import java.util.Map
import java.util.Set
import java.util.regex.Pattern
+import org.opendaylight.mdsal.binding.model.api.AnnotationType
import org.opendaylight.mdsal.binding.model.api.GeneratedProperty
import org.opendaylight.mdsal.binding.model.api.GeneratedTransferObject
import org.opendaylight.mdsal.binding.model.api.GeneratedType
*/
public static val BUILDER = "Builder";
+ static val AUGMENTATION_FIELD_UPPER = AUGMENTATION_FIELD.toFirstUpper
+ static val SUPPRESS_WARNINGS = JavaTypeName.create(SuppressWarnings)
+
/**
* Constructs new instance of this class.
* @throws IllegalArgumentException if <code>genType</code> equals <code>null</code>
* @return string with JAVA source code
*/
override body() '''
- «wrapToDocumentation(formatDataForJavaDoc(type))»
+ «wrapToDocumentation(formatDataForJavaDoc(targetType))»
+ «targetType.annotations.generateDeprecatedAnnotation»
public class «type.name» implements «Builder.importedName»<«targetType.importedName»> {
«generateFields(false)»
}
'''
+ override generateDeprecatedAnnotation(AnnotationType ann) {
+ val forRemoval = ann.getParameter("forRemoval")
+ if (forRemoval !== null) {
+ return "@" + DEPRECATED.importedName + "(forRemoval = " + forRemoval.value + ")"
+ }
+ return "@" + SUPPRESS_WARNINGS.importedName + "(\"deprecation\")"
+ }
+
/**
* Generate default constructor and constructor for every implemented interface from uses statements.
*/
«val cValue = c.value as Map<String, String>»
«val String fieldSuffix = c.getName.substring(TypeConstants.PATTERN_CONSTANT_NAME.length)»
«IF cValue.size == 1»
- private static final «Pattern.importedName» «Constants.MEMBER_PATTERN_LIST»«fieldSuffix» = «Pattern.importedName».compile("«cValue.keySet.get(0).escapeJava»");
- private static final String «Constants.MEMBER_REGEX_LIST»«fieldSuffix» = "«cValue.values.get(0).escapeJava»";
+ «val firstEntry = cValue.entrySet.iterator.next»
+ private static final «Pattern.importedName» «Constants.MEMBER_PATTERN_LIST»«fieldSuffix» = «Pattern.importedName».compile("«firstEntry.key.escapeJava»");
+ private static final String «Constants.MEMBER_REGEX_LIST»«fieldSuffix» = "«firstEntry.value.escapeJava»";
«ELSE»
private static final «Pattern.importedName»[] «Constants.MEMBER_PATTERN_LIST»«fieldSuffix» = «CodeHelpers.importedName».compilePatterns(«ImmutableList.importedName».of(
«FOR v : cValue.keySet SEPARATOR ", "»"«v.escapeJava»"«ENDFOR»));
«ENDFOR»
'''
+ def private generateSetter(GeneratedProperty field) {
+ val returnType = field.returnType
+ if (returnType instanceof ParameterizedType) {
+ if (Types.isListType(returnType)) {
+ return generateListSetter(field, returnType.actualTypeArguments.get(0))
+ }
+ }
+ return generateSimpleSetter(field, returnType)
+ }
+
def private generateListSetter(GeneratedProperty field, Type actualType) '''
«val restrictions = restrictionsForSetter(actualType)»
«IF restrictions !== null»
'''
- def private generateSetter(GeneratedProperty field, Type actualType) '''
+ def private generateSimpleSetter(GeneratedProperty field, Type actualType) '''
«val restrictions = restrictionsForSetter(actualType)»
«IF restrictions !== null»
«generateCheckers(field, restrictions, actualType)»
}
'''
- private def Type getActualType(ParameterizedType ptype) {
- return ptype.getActualTypeArguments.get(0)
- }
-
/**
* Template method which generates setter methods
*
}
«ENDIF»
«FOR property : properties»
- «IF property.returnType instanceof ParameterizedType && Types.isListType(property.returnType)»
