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An annotation processor for generating type-safe bean mappers
/*
* Copyright MapStruct Authors.
*
* Licensed under the Apache License version 2.0, available at http://www.apache.org/licenses/LICENSE-2.0
*/
package org.mapstruct.ap.internal.model;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import javax.lang.model.element.TypeElement;
import javax.lang.model.type.TypeMirror;
import org.mapstruct.ap.internal.gem.BeanMappingGem;
import org.mapstruct.ap.internal.model.common.Parameter;
import org.mapstruct.ap.internal.model.common.Type;
import org.mapstruct.ap.internal.model.source.EnumMappingOptions;
import org.mapstruct.ap.internal.model.source.Method;
import org.mapstruct.ap.internal.model.source.SelectionParameters;
import org.mapstruct.ap.internal.model.source.ValueMappingOptions;
import org.mapstruct.ap.internal.util.Message;
import org.mapstruct.ap.internal.util.Strings;
import org.mapstruct.ap.internal.util.TypeUtils;
import org.mapstruct.ap.spi.EnumTransformationStrategy;
import static org.mapstruct.ap.internal.gem.MappingConstantsGem.ANY_REMAINING;
import static org.mapstruct.ap.internal.gem.MappingConstantsGem.ANY_UNMAPPED;
import static org.mapstruct.ap.internal.gem.MappingConstantsGem.NULL;
import static org.mapstruct.ap.internal.gem.MappingConstantsGem.THROW_EXCEPTION;
import static org.mapstruct.ap.internal.util.Collections.first;
/**
* A {@link ValueMappingMethod} which maps one value type to another, optionally configured by one or more
* {@link ValueMappingOptions}s. For now, only enum-to-enum mapping is supported.
*
* @author Sjaak Derksen
*/
public class ValueMappingMethod extends MappingMethod {
private final List valueMappings;
private final MappingEntry defaultTarget;
private final MappingEntry nullTarget;
private final Type unexpectedValueMappingException;
private final boolean overridden;
public static class Builder {
private Method method;
private MappingBuilderContext ctx;
private ValueMappings valueMappings;
private EnumMappingOptions enumMapping;
private EnumTransformationStrategyInvoker enumTransformationInvoker;
private boolean enumTransformationIllegalReported = false;
public Builder mappingContext(MappingBuilderContext mappingContext) {
this.ctx = mappingContext;
return this;
}
public Builder method(Method sourceMethod) {
this.method = sourceMethod;
return this;
}
public Builder valueMappings(List valueMappings) {
this.valueMappings = new ValueMappings( valueMappings );
return this;
}
public Builder enumMapping(EnumMappingOptions enumMapping) {
this.enumMapping = enumMapping;
return this;
}
public ValueMappingMethod build() {
if ( !enumMapping.isValid() ) {
return null;
}
initializeEnumTransformationStrategy();
// initialize all relevant parameters
List mappingEntries = new ArrayList<>();
Type sourceType = first( method.getSourceParameters() ).getType();
Type targetType = method.getResultType();
if ( targetType.isEnumType() && valueMappings.nullTarget == null ) {
// If null target is not set it means that the user has not explicitly defined a mapping for null
valueMappings.nullValueTarget = ctx.getEnumMappingStrategy()
.getDefaultNullEnumConstant( targetType.getTypeElement() );
}
// enum-to-enum
if ( sourceType.isEnumType() && targetType.isEnumType() ) {
mappingEntries.addAll( enumToEnumMapping( method, sourceType, targetType ) );
}
else if ( sourceType.isEnumType() && targetType.isString() ) {
mappingEntries.addAll( enumToStringMapping( method, sourceType ) );
}
else if ( sourceType.isString() && targetType.isEnumType() ) {
mappingEntries.addAll( stringToEnumMapping( method, targetType ) );
}
// do before / after lifecycle mappings
SelectionParameters selectionParameters = getSelectionParameters( method, ctx.getTypeUtils() );
Set existingVariables = new HashSet<>( method.getParameterNames() );
List beforeMappingMethods =
LifecycleMethodResolver.beforeMappingMethods( method, selectionParameters, ctx, existingVariables );
List afterMappingMethods =
LifecycleMethodResolver.afterMappingMethods( method, selectionParameters, ctx, existingVariables );
// finally return a mapping
return new ValueMappingMethod( method,
mappingEntries,
