use of io.micronaut.core.annotation.AnnotationClassValue in project micronaut-core by micronaut-projects.
the class DefaultConversionService method registerDefaultConverters.
/**
* Default Converters.
*/
@SuppressWarnings({ "OptionalIsPresent", "unchecked" })
protected void registerDefaultConverters() {
// primitive array to wrapper array
@SuppressWarnings("rawtypes") Function primitiveArrayToWrapperArray = ArrayUtils::toWrapperArray;
addConverter(double[].class, Double[].class, primitiveArrayToWrapperArray);
addConverter(byte[].class, Byte[].class, primitiveArrayToWrapperArray);
addConverter(short[].class, Short[].class, primitiveArrayToWrapperArray);
addConverter(boolean[].class, Boolean[].class, primitiveArrayToWrapperArray);
addConverter(int[].class, Integer[].class, primitiveArrayToWrapperArray);
addConverter(float[].class, Float[].class, primitiveArrayToWrapperArray);
addConverter(double[].class, Double[].class, primitiveArrayToWrapperArray);
addConverter(char[].class, Character[].class, primitiveArrayToWrapperArray);
// wrapper to primitive array converters
Function<Object[], Object> wrapperArrayToPrimitiveArray = ArrayUtils::toPrimitiveArray;
// noinspection rawtypes
addConverter(Double[].class, double[].class, (Function) wrapperArrayToPrimitiveArray);
// noinspection rawtypes
addConverter(Integer[].class, int[].class, (Function) wrapperArrayToPrimitiveArray);
// Object -> List
addConverter(Object.class, List.class, (object, targetType, context) -> {
Optional<Argument<?>> firstTypeVariable = context.getFirstTypeVariable();
Argument<?> argument = firstTypeVariable.orElse(Argument.OBJECT_ARGUMENT);
Optional converted = DefaultConversionService.this.convert(object, context.with(argument));
if (converted.isPresent()) {
return Optional.of(Collections.singletonList(converted.get()));
}
return Optional.empty();
});
// String -> Class
addConverter(CharSequence.class, Class.class, (object, targetType, context) -> {
ClassLoader classLoader = targetType.getClassLoader();
if (classLoader == null) {
classLoader = DefaultConversionService.class.getClassLoader();
}
return ClassUtils.forName(object.toString(), classLoader);
});
// AnnotationClassValue -> Class
addConverter(AnnotationClassValue.class, Class.class, (object, targetType, context) -> object.getType());
addConverter(AnnotationClassValue.class, Object.class, (object, targetType, context) -> {
if (targetType.equals(Class.class)) {
return object.getType();
} else {
if (CharSequence.class.isAssignableFrom(targetType)) {
return Optional.of(object.getName());
} else {
Optional i = object.getInstance();
if (i.isPresent() && targetType.isInstance(i.get())) {
return i;
}
return Optional.empty();
}
}
});
addConverter(AnnotationClassValue[].class, Class.class, (object, targetType, context) -> {
if (object.length > 0) {
final AnnotationClassValue o = object[0];
if (o != null) {
return o.getType();
}
}
return Optional.empty();
});
addConverter(AnnotationClassValue[].class, Class[].class, (object, targetType, context) -> {
List<Class> classes = new ArrayList<>(object.length);
for (AnnotationClassValue<?> annotationClassValue : object) {
if (annotationClassValue != null) {
final Optional<? extends Class<?>> type = annotationClassValue.getType();
if (type.isPresent()) {
classes.add(type.get());
}
}
}
return Optional.of(classes.toArray(new Class[0]));
});
// URI -> URL
addConverter(URI.class, URL.class, uri -> {
try {
return uri.toURL();
} catch (MalformedURLException e) {
return null;
}
});
// InputStream -> String
addConverter(InputStream.class, String.class, (object, targetType, context) -> {
BufferedReader reader = new BufferedReader(new InputStreamReader(object));
try {
return Optional.of(IOUtils.readText(reader));
} catch (IOException e) {
context.reject(e);
return Optional.empty();
}
});
// String -> byte[]
addConverter(CharSequence.class, byte[].class, (object, targetType, context) -> Optional.of(object.toString().getBytes(context.getCharset())));
addConverter(Integer.class, byte[].class, (object, targetType, context) -> Optional.of(ByteBuffer.allocate(Integer.BYTES).putInt(object).array()));
