2 * Copyright (c) 2013 Cisco Systems, Inc. and others. All rights reserved.
\r
4 * This program and the accompanying materials are made available under the
\r
5 * terms of the Eclipse Public License v1.0 which accompanies this distribution,
\r
6 * and is available at http://www.eclipse.org/legal/epl-v10.html
\r
8 package org.opendaylight.yangtools.sal.binding.generator.impl;
\r
10 import java.util.ArrayList;
\r
11 import java.util.Collections;
\r
12 import java.util.HashMap;
\r
13 import java.util.List;
\r
14 import java.util.Map;
\r
15 import java.util.Set;
\r
16 import org.opendaylight.yangtools.binding.generator.util.BindingTypes;
\r
17 import org.opendaylight.yangtools.binding.generator.util.ReferencedTypeImpl;
\r
18 import org.opendaylight.yangtools.binding.generator.util.Types;
\r
19 import org.opendaylight.yangtools.binding.generator.util.generated.type.builder.GeneratedTOBuilderImpl;
\r
20 import org.opendaylight.yangtools.binding.generator.util.generated.type.builder.GeneratedTypeBuilderImpl;
\r
21 import org.opendaylight.yangtools.sal.binding.generator.api.BindingGenerator;
\r
22 import org.opendaylight.yangtools.sal.binding.generator.spi.TypeProvider;
\r
23 import org.opendaylight.yangtools.sal.binding.model.api.AccessModifier;
\r
24 import org.opendaylight.yangtools.sal.binding.model.api.GeneratedType;
\r
25 import org.opendaylight.yangtools.sal.binding.model.api.Type;
\r
26 import org.opendaylight.yangtools.sal.binding.model.api.type.builder.EnumBuilder;
\r
27 import org.opendaylight.yangtools.sal.binding.model.api.type.builder.GeneratedTOBuilder;
\r
28 import org.opendaylight.yangtools.sal.binding.model.api.type.builder.GeneratedTypeBuilder;
\r
29 import org.opendaylight.yangtools.sal.binding.model.api.type.builder.MethodSignatureBuilder;
\r
30 import org.opendaylight.yangtools.sal.binding.yang.types.GroupingDefinitionDependencySort;
\r
31 import org.opendaylight.yangtools.sal.binding.yang.types.TypeProviderImpl;
\r
32 import org.opendaylight.yangtools.yang.binding.RpcService;
\r
33 import org.opendaylight.yangtools.yang.common.RpcResult;
\r
34 import org.opendaylight.yangtools.yang.model.api.AugmentationSchema;
\r
35 import org.opendaylight.yangtools.yang.model.api.ChoiceCaseNode;
\r
36 import org.opendaylight.yangtools.yang.model.api.ChoiceNode;
\r
37 import org.opendaylight.yangtools.yang.model.api.ContainerSchemaNode;
\r
38 import org.opendaylight.yangtools.yang.model.api.DataNodeContainer;
\r
39 import org.opendaylight.yangtools.yang.model.api.DataSchemaNode;
\r
40 import org.opendaylight.yangtools.yang.model.api.GroupingDefinition;
\r
41 import org.opendaylight.yangtools.yang.model.api.IdentitySchemaNode;
\r
42 import org.opendaylight.yangtools.yang.model.api.LeafListSchemaNode;
\r
43 import org.opendaylight.yangtools.yang.model.api.LeafSchemaNode;
\r
44 import org.opendaylight.yangtools.yang.model.api.ListSchemaNode;
\r
45 import org.opendaylight.yangtools.yang.model.api.Module;
\r
46 import org.opendaylight.yangtools.yang.model.api.RpcDefinition;
\r
47 import org.opendaylight.yangtools.yang.model.api.SchemaContext;
\r
48 import org.opendaylight.yangtools.yang.model.api.SchemaNode;
\r
49 import org.opendaylight.yangtools.yang.model.api.SchemaPath;
\r
50 import org.opendaylight.yangtools.yang.model.api.TypeDefinition;
\r
51 import org.opendaylight.yangtools.yang.model.api.UnknownSchemaNode;
\r
52 import org.opendaylight.yangtools.yang.model.api.type.BitsTypeDefinition;
\r
53 import org.opendaylight.yangtools.yang.model.api.type.EnumTypeDefinition;
\r
54 import org.opendaylight.yangtools.yang.model.api.type.UnionTypeDefinition;
\r
55 import org.opendaylight.yangtools.yang.model.util.DataNodeIterator;
\r
56 import org.opendaylight.yangtools.yang.model.util.SchemaContextUtil;
\r
57 import org.opendaylight.yangtools.yang.model.util.UnionType;
\r
58 import static com.google.common.base.Preconditions.*;
\r
59 import static extension org.opendaylight.yangtools.binding.generator.util.Types.*;
\r
60 import static org.opendaylight.yangtools.binding.generator.util.BindingGeneratorUtil.*;
\r
61 import static org.opendaylight.yangtools.binding.generator.util.BindingTypes.*;
\r
62 import static org.opendaylight.yangtools.yang.model.util.SchemaContextUtil.*;
\r
63 import org.opendaylight.yangtools.yang.parser.util.ModuleDependencySort
\r
64 import org.opendaylight.yangtools.yang.model.util.ExtendedType;
\rimport org.opendaylight.yangtools.yang.common.QName
65 import org.opendaylight.yangtools.yang.model.api.UsesNode
66 import java.util.HashSet
68 public class BindingGeneratorImpl implements BindingGenerator {
\r
70 * Outter key represents the package name. Outter value represents map of
\r
71 * all builders in the same package. Inner key represents the schema node
\r
72 * name (in JAVA class/interface name format). Inner value represents
\r
73 * instance of builder for schema node specified in key part.
\r
75 private Map<String, Map<String, GeneratedTypeBuilder>> genTypeBuilders;
\r
78 * Provide methods for converting YANG types to JAVA types.
\r
80 private var TypeProvider typeProvider;
\r
83 * Holds reference to schema context to resolve data of augmented elemnt
\r
84 * when creating augmentation builder
\r
86 private var SchemaContext schemaContext;
\r
89 * Each grouping which is converted from schema node to generated type is
\r
90 * added to this map with its Schema path as key to make it easier to get
\r
91 * reference to it. In schema nodes in <code>uses</code> attribute there is
\r
92 * only Schema Path but when building list of implemented interfaces for
\r
93 * Schema node the object of type <code>Type</code> is required. So in this
\r
94 * case is used this map.
\r
96 private val allGroupings = new HashMap<SchemaPath, GeneratedType>();
\r
98 private val yangToJavaMapping = new HashMap<SchemaPath, Type>();
\r
101 * Constant with the concrete name of namespace.
\r
103 private val static String YANG_EXT_NAMESPACE = "urn:opendaylight:yang:extension:yang-ext";
\r
106 * Constant with the concrete name of identifier.
\r
108 private val static String AUGMENT_IDENTIFIER_NAME = "augment-identifier";
\r
111 * Resolves generated types from <code>context</code> schema nodes of all
\r
114 * Generated types are created for modules, groupings, types, containers,
\r
115 * lists, choices, augments, rpcs, notification, identities.
\r
118 * schema context which contains data about all schema nodes
\r
120 * @return list of types (usually <code>GeneratedType</code>
\r
121 * <code>GeneratedTransferObject</code>which are generated from
\r
122 * <code>context</code> data.
\r
123 * @throws IllegalArgumentException
\r
124 * if param <code>context</code> is null
\r
125 * @throws IllegalStateException
\r
126 * if <code>context</code> contain no modules
\r
128 override generateTypes(SchemaContext context) {
\r
129 checkArgument(context !== null, "Schema Context reference cannot be NULL.");
\r
130 checkState(context.modules !== null, "Schema Context does not contain defined modules.");
\r
131 schemaContext = context;
\r
132 typeProvider = new TypeProviderImpl(context);
\r
133 val Set<Module> modules = context.modules;
\r
134 return generateTypes(context, modules);
\r
138 * Resolves generated types from <code>context</code> schema nodes only for
\r
139 * modules specified in <code>modules</code>
\r
141 * Generated types are created for modules, groupings, types, containers,
\r
142 * lists, choices, augments, rpcs, notification, identities.
\r
145 * schema context which contains data about all schema nodes
\r
148 * set of modules for which schema nodes should be generated
\r
150 * @return list of types (usually <code>GeneratedType</code> or
\r
151 * <code>GeneratedTransferObject</code>) which:
\r
153 * <li>are generated from <code>context</code> schema nodes and</li>
\r
154 * <li>are also part of some of the module in <code>modules</code>
\r
157 * @throws IllegalArgumentException
\r
159 * <li>if param <code>context</code> is null or</li>
\r
160 * <li>if param <code>modules</code> is null</li>
\r
162 * @throws IllegalStateException
\r
163 * if <code>context</code> contain no modules
\r
165 override generateTypes(SchemaContext context, Set<Module> modules) {
\r
166 checkArgument(context !== null, "Schema Context reference cannot be NULL.");
\r
167 checkState(context.modules !== null, "Schema Context does not contain defined modules.");
\r
168 checkArgument(modules !== null, "Set of Modules cannot be NULL.");
\r
170 val List<Type> filteredGenTypes = new ArrayList();
\r
172 schemaContext = context;
\r
173 typeProvider = new TypeProviderImpl(context);
\r
174 val contextModules = ModuleDependencySort.sort(context.modules);
\r
175 genTypeBuilders = new HashMap();
\r
177 for (contextModule : contextModules) {
\r
178 val List<Type> generatedTypes = new ArrayList();
\r
179 generatedTypes.addAll(allTypeDefinitionsToGenTypes(contextModule));
\r
180 generatedTypes.addAll(allGroupingsToGenTypes(contextModule));
\r
181 if(false == contextModule.childNodes.isEmpty()) {
\r
182 generatedTypes.add(moduleToDataType(contextModule));
\r
184 generatedTypes.addAll(allContainersToGenTypes(contextModule));
\r
185 generatedTypes.addAll(allListsToGenTypes(contextModule));
\r
186 generatedTypes.addAll(allChoicesToGenTypes(contextModule));
\r
187 generatedTypes.addAll(allRPCMethodsToGenType(contextModule));
\r
188 generatedTypes.addAll(allNotificationsToGenType(contextModule));
\r
189 generatedTypes.addAll(allIdentitiesToGenTypes(contextModule, context));
\r
191 if(modules.contains(contextModule)) {
\r
192 filteredGenTypes.addAll(generatedTypes);
\r
195 for (contextModule : contextModules) {
\r
196 val generatedTypes = (allAugmentsToGenTypes(contextModule));
\r
197 if(modules.contains(contextModule)) {
\r
198 filteredGenTypes.addAll(generatedTypes);
\r
202 return filteredGenTypes;
\r
206 * Converts all extended type definitions of module to the list of
\r
207 * <code>Type</code> objects.