valueMappings.nullValueTarget,
valueMappings.defaultTargetValue,
determineUnexpectedValueMappingException(),
beforeMappingMethods,
afterMappingMethods
);
}
private void initializeEnumTransformationStrategy() {
if ( !enumMapping.hasNameTransformationStrategy() ) {
enumTransformationInvoker = EnumTransformationStrategyInvoker.DEFAULT;
}
else {
Map enumTransformationStrategies =
ctx.getEnumTransformationStrategies();
String nameTransformationStrategy = enumMapping.getNameTransformationStrategy();
if ( enumTransformationStrategies.containsKey( nameTransformationStrategy ) ) {
enumTransformationInvoker = new EnumTransformationStrategyInvoker( enumTransformationStrategies.get(
nameTransformationStrategy ), enumMapping.getNameTransformationConfiguration() );
}
}
}
private String transform(String source) {
try {
return enumTransformationInvoker.transform( source );
}
catch ( IllegalArgumentException ex ) {
if ( !enumTransformationIllegalReported ) {
enumTransformationIllegalReported = true;
ctx.getMessager().printMessage(
method.getExecutable(),
enumMapping.getMirror(),
Message.ENUMMAPPING_ILLEGAL_TRANSFORMATION,
enumTransformationInvoker.transformationStrategy.getStrategyName(),
ex.getMessage()
);
}
return source;
}
}
private List enumToEnumMapping(Method method, Type sourceType, Type targetType ) {
List mappings = new ArrayList<>();
List unmappedSourceConstants = new ArrayList<>( sourceType.getEnumConstants() );
boolean sourceErrorOccurred = !reportErrorIfMappedSourceEnumConstantsDontExist( method, sourceType );
boolean targetErrorOccurred = !reportErrorIfMappedTargetEnumConstantsDontExist( method, targetType );
if ( sourceErrorOccurred || targetErrorOccurred ) {
return mappings;
}
// Start to fill the mappings with the defined value mappings
for ( ValueMappingOptions valueMapping : valueMappings.regularValueMappings ) {
mappings.add( new MappingEntry( valueMapping.getSource(), valueMapping.getTarget() ) );
unmappedSourceConstants.remove( valueMapping.getSource() );
}
// add mappings based on name
if ( !valueMappings.hasMapAnyUnmapped ) {
// We store the target constants in a map in order to support inherited inverse mapping
// When using a nameTransformationStrategy the transformation should be done on the target enum
// instead of the source enum
Map targetConstants = new LinkedHashMap<>();
boolean enumMappingInverse = enumMapping.isInverse();
TypeElement targetTypeElement = method.getReturnType().getTypeElement();
for ( String targetEnumConstant : method.getReturnType().getEnumConstants() ) {
String targetNameEnum = getEnumConstant( targetTypeElement, targetEnumConstant );
if ( enumMappingInverse ) {
// If the mapping is inverse we have to change the target enum constant
targetConstants.put(
transform( targetNameEnum ),
targetEnumConstant
);
}
else {
targetConstants.put( targetNameEnum, targetEnumConstant );
}
}
TypeElement sourceTypeElement = sourceType.getTypeElement();
for ( String sourceConstant : new ArrayList<>( unmappedSourceConstants ) ) {
String sourceNameConstant = getEnumConstant( sourceTypeElement, sourceConstant );
String targetConstant;
if ( !enumMappingInverse ) {
targetConstant = transform( sourceNameConstant );
}
else {
targetConstant = sourceNameConstant;
}
if ( targetConstants.containsKey( targetConstant ) ) {
mappings.add( new MappingEntry( sourceConstant, targetConstants.get( targetConstant ) ) );
unmappedSourceConstants.remove( sourceConstant );
}
else if ( NULL.equals( targetConstant ) ) {
mappings.add( new MappingEntry( sourceConstant, null ) );
unmappedSourceConstants.remove( sourceConstant );
}
}
if ( valueMappings.defaultTarget == null && !unmappedSourceConstants.isEmpty() ) {
String sourceErrorMessage = "source";
String targetErrorMessage = "target";
if ( method instanceof ForgedMethod && ( (ForgedMethod) method ).getHistory() != null ) {
ForgedMethodHistory history = ( (ForgedMethod) method ).getHistory();
sourceErrorMessage = history.createSourcePropertyErrorMessage();
targetErrorMessage =
"\"" + history.getTargetType().describe() + " " + history.createTargetPropertyName() + "\"";
}
// all sources should now be matched, there's no default to fall back to, so if sources remain,
// we have an issue.
