use of io.swagger.annotations.ApiModel in project swagger-core by swagger-api.
the class SwaggerAnnotationIntrospector method findSubtypes.
@Override
public List<NamedType> findSubtypes(Annotated a) {
final ApiModel api = a.getAnnotation(ApiModel.class);
if (api != null) {
final Class<?>[] classes = api.subTypes();
final List<NamedType> names = new ArrayList<NamedType>(classes.length);
for (Class<?> subType : classes) {
names.add(new NamedType(subType));
}
if (!names.isEmpty()) {
return names;
}
}
return Collections.emptyList();
}
use of io.swagger.annotations.ApiModel in project swagger-core by swagger-api.
the class TypeNameResolver method nameForClass.
protected String nameForClass(Class<?> cls, Set<Options> options) {
if (options.contains(Options.SKIP_API_MODEL)) {
return cls.getSimpleName();
}
final ApiModel model = cls.getAnnotation(ApiModel.class);
final String modelName = model == null ? null : StringUtils.trimToNull(model.value());
return modelName == null ? cls.getSimpleName() : modelName;
}
use of io.swagger.annotations.ApiModel in project candlepin by candlepin.
the class CandlepinSwaggerModelConverter method resolve.
public Model resolve(Type rawType, ModelConverterContext context, Iterator<ModelConverter> next) {
if (this.shouldIgnoreClass(rawType)) {
return null;
}
/**
* See java doc of NestedComplexType. This unwrapping makes sure that a
* real type of field used throughout the method. At the same time flag
* 'isNested' helps to indicate later in the method that this type may
* be introspected as Hateoas enabled field
*/
boolean isNested = false;
if (rawType instanceof NestedComplexType) {
isNested = true;
NestedComplexType nested = (NestedComplexType) rawType;
rawType = nested.getOriginalType();
}
JavaType type = pMapper.constructType(rawType);
if (type.isEnumType() || PrimitiveType.fromType(type) != null) {
// We don't build models for primitive types
return null;
}
final BeanDescription beanDesc = pMapper.getSerializationConfig().introspect(type);
// Couple of possibilities for defining
String name = isNested ? "Nested" : "";
name += pTypeName(type, beanDesc);
if ("Object".equals(name)) {
return new ModelImpl();
}
final ModelImpl model = new ModelImpl().type(ModelImpl.OBJECT).name(name).description(pDescription(beanDesc.getClassInfo()));
if (!type.isContainerType()) {
// define the model here to support self/cyclic referencing of
// models
context.defineModel(name, model, type, null);
}
if (type.isContainerType()) {
// We treat collections as primitive types, just need to add models
// for values (if any)
context.resolve(type.getContentType());
return null;
}
// if XmlRootElement annotation, construct an Xml object and attach it
// to the model
XmlRootElement rootAnnotation = beanDesc.getClassAnnotations().get(XmlRootElement.class);
if (rootAnnotation != null && !"".equals(rootAnnotation.name()) && !"##default".equals(rootAnnotation.name())) {
log.debug(rootAnnotation.toString());
Xml xml = new Xml().name(rootAnnotation.name());
if (rootAnnotation.namespace() != null && !"".equals(rootAnnotation.namespace()) && !"##default".equals(rootAnnotation.namespace())) {
xml.namespace(rootAnnotation.namespace());
}
model.xml(xml);
}
// see if @JsonIgnoreProperties exist
Set<String> propertiesToIgnore = new HashSet<>();
JsonIgnoreProperties ignoreProperties = beanDesc.getClassAnnotations().get(JsonIgnoreProperties.class);
if (ignoreProperties != null) {
propertiesToIgnore.addAll(Arrays.asList(ignoreProperties.value()));
}
final ApiModel apiModel = beanDesc.getClassAnnotations().get(ApiModel.class);
String disc = (apiModel == null) ? "" : apiModel.discriminator();
if (apiModel != null && StringUtils.isNotEmpty(apiModel.reference())) {
model.setReference(apiModel.reference());
}
if (disc.isEmpty()) {
// longer method would involve
// AnnotationIntrospector.findTypeResolver(...) but:
JsonTypeInfo typeInfo = beanDesc.getClassAnnotations().get(JsonTypeInfo.class);
if (typeInfo != null) {
disc = typeInfo.property();
}
}
if (!disc.isEmpty()) {
model.setDiscriminator(disc);
}
List<Property> props = new ArrayList<>();
for (BeanPropertyDefinition propDef : beanDesc.findProperties()) {
parseProperty(context, isNested, beanDesc, propertiesToIgnore, props, propDef);
}
Collections.sort(props, getPropertyComparator());
Map<String, Property> modelProps = new LinkedHashMap<>();
for (Property prop : props) {
modelProps.put(prop.getName(), prop);
}
model.setProperties(modelProps);
/**
* This must be done after model.setProperties so that the model's set
* of properties is available to filter from any subtypes
*/
if (!resolveSubtypes(model, beanDesc, context)) {
model.setDiscriminator(null);
}
return model;
}
use of io.swagger.annotations.ApiModel in project swagger-core by swagger-api.