\r
210 * module from which is obtained set of type definitions
\r
211 * @return list of <code>Type</code> which are generated from extended
\r
212 * definition types (object of type <code>ExtendedType</code>)
\r
213 * @throws IllegalArgumentException
\r
215 * <li>if module equals null</li>
\r
216 * <li>if name of module equals null</li>
\r
217 * <li>if type definitions of module equal null</li>
\r
221 private def List<Type> allTypeDefinitionsToGenTypes(Module module) {
\r
222 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
223 checkArgument(module.name !== null, "Module name cannot be NULL.");
\r
224 val Set<TypeDefinition<?>> typeDefinitions = module.typeDefinitions;
\r
225 checkState(typeDefinitions !== null, '''Type Definitions for module «module.name» cannot be NULL.''');
\r
227 val List<Type> generatedTypes = new ArrayList();
\r
228 for (TypeDefinition<?> typedef : typeDefinitions) {
\r
229 if(typedef !== null) {
\r
230 val type = (typeProvider as TypeProviderImpl).generatedTypeForExtendedDefinitionType(typedef, typedef);
\r
231 if((type !== null) && !generatedTypes.contains(type)) {
\r
232 generatedTypes.add(type);
\r
236 return generatedTypes;
\r
239 private def List<Type> dataNodeContainerToGenType(String basePackageName, DataNodeContainer node, Module module) {
\r
240 if (node === null) {
\r
243 if (!(node instanceof SchemaNode)) {
\r
244 throw new IllegalArgumentException("node to generate must be instance of SchemaNode");
\r
246 val List<Type> result = new ArrayList();
\r
248 result.addAll(processUsesAugments(node, module));
\r
250 val packageName = packageNameForGeneratedType(basePackageName, (node as SchemaNode).path);
\r
251 val typeBuilder = addDefaultInterfaceDefinition(packageName, node as SchemaNode);
\r
252 val schemaNodes = node.childNodes;
\r
253 if (node instanceof ContainerSchemaNode) {
\r
254 resolveDataSchemaNodes(basePackageName, typeBuilder, schemaNodes);
\r
255 result.add(typeBuilder.toInstance());
\r
256 } else if (node instanceof ListSchemaNode) {
\r
257 val List<String> listKeys = listKeys(node as ListSchemaNode);
\r
258 val genTOBuilder = resolveListKeyTOBuilder(packageName, node as ListSchemaNode);
\r
260 if(genTOBuilder !== null) {
\r
261 val identifierMarker = IDENTIFIER.parameterizedTypeFor(typeBuilder);
\r
262 val identifiableMarker = IDENTIFIABLE.parameterizedTypeFor(genTOBuilder);
\r
263 genTOBuilder.addImplementsType(identifierMarker);
\r
264 typeBuilder.addImplementsType(identifiableMarker);
\r
266 for (schemaNode : schemaNodes) {
\r
267 if (!schemaNode.isAugmenting()) {
\r
268 addSchemaNodeToListBuilders(basePackageName, schemaNode, typeBuilder, genTOBuilder, listKeys);
\r
271 result.addAll(typeBuildersToGenTypes(typeBuilder, genTOBuilder));
\r
277 private def List<Type> processUsesAugments(DataNodeContainer node, Module module) {
\r
278 val List<Type> result = new ArrayList();
\r
279 val basePackageName = moduleNamespaceToPackageName(module);
\r
281 for (usesNode : node.uses) {
\r
282 for (augment : usesNode.augmentations) {
\r
283 result.addAll(augmentationToGenTypes(basePackageName, augment, module, true));
\r
284 result.addAll(processUsesAugments(augment, module));
\r
292 * Converts all <b>containers</b> of the module to the list of
\r
293 * <code>Type</code> objects.
\r
296 * module from which is obtained DataNodeIterator to iterate over
\r
298 * @return list of <code>Type</code> which are generated from containers
\r
299 * (objects of type <code>ContainerSchemaNode</code>)
\r
300 * @throws IllegalArgumentException
\r
302 * <li>if the module equals null</li>
\r
303 * <li>if the name of module equals null</li>
\r
304 * <li>if the set of child nodes equals null</li>
\r
308 private def List<Type> allContainersToGenTypes(Module module) {
\r
309 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
311 checkArgument(module.name !== null, "Module name cannot be NULL.");
\r
313 if(module.childNodes === null) {
\r
314 throw new IllegalArgumentException(
\r
315 "Reference to Set of Child Nodes in module " + module.name + " cannot be NULL.");
\r
318 val List<Type> generatedTypes = new ArrayList();
\r
319 val it = new DataNodeIterator(module);
\r
320 val List<ContainerSchemaNode> schemaContainers = it.allContainers();
\r
321 val basePackageName = moduleNamespaceToPackageName(module);
\r
322 for (container : schemaContainers) {
\r
323 if(!container.isAddedByUses()) {
\r
324 generatedTypes.addAll(dataNodeContainerToGenType(basePackageName, container, module));
\r
327 return generatedTypes;
\r
331 * Converts all <b>lists</b> of the module to the list of <code>Type</code>
\r
335 * module from which is obtained DataNodeIterator to iterate over
\r
337 * @return list of <code>Type</code> which are generated from lists (objects
\r
338 * of type <code>ListSchemaNode</code>)
\r
339 * @throws IllegalArgumentException
\r
341 * <li>if the module equals null</li>
\r
342 * <li>if the name of module equals null</li>
\r
343 * <li>if the set of child nodes equals null</li>
\r
347 private def List<Type> allListsToGenTypes(Module module) {
\r
348 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
349 checkArgument(module.name !== null, "Module name cannot be NULL.");
\r
351 if(module.childNodes === null) {
\r
352 throw new IllegalArgumentException(
\r
353 "Reference to Set of Child Nodes in module " + module.name + " cannot be NULL.");
\r
356 val List<Type> generatedTypes = new ArrayList();
\r
357 val it = new DataNodeIterator(module);
\r
358 val List<ListSchemaNode> schemaLists = it.allLists();
\r
359 val basePackageName = moduleNamespaceToPackageName(module);
\r
360 if(schemaLists !== null) {
\r
361 for (list : schemaLists) {
\r
362 if(!list.isAddedByUses()) {
\r
363 generatedTypes.addAll(dataNodeContainerToGenType(basePackageName, list, module));
\r
367 return generatedTypes;
\r
371 * Converts all <b>choices</b> of the module to the list of
\r
372 * <code>Type</code> objects.
\r
375 * module from which is obtained DataNodeIterator to iterate over
\r
377 * @return list of <code>Type</code> which are generated from choices
\r
378 * (objects of type <code>ChoiceNode</code>)
\r
379 * @throws IllegalArgumentException
\r
381 * <li>if the module equals null</li>
\r
382 * <li>if the name of module equals null</li> *
\r
386 private def List<Type> allChoicesToGenTypes(Module module) {
\r
387 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
388 checkArgument(module.name !== null, "Module name cannot be NULL.");
\r
390 val it = new DataNodeIterator(module);
\r
391 val choiceNodes = it.allChoices();
\r
392 val basePackageName = moduleNamespaceToPackageName(module);
\r
394 val List<Type> generatedTypes = new ArrayList();
\r
395 for (choice : choiceNodes) {
\r
396 if((choice !== null) && !choice.isAddedByUses()) {
\r
397 generatedTypes.addAll(choiceToGeneratedType(basePackageName, choice, module));
\r
400 return generatedTypes;
\r
404 * Converts all <b>augmentation</b> of the module to the list
\r
405 * <code>Type</code> objects.
\r
408 * module from which is obtained list of all augmentation objects
\r
409 * to iterate over them
\r
410 * @return list of <code>Type</code> which are generated from augments
\r
411 * (objects of type <code>AugmentationSchema</code>)
\r
412 * @throws IllegalArgumentException
\r
414 * <li>if the module equals null</li>
\r
415 * <li>if the name of module equals null</li>
\r
416 * <li>if the set of child nodes equals null</li>
\r
420 private def List<Type> allAugmentsToGenTypes(Module module) {
\r
421 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
422 checkArgument(module.name !== null, "Module name cannot be NULL.");
\r
423 if(module.childNodes === null) {
\r
424 throw new IllegalArgumentException(
\r
425 "Reference to Set of Augmentation Definitions in module " + module.name + " cannot be NULL.");
\r
428 val List<Type> generatedTypes = new ArrayList();
\r
429 val basePackageName = moduleNamespaceToPackageName(module);
\r
430 val List<AugmentationSchema> augmentations = resolveAugmentations(module);
\r
431 for (augment : augmentations) {
\r
432 generatedTypes.addAll(augmentationToGenTypes(basePackageName, augment, module, false));
\r
434 return generatedTypes;
\r
438 * Returns list of <code>AugmentationSchema</code> objects. The objects are
\r
439 * sorted according to the length of their target path from the shortest to
\r
443 * module from which is obtained list of all augmentation objects
\r
444 * @return list of sorted <code>AugmentationSchema</code> objects obtained
\r
445 * from <code>module</code>
\r
446 * @throws IllegalArgumentException
\r
448 * <li>if the module equals null</li>
\r
449 * <li>if the set of augmentation equals null</li>
\r
453 private def List<AugmentationSchema> resolveAugmentations(Module module) {
\r
454 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
455 checkState(module.augmentations !== null, "Augmentations Set cannot be NULL.");
\r
457 val Set<AugmentationSchema> augmentations = module.augmentations;
\r
458 val List<AugmentationSchema> sortedAugmentations = new ArrayList(augmentations);
\r
459 Collections.sort(sortedAugmentations,
\r
460 [ augSchema1, augSchema2 |
\r
461 if(augSchema1.targetPath.path.size() > augSchema2.targetPath.path.size()) {
\r
463 } else if(augSchema1.targetPath.path.size() < augSchema2.targetPath.path.size()) {
\r
468 return sortedAugmentations;
\r
472 * Converts whole <b>module</b> to <code>GeneratedType</code> object.
\r
473 * Firstly is created the module builder object from which is vally
\r
474 * obtained reference to <code>GeneratedType</code> object.
\r
477 * module from which are obtained the module name, child nodes,
\r
478 * uses and is derived package name
\r
479 * @return <code>GeneratedType</code> which is internal representation of
\r
481 * @throws IllegalArgumentException
\r
482 * if the module equals null
\r
485 private def GeneratedType moduleToDataType(Module module) {
\r
486 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
488 val moduleDataTypeBuilder = moduleTypeBuilder(module, "Data");
\r
489 addImplementedInterfaceFromUses(module, moduleDataTypeBuilder);
\r
490 moduleDataTypeBuilder.addImplementsType(DATA_ROOT);
\r
492 val basePackageName = moduleNamespaceToPackageName(module);
\r
493 if(moduleDataTypeBuilder !== null) {
\r
494 val Set<DataSchemaNode> dataNodes = module.childNodes;
\r
495 resolveDataSchemaNodes(basePackageName, moduleDataTypeBuilder, dataNodes);
\r
497 return moduleDataTypeBuilder.toInstance();
\r
501 * Converts all <b>rpcs</b> inputs and outputs substatements of the module
\r
502 * to the list of <code>Type</code> objects. In addition are to containers
\r
503 * and lists which belong to input or output also part of returning list.