addConverter(Character.class, byte[].class, (object, targetType, context) -> Optional.of(ByteBuffer.allocate(Integer.BYTES).putChar(object).array()));
addConverter(Long.class, byte[].class, (object, targetType, context) -> Optional.of(ByteBuffer.allocate(Long.BYTES).putLong(object).array()));
addConverter(Short.class, byte[].class, (object, targetType, context) -> Optional.of(ByteBuffer.allocate(Short.BYTES).putShort(object).array()));
addConverter(Double.class, byte[].class, (object, targetType, context) -> Optional.of(ByteBuffer.allocate(Double.BYTES).putDouble(object).array()));
addConverter(Float.class, byte[].class, (object, targetType, context) -> Optional.of(ByteBuffer.allocate(Float.BYTES).putFloat(object).array()));
// InputStream -> Number
addConverter(InputStream.class, Number.class, (object, targetType, context) -> {
Optional<String> convert = DefaultConversionService.this.convert(object, String.class, context);
if (convert.isPresent()) {
return convert.flatMap(val -> DefaultConversionService.this.convert(val, targetType, context));
}
return Optional.empty();
});
// Reader -> String
addConverter(Reader.class, String.class, (object, targetType, context) -> {
BufferedReader reader = object instanceof BufferedReader ? (BufferedReader) object : new BufferedReader(object);
try {
return Optional.of(IOUtils.readText(reader));
} catch (IOException e) {
context.reject(e);
return Optional.empty();
}
});
// String -> File
addConverter(CharSequence.class, File.class, (object, targetType, context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
return Optional.of(new File(object.toString()));
});
// String[] -> Enum
addConverter(String[].class, Enum.class, (object, targetType, context) -> {
if (object == null || object.length == 0) {
return Optional.empty();
}
StringJoiner joiner = new StringJoiner("");
for (String string : object) {
joiner.add(string);
}
final String val = joiner.toString();
return convert(val, targetType, context);
});
addConverter(String[].class, CharSequence.class, (object, targetType, context) -> {
if (object == null || object.length == 0) {
return Optional.empty();
}
StringJoiner joiner = new StringJoiner("");
for (String string : object) {
joiner.add(string);
}
return convert(joiner.toString(), targetType, context);
});
// CharSequence -> Long for bytes
addConverter(CharSequence.class, Number.class, new ReadableBytesTypeConverter());
// CharSequence -> Date
addConverter(CharSequence.class, Date.class, (object, targetType, context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
SimpleDateFormat format = resolveFormat(context);
return Optional.of(format.parse(object.toString()));
} catch (ParseException e) {
context.reject(object, e);
return Optional.empty();
}
});
// Date -> CharSequence
addConverter(Date.class, CharSequence.class, (object, targetType, context) -> {
SimpleDateFormat format = resolveFormat(context);
return Optional.of(format.format(object));
});
// String -> Path
addConverter(CharSequence.class, Path.class, (object, targetType, context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
return Optional.ofNullable(Paths.get(object.toString()));
} catch (Exception e) {
context.reject("Invalid path [" + object + " ]: " + e.getMessage(), e);
return Optional.empty();
}
});
// String -> Integer
addConverter(CharSequence.class, Integer.class, (CharSequence object, Class<Integer> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
Integer converted = Integer.valueOf(object.toString());
return Optional.of(converted);
} catch (NumberFormatException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> BigInteger
addConverter(CharSequence.class, BigInteger.class, (CharSequence object, Class<BigInteger> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
BigInteger converted = new BigInteger(object.toString());
return Optional.of(converted);
} catch (NumberFormatException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Float
addConverter(CharSequence.class, Float.class, (CharSequence object, Class<Float> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
