@Override
public CoinbaseSpotPriceHistory deserialize(JsonParser jp, DeserializationContext ctxt)
throws IOException, JsonProcessingException {
final List<CoinbaseHistoricalSpotPrice> historicalPrices =
new ArrayList<CoinbaseHistoricalSpotPrice>();
// If there is a better way to get to the actual String returned please replace this section.
final Reader reader = (Reader) ctxt.getParser().getTokenLocation().getSourceRef();
reader.reset();
final StringBuilder historyStringBuilder = new StringBuilder();
for (int c = reader.read(); c > 0; c = reader.read()) historyStringBuilder.append((char) c);
// Parse in reverse because they are inconsistent with the number of decimals for the rates
// which makes it difficult to differentiate from the following year. Going in reverse
// we can rely on the comma.
final String entireHistoryString = historyStringBuilder.reverse().toString();
final Matcher matcher = historicalRateStringPatternInReverse.matcher(entireHistoryString);
while (matcher.find()) {
final String rateString = new StringBuilder(matcher.group(1)).reverse().toString();
final BigDecimal spotRate = new BigDecimal(rateString);
final String timestampString = new StringBuilder(matcher.group(2)).reverse().toString();
final Date timestamp = DateUtils.fromISO8601DateString(timestampString);
final CoinbaseHistoricalSpotPrice historicalSpotPrice =
new CoinbaseHistoricalSpotPrice(timestamp, spotRate);
historicalPrices.add(historicalSpotPrice);
}
Collections.sort(historicalPrices, Collections.reverseOrder());
return new CoinbaseSpotPriceHistory(historicalPrices);
}
@Override
public JsonDeserializer<?> createContextual(DeserializationContext ctxt, BeanProperty property)
throws JsonMappingException {
// May need to resolve types for delegate-based creators:
JsonDeserializer<Object> delegate = null;
if (_valueInstantiator != null) {
AnnotatedWithParams delegateCreator = _valueInstantiator.getDelegateCreator();
if (delegateCreator != null) {
JavaType delegateType = _valueInstantiator.getDelegateType(ctxt.getConfig());
delegate = findDeserializer(ctxt, delegateType, property);
}
}
JsonDeserializer<?> valueDeser = _valueDeserializer;
if (valueDeser == null) {
// #125: May have a content converter
valueDeser = findConvertingContentDeserializer(ctxt, property, valueDeser);
if (valueDeser == null) {
// And we may also need to get deserializer for String
valueDeser =
ctxt.findContextualValueDeserializer(_collectionType.getContentType(), property);
}
} else { // if directly assigned, probably not yet contextual, so:
valueDeser = ctxt.handleSecondaryContextualization(valueDeser, property);
}
if (isDefaultDeserializer(valueDeser)) {
valueDeser = null;
}
return withResolved(delegate, valueDeser);
}
protected final String _locateTypeId(
JsonParser paramJsonParser, DeserializationContext paramDeserializationContext)
throws IOException {
if (!paramJsonParser.isExpectedStartArrayToken()) {
if (this._defaultImpl != null) {
return this._idResolver.idFromBaseType();
}
throw paramDeserializationContext.wrongTokenException(
paramJsonParser,
JsonToken.START_ARRAY,
"need JSON Array to contain As.WRAPPER_ARRAY type information for class "
+ baseTypeName());
}
if (paramJsonParser.nextToken() == JsonToken.VALUE_STRING) {
paramDeserializationContext = paramJsonParser.getText();
paramJsonParser.nextToken();
return paramDeserializationContext;
}
if (this._defaultImpl != null) {
return this._idResolver.idFromBaseType();
}
throw paramDeserializationContext.wrongTokenException(
paramJsonParser,
JsonToken.VALUE_STRING,
"need JSON String that contains type id (for subtype of " + baseTypeName() + ")");
}
@Override
public Integer deserialize(JsonParser parser, DeserializationContext context)
throws IOException {
JsonToken t = parser.getCurrentToken();
if (t == JsonToken.VALUE_NUMBER_INT
|| t == JsonToken.VALUE_NUMBER_FLOAT) { // coercing should work too
return rangeCheckedInteger(parser, context);
}
if (t == JsonToken.VALUE_STRING) { // let's do implicit re-parse
String text = parser.getText().trim();
try {
int len = text.length();
if (len > 9) {
return rangeCheckedInteger(parser, context);
}
if (len == 0) {
return null;
}
return Integer.valueOf(NumberInput.parseInt(text));
} catch (IllegalArgumentException iae) {
throw context.weirdStringException(_valueClass, "not a valid Integer value"); // NOSONAR
}
}
if (t == JsonToken.VALUE_NULL) {
return null;
}
// Otherwise, no can do:
throw context.mappingException(_valueClass);
}
public String[] deserialize(JsonParser paramJsonParser, DeserializationContext paramDeserializationContext)
{
if (!paramJsonParser.isExpectedStartArrayToken())
return handleNonArray(paramJsonParser, paramDeserializationContext);
ObjectBuffer localObjectBuffer = paramDeserializationContext.leaseObjectBuffer();
Object[] arrayOfObject = localObjectBuffer.resetAndStart();
int i = 0;
JsonToken localJsonToken = paramJsonParser.nextToken();
String str;
if (localJsonToken != JsonToken.END_ARRAY)
if (localJsonToken == JsonToken.VALUE_NULL)
{
str = null;
label53: if (i < arrayOfObject.length)
break label122;
arrayOfObject = localObjectBuffer.appendCompletedChunk(arrayOfObject);
}
label122: for (int j = 0; ; j = i)
{
i = j + 1;
arrayOfObject[j] = str;
break;
str = _parseString(paramJsonParser, paramDeserializationContext);
break label53;
String[] arrayOfString = (String[])localObjectBuffer.completeAndClearBuffer(arrayOfObject, i, String.class);
paramDeserializationContext.returnObjectBuffer(localObjectBuffer);
return arrayOfString;
}
}
@Override
protected Byte _parseByte(JsonParser jp, DeserializationContext ctxt) throws IOException {
JsonToken t = jp.getCurrentToken();
Integer value = null;
if (t == JsonToken.VALUE_NUMBER_INT
|| t == JsonToken.VALUE_NUMBER_FLOAT) { // coercing should work too
value = jp.getIntValue();
} else if (t == JsonToken.VALUE_STRING) { // let's do implicit re-parse
String text = jp.getText().trim();
try {
int len = text.length();
if (len == 0) {
return getEmptyValue();
}
value = NumberInput.parseInt(text);
} catch (IllegalArgumentException iae) {
throw ctxt.weirdStringException(_valueClass, "not a valid Byte value"); // NOSONAR
}
}
if (value != null) {
// So far so good: but does it fit?