\r
506 * module from which is obtained set of all rpc objects to
\r
507 * iterate over them
\r
508 * @return list of <code>Type</code> which are generated from rpcs inputs,
\r
509 * outputs + container and lists which are part of inputs or outputs
\r
510 * @throws IllegalArgumentException
\r
512 * <li>if the module equals null</li>
\r
513 * <li>if the name of module equals null</li>
\r
514 * <li>if the set of child nodes equals null</li>
\r
518 private def List<Type> allRPCMethodsToGenType(Module module) {
\r
519 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
521 checkArgument(module.name !== null, "Module name cannot be NULL.");
\r
523 if(module.childNodes === null) {
\r
524 throw new IllegalArgumentException(
\r
525 "Reference to Set of RPC Method Definitions in module " + module.name + " cannot be NULL.");
\r
528 val basePackageName = moduleNamespaceToPackageName(module);
\r
529 val Set<RpcDefinition> rpcDefinitions = module.rpcs;
\r
531 if(rpcDefinitions.isEmpty()) {
\r
532 return Collections.emptyList();
\r
535 val List<Type> genRPCTypes = new ArrayList();
\r
536 val interfaceBuilder = moduleTypeBuilder(module, "Service");
\r
537 interfaceBuilder.addImplementsType(Types.typeForClass(RpcService));
\r
538 for (rpc : rpcDefinitions) {
\r
541 val rpcName = parseToClassName(rpc.QName.localName);
\r
542 val rpcMethodName = parseToValidParamName(rpcName);
\r
543 val method = interfaceBuilder.addMethod(rpcMethodName);
\r
545 val rpcInOut = new ArrayList();
\r
547 val input = rpc.input;
\r
548 val output = rpc.output;
\r
550 if(input !== null) {
\r
551 rpcInOut.add(new DataNodeIterator(input));
\r
552 val inType = addRawInterfaceDefinition(basePackageName, input, rpcName);
\r
553 addImplementedInterfaceFromUses(input, inType);
\r
554 inType.addImplementsType(DATA_OBJECT);
\r
555 inType.addImplementsType(augmentable(inType));
\r
556 resolveDataSchemaNodes(basePackageName, inType, input.childNodes);
\r
557 val inTypeInstance = inType.toInstance();
\r
558 genRPCTypes.add(inTypeInstance);
\r
559 method.addParameter(inTypeInstance, "input");
\r
562 var Type outTypeInstance = VOID;
\r
563 if(output !== null) {
\r
564 rpcInOut.add(new DataNodeIterator(output));
\r
565 val outType = addRawInterfaceDefinition(basePackageName, output, rpcName);
\r
566 addImplementedInterfaceFromUses(output, outType);
\r
567 outType.addImplementsType(DATA_OBJECT);
\r
568 outType.addImplementsType(augmentable(outType));
\r
570 resolveDataSchemaNodes(basePackageName, outType, output.childNodes);
\r
571 outTypeInstance = outType.toInstance();
\r
572 genRPCTypes.add(outTypeInstance);
\r
576 val rpcRes = Types.parameterizedTypeFor(Types.typeForClass(RpcResult), outTypeInstance);
\r
577 method.setReturnType(Types.parameterizedTypeFor(FUTURE, rpcRes));
\r
578 for (iter : rpcInOut) {
\r
579 val List<ContainerSchemaNode> nContainers = iter.allContainers();
\r
580 if((nContainers !== null) && !nContainers.isEmpty()) {
\r
581 for (container : nContainers) {
\r
582 if(!container.isAddedByUses()) {
\r
583 genRPCTypes.addAll(dataNodeContainerToGenType(basePackageName, container, module));
\r
587 val List<ListSchemaNode> nLists = iter.allLists();
\r
588 if((nLists !== null) && !nLists.isEmpty()) {
\r
589 for (list : nLists) {
\r
590 if(!list.isAddedByUses()) {
\r
591 genRPCTypes.addAll(dataNodeContainerToGenType(basePackageName, list, module));
\r
595 val List<ChoiceNode> nChoices = iter.allChoices();
\r
596 if((nChoices !== null) && !nChoices.isEmpty()) {
\r
597 for (choice : nChoices) {
\r
598 if(!choice.isAddedByUses()) {
\r
599 genRPCTypes.addAll(choiceToGeneratedType(basePackageName, choice, module));
\r
606 genRPCTypes.add(interfaceBuilder.toInstance());
\r
607 return genRPCTypes;
\r
611 * Converts all <b>notifications</b> of the module to the list of
\r
612 * <code>Type</code> objects. In addition are to this list added containers
\r
613 * and lists which are part of this notification.
\r
616 * module from which is obtained set of all notification objects
\r
617 * to iterate over them
\r
618 * @return list of <code>Type</code> which are generated from notification
\r
619 * (object of type <code>NotificationDefinition</code>
\r
620 * @throws IllegalArgumentException
\r
622 * <li>if the module equals null</li>
\r
623 * <li>if the name of module equals null</li>
\r
624 * <li>if the set of child nodes equals null</li>
\r
628 private def List<Type> allNotificationsToGenType(Module module) {
\r
629 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
631 checkArgument(module.name !== null, "Module name cannot be NULL.");
\r
633 if(module.childNodes === null) {
\r
634 throw new IllegalArgumentException(
\r
635 "Reference to Set of Notification Definitions in module " + module.name + " cannot be NULL.");
\r
637 val notifications = module.notifications;
\r
638 if(notifications.isEmpty()) return Collections.emptyList();
\r
640 val listenerInterface = moduleTypeBuilder(module, "Listener");
\r
641 listenerInterface.addImplementsType(BindingTypes.NOTIFICATION_LISTENER);
\r
643 val basePackageName = moduleNamespaceToPackageName(module);
\r
644 val List<Type> generatedTypes = new ArrayList();
\r
648 for (notification : notifications) {
\r
649 if(notification !== null) {
\r
650 generatedTypes.addAll(processUsesAugments(notification, module));
\r
652 val iter = new DataNodeIterator(notification);
\r
655 for (node : iter.allContainers()) {
\r
656 if(!node.isAddedByUses()) {
\r
657 generatedTypes.addAll(dataNodeContainerToGenType(basePackageName, node, module));
\r
662 for (node : iter.allLists()) {
\r
663 if(!node.isAddedByUses()) {
\r
664 generatedTypes.addAll(dataNodeContainerToGenType(basePackageName, node, module));
\r
667 val notificationInterface = addDefaultInterfaceDefinition(basePackageName, notification);
\r
668 notificationInterface.addImplementsType(NOTIFICATION);
\r
670 // Notification object
\r
671 resolveDataSchemaNodes(basePackageName, notificationInterface, notification.childNodes);
\r
673 listenerInterface.addMethod("on" + notificationInterface.name) //
\r
674 .setAccessModifier(AccessModifier.PUBLIC).addParameter(notificationInterface, "notification").
\r
675 setReturnType(Types.VOID);
\r
677 generatedTypes.add(notificationInterface.toInstance());
\r
680 generatedTypes.add(listenerInterface.toInstance());
\r
681 return generatedTypes;
\r
685 * Converts all <b>identities</b> of the module to the list of
\r
686 * <code>Type</code> objects.
\r
689 * module from which is obtained set of all identity objects to
\r
690 * iterate over them
\r
692 * schema context only used as input parameter for method
\r
693 * {@link identityToGenType}
\r
694 * @return list of <code>Type</code> which are generated from identities
\r
695 * (object of type <code>IdentitySchemaNode</code>
\r
698 private def List<Type> allIdentitiesToGenTypes(Module module, SchemaContext context) {
\r
699 val List<Type> genTypes = new ArrayList();
\r
701 val Set<IdentitySchemaNode> schemaIdentities = module.identities;
\r
703 val basePackageName = moduleNamespaceToPackageName(module);
\r
705 if(schemaIdentities !== null && !schemaIdentities.isEmpty()) {
\r
706 for (identity : schemaIdentities) {
\r
707 genTypes.add(identityToGenType(basePackageName, identity, context));
\r
714 * Converts the <b>identity</b> object to GeneratedType. Firstly it is
\r
715 * created transport object builder. If identity contains base identity then
\r
716 * reference to base identity is added to superior identity as its extend.
