of constructor to generate. */
private int constructorStyle;
/** The generated constructor scope. */
private String constructorScope;
/** The full type of the bean class. */
private String typeFull;
/** The simple name of the bean class. */
private String typeRaw;
/** The name clause of the generic. */
private String[] typeGenericName;
/** The extends clause of the generic. */
private String[] typeGenericExtends;
/** Whether the type is final with no subclasses. */
private boolean typeFinal;
/** The scope of the type. */
private String typeScope;
/** Whether the type is a root with no bean super-classes. */
private boolean root;
/** The full name of the bean superclass. */
private String superTypeFull;
/** The simple name of the bean superclass. */
private String superTypeRaw;
/** The generic argument of the bean superclass. */
private String superTypeGeneric;
/** The list of properties, in the order they are declared. */
private List properties = new ArrayList<>();
/** The serializable flag. */
private boolean serializable;
/** The manual serialization version id flag. */
private boolean manualSerVersionId;
/** Does the class have a manual clone. */
private boolean manualClone;
/** Does the class have a manual equals or hash code. */
private boolean manualEqualsHashCode;
/** Does the class have a manual toString. */
private boolean manualToStringCode;
/** The style for Object#clone */
private String cloneStyle;
/**
* Constructor.
*/
BeanData() {
}
/**
* Gets the current set of imports.
* @return the imports
*/
public SortedSet getCurrentImports() {
return currentImports;
}
/**
* Gets the new imports.
* @return the imports
*/
public SortedSet getNewImports() {
return newImports;
}
/**
* Ensures an import is present.
* @param cls the class, not null
*/
public void ensureImport(Class> cls) {
if (currentImports.contains(cls.getName()) == false) {
newImports.add(cls.getName());
}
}
/**
* Gets the import insert location.
* @return the insert location
*/
public int getImportInsertLocation() {
return lastImportLine;
}
/**
* Sets the import insert location.
* @param location the insert location
*/
public void setImportInsertLocation(int location) {
lastImportLine = location;
}
//-----------------------------------------------------------------------
/**
* Gets the bean style.
* @return the flag
*/
public String getBeanStyle() {
return beanStyle;
}
/**
* Sets the bean style.
* @param beanStyle the flag
*/
public void setBeanStyle(String beanStyle) {
this.beanStyle = beanStyle;
}
/**
* Resolves the bean style.
* @param defaultStyle the default style
*/
public void resolveBeanStyle(String defaultStyle) {
if ("smart".equals(beanStyle)) {
setBeanStyle(defaultStyle);
}
}
/**
* Is the bean style indicating that properties should be generated.
* @return the flag
*/
public boolean isBeanStyleValid() {
return "full".equals(beanStyle) || "smart".equals(beanStyle) ||
"minimal".equals(beanStyle) || "light".equals(beanStyle);
}
/**
* Is the bean style indicating that no meta and builder should be generated.
* @return the flag
*/
public boolean isBeanStyleLight() {
return "light".equals(beanStyle);
}
/**
* Is the bean style minimal.
* @return the flag
*/
public boolean isBeanStyleMinimal() {
return "minimal".equals(beanStyle);
}
/**
* Is the bean style indicating that no meta and builder should be generated.
* @return the flag
*/
public boolean isBeanStyleLightOrMinimal() {
return isBeanStyleLight() || isBeanStyleMinimal();
}
/**
* Is the bean style indicating that properties should be generated.
* @return the flag
*/
public boolean isBeanStyleGenerateProperties() {
return "full".equals(beanStyle) || ("smart".equals(beanStyle) && isImmutable() == false);
}
/**
* Is the bean style indicating that properties should be generated.
* @return the flag
*/
public boolean isBeanStyleGenerateMetaProperties() {
return ("full".equals(beanStyle) || "smart".equals(beanStyle)) && !isMetaScopePrivate();
}
//-----------------------------------------------------------------------
/**
* Gets the bean meta scope.
* @return the scope
*/
public String getBeanMetaScope() {
return beanMetaScope;
}
/**
* Sets the bean meta scope.