ctx.getMessager().printMessage( method.getExecutable(),
Message.VALUEMAPPING_UNMAPPED_SOURCES,
sourceErrorMessage,
targetErrorMessage,
Strings.join( unmappedSourceConstants, ", " )
);
}
}
return mappings;
}
private List enumToStringMapping(Method method, Type sourceType ) {
List mappings = new ArrayList<>();
List unmappedSourceConstants = new ArrayList<>( sourceType.getEnumConstants() );
boolean sourceErrorOccurred = !reportErrorIfMappedSourceEnumConstantsDontExist( method, sourceType );
boolean anyRemainingUsedError = !reportErrorIfSourceEnumConstantsContainsAnyRemaining( method );
if ( sourceErrorOccurred || anyRemainingUsedError ) {
return mappings;
}
// Start to fill the mappings with the defined valuemappings
for ( ValueMappingOptions valueMapping : valueMappings.regularValueMappings ) {
mappings.add( new MappingEntry( valueMapping.getSource(), valueMapping.getTarget() ) );
unmappedSourceConstants.remove( valueMapping.getSource() );
}
// add mappings based on name
if ( !valueMappings.hasMapAnyUnmapped ) {
TypeElement sourceTypeElement = sourceType.getTypeElement();
// all remaining constants are mapped
for ( String sourceConstant : unmappedSourceConstants ) {
String sourceNameConstant = getEnumConstant( sourceTypeElement, sourceConstant );
String targetConstant = transform( sourceNameConstant );
mappings.add( new MappingEntry( sourceConstant, targetConstant ) );
}
}
return mappings;
}
private List stringToEnumMapping(Method method, Type targetType ) {
List mappings = new ArrayList<>();
List unmappedSourceConstants = new ArrayList<>( targetType.getEnumConstants() );
boolean sourceErrorOccurred = !reportErrorIfMappedTargetEnumConstantsDontExist( method, targetType );
reportWarningIfAnyRemainingOrAnyUnMappedMissing( method );
if ( sourceErrorOccurred ) {
return mappings;
}
Set mappedSources = new LinkedHashSet<>();
// Start to fill the mappings with the defined valuemappings
for ( ValueMappingOptions valueMapping : valueMappings.regularValueMappings ) {
mappedSources.add( valueMapping.getSource() );
mappings.add( new MappingEntry( valueMapping.getSource(), valueMapping.getTarget() ) );
unmappedSourceConstants.remove( valueMapping.getSource() );
}
// add mappings based on name
if ( !valueMappings.hasMapAnyUnmapped ) {
mappedSources.add( NULL );
TypeElement targetTypeElement = targetType.getTypeElement();
// all remaining constants are mapped
for ( String sourceConstant : unmappedSourceConstants ) {
String sourceNameConstant = getEnumConstant( targetTypeElement, sourceConstant );
String stringConstant = transform( sourceNameConstant );
if ( !mappedSources.contains( stringConstant ) ) {
mappings.add( new MappingEntry( stringConstant, sourceConstant ) );
}
}
}
return mappings;
}
private String getEnumConstant(TypeElement typeElement, String enumConstant) {
return ctx.getEnumMappingStrategy().getEnumConstant( typeElement, enumConstant );
}
private SelectionParameters getSelectionParameters(Method method, TypeUtils typeUtils) {
BeanMappingGem beanMapping = BeanMappingGem.instanceOn( method.getExecutable() );
if ( beanMapping != null ) {
List qualifiers = beanMapping.qualifiedBy().get();
List qualifyingNames = beanMapping.qualifiedByName().get();
TypeMirror resultType = beanMapping.resultType().get();
return new SelectionParameters( qualifiers, qualifyingNames, resultType, typeUtils );
}
return null;
}
private boolean reportErrorIfMappedSourceEnumConstantsDontExist(Method method, Type sourceType) {
List sourceEnumConstants = sourceType.getEnumConstants();
boolean foundIncorrectMapping = false;
for ( ValueMappingOptions mappedConstant : valueMappings.regularValueMappings ) {
if ( !enumMapping.isInverse() && THROW_EXCEPTION.equals( mappedConstant.getSource() ) ) {
ctx.getMessager().printMessage(
method.getExecutable(),
mappedConstant.getMirror(),
mappedConstant.getSourceAnnotationValue(),
Message.VALUEMAPPING_THROW_EXCEPTION_SOURCE