\r
717 * If identity doesn't contain base identity then only reference to abstract
\r
718 * class {@link org.opendaylight.yangtools.yang.model.api.BaseIdentity
\r
719 * BaseIdentity} is added
\r
721 * @param basePackageName
\r
722 * string contains the module package name
\r
724 * IdentitySchemaNode which contains data about identity
\r
726 * SchemaContext which is used to get package and name
\r
727 * information about base of identity
\r
729 * @return GeneratedType which is generated from identity (object of type
\r
730 * <code>IdentitySchemaNode</code>
\r
733 private def GeneratedType identityToGenType(String basePackageName, IdentitySchemaNode identity,
\r
734 SchemaContext context) {
\r
735 if(identity === null) {
\r
739 val packageName = packageNameForGeneratedType(basePackageName, identity.path);
\r
740 val genTypeName = parseToClassName(identity.QName.localName);
\r
741 val newType = new GeneratedTOBuilderImpl(packageName, genTypeName);
\r
743 val baseIdentity = identity.baseIdentity;
\r
744 if(baseIdentity !== null) {
\r
745 val baseIdentityParentModule = SchemaContextUtil.findParentModule(context, baseIdentity);
\r
747 val returnTypePkgName = moduleNamespaceToPackageName(baseIdentityParentModule);
\r
748 val returnTypeName = parseToClassName(baseIdentity.QName.localName);
\r
750 val gto = new GeneratedTOBuilderImpl(returnTypePkgName, returnTypeName).toInstance();
\r
751 newType.setExtendsType(gto);
\r
753 newType.setExtendsType(Types.baseIdentityTO);
\r
755 newType.setAbstract(true);
\r
756 return newType.toInstance();
\r
760 * Converts all <b>groupings</b> of the module to the list of
\r
761 * <code>Type</code> objects. Firstly are groupings sorted according mutual
\r
762 * dependencies. At least dependend (indepedent) groupings are in the list
\r
763 * saved at first positions. For every grouping the record is added to map
\r
764 * {@link BindingGeneratorImpl#allGroupings allGroupings}
\r
767 * module from which is obtained set of all grouping objects to
\r
768 * iterate over them
\r
769 * @return list of <code>Type</code> which are generated from groupings
\r
770 * (object of type <code>GroupingDefinition</code>)
\r
773 private def List<Type> allGroupingsToGenTypes(Module module) {
\r
774 checkArgument(module !== null, "Module parameter can not be null");
\r
775 val List<Type> genTypes = new ArrayList();
\r
776 val basePackageName = moduleNamespaceToPackageName(module);
\r
777 val it = new DataNodeIterator(module);
\r
778 val List<GroupingDefinition> groupings = it.allGroupings();
\r
779 val List<GroupingDefinition> groupingsSortedByDependencies = new GroupingDefinitionDependencySort().sort(
\r
782 for (grouping : groupingsSortedByDependencies) {
\r
783 val genType = groupingToGenType(basePackageName, grouping, module);
\r
784 genTypes.add(genType);
\r
785 genTypes.addAll(processUsesAugments(grouping, module));
\r
786 val schemaPath = grouping.path;
\r
787 allGroupings.put(schemaPath, genType);
\r
793 * Converts individual grouping to GeneratedType. Firstly generated type
\r
794 * builder is created and every child node of grouping is resolved to the
\r
797 * @param basePackageName
\r
798 * string contains the module package name
\r
800 * GroupingDefinition which contains data about grouping
\r
801 * @return GeneratedType which is generated from grouping (object of type
\r
802 * <code>GroupingDefinition</code>)
\r
804 private def GeneratedType groupingToGenType(String basePackageName, GroupingDefinition grouping, Module module) {
\r
805 if(grouping === null) {
\r
809 val packageName = packageNameForGeneratedType(basePackageName, grouping.path);
\r
810 val Set<DataSchemaNode> schemaNodes = grouping.childNodes;
\r
811 val typeBuilder = addDefaultInterfaceDefinition(packageName, grouping);
\r
813 resolveDataSchemaNodes(basePackageName, typeBuilder, schemaNodes);
\r
815 return typeBuilder.toInstance();
\r
819 * Tries to find EnumTypeDefinition in <code>typeDefinition</code>. If base
\r
820 * type of <code>typeDefinition</code> is of the type ExtendedType then this
\r
821 * method is recursivelly called with this base type.
\r
823 * @param typeDefinition
\r
824 * TypeDefinition in which should be EnumTypeDefinition found as
\r
826 * @return EnumTypeDefinition if it is found inside
\r
827 * <code>typeDefinition</code> or <code>null</code> in other case
\r
829 private def EnumTypeDefinition enumTypeDefFromExtendedType(TypeDefinition<?> typeDefinition) {
\r
830 if(typeDefinition !== null) {
\r
831 if(typeDefinition.baseType instanceof EnumTypeDefinition) {
\r
832 return typeDefinition.baseType as EnumTypeDefinition;
\r
833 } else if(typeDefinition.baseType instanceof ExtendedType) {
\r
834 return enumTypeDefFromExtendedType(typeDefinition.baseType);
\r
841 * Adds enumeration builder created from <code>enumTypeDef</code> to
\r
842 * <code>typeBuilder</code>.
\r
844 * Each <code>enumTypeDef</code> item is added to builder with its name and
\r
847 * @param enumTypeDef
\r
848 * EnumTypeDefinition contains enum data
\r
850 * string contains name which will be assigned to enumeration
\r
852 * @param typeBuilder
\r
853 * GeneratedTypeBuilder to which will be enum builder assigned
\r
854 * @return enumeration builder which contais data from
\r
855 * <code>enumTypeDef</code>
\r
857 private def EnumBuilder resolveInnerEnumFromTypeDefinition(EnumTypeDefinition enumTypeDef, String enumName,
\r
858 GeneratedTypeBuilder typeBuilder) {
\r
859 if((enumTypeDef !== null) && (typeBuilder !== null) && (enumTypeDef.QName !== null) &&
\r
860 (enumTypeDef.QName.localName !== null)) {
\r
862 val enumerationName = parseToClassName(enumName);
\r
863 val enumBuilder = typeBuilder.addEnumeration(enumerationName);
\r
864 enumBuilder.updateEnumPairsFromEnumTypeDef(enumTypeDef);
\r
866 return enumBuilder;
\r
872 * Generates type builder for <code>module</code>.
\r
875 * Module which is source of package name for generated type
\r
878 * string which is added to the module class name representation
\r
880 * @return instance of GeneratedTypeBuilder which represents
\r
881 * <code>module</code>.
\r
882 * @throws IllegalArgumentException
\r
883 * if <code>module</code> equals null
\r
885 private def GeneratedTypeBuilder moduleTypeBuilder(Module module, String postfix) {
\r
886 checkArgument(module !== null, "Module reference cannot be NULL.");
\r
887 val packageName = moduleNamespaceToPackageName(module);
\r
888 val moduleName = parseToClassName(module.name) + postfix;
\r
890 return new GeneratedTypeBuilderImpl(packageName, moduleName);
\r
894 * Converts <code>augSchema</code> to list of <code>Type</code> which
\r
895 * contains generated type for augmentation. In addition there are also
\r
896 * generated types for all containers, list and choices which are child of
\r
897 * <code>augSchema</code> node or a generated types for cases are added if
\r
898 * augmented node is choice.
\r
900 * @param augmentPackageName
\r
901 * string with the name of the package to which the augmentation
\r
904 * AugmentationSchema which is contains data about agumentation
\r
905 * (target path, childs...)
\r
906 * @return list of <code>Type</code> objects which contains generated type
\r
907 * for augmentation and for container, list and choice child nodes
\r
908 * @throws IllegalArgumentException
\r
910 * <li>if <code>augmentPackageName</code> equals null</li>
\r
911 * <li>if <code>augSchema</code> equals null</li>
\r
912 * <li>if target path of <code>augSchema</code> equals null</li>
\r
915 private def List<Type> augmentationToGenTypes(String augmentPackageName, AugmentationSchema augSchema, Module module, boolean addedByUses) {
\r
916 checkArgument(augmentPackageName !== null, "Package Name cannot be NULL.");
\r
917 checkArgument(augSchema !== null, "Augmentation Schema cannot be NULL.");
\r
918 checkState(augSchema.targetPath !== null,
\r
919 "Augmentation Schema does not contain Target Path (Target Path is NULL).");
\r
920 val List<Type> genTypes = new ArrayList();
\r
921 genTypes.addAll(processUsesAugments(augSchema, module));
\r
923 // EVERY augmented interface will extends Augmentation<T> interface
\r
924 // and DataObject interface!!!
\r
925 val targetPath = augSchema.targetPath;
\r
926 var targetSchemaNode = findDataSchemaNode(schemaContext, targetPath);
\r
927 if (targetSchemaNode instanceof DataSchemaNode && (targetSchemaNode as DataSchemaNode).isAddedByUses()) {
\r
928 targetSchemaNode = findOriginalTargetFromGrouping(targetPath, module, targetSchemaNode as DataSchemaNode);
\r
931 if(targetSchemaNode !== null) {
\r
932 var targetType = yangToJavaMapping.get(targetSchemaNode.path);
\r
933 if(targetType == null) {
\r
935 // FIXME: augmentation should be added as last, all types should already be generated
\r
936 // and have assigned Java Types,
\r
937 val targetModule = findParentModule(schemaContext, targetSchemaNode);
\r
938 val targetBasePackage = moduleNamespaceToPackageName(targetModule);
\r
939 val typePackage = packageNameForGeneratedType(targetBasePackage, targetSchemaNode.getPath());
\r
940 val targetSchemaNodeName = targetSchemaNode.getQName().getLocalName();
\r
941 val typeName = parseToClassName(targetSchemaNodeName);
\r
942 targetType = new ReferencedTypeImpl(typePackage, typeName);
\r
944 val augChildNodes = augSchema.childNodes;
\r
946 if(!(targetSchemaNode instanceof ChoiceNode)) {
\r
947 var packageName = augmentPackageName;
\r
949 packageName = packageNameForGeneratedType(augmentPackageName, augSchema.targetPath);
\r
951 val augTypeBuilder = addRawAugmentGenTypeDefinition(packageName, augmentPackageName, targetType, augSchema);
\r
952 val augType = augTypeBuilder.toInstance();
\r
953 genTypes.add(augType);
\r
955 genTypes.addAll(generateTypesFromAugmentedChoiceCases(augmentPackageName, targetType, augChildNodes, targetSchemaNode as ChoiceNode));
\r
957 genTypes.addAll(augmentationBodyToGenTypes(augmentPackageName, augChildNodes, module));
\r
963 private def DataSchemaNode findOriginalTargetFromGrouping(SchemaPath targetPath, Module module, DataSchemaNode targetSchemaNode) {
\r
964 val path = new ArrayList<QName>(targetPath.getPath());
\r
965 path.remove(path.size()-1);
\r
966 var DataNodeContainer parent = null;
\r
968 if (path.isEmpty()) {
\r
971 parent = findNodeInSchemaContext(schemaContext, path) as DataNodeContainer;
\r
974 val Set<UsesNode> usesNodes = parent.getUses();
\r
975 if (usesNodes == null || usesNodes.isEmpty()) {
\r
976 return targetSchemaNode;
\r
978 val Set<SchemaPath> groupingPaths = new HashSet<SchemaPath>();
\r
979 for (uses : usesNodes) {
\r
980 groupingPaths.add(uses.getGroupingPath());
\r
982 val Set<GroupingDefinition> groupings = new HashSet<GroupingDefinition>();
\r
983 for (gp : groupingPaths) {
\r
984 groupings.add(findGrouping(schemaContext, module, gp.getPath()));
\r
987 var DataSchemaNode result = findNodeInGroupings(groupings, targetSchemaNode.getQName().localName);
\r
991 private def DataSchemaNode findNodeInGroupings(Set<GroupingDefinition> groupings, String name) {
\r
992 for (gr : groupings) {
\r
993 var DataSchemaNode node = gr.getDataChildByName(name);
\r
994 if (node != null) {
\r
1002 * Returns a generated type builder for an augmentation.
\r
1004 * The name of the type builder is equal to the name of augmented node with
\r
1005 * serial number as suffix.