the class ModelResolver method resolve.
public Model resolve(JavaType type, ModelConverterContext context, Iterator<ModelConverter> next) {
if (type.isEnumType() || PrimitiveType.fromType(type) != null) {
// We don't build models for primitive types
return null;
}
final BeanDescription beanDesc = _mapper.getSerializationConfig().introspect(type);
// Couple of possibilities for defining
String name = _typeName(type, beanDesc);
if ("Object".equals(name)) {
return new ModelImpl();
}
/**
* --Preventing parent/child hierarchy creation loops - Comment 1--
* Creating a parent model will result in the creation of child models. Creating a child model will result in
* the creation of a parent model, as per the second If statement following this comment.
*
* By checking whether a model has already been resolved (as implemented below), loops of parents creating
* children and children creating parents can be short-circuited. This works because currently the
* ModelConverterContextImpl will return null for a class that already been processed, but has not yet been
* defined. This logic works in conjunction with the early immediate definition of model in the context
* implemented later in this method (See "Preventing parent/child hierarchy creation loops - Comment 2") to
* prevent such
*/
Model resolvedModel = context.resolve(type.getRawClass());
if (resolvedModel != null) {
if (!(resolvedModel instanceof ModelImpl || resolvedModel instanceof ComposedModel) || (resolvedModel instanceof ModelImpl && ((ModelImpl) resolvedModel).getName().equals(name))) {
return resolvedModel;
} else if (resolvedModel instanceof ComposedModel) {
Model childModel = ((ComposedModel) resolvedModel).getChild();
if (childModel != null && (!(childModel instanceof ModelImpl) || ((ModelImpl) childModel).getName().equals(name))) {
return resolvedModel;
}
}
}
final ModelImpl model = new ModelImpl().type(ModelImpl.OBJECT).name(name).description(_description(beanDesc.getClassInfo()));
if (!type.isContainerType()) {
// define the model here to support self/cyclic referencing of models
context.defineModel(name, model, type, null);
}
if (type.isContainerType()) {
// We treat collections as primitive types, just need to add models for values (if any)
context.resolve(type.getContentType());
return null;
}
// if XmlRootElement annotation, construct an Xml object and attach it to the model
XmlRootElement rootAnnotation = beanDesc.getClassAnnotations().get(XmlRootElement.class);
if (rootAnnotation != null && !"".equals(rootAnnotation.name()) && !"##default".equals(rootAnnotation.name())) {
LOGGER.debug("{}", rootAnnotation);
Xml xml = new Xml().name(rootAnnotation.name());
if (rootAnnotation.namespace() != null && !"".equals(rootAnnotation.namespace()) && !"##default".equals(rootAnnotation.namespace())) {
xml.namespace(rootAnnotation.namespace());
}
model.xml(xml);
}
final XmlAccessorType xmlAccessorTypeAnnotation = beanDesc.getClassAnnotations().get(XmlAccessorType.class);
// see if @JsonIgnoreProperties exist
Set<String> propertiesToIgnore = new HashSet<String>();
JsonIgnoreProperties ignoreProperties = beanDesc.getClassAnnotations().get(JsonIgnoreProperties.class);
if (ignoreProperties != null) {
propertiesToIgnore.addAll(Arrays.asList(ignoreProperties.value()));
}
final ApiModel apiModel = beanDesc.getClassAnnotations().get(ApiModel.class);
String disc = (apiModel == null) ? "" : apiModel.discriminator();
if (apiModel != null && StringUtils.isNotEmpty(apiModel.reference())) {
model.setReference(apiModel.reference());
}
if (disc.isEmpty()) {
// longer method would involve AnnotationIntrospector.findTypeResolver(...) but:
JsonTypeInfo typeInfo = beanDesc.getClassAnnotations().get(JsonTypeInfo.class);
if (typeInfo != null) {
disc = typeInfo.property();
}
}
if (!disc.isEmpty()) {
model.setDiscriminator(disc);
}
List<Property> props = new ArrayList<Property>();
for (BeanPropertyDefinition propDef : beanDesc.findProperties()) {
Property property = null;
String propName = propDef.getName();
Annotation[] annotations = null;
// it's ugly but gets around https://github.com/swagger-api/swagger-core/issues/415
if (propDef.getPrimaryMember() != null) {
java.lang.reflect.Member member = propDef.getPrimaryMember().getMember();
if (member != null) {
String altName = member.getName();
if (altName != null) {
final int length = altName.length();
for (String prefix : Arrays.asList("get", "is")) {
final int offset = prefix.length();
if (altName.startsWith(prefix) && length > offset && !Character.isUpperCase(altName.charAt(offset))) {
propName = altName;
break;
}
}
}
}
}
PropertyMetadata md = propDef.getMetadata();
boolean hasSetter = false, hasGetter = false;
try {
if (propDef.getSetter() == null) {
hasSetter = false;
} else {
hasSetter = true;
}
} catch (IllegalArgumentException e) {
//com.fasterxml.jackson.databind.introspect.POJOPropertyBuilder would throw IllegalArgumentException
// if there are overloaded setters. If we only want to know whether a set method exists, suppress the exception
// is reasonable.