);
foundIncorrectMapping = true;
}
else if ( !sourceEnumConstants.contains( mappedConstant.getSource() ) ) {
ctx.getMessager().printMessage(
method.getExecutable(),
mappedConstant.getMirror(),
mappedConstant.getSourceAnnotationValue(),
Message.VALUEMAPPING_NON_EXISTING_CONSTANT,
mappedConstant.getSource(),
sourceType
);
foundIncorrectMapping = true;
}
}
return !foundIncorrectMapping;
}
private boolean reportErrorIfSourceEnumConstantsContainsAnyRemaining(Method method) {
boolean foundIncorrectMapping = false;
if ( valueMappings.hasMapAnyRemaining ) {
ctx.getMessager().printMessage(
method.getExecutable(),
valueMappings.defaultTarget.getMirror(),
valueMappings.defaultTarget.getSourceAnnotationValue(),
Message.VALUEMAPPING_ANY_REMAINING_FOR_NON_ENUM,
method.getResultType()
);
foundIncorrectMapping = true;
}
return !foundIncorrectMapping;
}
private void reportWarningIfAnyRemainingOrAnyUnMappedMissing(Method method) {
if ( !( valueMappings.hasMapAnyUnmapped || valueMappings.hasMapAnyRemaining ) ) {
ctx.getMessager().printMessage(
method.getExecutable(),
Message.VALUEMAPPING_ANY_REMAINING_OR_UNMAPPED_MISSING
);
}
}
private boolean reportErrorIfMappedTargetEnumConstantsDontExist(Method method, Type targetType) {
List targetEnumConstants = targetType.getEnumConstants();
boolean foundIncorrectMapping = false;
for ( ValueMappingOptions mappedConstant : valueMappings.regularValueMappings ) {
if ( !NULL.equals( mappedConstant.getTarget() )
&& !THROW_EXCEPTION.equals( mappedConstant.getTarget() )
&& !targetEnumConstants.contains( mappedConstant.getTarget() ) ) {
ctx.getMessager().printMessage(
method.getExecutable(),
mappedConstant.getMirror(),
mappedConstant.getTargetAnnotationValue(),
Message.VALUEMAPPING_NON_EXISTING_CONSTANT,
mappedConstant.getTarget(),
method.getReturnType()
);
foundIncorrectMapping = true;
}
}
if ( valueMappings.defaultTarget != null
&& !THROW_EXCEPTION.equals( valueMappings.defaultTarget.getTarget() )
&& !NULL.equals( valueMappings.defaultTarget.getTarget() )
&& !targetEnumConstants.contains( valueMappings.defaultTarget.getTarget() ) ) {
ctx.getMessager().printMessage(
method.getExecutable(),
valueMappings.defaultTarget.getMirror(),
valueMappings.defaultTarget.getTargetAnnotationValue(),
Message.VALUEMAPPING_NON_EXISTING_CONSTANT,
valueMappings.defaultTarget.getTarget(),
method.getReturnType()
);
foundIncorrectMapping = true;
}
if ( valueMappings.nullTarget != null && NULL.equals( valueMappings.nullTarget.getTarget() )
&& !targetEnumConstants.contains( valueMappings.nullTarget.getTarget() ) ) {
ctx.getMessager().printMessage( method.getExecutable(),
valueMappings.nullTarget.getMirror(),
valueMappings.nullTarget.getTargetAnnotationValue(),
Message.VALUEMAPPING_NON_EXISTING_CONSTANT,
valueMappings.nullTarget.getTarget(),
method.getReturnType()
);
foundIncorrectMapping = true;
}
else if ( valueMappings.nullTarget == null && valueMappings.nullValueTarget != null
&& !valueMappings.nullValueTarget.equals( THROW_EXCEPTION )
&& !targetEnumConstants.contains( valueMappings.nullValueTarget ) ) {
// if there is no nullTarget, but nullValueTarget has a value it means that there was an SPI
// which returned an enum for the target enum
ctx.getMessager().printMessage(
method.getExecutable(),
Message.VALUEMAPPING_NON_EXISTING_CONSTANT_FROM_SPI,
valueMappings.nullValueTarget,
method.getReturnType(),
ctx.getEnumMappingStrategy()
);
}
return !foundIncorrectMapping;
}
private Type determineUnexpectedValueMappingException() {
TypeMirror unexpectedValueMappingException = enumMapping.getUnexpectedValueMappingException();
if ( unexpectedValueMappingException != null ) {
return ctx.getTypeFactory().getType( unexpectedValueMappingException );
}
return ctx.getTypeFactory()
.getType( ctx.getEnumMappingStrategy().getUnexpectedValueMappingExceptionType() );
}
}
private static class EnumTransformationStrategyInvoker {