\r
1007 * @param augmentPackageName
\r
1008 * string with contains the package name to which the augment
\r
1010 * @param targetPackageName
\r
1011 * string with the package name to which the augmented node
\r
1013 * @param targetSchemaNodeName
\r
1014 * string with the name of the augmented node
\r
1015 * @param augSchema
\r
1016 * augmentation schema which contains data about the child nodes
\r
1017 * and uses of augment
\r
1018 * @return generated type builder for augment
\r
1020 private def GeneratedTypeBuilder addRawAugmentGenTypeDefinition(String augmentPackageName, String basePackageName,
1021 Type targetTypeRef, AugmentationSchema augSchema) {
1022 var Map<String, GeneratedTypeBuilder> augmentBuilders = genTypeBuilders.get(augmentPackageName);
1023 if (augmentBuilders === null) {
1024 augmentBuilders = new HashMap();
1025 genTypeBuilders.put(augmentPackageName, augmentBuilders);
1027 val augIdentifier = getAugmentIdentifier(augSchema.unknownSchemaNodes);
1029 val augTypeName = if (augIdentifier !== null) {
1030 parseToClassName(augIdentifier)
1032 augGenTypeName(augmentBuilders, targetTypeRef.name);
1035 val augTypeBuilder = new GeneratedTypeBuilderImpl(augmentPackageName, augTypeName);
1037 augTypeBuilder.addImplementsType(DATA_OBJECT);
1038 augTypeBuilder.addImplementsType(Types.augmentationTypeFor(targetTypeRef));
1039 addImplementedInterfaceFromUses(augSchema, augTypeBuilder);
1041 augSchemaNodeToMethods(basePackageName, augTypeBuilder, augSchema.childNodes);
1042 augmentBuilders.put(augTypeName, augTypeBuilder);
1043 return augTypeBuilder;
1048 * @param unknownSchemaNodes
\r
1049 * @return nodeParameter of UnknownSchemaNode
\r
1051 private def String getAugmentIdentifier(List<UnknownSchemaNode> unknownSchemaNodes) {
\r
1052 for (unknownSchemaNode : unknownSchemaNodes) {
\r
1053 val nodeType = unknownSchemaNode.nodeType;
\r
1054 if(AUGMENT_IDENTIFIER_NAME.equals(nodeType.localName) &&
\r
1055 YANG_EXT_NAMESPACE.equals(nodeType.namespace.toString())) {
\r
1056 return unknownSchemaNode.nodeParameter;
\r
1063 * Convert a container, list and choice subnodes (and recursivelly their
\r
1064 * subnodes) of augment to generated types
\r
1066 * @param augBasePackageName
\r
1067 * string with the augment package name
\r
1068 * @param augChildNodes
\r
1069 * set of data schema nodes which represents child nodes of the
\r
1072 * @return list of <code>Type</code> which represents container, list and
\r
1073 * choice subnodes of augment
\r
1075 private def List<Type> augmentationBodyToGenTypes(String augBasePackageName, Set<DataSchemaNode> augChildNodes, Module module) {
\r
1076 val List<Type> genTypes = new ArrayList();
\r
1077 val List<DataNodeIterator> augSchemaIts = new ArrayList();
\r
1078 for (childNode : augChildNodes) {
\r
1079 if(childNode instanceof DataNodeContainer) {
\r
1080 augSchemaIts.add(new DataNodeIterator(childNode as DataNodeContainer));
\r
1082 if(childNode instanceof ContainerSchemaNode) {
\r
1083 genTypes.addAll(dataNodeContainerToGenType(augBasePackageName, childNode as ContainerSchemaNode, module));
\r
1084 } else if(childNode instanceof ListSchemaNode) {
\r
1085 genTypes.addAll(dataNodeContainerToGenType(augBasePackageName, childNode as ListSchemaNode, module));
\r
1087 } else if(childNode instanceof ChoiceNode) {
\r
1088 val choice = childNode as ChoiceNode;
\r
1089 for (caseNode : choice.cases) {
\r
1090 augSchemaIts.add(new DataNodeIterator(caseNode));
\r
1092 genTypes.addAll(choiceToGeneratedType(augBasePackageName, childNode as ChoiceNode, module));
\r
1096 for (it : augSchemaIts) {
\r
1097 val List<ContainerSchemaNode> augContainers = it.allContainers();
\r
1098 val List<ListSchemaNode> augLists = it.allLists();
\r
1099 val List<ChoiceNode> augChoices = it.allChoices();
\r
1101 if(augContainers !== null) {
\r
1102 for (container : augContainers) {
\r
1103 genTypes.addAll(dataNodeContainerToGenType(augBasePackageName, container, module));
\r
1106 if(augLists !== null) {
\r
1107 for (list : augLists) {
\r
1108 genTypes.addAll(dataNodeContainerToGenType(augBasePackageName, list, module));
\r
1111 if(augChoices !== null) {
\r
1112 for (choice : augChoices) {
\r
1113 genTypes.addAll(choiceToGeneratedType(augBasePackageName, choice, module));
\r
1121 * Returns first unique name for the augment generated type builder. The
\r
1122 * generated type builder name for augment consists from name of augmented
\r
1123 * node and serial number of its augmentation.
\r
1126 * map of builders which were created in the package to which the
\r
1127 * augmentation belongs
\r
1128 * @param genTypeName
\r
1129 * string with name of augmented node
\r
1130 * @return string with unique name for augmentation builder
\r
1132 private def String augGenTypeName(Map<String, GeneratedTypeBuilder> builders, String genTypeName) {
\r
1134 while((builders !== null) && builders.containsKey(genTypeName + index)) {
\r
1135 index = index + 1;
\r
1137 return genTypeName + index;
\r
1141 * Adds the methods to <code>typeBuilder</code> which represent subnodes of
\r
1142 * node for which <code>typeBuilder</code> was created.
\r
1144 * The subnodes aren't mapped to the methods if they are part of grouping or
\r
1145 * augment (in this case are already part of them).
\r
1147 * @param basePackageName
\r
1148 * string contains the module package name
\r
1149 * @param typeBuilder
\r
1150 * generated type builder which represents any node. The subnodes
\r
1151 * of this node are added to the <code>typeBuilder</code> as
\r
1152 * methods. The subnode can be of type leaf, leaf-list, list,
\r
1153 * container, choice.
\r
1154 * @param schemaNodes
\r
1155 * set of data schema nodes which are the children of the node
\r
1156 * for which <code>typeBuilder</code> was created
\r
1157 * @return generated type builder which is the same builder as input
\r
1158 * parameter. The getter methods (representing child nodes) could be
\r
1161 private def GeneratedTypeBuilder resolveDataSchemaNodes(String basePackageName, GeneratedTypeBuilder typeBuilder,
\r
1162 Set<DataSchemaNode> schemaNodes) {
\r
1163 if((schemaNodes !== null) && (typeBuilder !== null)) {
\r
1164 for (schemaNode : schemaNodes) {
\r
1165 if(!schemaNode.isAugmenting() && !schemaNode.isAddedByUses()) {
\r
1166 addSchemaNodeToBuilderAsMethod(basePackageName, schemaNode, typeBuilder);
\r
1171 return typeBuilder;
\r
1174 private def GeneratedTypeBuilder resolveDataSchemaNodesAugmented(String basePackageName, GeneratedTypeBuilder typeBuilder,
\r
1175 Set<DataSchemaNode> schemaNodes) {
\r
1176 if ((schemaNodes !== null) && (typeBuilder !== null)) {
\r
1177 for (schemaNode : schemaNodes) {
\r
1178 if (!schemaNode.isAddedByUses()) {
\r
1179 addSchemaNodeToBuilderAsMethod(basePackageName, schemaNode, typeBuilder);
\r
1183 return typeBuilder;
\r
1187 * Adds the methods to <code>typeBuilder</code> what represents subnodes of
\r
1188 * node for which <code>typeBuilder</code> was created.
\r
1190 * @param basePackageName
\r
1191 * string contains the module package name
\r
1192 * @param typeBuilder
\r
1193 * generated type builder which represents any node. The subnodes
\r
1194 * of this node are added to the <code>typeBuilder</code> as
\r
1195 * methods. The subnode can be of type leaf, leaf-list, list,
\r
1196 * container, choice.
\r
1197 * @param schemaNodes
\r
1198 * set of data schema nodes which are the children of the node
\r
1199 * for which <code>typeBuilder</code> was created
\r
1200 * @return generated type builder which is the same object as the input
\r
1201 * parameter <code>typeBuilder</code>. The getter method could be
\r
1204 private def GeneratedTypeBuilder augSchemaNodeToMethods(String basePackageName, GeneratedTypeBuilder typeBuilder,
\r
1205 Set<DataSchemaNode> schemaNodes) {
\r
1206 if((schemaNodes !== null) && (typeBuilder !== null)) {
\r
1207 for (schemaNode : schemaNodes) {
\r
1208 if (!schemaNode.isAugmenting()) {
\r
1209 addSchemaNodeToBuilderAsMethod(basePackageName, schemaNode, typeBuilder);
\r
1213 return typeBuilder;
\r
1217 * Adds to <code>typeBuilder</code> a method which is derived from
\r
1218 * <code>schemaNode</code>.
\r
1220 * @param basePackageName
\r
1221 * string with the module package name
\r
1222 * @param schemaNode
\r
1223 * data schema node which is added to <code>typeBuilder</code> as
\r
1225 * @param typeBuilder
\r
1226 * generated type builder to which is <code>schemaNode</code>
\r
1227 * added as a method.
\r
1229 private def void addSchemaNodeToBuilderAsMethod(String basePackageName, DataSchemaNode node,
\r
1230 GeneratedTypeBuilder typeBuilder) {
\r
1231 if(node !== null && typeBuilder !== null) {
\r
1233 case node instanceof LeafSchemaNode:
\r
1234 resolveLeafSchemaNodeAsMethod(typeBuilder, node as LeafSchemaNode)
\r
1235 case node instanceof LeafListSchemaNode:
\r
1236 resolveLeafListSchemaNode(typeBuilder, node as LeafListSchemaNode)
\r
1237 case node instanceof ContainerSchemaNode:
\r
1238 resolveContainerSchemaNode(basePackageName, typeBuilder, node as ContainerSchemaNode)
\r
1239 case node instanceof ListSchemaNode:
\r
1240 resolveListSchemaNode(basePackageName, typeBuilder, node as ListSchemaNode)
\r
1241 case node instanceof ChoiceNode:
\r
1242 resolveChoiceSchemaNode(basePackageName, typeBuilder, node as ChoiceNode)
\r
1248 * Creates a getter method for a choice node.