* @param metaScope the scope
*/
public void setBeanMetaScope(String metaScope) {
this.beanMetaScope = metaScope;
}
/**
* Is the meta scope valid.
* @return the flag
*/
public boolean isBeanMetaScopeValid() {
return "smart".equals(beanMetaScope) ||
"private".equals(beanMetaScope) ||
"package".equals(beanMetaScope) ||
"public".equals(beanMetaScope);
}
/**
* Gets the effective scope to use in the meta.
* @return the scope
*/
public String getEffectiveMetaScope() {
String scope = beanMetaScope;
if ("smart".equals(scope)) {
scope = typeScope;
}
return "package".equals(scope) ? "" : scope + " ";
}
/**
* Checks the meta-bean scope.
* @return the scope
*/
public boolean isMetaScopePrivate() {
return "private".equals(beanMetaScope) || isBeanStyleLight();
}
//-----------------------------------------------------------------------
/**
* Gets the bean builder scope.
* @return the scope
*/
public String getBeanBuilderScope() {
return beanBuilderScope;
}
/**
* Sets the bean builder scope.
* @param builderScope the scope
*/
public void setBeanBuilderScope(String builderScope) {
this.beanBuilderScope = builderScope;
}
/**
* Is the builder scope valid.
* @return the flag
*/
public boolean isBeanBuilderScopeValid() {
return "smart".equals(beanBuilderScope) ||
"private".equals(beanBuilderScope) ||
"package".equals(beanBuilderScope) ||
"public".equals(beanBuilderScope);
}
/**
* Gets the effective scope to use in the builder.
* @return the scope
*/
public String getEffectiveBuilderScope() {
String scope = beanBuilderScope;
if ("smart".equals(scope)) {
scope = typeScope;
}
return "package".equals(scope) ? "" : scope + " ";
}
/**
* Is the effective scope to use in the builder public.
* @return the scope
*/
public boolean isEffectiveBuilderScopeVisible() {
return ("smart".equals(beanBuilderScope) || "public".equals(beanBuilderScope) || "package".equals(beanBuilderScope)) &&
!isBeanStyleLight();
}
/**
* Is the scope to use in the builder public.
* @return the scope
*/
public boolean isBuilderScopeVisible() {
return "public".equals(beanBuilderScope) || "package".equals(beanBuilderScope);
}
/**
* Is the builder generated
* @return true if generated
*/
public boolean isSkipBuilderGeneration() {
return (isMutable() && isBuilderScopeVisible() == false) || isBeanStyleLight();
}
//-----------------------------------------------------------------------
/**
* Gets the factory name.
* @return the factory name
*/
public boolean isFactoryRequired() {
return factoryName.length() > 0;
}
/**
* Gets the factory name.
* @return the factory name
*/
public String getFactoryName() {
return factoryName;
}
/**
* Sets the factory name.
* @param name the factory name
*/
public void setFactoryName(String name) {
factoryName = name;
}
//-----------------------------------------------------------------------
/**
* Gets whether to cache the hash code.
* @return the flag
*/
public boolean isCacheHashCode() {
return cacheHashCode;
}
/**
* Sets whether to cache the hash code.
* @param cacheHashCode the flag
*/
public void setCacheHashCode(boolean cacheHashCode) {
this.cacheHashCode = cacheHashCode;
}
//-----------------------------------------------------------------------
/**
* Gets whether property change support is needed.
* @return the flag
*/
public boolean isPropertyChangeSupport() {
for (PropertyData prop : properties) {
if (prop.isBound()) {
return true;
}
}
return false;
}
//-----------------------------------------------------------------------
/**
* Gets whether the bean is immutable.
* @return the flag
*/
public boolean isImmutable() {
return immutable;
}
/**
* Gets whether the bean is mutable.
* @return the flag
*/
public boolean isMutable() {
return !immutable;
}
/**
* Sets whether the bean is immutable.
* @param immutable the flag
*/
public void setImmutable(boolean immutable) {
this.immutable = immutable;
}
/**
* Checks whether the bean can be constructed.