// More logs might be added here
hasSetter = true;
}
if (propDef.getGetter() != null) {
JsonProperty pd = propDef.getGetter().getAnnotation(JsonProperty.class);
if (pd != null) {
hasGetter = true;
}
}
Boolean isReadOnly = null;
if (!hasSetter & hasGetter) {
isReadOnly = Boolean.TRUE;
} else {
isReadOnly = Boolean.FALSE;
}
final AnnotatedMember member = propDef.getPrimaryMember();
Boolean allowEmptyValue = null;
if (member != null && !ignore(member, xmlAccessorTypeAnnotation, propName, propertiesToIgnore)) {
List<Annotation> annotationList = new ArrayList<Annotation>();
for (Annotation a : member.annotations()) {
annotationList.add(a);
}
annotations = annotationList.toArray(new Annotation[annotationList.size()]);
ApiModelProperty mp = member.getAnnotation(ApiModelProperty.class);
if (mp != null && mp.readOnly()) {
isReadOnly = mp.readOnly();
}
if (mp != null && mp.allowEmptyValue()) {
allowEmptyValue = mp.allowEmptyValue();
} else {
allowEmptyValue = null;
}
JavaType propType = member.getType(beanDesc.bindingsForBeanType());
// allow override of name from annotation
if (mp != null && !mp.name().isEmpty()) {
propName = mp.name();
}
if (mp != null && !mp.dataType().isEmpty()) {
String or = mp.dataType();
JavaType innerJavaType = null;
LOGGER.debug("overriding datatype from {} to {}", propType, or);
if (or.toLowerCase().startsWith("list[")) {
String innerType = or.substring(5, or.length() - 1);
ArrayProperty p = new ArrayProperty();
Property primitiveProperty = PrimitiveType.createProperty(innerType);
if (primitiveProperty != null) {
p.setItems(primitiveProperty);
} else {
innerJavaType = getInnerType(innerType);
p.setItems(context.resolveProperty(innerJavaType, annotations));
}
property = p;
} else if (or.toLowerCase().startsWith("map[")) {
int pos = or.indexOf(",");
if (pos > 0) {
String innerType = or.substring(pos + 1, or.length() - 1);
MapProperty p = new MapProperty();
Property primitiveProperty = PrimitiveType.createProperty(innerType);
if (primitiveProperty != null) {
p.setAdditionalProperties(primitiveProperty);
} else {
innerJavaType = getInnerType(innerType);
p.setAdditionalProperties(context.resolveProperty(innerJavaType, annotations));
}
property = p;
}
} else {
Property primitiveProperty = PrimitiveType.createProperty(or);
if (primitiveProperty != null) {
property = primitiveProperty;
} else {
innerJavaType = getInnerType(or);
property = context.resolveProperty(innerJavaType, annotations);
}
}
if (innerJavaType != null) {
context.resolve(innerJavaType);
}
}
// no property from override, construct from propType
if (property == null) {
if (mp != null && StringUtils.isNotEmpty(mp.reference())) {
property = new RefProperty(mp.reference());
} else if (member.getAnnotation(JsonIdentityInfo.class) != null) {
property = GeneratorWrapper.processJsonIdentity(propType, context, _mapper, member.getAnnotation(JsonIdentityInfo.class), member.getAnnotation(JsonIdentityReference.class));
}
if (property == null) {
JsonUnwrapped uw = member.getAnnotation(JsonUnwrapped.class);
if (uw != null && uw.enabled()) {
handleUnwrapped(props, context.resolve(propType), uw.prefix(), uw.suffix());
} else {
property = context.resolveProperty(propType, annotations);
}
}
}
if (property != null) {
property.setName(propName);
if (mp != null && !mp.access().isEmpty()) {
property.setAccess(mp.access());
}
Boolean required = md.getRequired();
if (required != null) {
property.setRequired(required);
}
String description = _intr.findPropertyDescription(member);
if (description != null && !"".equals(description)) {
property.setDescription(description);
}
Integer index = _intr.findPropertyIndex(member);
if (index != null) {
property.setPosition(index);
}
property.setDefault(_findDefaultValue(member));
property.setExample(_findExampleValue(member));
property.setReadOnly(_findReadOnly(member));
if (allowEmptyValue != null) {
property.setAllowEmptyValue(allowEmptyValue);
}
if (property.getReadOnly() == null) {
if (isReadOnly) {
property.setReadOnly(isReadOnly);
}
}
if (mp != null) {
final AllowableValues allowableValues = AllowableValuesUtils.create(mp.allowableValues());
if (allowableValues != null) {
final Map<PropertyBuilder.PropertyId, Object> args = allowableValues.asPropertyArguments();
PropertyBuilder.merge(property, args);
}
}
JAXBAnnotationsHelper.apply(member, property);
applyBeanValidatorAnnotations(property, annotations);
props.add(property);
}
}
}
Collections.sort(props, getPropertyComparator());
Map<String, Property> modelProps = new LinkedHashMap<String, Property>();
for (Property prop : props) {
modelProps.put(prop.getName(), prop);
}
model.setProperties(modelProps);
/**
* --Preventing parent/child hierarchy creation loops - Comment 2--
* Creating a parent model will result in the creation of child models, as per the first If statement following
* this comment. Creating a child model will result in the creation of a parent model, as per the second If
* statement following this comment.