\r
1250 * Firstly generated type builder for choice is created or found in
\r
1251 * {@link BindingGeneratorImpl#allGroupings allGroupings}. The package name
\r
1252 * in the builder is created as concatenation of module package name and
\r
1253 * names of all parent nodes. In the end the getter method for choice is
\r
1254 * added to <code>typeBuilder</code> and return type is set to choice
\r
1257 * @param basePackageName
\r
1258 * string with the module package name
\r
1259 * @param typeBuilder
\r
1260 * generated type builder to which is <code>choiceNode</code>
\r
1261 * added as getter method
\r
1262 * @param choiceNode
\r
1263 * choice node which is mapped as a getter method
\r
1264 * @throws IllegalArgumentException
\r
1266 * <li>if <code>basePackageName</code> equals null</li>
\r
1267 * <li>if <code>typeBuilder</code> equals null</li>
\r
1268 * <li>if <code>choiceNode</code> equals null</li>
\r
1272 private def void resolveChoiceSchemaNode(String basePackageName, GeneratedTypeBuilder typeBuilder,
\r
1273 ChoiceNode choiceNode) {
\r
1274 checkArgument(basePackageName !== null, "Base Package Name cannot be NULL.");
\r
1275 checkArgument(typeBuilder !== null, "Generated Type Builder cannot be NULL.");
\r
1276 checkArgument(choiceNode !== null, "Choice Schema Node cannot be NULL.");
\r
1278 val choiceName = choiceNode.QName.localName;
\r
1279 if(choiceName !== null && !choiceNode.isAddedByUses()) {
\r
1280 val packageName = packageNameForGeneratedType(basePackageName, choiceNode.path);
\r
1281 val choiceType = addDefaultInterfaceDefinition(packageName, choiceNode);
\r
1282 constructGetter(typeBuilder, choiceName, choiceNode.description, choiceType);
\r
1287 * Converts <code>choiceNode</code> to the list of generated types for
\r
1288 * choice and its cases.
\r
1290 * The package names for choice and for its cases are created as
\r
1291 * concatenation of the module package (<code>basePackageName</code>) and
\r
1292 * names of all parents node.
\r
1294 * @param basePackageName
\r
1295 * string with the module package name
\r
1296 * @param choiceNode
\r
1297 * choice node which is mapped to generated type. Also child
\r
1298 * nodes - cases are mapped to generated types.
\r
1299 * @return list of generated types which contains generated type for choice
\r
1300 * and generated types for all cases which aren't added do choice
\r
1301 * through <i>uses</i>.
\r
1302 * @throws IllegalArgumentException
\r
1304 * <li>if <code>basePackageName</code> equals null</li>
\r
1305 * <li>if <code>choiceNode</code> equals null</li>
\r
1309 private def List<Type> choiceToGeneratedType(String basePackageName, ChoiceNode choiceNode, Module module) {
\r
1310 checkArgument(basePackageName !== null, "Base Package Name cannot be NULL.");
\r
1311 checkArgument(choiceNode !== null, "Choice Schema Node cannot be NULL.");
\r
1313 val List<Type> generatedTypes = new ArrayList();
\r
1314 val packageName = packageNameForGeneratedType(basePackageName, choiceNode.path);
\r
1315 val choiceTypeBuilder = addRawInterfaceDefinition(packageName, choiceNode);
\r
1317 //choiceTypeBuilder.addImplementsType(DATA_OBJECT);
\r
1318 val choiceType = choiceTypeBuilder.toInstance();
\r
1320 generatedTypes.add(choiceType);
\r
1321 val Set<ChoiceCaseNode> caseNodes = choiceNode.cases;
\r
1322 if((caseNodes !== null) && !caseNodes.isEmpty()) {
\r
1323 generatedTypes.addAll(generateTypesFromChoiceCases(basePackageName, choiceType, caseNodes, module));
\r
1325 return generatedTypes;
\r
1329 * Converts <code>caseNodes</code> set to list of corresponding generated
\r
1332 * For every <i>case</i> which isn't added through augment or <i>uses</i> is
\r
1333 * created generated type builder. The package names for the builder is
\r
1334 * created as concatenation of the module package (
\r
1335 * <code>basePackageName</code>) and names of all parents nodes of the
\r
1336 * concrete <i>case</i>. There is also relation "<i>implements type</i>"
\r
1337 * between every case builder and <i>choice</i> type
\r
1339 * @param basePackageName
\r
1340 * string with the module package name
\r
1341 * @param refChoiceType
\r
1342 * type which represents superior <i>case</i>
\r
1343 * @param caseNodes
\r
1344 * set of choice case nodes which are mapped to generated types
\r
1345 * @return list of generated types for <code>caseNodes</code>.
\r
1346 * @throws IllegalArgumentException
\r
1348 * <li>if <code>basePackageName</code> equals null</li>
\r
1349 * <li>if <code>refChoiceType</code> equals null</li>
\r
1350 * <li>if <code>caseNodes</code> equals null</li>
\r
1354 private def List<Type> generateTypesFromChoiceCases(String basePackageName, Type refChoiceType,
\r
1355 Set<ChoiceCaseNode> caseNodes, Module module) {
\r
1356 checkArgument(basePackageName !== null, "Base Package Name cannot be NULL.");
\r
1357 checkArgument(refChoiceType !== null, "Referenced Choice Type cannot be NULL.");
\r
1358 checkArgument(caseNodes !== null, "Set of Choice Case Nodes cannot be NULL.");
\r
1360 val List<Type> generatedTypes = new ArrayList();
\r
1361 for (caseNode : caseNodes) {
\r
1362 if(caseNode !== null && !caseNode.isAddedByUses() && !caseNode.isAugmenting()) {
\r
1363 val packageName = packageNameForGeneratedType(basePackageName, caseNode.path);
\r
1364 val caseTypeBuilder = addDefaultInterfaceDefinition(packageName, caseNode);
\r
1365 caseTypeBuilder.addImplementsType(refChoiceType);
\r
1367 val Set<DataSchemaNode> childNodes = caseNode.childNodes;
\r
1368 if(childNodes !== null) {
\r
1369 resolveDataSchemaNodes(basePackageName, caseTypeBuilder, childNodes);
\r
1371 generatedTypes.add(caseTypeBuilder.toInstance());
\r
1374 generatedTypes.addAll(processUsesAugments(caseNode, module));
\r
1377 return generatedTypes;
\r
1381 * Generates list of generated types for all the cases of a choice which are
\r
1382 * added to the choice through the augment.
\r
1385 * @param basePackageName
\r
1386 * string contains name of package to which augment belongs. If
\r
1387 * an augmented choice is from an other package (pcg1) than an
\r
1388 * augmenting choice (pcg2) then case's of the augmenting choice
\r
1389 * will belong to pcg2.
\r
1390 * @param refChoiceType
\r
1391 * Type which represents the choice to which case belongs. Every
\r
1392 * case has to contain its choice in extend part.
\r
1393 * @param caseNodes
\r
1394 * set of choice case nodes for which is checked if are/aren't
\r
1395 * added to choice through augmentation
\r
1396 * @return list of generated types which represents augmented cases of
\r
1397 * choice <code>refChoiceType</code>
\r
1398 * @throws IllegalArgumentException
\r
1400 * <li>if <code>basePackageName</code> equals null</li>
\r
1401 * <li>if <code>refChoiceType</code> equals null</li>
\r
1402 * <li>if <code>caseNodes</code> equals null</li>
\r
1405 private def List<GeneratedType> generateTypesFromAugmentedChoiceCases(String basePackageName, Type refChoiceType,
\r
1406 Set<DataSchemaNode> caseNodes, ChoiceNode targetNode) {
\r
1407 checkArgument(basePackageName !== null, "Base Package Name cannot be NULL.");
\r
1408 checkArgument(refChoiceType !== null, "Referenced Choice Type cannot be NULL.");
\r
1409 checkArgument(caseNodes !== null, "Set of Choice Case Nodes cannot be NULL.");
\r
1411 val List<GeneratedType> generatedTypes = new ArrayList();
\r
1412 for (caseNode : caseNodes) {
\r
1413 if(caseNode !== null) {
\r
1414 val packageName = packageNameForGeneratedType(basePackageName, caseNode.path);
\r
1415 val caseTypeBuilder = addDefaultInterfaceDefinition(packageName, caseNode);
\r
1416 caseTypeBuilder.addImplementsType(refChoiceType);
\r
1418 if (caseNode instanceof DataNodeContainer) {
\r
1419 val DataNodeContainer dataNodeCase = caseNode as DataNodeContainer;
\r
1420 val Set<DataSchemaNode> childNodes = dataNodeCase.childNodes;
\r
1421 if(childNodes !== null) {
\r
1422 resolveDataSchemaNodesAugmented(basePackageName, caseTypeBuilder, childNodes);
\r
1425 val ChoiceCaseNode node = targetNode.getCaseNodeByName(caseNode.getQName().getLocalName());
\r
1426 val Set<DataSchemaNode> childNodes = node.childNodes;
\r
1427 if(childNodes !== null) {
\r
1428 resolveDataSchemaNodesAugmented(basePackageName, caseTypeBuilder, childNodes);
\r
1432 generatedTypes.add(caseTypeBuilder.toInstance());
\r
1436 return generatedTypes;
\r
1440 * Converts <code>leaf</code> to the getter method which is added to
\r
1441 * <code>typeBuilder</code>.