* @return the flag
*/
public boolean isConstructable() {
return constructable;
}
/**
* Sets whether the bean can be constructed.
* @param constructable the flag
*/
public void setConstructable(boolean constructable) {
this.constructable = constructable;
}
/**
* Gets whether the bean has a manual constructor to use.
* @return the flag, zero for none, one for builder based, two for argument based
*/
public int getImmutableConstructor() {
return immutableConstructor;
}
/**
* Sets whether the bean has a manual constructor to use.
* @param manualConstructor the flag
*/
public void setImmutableConstructor(int manualConstructor) {
this.immutableConstructor = manualConstructor;
}
/**
* Gets whether the bean has a validator.
* @return the method name
*/
public String getImmutableValidator() {
return immutableValidator;
}
/**
* Sets whether the bean has a validator.
* @param immutableValidator the method name
*/
public void setImmutableValidator(String immutableValidator) {
this.immutableValidator = immutableValidator;
}
/**
* Gets whether the bean has an apply defaults method.
* @return the method name
*/
public String getImmutableDefaults() {
return immutableDefaults;
}
/**
* Sets whether the bean has an apply defaults method.
* @param immutableDefaults the method name
*/
public void setImmutableDefaults(String immutableDefaults) {
this.immutableDefaults = immutableDefaults;
}
/**
* Gets whether the bean has a pre-build method.
* @return the method name
*/
public String getImmutablePreBuild() {
return immutablePreBuild;
}
/**
* Sets whether the bean has a pre-build method.
* @param immutablePreBuild the method name
*/
public void setImmutablePreBuild(String immutablePreBuild) {
this.immutablePreBuild = immutablePreBuild;
}
/**
* Gets the constructor style to generate.
* @return the flag, zero for none, one for builder based, two for argument based
*/
public int getConstructorStyle() {
return constructorStyle;
}
/**
* Sets the constructor style to generate.
* @param constructorStyle the constructor style
*/
public void setConstructorStyle(int constructorStyle) {
this.constructorStyle = constructorStyle;
}
/**
* Gets the constructor scope to generate.
* @return the scope
*/
public String getConstructorScope() {
return constructorScope;
}
/**
* Sets the constructor scope to generate.
* @param constructorScope the constructor scope
*/
public void setConstructorScope(String constructorScope) {
this.constructorScope = constructorScope;
}
/**
* Is the constructor scope valid.
* @return true if valid
*/
public boolean isConstructorScopeValid() {
return "smart".equals(constructorScope) ||
"private".equals(constructorScope) ||
"package".equals(constructorScope) ||
"protected".equals(constructorScope) ||
"public".equals(constructorScope) ||
"public@ConstructorProperties".equals(constructorScope);
}
/**
* Gets the effective scope to use in the constructor.
* @return the scope
*/
public String getEffectiveConstructorScope() {
if ("smart".equals(constructorScope)) {
return isTypeFinal() ? "private " : "protected ";
} else if ("package".equals(constructorScope)) {
return "";
} else if ("public@ConstructorProperties".equals(constructorScope)) {
return "public ";
}
return constructorScope + " ";
}
/**
* Checks if the scope indicates the need for the ConstructorProperties annotation.
* @return true if the annotation is needed
*/
public boolean isConstructorPropertiesAnnotation() {
return "public@ConstructorProperties".equals(constructorScope);
}
/**
* Checks whether the bean is serializable.
* @return the flag
*/
public boolean isSerializable() {
return serializable;
}
/**
* Sets whether the bean is serializable.
* @param serializable the flag
*/
public void setSerializable(boolean serializable) {
this.serializable = serializable;
}
/**
* Checks whether the bean has a manual serialization id.
* @return the flag
*/
public boolean isManualSerializationId() {
return manualSerVersionId;
}
/**
* Sets whether the bean has a manual serialization id.
* @param manualSerVersionId the flag
*/
public void setManualSerializationId(boolean manualSerVersionId) {
this.manualSerVersionId = manualSerVersionId;
}
/**
* Checks if the clone is manual.