Float converted = Float.valueOf(object.toString());
return Optional.of(converted);
} catch (NumberFormatException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Double
addConverter(CharSequence.class, Double.class, (CharSequence object, Class<Double> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
Double converted = Double.valueOf(object.toString());
return Optional.of(converted);
} catch (NumberFormatException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Long
addConverter(CharSequence.class, Long.class, (CharSequence object, Class<Long> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
Long converted = Long.valueOf(object.toString());
return Optional.of(converted);
} catch (NumberFormatException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Short
addConverter(CharSequence.class, Short.class, (CharSequence object, Class<Short> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
Short converted = Short.valueOf(object.toString());
return Optional.of(converted);
} catch (NumberFormatException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Byte
addConverter(CharSequence.class, Byte.class, (CharSequence object, Class<Byte> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
Byte converted = Byte.valueOf(object.toString());
return Optional.of(converted);
} catch (NumberFormatException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> BigDecimal
addConverter(CharSequence.class, BigDecimal.class, (CharSequence object, Class<BigDecimal> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
BigDecimal converted = new BigDecimal(object.toString());
return Optional.of(converted);
} catch (NumberFormatException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Boolean
addConverter(CharSequence.class, Boolean.class, (CharSequence object, Class<Boolean> targetType, ConversionContext context) -> {
String booleanString = object.toString().toLowerCase(Locale.ENGLISH);
switch(booleanString) {
case "yes":
case "y":
case "on":
case "true":
return Optional.of(Boolean.TRUE);
default:
return Optional.of(Boolean.FALSE);
}
});
// String -> URL
addConverter(CharSequence.class, URL.class, (CharSequence object, Class<URL> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
String spec = object.toString();
if (!spec.contains("://")) {
spec = "http://" + spec;
}
return Optional.of(new URL(spec));
} catch (MalformedURLException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> URI
addConverter(CharSequence.class, URI.class, (CharSequence object, Class<URI> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
return Optional.of(new URI(object.toString()));
} catch (URISyntaxException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Locale
addConverter(CharSequence.class, Locale.class, object -> StringUtils.parseLocale(object.toString()));
// String -> UUID
addConverter(CharSequence.class, UUID.class, (CharSequence object, Class<UUID> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
return Optional.of(UUID.fromString(object.toString()));
} catch (IllegalArgumentException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Currency
addConverter(CharSequence.class, Currency.class, (CharSequence object, Class<Currency> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
return Optional.of(Currency.getInstance(object.toString()));
} catch (IllegalArgumentException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> TimeZone
addConverter(CharSequence.class, TimeZone.class, (CharSequence object, Class<TimeZone> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
return Optional.of(TimeZone.getTimeZone(object.toString()));
});
// String -> Charset
addConverter(CharSequence.class, Charset.class, (CharSequence object, Class<Charset> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
try {
return Optional.of(Charset.forName(object.toString()));
} catch (IllegalCharsetNameException | UnsupportedCharsetException e) {
context.reject(object, e);
return Optional.empty();
}
});
// String -> Character
addConverter(CharSequence.class, Character.class, (CharSequence object, Class<Character> targetType, ConversionContext context) -> {