\r
1443 * @param typeBuilder
\r
1444 * generated type builder to which is added getter method as
\r
1445 * <code>leaf</code> mapping
\r
1447 * leaf schema node which is mapped as getter method which is
\r
1448 * added to <code>typeBuilder</code>
\r
1449 * @return boolean value
\r
1451 * <li>false - if <code>leaf</code> or <code>typeBuilder</code> are
\r
1453 * <li>true - in other cases</li>
\r
1456 private def boolean resolveLeafSchemaNodeAsMethod(GeneratedTypeBuilder typeBuilder, LeafSchemaNode leaf) {
\r
1457 if((leaf !== null) && (typeBuilder !== null)) {
\r
1458 val leafName = leaf.QName.localName;
\r
1459 var String leafDesc = leaf.description;
\r
1460 if(leafDesc === null) {
\r
1464 val parentModule = findParentModule(schemaContext, leaf);
\r
1465 if(leafName !== null && !leaf.isAddedByUses()) {
\r
1466 val TypeDefinition<?> typeDef = leaf.type;
\r
1468 var Type returnType = null;
\r
1469 if(typeDef instanceof EnumTypeDefinition) {
\r
1470 returnType = typeProvider.javaTypeForSchemaDefinitionType(typeDef, leaf);
\r
1471 val enumTypeDef = typeDef as EnumTypeDefinition;
\r
1472 val enumBuilder = resolveInnerEnumFromTypeDefinition(enumTypeDef, leafName, typeBuilder);
\r
1474 if(enumBuilder !== null) {
\r
1475 returnType = new ReferencedTypeImpl(enumBuilder.packageName, enumBuilder.name);
\r
1477 (typeProvider as TypeProviderImpl).putReferencedType(leaf.path, returnType);
\r
1478 } else if(typeDef instanceof UnionType) {
\r
1479 val genTOBuilder = addTOToTypeBuilder(typeDef, typeBuilder, leafName, leaf, parentModule);
\r
1480 if(genTOBuilder !== null) {
\r
1481 returnType = new ReferencedTypeImpl(genTOBuilder.packageName, genTOBuilder.name);
\r
1483 } else if(typeDef instanceof BitsTypeDefinition) {
\r
1484 val genTOBuilder = addTOToTypeBuilder(typeDef, typeBuilder, leafName, leaf, parentModule);
\r
1485 if(genTOBuilder !== null) {
\r
1486 returnType = new ReferencedTypeImpl(genTOBuilder.packageName, genTOBuilder.name);
\r
1489 returnType = typeProvider.javaTypeForSchemaDefinitionType(typeDef, leaf);
\r
1491 if(returnType !== null) {
\r
1492 constructGetter(typeBuilder, leafName, leafDesc, returnType);
\r
1501 * Converts <code>leaf</code> schema node to property of generated TO
\r
1504 * @param toBuilder
\r
1505 * generated TO builder to which is <code>leaf</code> added as
\r
1508 * leaf schema node which is added to <code>toBuilder</code> as
\r
1510 * @param isReadOnly
\r
1511 * boolean value which says if leaf property is|isn't read only
\r
1512 * @return boolean value
\r
1514 * <li>false - if <code>leaf</code>, <code>toBuilder</code> or leaf
\r
1515 * name equals null or if leaf is added by <i>uses</i>.</li>
\r
1516 * <li>true - other cases</li>
\r
1519 private def boolean resolveLeafSchemaNodeAsProperty(GeneratedTOBuilder toBuilder, LeafSchemaNode leaf,
\r
1520 boolean isReadOnly) {
\r
1521 if((leaf !== null) && (toBuilder !== null)) {
\r
1522 val leafName = leaf.QName.localName;
\r
1523 var String leafDesc = leaf.description;
\r
1524 if(leafDesc === null) {
\r
1528 if(leafName !== null) {
\r
1529 val TypeDefinition<?> typeDef = leaf.type;
\r
1531 // TODO: properly resolve enum types
\r
1532 val returnType = typeProvider.javaTypeForSchemaDefinitionType(typeDef, leaf);
\r
1534 if(returnType !== null) {
\r
1535 val propBuilder = toBuilder.addProperty(parseToClassName(leafName));
\r
1537 propBuilder.setReadOnly(isReadOnly);
\r
1538 propBuilder.setReturnType(returnType);
\r
1539 propBuilder.setComment(leafDesc);
\r
1541 toBuilder.addEqualsIdentity(propBuilder);
\r
1542 toBuilder.addHashIdentity(propBuilder);
\r
1543 toBuilder.addToStringProperty(propBuilder);
\r
1553 * Converts <code>node</code> leaf list schema node to getter method of
\r
1554 * <code>typeBuilder</code>.
\r
1556 * @param typeBuilder
\r
1557 * generated type builder to which is <code>node</code> added as
\r
1560 * leaf list schema node which is added to
\r
1561 * <code>typeBuilder</code> as getter method
\r
1562 * @return boolean value
\r
1564 * <li>true - if <code>node</code>, <code>typeBuilder</code>,
\r
1565 * nodeName equal null or <code>node</code> is added by <i>uses</i></li>
\r
1566 * <li>false - other cases</li>
\r
1569 private def boolean resolveLeafListSchemaNode(GeneratedTypeBuilder typeBuilder, LeafListSchemaNode node) {
\r
1570 if((node !== null) && (typeBuilder !== null)) {
\r
1571 val nodeName = node.QName.localName;
\r
1572 var String nodeDesc = node.description;
\r
1573 if(nodeDesc === null) {
\r
1577 if(nodeName !== null && !node.isAddedByUses()) {
\r
1578 val TypeDefinition<?> type = node.type;
\r
1579 val listType = Types.listTypeFor(typeProvider.javaTypeForSchemaDefinitionType(type, node));
\r
1581 constructGetter(typeBuilder, nodeName, nodeDesc, listType);
\r
1589 * Creates a getter method for a container node.
\r
1591 * Firstly generated type builder for container is created or found in
\r
1592 * {@link BindingGeneratorImpl#allGroupings allGroupings}. The package name
\r
1593 * in the builder is created as concatenation of module package name and
\r
1594 * names of all parent nodes. In the end the getter method for container is
\r
1595 * added to <code>typeBuilder</code> and return type is set to container
\r
1598 * @param basePackageName
\r
1599 * string with the module package name
\r
1600 * @param typeBuilder
\r
1601 * generated type builder to which is <code>containerNode</code>
\r
1602 * added as getter method
\r
1603 * @param containerNode
\r
1604 * container schema node which is mapped as getter method to
\r
1605 * <code>typeBuilder</code>
\r
1606 * @return boolean value
\r
1608 * <li>false - if <code>containerNode</code>,
\r
1609 * <code>typeBuilder</code>, container node name equal null or
\r
1610 * <code>containerNode</code> is added by uses</li>
\r
1611 * <li>true - other cases</li>
\r
1614 private def boolean resolveContainerSchemaNode(String basePackageName, GeneratedTypeBuilder typeBuilder,
\r
1615 ContainerSchemaNode containerNode) {
\r
1616 if((containerNode !== null) && (typeBuilder !== null)) {
\r
1617 val nodeName = containerNode.QName.localName;
\r
1619 if(nodeName !== null && !containerNode.isAddedByUses()) {
\r
1620 val packageName = packageNameForGeneratedType(basePackageName, containerNode.path);
\r
1622 val rawGenType = addDefaultInterfaceDefinition(packageName, containerNode);
\r
1623 constructGetter(typeBuilder, nodeName, containerNode.description, rawGenType);
\r
1632 * Creates a getter method for a list node.
\r
1634 * Firstly generated type builder for list is created or found in
\r
1635 * {@link BindingGeneratorImpl#allGroupings allGroupings}. The package name
\r
1636 * in the builder is created as concatenation of module package name and
\r
1637 * names of all parent nodes. In the end the getter method for list is added
\r
1638 * to <code>typeBuilder</code> and return type is set to list type builder.
\r
1640 * @param basePackageName
\r
1641 * string with the module package name
\r
1642 * @param typeBuilder
\r
1643 * generated type builder to which is <code></code> added as
\r
1646 * list schema node which is mapped as getter method to
\r
1647 * <code>typeBuilder</code>
\r
1648 * @return boolean value
\r
1650 * <li>false - if <code>listNode</code>, <code>typeBuilder</code>,
\r
1651 * list node name equal null or <code>listNode</code> is added by
\r
1653 * <li>true - other cases</li>
\r
1656 private def boolean resolveListSchemaNode(String basePackageName, GeneratedTypeBuilder typeBuilder,
\r
1657 ListSchemaNode listNode) {
\r
1658 if((listNode !== null) && (typeBuilder !== null)) {
\r
1659 val listName = listNode.QName.localName;
\r
1661 if(listName !== null && !listNode.isAddedByUses()) {
\r
1662 val packageName = packageNameForGeneratedType(basePackageName, listNode.path);
\r
1663 val rawGenType = addDefaultInterfaceDefinition(packageName, listNode);
\r
1664 constructGetter(typeBuilder, listName, listNode.description, Types.listTypeFor(rawGenType));
\r
1672 * Instantiates generated type builder with <code>packageName</code> and
\r
1673 * <code>schemaNode</code>.
\r
1675 * The new builder always implements
\r
1676 * {@link org.opendaylight.yangtools.yang.binding.DataObject DataObject}.<br />
\r
1677 * If <code>schemaNode</code> is instance of GroupingDefinition it also
\r
1678 * implements {@link org.opendaylight.yangtools.yang.binding.Augmentable
\r
1679 * Augmentable}.<br />
\r
1680 * If <code>schemaNode</code> is instance of
\r
1681 * {@link org.opendaylight.yangtools.yang.model.api.DataNodeContainer
\r
1682 * DataNodeContainer} it can also implement nodes which are specified in
\r
1685 * @param packageName
\r
1686 * string with the name of the package to which
\r
1687 * <code>schemaNode</code> belongs.
\r
1688 * @param schemaNode
\r
1689 * schema node for which is created generated type builder
\r
1690 * @return generated type builder <code>schemaNode</code>
\r
1692 private def GeneratedTypeBuilder addDefaultInterfaceDefinition(String packageName, SchemaNode schemaNode) {
\r
1693 val builder = addRawInterfaceDefinition(packageName, schemaNode, "");
\r
1694 builder.addImplementsType(DATA_OBJECT);
\r
1695 if(!(schemaNode instanceof GroupingDefinition)) {
\r
1696 builder.addImplementsType(augmentable(builder));
\r
1699 if(schemaNode instanceof DataNodeContainer) {
\r
1700 addImplementedInterfaceFromUses(schemaNode as DataNodeContainer, builder);
\r
1707 * Wraps the calling of the same overloaded method.
\r
1709 * @param packageName
\r
1710 * string with the package name to which returning generated type
\r
1712 * @param schemaNode
\r
1713 * schema node which provide data about the schema node name
\r
1714 * @return generated type builder for <code>schemaNode</code>
\r
1716 private def GeneratedTypeBuilder addRawInterfaceDefinition(String packageName, SchemaNode schemaNode) {
\r
1717 return addRawInterfaceDefinition(packageName, schemaNode, "");
\r
1721 * Returns reference to generated type builder for specified
\r
1722 * <code>schemaNode</code> with <code>packageName</code>.
\r
1724 * Firstly the generated type builder is searched in
\r
1725 * {@link BindingGeneratorImpl#genTypeBuilders genTypeBuilders}. If it isn't
\r
1726 * found it is created and added to <code>genTypeBuilders</code>.
\r
1728 * @param packageName
\r
1729 * string with the package name to which returning generated type
\r
1731 * @param schemaNode
\r
1732 * schema node which provide data about the schema node name
\r
1733 * @return generated type builder for <code>schemaNode</code>
\r
1734 * @throws IllegalArgumentException
\r
1736 * <li>if <code>schemaNode</code> equals null</li>
\r
1737 * <li>if <code>packageName</code> equals null</li>
\r
1738 * <li>if Q name of schema node is null</li>
\r
1739 * <li>if schema node name is nul</li>
\r
1743 private def GeneratedTypeBuilder addRawInterfaceDefinition(String packageName, SchemaNode schemaNode,
\r
1745 checkArgument(schemaNode !== null, "Data Schema Node cannot be NULL.");
\r
1746 checkArgument(packageName !== null, "Package Name for Generated Type cannot be NULL.");
\r
1747 checkArgument(schemaNode.QName !== null, "QName for Data Schema Node cannot be NULL.");
\r
1748 val schemaNodeName = schemaNode.QName.localName;
\r
1749 checkArgument(schemaNodeName !== null, "Local Name of QName for Data Schema Node cannot be NULL.");
\r
1751 var String genTypeName;
\r
1752 if(prefix === null) {
\r
1753 genTypeName = parseToClassName(schemaNodeName);
\r
1755 genTypeName = prefix + parseToClassName(schemaNodeName);
\r
1758 //FIXME: Validation of name conflict
\r
1759 val newType = new GeneratedTypeBuilderImpl(packageName, genTypeName);
\r
1760 yangToJavaMapping.put(schemaNode.path, newType);
\r
1761 if(!genTypeBuilders.containsKey(packageName)) {
\r
1762 val Map<String, GeneratedTypeBuilder> builders = new HashMap();
\r
1763 builders.put(genTypeName, newType);
\r
1764 genTypeBuilders.put(packageName, builders);
\r
1766 val Map<String, GeneratedTypeBuilder> builders = genTypeBuilders.get(packageName);
\r
1767 if(!builders.containsKey(genTypeName)) {
\r
1768 builders.put(genTypeName, newType);
\r
1775 * Creates the name of the getter method from <code>methodName</code>.