* @return true if manual
*/
public boolean isManualClone() {
return manualClone;
}
/**
* Sets if the clone is manual.
* @param manualClone true if manual
*/
public void setManualClone(boolean manualClone) {
this.manualClone = manualClone;
}
/**
* Checks if the equals/hashCode is manual.
* @return true if manual
*/
public boolean isManualEqualsHashCode() {
return manualEqualsHashCode;
}
/**
* Sets if the equals/hashCode is manual.
* @param manualEqualsHashCode true if manual
*/
public void setManualEqualsHashCode(boolean manualEqualsHashCode) {
this.manualEqualsHashCode = manualEqualsHashCode;
}
/**
* Checks if the toString is manual.
* @return true if manual
*/
public boolean isManualToStringCode() {
return manualToStringCode;
}
/**
* Sets if the toString is manual.
* @param manualToStringCode true if manual
*/
public void setManualToStringCode(boolean manualToStringCode) {
this.manualToStringCode = manualToStringCode;
}
/**
* Gets the clone style.
* @return the clone style
*/
public String getCloneStyle() {
return cloneStyle;
}
/**
* Sets the clone style.
* @param cloneStyle the clone style
*/
public void setCloneStyle(String cloneStyle) {
this.cloneStyle = cloneStyle;
}
/**
* Is the clone style valid.
* @return true if valid
*/
public boolean isCloneStyleValid() {
return "smart".equals(cloneStyle) ||
"omit".equals(cloneStyle) ||
"generate".equals(cloneStyle);
}
/**
* Is the clone method to be skiped.
* @return true to generate
*/
public boolean isSkipCloneGeneration() {
return ("smart".equals(cloneStyle) && isImmutable()) || "omit".equals(cloneStyle);
}
/**
* Sets the bean type.
* @param parts the type to set
*/
public void setTypeParts(String[] parts) {
this.typeFinal = parts[0] != null;
this.typeScope = parts[1];
this.typeFull = parts[2];
this.typeRaw = parts[3];
if (parts[8] != null) {
this.typeGenericName = new String[] {parts[4], parts[6], parts[8]};
this.typeGenericExtends = new String[3];
this.typeGenericExtends[0] = parts[5] != null ? parts[5] : "";
this.typeGenericExtends[1] = parts[7] != null ? parts[7] : "";
this.typeGenericExtends[2] = parts[9] != null ? parts[9] : "";
} else if (parts[6] != null) {
this.typeGenericName = new String[] {parts[4], parts[6]};
this.typeGenericExtends = new String[2];
this.typeGenericExtends[0] = parts[5] != null ? parts[5] : "";
this.typeGenericExtends[1] = parts[7] != null ? parts[7] : "";
} else if (parts[4] != null) {
this.typeGenericName = new String[] {parts[4]};
this.typeGenericExtends = new String[1];
this.typeGenericExtends[0] = parts[5] != null ? parts[5] : "";
} else {
this.typeGenericName = new String[0];
this.typeGenericExtends = new String[0];
}
}
/**
* Sets the bean superclass type.
* @param parts the superclass to set
*/
public void setSuperTypeParts(String[] parts) {
if (parts.length == 1) {
this.root = true;
this.immutable = "ImmutableBean".equals(parts[0]);
this.superTypeFull = "";
this.superTypeRaw = "";
this.superTypeGeneric = "";
} else {
this.root = "DirectBean".equals(parts[0]);
this.immutable = false;
this.superTypeFull = parts[0];
this.superTypeRaw = parts[1];
if (parts[4] != null) {
this.superTypeGeneric = parts[2] + ", " + parts[3] + ", " + parts[4];
} else if (parts[3] != null) {
this.superTypeGeneric = parts[2] + ", " + parts[3];
} else if (parts[2] != null) {
this.superTypeGeneric = parts[2];
} else {
this.superTypeGeneric = "";
}
}
}
/**
* Gets the modifiable list of properties.
* @return the properties, not null
*/
public List getProperties() {
return properties;
}
/**
* Checks if the type is final.