String str = object.toString();
if (str.length() == 1) {
return Optional.of(str.charAt(0));
} else {
return Optional.empty();
}
});
// String -> Array
addConverter(CharSequence.class, Object[].class, (CharSequence object, Class<Object[]> targetType, ConversionContext context) -> {
if (object instanceof AnnotationClassValue && targetType.equals(AnnotationClassValue[].class)) {
AnnotationClassValue[] array = new AnnotationClassValue[1];
array[0] = (AnnotationClassValue) object;
return Optional.of(array);
}
String str = object.toString();
String[] strings = str.split(",");
Class<?> componentType = ReflectionUtils.getWrapperType(targetType.getComponentType());
Object newArray = Array.newInstance(componentType, strings.length);
for (int i = 0; i < strings.length; i++) {
String string = strings[i];
Optional<?> converted = convert(string, componentType);
if (converted.isPresent()) {
Array.set(newArray, i, converted.get());
}
}
return Optional.of((Object[]) newArray);
});
// String -> Int Array
addConverter(CharSequence.class, int[].class, (CharSequence object, Class<int[]> targetType, ConversionContext context) -> {
String str = object.toString();
String[] strings = str.split(",");
Object newArray = Array.newInstance(int.class, strings.length);
for (int i = 0; i < strings.length; i++) {
String string = strings[i];
Optional<?> converted = convert(string, int.class);
if (converted.isPresent()) {
Array.set(newArray, i, converted.get());
}
}
return Optional.of((int[]) newArray);
});
// String -> Char Array
addConverter(String.class, char[].class, (String object, Class<char[]> targetType, ConversionContext context) -> Optional.of(object.toCharArray()));
// Object[] -> String[]
addConverter(Object[].class, String[].class, (Object[] object, Class<String[]> targetType, ConversionContext context) -> {
String[] strings = new String[object.length];
for (int i = 0; i < object.length; i++) {
Object o = object[i];
if (o != null) {
strings[i] = o.toString();
}
}
return Optional.of(strings);
});
// String -> Enum
addConverter(CharSequence.class, Enum.class, (CharSequence object, Class<Enum> targetType, ConversionContext context) -> {
if (StringUtils.isEmpty(object)) {
return Optional.empty();
}
String stringValue = object.toString();
try {
Enum val = Enum.valueOf(targetType, stringValue);
return Optional.of(val);
} catch (IllegalArgumentException e) {
try {
Enum val = Enum.valueOf(targetType, NameUtils.environmentName(stringValue));
return Optional.of(val);
} catch (Exception e1) {
Optional<Enum> valOpt = Arrays.stream(targetType.getEnumConstants()).filter(val -> val.toString().equals(stringValue)).findFirst();
if (valOpt.isPresent()) {
return valOpt;
}
context.reject(object, e);
return Optional.empty();
}
}
});
// Object -> String
addConverter(Object.class, String.class, (Object object, Class<String> targetType, ConversionContext context) -> Optional.of(object.toString()));
// Number -> Number
addConverter(Number.class, Number.class, (Number object, Class<Number> targetType, ConversionContext context) -> {
Class targetNumberType = ReflectionUtils.getWrapperType(targetType);
if (targetNumberType.isInstance(object)) {
return Optional.of(object);
}
if (targetNumberType == Integer.class) {
return Optional.of(object.intValue());
}
if (targetNumberType == Long.class) {
return Optional.of(object.longValue());
}
if (targetNumberType == Short.class) {
return Optional.of(object.shortValue());
}
if (targetNumberType == Byte.class) {
return Optional.of(object.byteValue());
}
if (targetNumberType == Float.class) {
return Optional.of(object.floatValue());
}
if (targetNumberType == Double.class) {
return Optional.of(object.doubleValue());
}
if (targetNumberType == BigInteger.class) {
if (object instanceof BigDecimal) {
return Optional.of(((BigDecimal) object).toBigInteger());
}
return Optional.of(BigInteger.valueOf(object.longValue()));
}
if (targetNumberType == BigDecimal.class) {
return Optional.of(new BigDecimal(object.toString()));
}
return Optional.empty();
});
// String -> List/Iterable