- «generateListSetter(property, getActualType(property.returnType as ParameterizedType))»
- «ELSE»
- «generateSetter(property, property.returnType)»
- «ENDIF»
+ «generateSetter(property)»
«ENDFOR»
«IF augmentType !== null»
- public «type.name» add«AUGMENTATION_FIELD.toFirstUpper»(«Class.importedName»<? extends «augmentType.importedName»> augmentationType, «augmentType.importedName» augmentationValue) {
+ «val augmentTypeRef = augmentType.importedName»
+ public «type.name» add«AUGMENTATION_FIELD_UPPER»(«Class.importedName»<? extends «augmentTypeRef»> augmentationType, «augmentTypeRef» augmentationValue) {
if (augmentationValue == null) {
- return remove«AUGMENTATION_FIELD.toFirstUpper»(augmentationType);
+ return remove«AUGMENTATION_FIELD_UPPER»(augmentationType);
}
if (!(this.«AUGMENTATION_FIELD» instanceof «HashMap.importedName»)) {
return this;
}
- public «type.name» remove«AUGMENTATION_FIELD.toFirstUpper»(«Class.importedName»<? extends «augmentType.importedName»> augmentationType) {
+ public «type.name» remove«AUGMENTATION_FIELD_UPPER»(«Class.importedName»<? extends «augmentTypeRef»> augmentationType) {
if (this.«AUGMENTATION_FIELD» instanceof «HashMap.importedName») {
this.«AUGMENTATION_FIELD».remove(augmentationType);
}
«ENDIF»
'''
- private def createDescription(GeneratedType type) {
+ private def createDescription(GeneratedType targetType) {
+ val target = type.importedName
return '''
- Class that builds {@link «type.importedName»} instances.
-
- @see «type.importedName»
+ Class that builds {@link «target»} instances. Overall design of the class is that of a
+ <a href="https://en.wikipedia.org/wiki/Fluent_interface">fluent interface</a>, where method chaining is used.
+
+ <p>
+ In general, this class is supposed to be used like this template:
+ <pre>
+ <code>
+ «target» createTarget(int fooXyzzy, int barBaz) {
+ return new «target»Builder()
+ .setFoo(new FooBuilder().setXyzzy(fooXyzzy).build())
+ .setBar(new BarBuilder().setBaz(barBaz).build())
+ .build();
+ }
+ </code>
+ </pre>
+
+ <p>
+ This pattern is supported by the immutable nature of «target», as instances can be freely passed around without
+ worrying about synchronization issues.
+
+ <p>
+ As a side note: method chaining results in:
+ <ul>
+ <li>very efficient Java bytecode, as the method invocation result, in this case the Builder reference, is
+ on the stack, so further method invocations just need to fill method arguments for the next method
+ invocation, which is terminated by {@link #build()}, which is then returned from the method</li>
+ <li>better understanding by humans, as the scope of mutable state (the builder) is kept to a minimum and is
+ very localized</li>
+ <li>better optimization oportunities, as the object scope is minimized in terms of invocation (rather than
+ method) stack, making <a href="https://en.wikipedia.org/wiki/Escape_analysis">escape analysis</a> a lot
+ easier. Given enough compiler (JIT/AOT) prowess, the cost of th builder object can be completely
+ eliminated</li>
+ </ul>
+
+ @see «target»
+ @see «Builder.importedName»
'''
}
}
private def generateAugmentation() '''
- @«SuppressWarnings.importedName»({ "unchecked", "checkstyle:methodTypeParameterName"})
+ @«SUPPRESS_WARNINGS.importedName»({ "unchecked", "checkstyle:methodTypeParameterName"})
public <E$$ extends «augmentType.importedName»> E$$ «AUGMENTABLE_AUGMENTATION_NAME»(«Class.importedName»<E$$> augmentationType) {
return (E$$) «AUGMENTATION_FIELD».get(«CodeHelpers.importedName».nonNullValue(augmentationType, "augmentationType"));
}