\r
1777 * @param methodName
\r
1778 * string with the name of the getter method
\r
1779 * @return string with the name of the getter method for
\r
1780 * <code>methodName</code> in JAVA method format
\r
1782 private def String getterMethodName(String methodName, Type returnType) {
\r
1783 val method = new StringBuilder();
\r
1784 if(BOOLEAN.equals(returnType)) {
\r
1785 method.append("is");
\r
1787 method.append("get");
\r
1789 method.append(parseToClassName(methodName));
\r
1790 return method.toString();
\r
1794 * Created a method signature builder as part of
\r
1795 * <code>interfaceBuilder</code>.
\r
1797 * The method signature builder is created for the getter method of
\r
1798 * <code>schemaNodeName</code>. Also <code>comment</code> and
\r
1799 * <code>returnType</code> information are added to the builder.
\r
1801 * @param interfaceBuilder
\r
1802 * generated type builder for which the getter method should be
\r
1804 * @param schemaNodeName
\r
1805 * string with schema node name. The name will be the part of the
\r
1806 * getter method name.
\r
1808 * string with comment for the getter method
\r
1809 * @param returnType
\r
1810 * type which represents the return type of the getter method
\r
1811 * @return method signature builder which represents the getter method of
\r
1812 * <code>interfaceBuilder</code>
\r
1814 private def MethodSignatureBuilder constructGetter(GeneratedTypeBuilder interfaceBuilder, String schemaNodeName,
\r
1815 String comment, Type returnType) {
\r
1817 val getMethod = interfaceBuilder.addMethod(getterMethodName(schemaNodeName, returnType));
\r
1819 getMethod.setComment(comment);
\r
1820 getMethod.setReturnType(returnType);
\r
1826 * Adds <code>schemaNode</code> to <code>typeBuilder</code> as getter method
\r
1827 * or to <code>genTOBuilder</code> as property.
\r
1829 * @param basePackageName
\r
1830 * string contains the module package name
\r
1831 * @param schemaNode
\r
1832 * data schema node which should be added as getter method to
\r
1833 * <code>typeBuilder</code> or as a property to
\r
1834 * <code>genTOBuilder</code> if is part of the list key
\r
1835 * @param typeBuilder
\r
1836 * generated type builder for the list schema node
\r
1837 * @param genTOBuilder
\r
1838 * generated TO builder for the list keys
\r
1840 * list of string which contains names of the list keys
\r
1841 * @throws IllegalArgumentException
\r
1843 * <li>if <code>schemaNode</code> equals null</li>
\r
1844 * <li>if <code>typeBuilder</code> equals null</li>
\r
1847 private def void addSchemaNodeToListBuilders(String basePackageName, DataSchemaNode schemaNode,
\r
1848 GeneratedTypeBuilder typeBuilder, GeneratedTOBuilder genTOBuilder, List<String> listKeys) {
\r
1849 checkArgument(schemaNode !== null, "Data Schema Node cannot be NULL.");
\r
1851 checkArgument(typeBuilder !== null, "Generated Type Builder cannot be NULL.");
\r
1853 if(schemaNode instanceof LeafSchemaNode) {
\r
1854 val leaf = schemaNode as LeafSchemaNode;
\r
1855 val leafName = leaf.QName.localName;
\r
1856 if(!listKeys.contains(leafName)) {
\r
1857 resolveLeafSchemaNodeAsMethod(typeBuilder, leaf);
\r
1859 resolveLeafSchemaNodeAsProperty(genTOBuilder, leaf, true);
\r
1861 } else if(schemaNode instanceof LeafListSchemaNode) {
\r
1862 resolveLeafListSchemaNode(typeBuilder, schemaNode as LeafListSchemaNode);
\r
1863 } else if(schemaNode instanceof ContainerSchemaNode) {
\r
1864 resolveContainerSchemaNode(basePackageName, typeBuilder, schemaNode as ContainerSchemaNode);
\r
1865 } else if(schemaNode instanceof ChoiceNode) {
\r
1866 resolveChoiceSchemaNode(basePackageName,typeBuilder,schemaNode as ChoiceNode);
\r
1867 } else if(schemaNode instanceof ListSchemaNode) {
\r
1868 resolveListSchemaNode(basePackageName, typeBuilder, schemaNode as ListSchemaNode);
\r
1872 private def typeBuildersToGenTypes(GeneratedTypeBuilder typeBuilder, GeneratedTOBuilder genTOBuilder) {
\r
1873 val List<Type> genTypes = new ArrayList();
\r
1874 checkArgument(typeBuilder !== null, "Generated Type Builder cannot be NULL.");
\r
1876 if(genTOBuilder !== null) {
\r
1877 val genTO = genTOBuilder.toInstance();
\r
1878 constructGetter(typeBuilder, "key", "Returns Primary Key of Yang List Type", genTO);
\r
1879 genTypes.add(genTO);
\r
1881 genTypes.add(typeBuilder.toInstance());
\r
1886 * Selects the names of the list keys from <code>list</code> and returns
\r
1887 * them as the list of the strings
\r
1890 * of string with names of the list keys
\r
1891 * @return list of string which represents names of the list keys. If the
\r
1892 * <code>list</code> contains no keys then the empty list is
\r
1895 private def listKeys(ListSchemaNode list) {
\r
1896 val List<String> listKeys = new ArrayList();
\r
1898 if(list.keyDefinition !== null) {
\r
1899 val keyDefinitions = list.keyDefinition;
\r
1900 for (keyDefinition : keyDefinitions) {
\r
1901 listKeys.add(keyDefinition.localName);
\r
1908 * Generates for the <code>list</code> which contains any list keys special
\r
1909 * generated TO builder.
\r
1911 * @param packageName
\r
1912 * string with package name to which the list belongs
\r
1914 * list schema node which is source of data about the list name
\r
1915 * @return generated TO builder which represents the keys of the
\r
1916 * <code>list</code> or null if <code>list</code> is null or list of
\r
1917 * key definitions is null or empty.
\r
1919 private def GeneratedTOBuilder resolveListKeyTOBuilder(String packageName, ListSchemaNode list) {
\r
1920 var GeneratedTOBuilder genTOBuilder = null;
\r
1921 if((list.keyDefinition !== null) && (!list.keyDefinition.isEmpty())) {
\r
1922 if(list !== null) {
\r
1923 val listName = list.QName.localName + "Key";
\r
1924 val String genTOName = parseToClassName(listName);
\r
1925 genTOBuilder = new GeneratedTOBuilderImpl(packageName, genTOName);
\r
1928 return genTOBuilder;
\r
1933 * Builds generated TO builders for <code>typeDef</code> of type
\r
1934 * {@link org.opendaylight.yangtools.yang.model.util.UnionType UnionType} or
\r
1935 * {@link org.opendaylight.yangtools.yang.model.api.type.BitsTypeDefinition
\r
1936 * BitsTypeDefinition} which are also added to <code>typeBuilder</code> as
\r
1937 * enclosing transfer object.
\r
1939 * If more then one generated TO builder is created for enclosing then all
\r
1940 * of the generated TO builders are added to <code>typeBuilder</code> as
\r
1941 * enclosing transfer objects.
\r
1944 * type definition which can be of type <code>UnionType</code> or
\r
1945 * <code>BitsTypeDefinition</code>
\r
1946 * @param typeBuilder
\r
1947 * generated type builder to which is added generated TO created
\r
1948 * from <code>typeDef</code>
\r
1950 * string with name for generated TO builder
\r
1951 * @return generated TO builder for <code>typeDef</code>
\r
1953 private def GeneratedTOBuilder addTOToTypeBuilder(TypeDefinition<?> typeDef, GeneratedTypeBuilder typeBuilder,
\r
1954 String leafName, LeafSchemaNode leaf, Module parentModule) {
\r
1955 val classNameFromLeaf = parseToClassName(leafName);
\r
1956 val List<GeneratedTOBuilder> genTOBuilders = new ArrayList();
\r
1957 val packageName = typeBuilder.fullyQualifiedName;
\r
1958 if(typeDef instanceof UnionTypeDefinition) {
\r
1959 genTOBuilders.addAll(
\r
1960 (typeProvider as TypeProviderImpl).
\r
1961 provideGeneratedTOBuildersForUnionTypeDef(packageName, (typeDef as UnionTypeDefinition),
\r
1962 classNameFromLeaf, leaf));
\r
1963 } else if(typeDef instanceof BitsTypeDefinition) {
\r
1964 genTOBuilders.add(
\r
1965 ((typeProvider as TypeProviderImpl) ).
\r
1966 provideGeneratedTOBuilderForBitsTypeDefinition(packageName, typeDef, classNameFromLeaf));
\r
1968 if(genTOBuilders !== null && !genTOBuilders.isEmpty()) {
\r
1969 for (genTOBuilder : genTOBuilders) {
\r
1970 typeBuilder.addEnclosingTransferObject(genTOBuilder);
\r
1972 return genTOBuilders.get(0);
\r
1979 * Adds the implemented types to type builder.
\r
1981 * The method passes through the list of <i>uses</i> in
\r
1982 * {@code dataNodeContainer}. For every <i>use</i> is obtained coresponding
\r
1983 * generated type from {@link BindingGeneratorImpl#allGroupings
\r
1984 * allGroupings} which is added as <i>implements type</i> to
\r
1985 * <code>builder</code>
\r
1987 * @param dataNodeContainer
\r
1988 * element which contains the list of used YANG groupings
\r
1990 * builder to which are added implemented types according to
\r
1991 * <code>dataNodeContainer</code>
\r
1992 * @return generated type builder with all implemented types
\r
1994 private def addImplementedInterfaceFromUses(DataNodeContainer dataNodeContainer, GeneratedTypeBuilder builder) {
\r
1995 for (usesNode : dataNodeContainer.uses) {
\r
1996 if(usesNode.groupingPath !== null) {
\r
1997 val genType = allGroupings.get(usesNode.groupingPath);
\r
1998 if(genType === null) {
\r
1999 throw new IllegalStateException(
\r
2000 "Grouping " + usesNode.groupingPath + "is not resolved for " + builder.name);
\r
2002 builder.addImplementsType(genType);
\r