addConverter(CharSequence.class, Iterable.class, (CharSequence object, Class<Iterable> targetType, ConversionContext context) -> {
Optional<Argument<?>> typeVariable = context.getFirstTypeVariable();
Argument<?> componentType = typeVariable.orElse(Argument.OBJECT_ARGUMENT);
ConversionContext newContext = context.with(componentType);
Class<?> targetComponentType = ReflectionUtils.getWrapperType(componentType.getType());
String[] strings = object.toString().split(",");
List list = new ArrayList();
for (String string : strings) {
Optional converted = convert(string, targetComponentType, newContext);
if (converted.isPresent()) {
list.add(converted.get());
}
}
return CollectionUtils.convertCollection((Class) targetType, list);
});
TypeConverter<Object, Optional> objectToOptionalConverter = (object, targetType, context) -> {
Optional<Argument<?>> typeVariable = context.getFirstTypeVariable();
Argument<?> componentType = typeVariable.orElse(Argument.OBJECT_ARGUMENT);
Class<?> targetComponentType = ReflectionUtils.getWrapperType(componentType.getType());
ConversionContext newContext = context.with(componentType).with(context.getAnnotationMetadata());
Optional converted = convert(object, targetComponentType, newContext);
if (converted.isPresent()) {
return Optional.of(converted);
}
return Optional.of(Optional.empty());
};
// Optional handling
addConverter(Object.class, Optional.class, objectToOptionalConverter);
addConverter(Object.class, OptionalInt.class, (object, targetType, context) -> {
Optional<Integer> converted = convert(object, Integer.class, context);
return converted.map(integer -> Optional.of(OptionalInt.of(integer))).orElseGet(() -> Optional.of(OptionalInt.empty()));
});
addConverter(Object.class, OptionalLong.class, (object, targetType, context) -> {
Optional<Long> converted = convert(object, Long.class, context);
return converted.map(longValue -> Optional.of(OptionalLong.of(longValue))).orElseGet(() -> Optional.of(OptionalLong.empty()));
});
// Iterable -> String
addConverter(Iterable.class, String.class, (object, targetType, context) -> Optional.of(CollectionUtils.toString(object)));
// Iterable -> Object
addConverter(Iterable.class, Object.class, (object, targetType, context) -> {
if (Optional.class.isAssignableFrom(targetType)) {
return objectToOptionalConverter.convert(object, (Class) targetType, context);
}
Iterator<?> i = object.iterator();
int count = 0;
Object value = null;
while (i.hasNext()) {
if (count > 0) {
context.reject(object, new ConversionErrorException(Argument.of(targetType), new IllegalArgumentException("Cannot convert an iterable with more than 1 value to a non collection object")));
return Optional.empty();
}
count++;
value = i.next();
}
return convert(value, targetType, context);
});
// Iterable -> Iterable (inner type conversion)
addConverter(Iterable.class, Iterable.class, (object, targetType, context) -> {
if (ConvertibleValues.class.isAssignableFrom(targetType)) {
if (object instanceof ConvertibleValues) {
return Optional.of(object);
}
return Optional.empty();
}
Optional<Argument<?>> typeVariable = context.getFirstTypeVariable();
Argument<?> componentType = typeVariable.orElse(Argument.OBJECT_ARGUMENT);
Class<?> targetComponentType = ReflectionUtils.getWrapperType(componentType.getType());
if (targetType.isInstance(object) && targetComponentType == Object.class) {
return Optional.of(object);
}
List list = new ArrayList();
ConversionContext newContext = context.with(componentType);
for (Object o : object) {
Optional<?> converted = convert(o, targetComponentType, newContext);
if (converted.isPresent()) {
list.add(converted.get());
}
}
return CollectionUtils.convertCollection((Class) targetType, list);
});
// Object[] -> String
addConverter(Object[].class, String.class, (object, targetType, context) -> Optional.of(ArrayUtils.toString(object)));
// Object[] -> Object[] (inner type conversion)
addConverter(Object[].class, Object[].class, (object, targetType, context) -> {
Class<?> targetComponentType = targetType.getComponentType();
List results = new ArrayList();
for (Object o : object) {
Optional<?> converted = convert(o, targetComponentType, context);