private static final EnumTransformationStrategyInvoker DEFAULT = new EnumTransformationStrategyInvoker(
null,
null
);
private final EnumTransformationStrategy transformationStrategy;
private final String configuration;
private EnumTransformationStrategyInvoker(
EnumTransformationStrategy transformationStrategy, String configuration) {
this.transformationStrategy = transformationStrategy;
this.configuration = configuration;
}
private String transform(String source) {
if ( transformationStrategy == null ) {
return source;
}
return transformationStrategy.transform( source, configuration );
}
}
private static class ValueMappings {
List regularValueMappings = new ArrayList<>();
ValueMappingOptions defaultTarget = null;
String defaultTargetValue = null;
ValueMappingOptions nullTarget = null;
String nullValueTarget = null;
boolean hasMapAnyUnmapped = false;
boolean hasMapAnyRemaining = false;
boolean hasDefaultValue = false;
boolean hasAtLeastOneExceptionValue = false;
ValueMappings(List valueMappings) {
for ( ValueMappingOptions valueMapping : valueMappings ) {
if ( ANY_REMAINING.equals( valueMapping.getSource() ) ) {
defaultTarget = valueMapping;
defaultTargetValue = defaultTarget.getTarget();
hasDefaultValue = true;
hasMapAnyRemaining = true;
}
else if ( ANY_UNMAPPED.equals( valueMapping.getSource() ) ) {
defaultTarget = valueMapping;
defaultTargetValue = defaultTarget.getTarget();
hasDefaultValue = true;
hasMapAnyUnmapped = true;
}
else if ( NULL.equals( valueMapping.getSource() ) ) {
nullTarget = valueMapping;
nullValueTarget = getValue( nullTarget );
}
else {
regularValueMappings.add( valueMapping );
}
if ( THROW_EXCEPTION.equals( valueMapping.getTarget() ) ) {
hasAtLeastOneExceptionValue = true;
}
}
}
String getValue(ValueMappingOptions valueMapping) {
return NULL.equals( valueMapping.getTarget() ) ? null : valueMapping.getTarget();
}
}
private ValueMappingMethod(Method method,
List enumMappings,
String nullTarget,
String defaultTarget,
Type unexpectedValueMappingException,
List beforeMappingMethods,
List afterMappingMethods) {
super( method, beforeMappingMethods, afterMappingMethods );
this.valueMappings = enumMappings;
this.nullTarget = new MappingEntry( null, nullTarget );
this.defaultTarget = new MappingEntry( null, defaultTarget != null ? defaultTarget : THROW_EXCEPTION);
this.unexpectedValueMappingException = unexpectedValueMappingException;
this.overridden = method.overridesMethod();
}
@Override
public Set getImportTypes() {
Set importTypes = super.getImportTypes();
if ( unexpectedValueMappingException != null && !unexpectedValueMappingException.isJavaLangType() ) {
if ( defaultTarget.isTargetAsException() || nullTarget.isTargetAsException() ||
hasMappingWithTargetAsException() ) {
importTypes.addAll( unexpectedValueMappingException.getImportTypes() );
}
}
return importTypes;
}
protected boolean hasMappingWithTargetAsException() {
return getValueMappings()
.stream()
.anyMatch( MappingEntry::isTargetAsException );
}
public List getValueMappings() {
return valueMappings;
}
public MappingEntry getDefaultTarget() {
return defaultTarget;
}
public MappingEntry getNullTarget() {
return nullTarget;
}
public Type getUnexpectedValueMappingException() {
return unexpectedValueMappingException;
}
public Parameter getSourceParameter() {
return first( getSourceParameters() );
}
public boolean isOverridden() {
return overridden;
}
public static class MappingEntry {
private final String source;
private final String target;
private boolean targetAsException = false;
MappingEntry(String source, String target) {
this.source = source;
if ( !NULL.equals( target ) ) {
this.target = target;
if ( THROW_EXCEPTION.equals( target ) ) {
this.targetAsException = true;
}
}
else {
this.target = null;
}
}
public boolean isTargetAsException() {
return targetAsException;
}
public String getSource() {
return source;
}
public String getTarget() {
return target;
}
}
}