* @return true if manual
*/
public boolean isTypeFinal() {
return typeFinal;
}
/**
* Sets if the type is final.
* @param typeFinal true if final, false if subclassable
*/
public void setTypeFinal(boolean typeFinal) {
this.typeFinal = typeFinal;
}
/**
* Gets the scope of the type.
* @return true if manual
*/
public String getTypeScope() {
return typeScope;
}
//-----------------------------------------------------------------------
/**
* Checks if this bean is a superclass.
* @return true if this is a subclass of another bean
*/
public boolean isSubClass() {
return !root;
}
/**
* Checks if this bean is the root class in a hierarchy.
* @return true if this is the root class with no bean superclasses
*/
public boolean isRootClass() {
return root;
}
/**
* Checks if this bean directly extends {@code DirectBean}.
* @return true if this extends DirectBean
*/
public boolean isExtendsDirectBean() {
return "DirectBean".equals(superTypeFull);
}
//-----------------------------------------------------------------------
/**
* Checks if the bean is parameterised with generics.
* @return true if generified
*/
public boolean isTypeGeneric() {
return typeGenericName.length > 0;
}
/**
* Gets the number of generic type parameters.
* @return zero if no type parameters, one or two if it has type parameters
*/
public int getTypeGenericCount() {
return typeGenericName.length;
}
/**
* Gets the bean type, such as '{@code Foo}'.
* @return the type
*/
public String getType() {
return typeFull;
}
/**
* Gets the parameterisation of the bean including extends clause, such as '{@code }'.
* @param includeBrackets whether to include the brackets
* @return the generic type, or a blank string if not generic, not null
*/
public String getTypeGeneric(boolean includeBrackets) {
if (isTypeGeneric() == false) {
return "";
}
String result = typeGenericName[0] + typeGenericExtends[0];
if (typeGenericExtends.length > 1) {
result += ", " + typeGenericName[1] + typeGenericExtends[1];
if (typeGenericExtends.length > 2) {
result += ", " + typeGenericName[2] + typeGenericExtends[2];
}
}
return includeBrackets && result.length() > 0 ? '<' + result + '>' : result;
}
/**
* Gets the name of the parameterisation of the bean, such as '{@code }'.
* @param includeBrackets whether to include the brackets
* @return the generic type name, or a blank string if not generic, not null
*/
public String getTypeGenericName(boolean includeBrackets) {
if (isTypeGeneric() == false) {
return "";
}
String result = typeGenericName[0];
if (typeGenericExtends.length > 1) {
result += ", " + typeGenericName[1];
if (typeGenericExtends.length > 2) {
result += ", " + typeGenericName[2];
}
}
return includeBrackets && result.length() > 0 ? '<' + result + '>' : result;
}
/**
* Gets the diamond operator if generic.
* @return the generic type name, or a blank string if not generic, not null
*/
public String getTypeGenericDiamond() {
return isTypeGeneric() ? "<>" : "";
}
/**
* Gets the type with the diamond operator if generic.
* @return the type name, with generic diamond if necessary, not null
*/
public String getTypeWithDiamond() {
return isTypeGeneric() ? getTypeRaw() + "<>" : getTypeRaw();
}
/**
* Gets the name of the parameterisation of the bean, such as '{@code }'.
* @param typeParamIndex the zero-based index of the type parameter
* @param includeBrackets whether to include brackets
* @return the generic type name, not null
*/
public String getTypeGenericName(int typeParamIndex, boolean includeBrackets) {
String result = typeGenericName[typeParamIndex];
return includeBrackets && result.length() > 0 ? '<' + result + '>' : result;
}
/**
* Gets the extends clause of the parameterisation of the bean, such as '{@code extends Foo}'.
* @param typeParamIndex the zero-based index of the type parameter
* @return the generic type extends clause, or a blank string if not generic or no extends, not null
*/
public String getTypeGenericErased(int typeParamIndex) {
String extend = typeGenericExtends[typeParamIndex];
return extend.startsWith(" extends ") ? extend.substring(9) : "Object";
}
/**
* Gets the extends clause of the parameterisation of the bean, such as '{@code extends Foo}'.