if (converted.isPresent()) {
results.add(converted.get());
}
}
return Optional.of(results.toArray((Object[]) Array.newInstance(targetComponentType, results.size())));
});
// Iterable -> Object[]
addConverter(Iterable.class, Object[].class, (object, targetType, context) -> {
Class<?> targetComponentType = targetType.getComponentType();
List results = new ArrayList();
for (Object o : object) {
Optional<?> converted = convert(o, targetComponentType, context);
if (converted.isPresent()) {
results.add(converted.get());
}
}
return Optional.of(results.toArray((Object[]) Array.newInstance(targetComponentType, results.size())));
});
addConverter(Object[].class, Iterable.class, (object, targetType, context) -> convert(Arrays.asList(object), targetType, context));
addConverter(Object.class, Object[].class, (object, targetType, context) -> {
Class<?> targetComponentType = targetType.getComponentType();
Optional<?> converted = convert(object, targetComponentType);
if (converted.isPresent()) {
Object[] result = (Object[]) Array.newInstance(targetComponentType, 1);
result[0] = converted.get();
return Optional.of(result);
}
return Optional.empty();
});
// Map -> Map (inner type conversion)
addConverter(Map.class, Map.class, (object, targetType, context) -> {
Argument<?> keyArgument = context.getTypeVariable("K").orElse(Argument.of(String.class, "K"));
boolean isProperties = targetType.equals(Properties.class);
Argument<?> valArgument = context.getTypeVariable("V").orElseGet(() -> {
if (isProperties) {
return Argument.of(String.class, "V");
}
return Argument.of(Object.class, "V");
});
Class keyType = keyArgument.getType();
Class valueType = valArgument.getType();
ConversionContext keyContext = context.with(keyArgument);
ConversionContext valContext = context.with(valArgument);
Map newMap = isProperties ? new Properties() : new LinkedHashMap();
for (Object o : object.entrySet()) {
Map.Entry entry = (Map.Entry) o;
Object key = entry.getKey();
Object value = entry.getValue();
if (!keyType.isInstance(key)) {
Optional convertedKey = convert(key, keyType, keyContext);
if (convertedKey.isPresent()) {
key = convertedKey.get();
} else {
continue;
}
}
if (!valueType.isInstance(value) || value instanceof Map || value instanceof Collection) {
Optional converted = convert(value, valueType, valContext);
if (converted.isPresent()) {
value = converted.get();
} else {
continue;
}
}
newMap.put(key, value);
}
return Optional.of(newMap);
});
addConverter(Map.class, ConvertibleValues.class, (object, targetType, context) -> Optional.of(new ConvertibleValuesMap<Object>(object)));
// Micronaut ByteBuffer -> byte for streamed results from HTTP clients
addConverter(io.micronaut.core.io.buffer.ByteBuffer.class, byte[].class, (object, targetType, context) -> {
byte[] result = object.toByteArray();
((ReferenceCounted) object).release();
return Optional.of(result);
});
// ConvertibleMultiValues -> [?]
addConverter(io.micronaut.core.convert.value.ConvertibleMultiValues.class, Iterable.class, new MultiValuesConverterFactory.MultiValuesToIterableConverter(this));
addConverter(io.micronaut.core.convert.value.ConvertibleMultiValues.class, Map.class, new MultiValuesConverterFactory.MultiValuesToMapConverter(this));
addConverter(io.micronaut.core.convert.value.ConvertibleMultiValues.class, Object.class, new MultiValuesConverterFactory.MultiValuesToObjectConverter(this));
// [?] -> ConvertibleMultiValues
addConverter(Iterable.class, io.micronaut.core.convert.value.ConvertibleMultiValues.class, new MultiValuesConverterFactory.IterableToMultiValuesConverter(this));
addConverter(Map.class, io.micronaut.core.convert.value.ConvertibleMultiValues.class, new MultiValuesConverterFactory.MapToMultiValuesConverter(this));
addConverter(Object.class, io.micronaut.core.convert.value.ConvertibleMultiValues.class, new MultiValuesConverterFactory.ObjectToMultiValuesConverter(this));
}
use of io.micronaut.core.annotation.AnnotationClassValue in project micronaut-core by micronaut-projects.
the class AbstractBeanDefinitionBuilder method build.
/**
* Build the bean definition writer.