*
* The current model must be defined in the context immediately. This done to help prevent repeated
* loops where parents create children and children create parents when a hierarchy is present. This logic
* works in conjunction with the "early checking" performed earlier in this method
* (See "Preventing parent/child hierarchy creation loops - Comment 1"), to prevent repeated creation loops.
*
*
* As an aside, defining the current model in the context immediately also ensures that child models are
* available for modification by resolveSubtypes, when their parents are created.
*/
Class<?> currentType = type.getRawClass();
context.defineModel(name, model, currentType, null);
/**
* This must be done after model.setProperties so that the model's set
* of properties is available to filter from any subtypes
**/
if (!resolveSubtypes(model, beanDesc, context)) {
model.setDiscriminator(null);
}
if (apiModel != null) {
/**
* Check if the @ApiModel annotation has a parent property containing a value that should not be ignored
*/
Class<?> parentClass = apiModel.parent();
if (parentClass != null && !parentClass.equals(Void.class) && !this.shouldIgnoreClass(parentClass)) {
JavaType parentType = _mapper.constructType(parentClass);
final BeanDescription parentBeanDesc = _mapper.getSerializationConfig().introspect(parentType);
/**
* Retrieve all the sub-types of the parent class and ensure that the current type is one of those types
*/
boolean currentTypeIsParentSubType = false;
List<NamedType> subTypes = _intr.findSubtypes(parentBeanDesc.getClassInfo());
if (subTypes != null) {
for (NamedType subType : subTypes) {
if (subType.getType().equals(currentType)) {
currentTypeIsParentSubType = true;
break;
}
}
}
/**
Retrieve the subTypes from the parent class @ApiModel annotation and ensure that the current type
is one of those types.
*/
boolean currentTypeIsParentApiModelSubType = false;
final ApiModel parentApiModel = parentBeanDesc.getClassAnnotations().get(ApiModel.class);
if (parentApiModel != null) {
Class<?>[] apiModelSubTypes = parentApiModel.subTypes();
if (apiModelSubTypes != null) {
for (Class<?> subType : apiModelSubTypes) {
if (subType.equals(currentType)) {
currentTypeIsParentApiModelSubType = true;
break;
}
}
}
}
/**
If the current type is a sub-type of the parent class and is listed in the subTypes property of the
parent class @ApiModel annotation, then do the following:
1. Resolve the model for the parent class. This will result in the parent model being created, and the
current child model being updated to be a ComposedModel referencing the parent.
2. Resolve and return the current child type again. This will return the new ComposedModel from the
context, which was created in step 1 above. Admittedly, there is a small chance that this may result
in a stack overflow, if the context does not correctly cache the model for the current type. However,
as context caching is assumed elsewhere to avoid cyclical model creation, this was deemed to be
sufficient.
*/
if (currentTypeIsParentSubType && currentTypeIsParentApiModelSubType) {
context.resolve(parentClass);
return context.resolve(currentType);
}
}
}
return model;
}
use of io.swagger.annotations.ApiModel in project swagger-core by swagger-api.
the class SwaggerAnnotationIntrospector method findPropertyDescription.
@Override
public String findPropertyDescription(Annotated a) {
ApiModel model = a.getAnnotation(ApiModel.class);
if (model != null && !"".equals(model.description())) {
return model.description();
}
ApiModelProperty prop = a.getAnnotation(ApiModelProperty.class);
if (prop != null) {
return prop.value();
}
return null;
}
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