* @param typeParamIndex the zero-based index of the type parameter
* @return the generic type extends clause, or a blank string if not generic or no extends, not null
*/
public String getTypeGenericExtends(int typeParamIndex) {
return typeGenericExtends[typeParamIndex];
}
/**
* Gets the extends clause of the parameterisation of the bean, such as '{@code extends Foo}'.
* @param typeParamIndex the zero-based index of the type parameter
* @param typeParamNames the type parameter names
* @return the generic type extends clause, or a blank string if not generic or no extends, not null
*/
public String getTypeGenericExtends(int typeParamIndex, String[] typeParamNames) {
String genericClause = typeGenericExtends[typeParamIndex];
genericClause = genericClause.replace("<" + typeGenericName[typeParamIndex] + ">", "<" + typeParamNames[typeParamIndex] + ">");
for (int i = 0; i < typeGenericName.length; i++) {
genericClause = genericClause.replace("<" + typeGenericName[i] + ">", "<" + typeParamNames[i] + ">");
genericClause = genericClause.replace(" extends " + typeGenericName[i] + ">", " extends " + typeParamNames[i] + ">");
genericClause = genericClause.replace(" super " + typeGenericName[i] + ">", " super " + typeParamNames[i] + ">");
}
return genericClause;
}
/**
* Gets the full type of the bean with simple parameterization, such as '{@code Foo}'.
* @return the generic type extends clause, or a blank string if not generic or no extends, not null
*/
public String getTypeNoExtends() {
return typeRaw + getTypeGenericName(true);
}
/**
* Gets the raw type of the bean without generics, such as '{@code Foo}'.
* @return the raw type, not null
*/
public String getTypeRaw() {
return typeRaw;
}
/**
* Gets the full type of the bean with wildcarded parameterization, such as '{@code Foo>}'.
* @return the wildcarded type, not null
*/
public String getTypeWildcard() {
if (isTypeGeneric() == false) {
return typeRaw;
}
String result = "?";
if (typeGenericExtends.length > 1) {
result += ", ?";
if (typeGenericExtends.length > 2) {
result += ", ?";
}
}
return typeRaw + '<' + result + '>';
}
/**
* Checks if the type specified is one of the bean's type parameters.
* @param type the type
* @return true if a type parameter of this bean
*/
public boolean isTypeGenerifiedBy(String type) {
if (typeGenericName.length > 2 && typeGenericName[2].equals(type)) {
return true;
}
if (typeGenericName.length > 1 && typeGenericName[1].equals(type)) {
return true;
}
if (typeGenericName.length > 0 && typeGenericName[0].equals(type)) {
return true;
}
return false;
}
//-----------------------------------------------------------------------
/**
* Checks if the super bean is parameterised with generics.
* @return true if generified
*/
public boolean isSuperTypeGeneric() {
return superTypeGeneric.length() > 0;
}
/**
* Gets the bean superclass type.
* @return the superclass
*/
public String getSuperType() {
return superTypeFull;
}
/**
* Gets the parameterisation of the super bean.
* @param includeBrackets whether to include the brackets
* @return the generic type, or a blank string if not generic, not null
*/
public String getSuperTypeGeneric(boolean includeBrackets) {
return includeBrackets && superTypeGeneric.length() > 0 ? '<' + superTypeGeneric + '>' : superTypeGeneric;
}
/**
* Gets the raw type of the super bean without generics.
* @return the raw type, not null
*/
public String getSuperTypeRaw() {
return superTypeRaw;
}
/**
* Checks if any property is validated.
* @return true if validated
*/
public boolean isValidated() {
for (PropertyData property : properties) {
if (property.isValidated()) {
return true;
}
}
return false;
}
/**
* Gets the scope of nested Meta and Builder classes.
* @return the scope, not null
*/
public String getNestedClassConstructorScope() {
return (isTypeFinal() ? "private" : "protected");
}
}