* @return The writer, possibly null if it wasn't possible to build it
*/
@Nullable
public BeanDefinitionWriter build() {
if (exposedTypes != null) {
final AnnotationClassValue[] annotationClassValues = Arrays.stream(exposedTypes).map(ce -> new AnnotationClassValue<>(ce.getName())).toArray(AnnotationClassValue[]::new);
annotate(Bean.class, (builder) -> builder.member("typed", annotationClassValues));
}
final BeanDefinitionWriter beanDefinitionWriter = createBeanDefinitionWriter();
if (typeArguments != null) {
beanDefinitionWriter.visitTypeArguments(this.typeArguments);
}
if (constructorElement == null) {
constructorElement = initConstructor(beanType);
}
if (constructorElement == null) {
visitorContext.fail("Cannot create associated bean with no accessible primary constructor. Consider supply the constructor with createWith(..)", originatingElement);
return null;
} else {
beanDefinitionWriter.visitBeanDefinitionConstructor(constructorElement, !constructorElement.isPublic(), visitorContext);
}
Map<ClassElement, List<MemberElement>> sortedInjections = new LinkedHashMap<>();
List<MemberElement> allInjected = new ArrayList<>();
allInjected.addAll(injectedFields);
allInjected.addAll(injectedMethods);
allInjected.sort(SORTER);
for (MemberElement memberElement : allInjected) {
final List<MemberElement> list = sortedInjections.computeIfAbsent(memberElement.getDeclaringType(), classElement -> new ArrayList<>());
list.add(memberElement);
}
for (List<MemberElement> members : sortedInjections.values()) {
members.sort((o1, o2) -> {
if (o1 instanceof FieldElement && o2 instanceof MethodElement) {
return 1;
} else if (o1 instanceof MethodElement && o1 instanceof FieldElement) {
return -1;
}
return 0;
});
}
for (List<MemberElement> list : sortedInjections.values()) {
for (MemberElement memberElement : list) {
if (memberElement instanceof FieldElement) {
InternalBeanElementField ibf = (InternalBeanElementField) memberElement;
ibf.<InternalBeanElementField>with((element) -> visitField(beanDefinitionWriter, element, element));
} else {
InternalBeanElementMethod ibm = (InternalBeanElementMethod) memberElement;
ibm.<InternalBeanElementMethod>with((element) -> beanDefinitionWriter.visitMethodInjectionPoint(ibm.getDeclaringType(), ibm, ibm.isRequiresReflection(), visitorContext));
}
}
}
for (BeanMethodElement executableMethod : executableMethods) {
beanDefinitionWriter.visitExecutableMethod(beanType, executableMethod, visitorContext);
}
for (BeanMethodElement postConstructMethod : postConstructMethods) {
if (postConstructMethod.getDeclaringType().equals(beanType)) {
beanDefinitionWriter.visitPostConstructMethod(beanType, postConstructMethod, ((InternalBeanElementMethod) postConstructMethod).isRequiresReflection(), visitorContext);
}
}
for (BeanMethodElement preDestroyMethod : preDestroyMethods) {
if (preDestroyMethod.getDeclaringType().equals(beanType)) {
beanDefinitionWriter.visitPreDestroyMethod(beanType, preDestroyMethod, ((InternalBeanElementMethod) preDestroyMethod).isRequiresReflection(), visitorContext);
}
}
beanDefinitionWriter.visitBeanDefinitionEnd();
return beanDefinitionWriter;
}
use of io.micronaut.core.annotation.AnnotationClassValue in project micronaut-core by micronaut-projects.
the class RequiresCondition method matchesPresenceOfEntities.
private boolean matchesPresenceOfEntities(ConditionContext context, AnnotationValue<Requires> annotationValue) {
if (annotationValue.contains(MEMBER_ENTITIES)) {
Optional<AnnotationClassValue[]> classNames = annotationValue.get(MEMBER_ENTITIES, AnnotationClassValue[].class);
if (classNames.isPresent()) {
BeanContext beanContext = context.getBeanContext();
if (beanContext instanceof ApplicationContext) {
ApplicationContext applicationContext = (ApplicationContext) beanContext;
final AnnotationClassValue[] classValues = classNames.get();
for (AnnotationClassValue<?> classValue : classValues) {
final Optional<? extends Class<?>> entityType = classValue.getType();
if (!entityType.isPresent()) {
context.fail("Annotation type [" + classValue.getName() + "] not present on classpath");
return false;
} else {
Environment environment = applicationContext.getEnvironment();
Class annotationType = entityType.get();
if (!environment.scan(annotationType).findFirst().isPresent()) {
context.fail("No entities found in packages [" + String.join(", ", environment.getPackages()) + "] for annotation: " + annotationType);
return false;
}
}
}
}
}
}
return true;
}
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