if (value < Byte.MIN_VALUE || value > Byte.MAX_VALUE) {
throw ctxt.weirdStringException(
_valueClass, "overflow, value can not be represented as 8-bit value");
}
return (byte) (int) value;
}
if (t == JsonToken.VALUE_NULL) {
return getNullValue();
}
throw ctxt.mappingException(_valueClass, t);
}
/**
* Contextualization is needed to see whether we can "inline" deserialization of String values, or
* if we have to use separate value deserializer.
*/
@Override
public JsonDeserializer<?> createContextual(DeserializationContext ctxt, BeanProperty property)
throws JsonMappingException {
JsonDeserializer<?> deser = _elementDeserializer;
// May have a content converter
deser = findConvertingContentDeserializer(ctxt, property, deser);
JavaType type = ctxt.constructType(String.class);
if (deser == null) {
deser = ctxt.findContextualValueDeserializer(type, property);
} else { // if directly assigned, probably not yet contextual, so:
deser = ctxt.handleSecondaryContextualization(deser, property, type);
}
// One more thing: allow unwrapping?
Boolean unwrapSingle =
findFormatFeature(
ctxt, property, String[].class, JsonFormat.Feature.ACCEPT_SINGLE_VALUE_AS_ARRAY);
// Ok ok: if all we got is the default String deserializer, can just forget about it
if ((deser != null) && isDefaultDeserializer(deser)) {
deser = null;
}
if ((_elementDeserializer == deser) && (_unwrapSingle == unwrapSingle)) {
return this;
}
return new StringArrayDeserializer(deser, unwrapSingle);
}
@Override
public LocalDate deserialize(JsonParser parser, DeserializationContext context)
throws IOException {
switch (parser.getCurrentToken()) {
case START_ARRAY:
if (parser.nextToken() == JsonToken.END_ARRAY) {
return null;
}
int year = parser.getIntValue();
parser.nextToken();
int month = parser.getIntValue();
parser.nextToken();
int day = parser.getIntValue();
if (parser.nextToken() != JsonToken.END_ARRAY) {
throw context.wrongTokenException(parser, JsonToken.END_ARRAY, "Expected array to end.");
}
return LocalDate.of(year, month, day);
case VALUE_STRING:
String string = parser.getText().trim();
if (string.length() == 0) {
return null;
}
return LocalDate.parse(string, ISO_DATE_OPTIONAL_TIME);
}
throw context.wrongTokenException(parser, JsonToken.START_ARRAY, "Expected array or string.");
}
protected Converter<Object, Object> findConverter(DeserializationContext ctxt, Annotated a)
throws JsonMappingException {
Object convDef = ctxt.getAnnotationIntrospector().findDeserializationConverter(a);
if (convDef == null) {
return null;
}
return ctxt.converterInstance(a, convDef);
}
@Override
public ObjectIdResolver newForDeserialization(Object c) {
DeserializationContext context = (DeserializationContext) c;
@SuppressWarnings("unchecked")
Map<Object, WithCustomResolution> pool =
(Map<Object, WithCustomResolution>) context.getAttribute(POOL_KEY);
return new PoolResolver(pool);
}
/**
* Helper method called to check if a class or method has annotation that tells which class to use
* for deserialization. Returns null if no such annotation found.
*/
protected JsonDeserializer<Object> findDeserializerFromAnnotation(
DeserializationContext ctxt, Annotated ann) throws JsonMappingException {
Object deserDef = ctxt.getAnnotationIntrospector().findDeserializer(ann);
if (deserDef == null) {
return null;
}
JsonDeserializer<Object> deser = ctxt.deserializerInstance(ann, deserDef);
// One more thing however: may need to also apply a converter:
return findConvertingDeserializer(ctxt, ann, deser);
}
private final boolean[] handleNonArray(JsonParser paramJsonParser, DeserializationContext paramDeserializationContext)
{
if ((paramJsonParser.getCurrentToken() == JsonToken.VALUE_STRING) && (paramDeserializationContext.isEnabled(DeserializationFeature.ACCEPT_EMPTY_STRING_AS_NULL_OBJECT)) && (paramJsonParser.getText().length() == 0))
return null;
if (!paramDeserializationContext.isEnabled(DeserializationFeature.ACCEPT_SINGLE_VALUE_AS_ARRAY))
throw paramDeserializationContext.mappingException(this._valueClass);
boolean[] arrayOfBoolean = new boolean[1];
arrayOfBoolean[0] = _parseBooleanPrimitive(paramJsonParser, paramDeserializationContext);
return arrayOfBoolean;
}
protected void addBeanProps(DeserializationContext deserializationcontext, BeanDescription beandescription, BeanDeserializerBuilder beandeserializerbuilder)
throws JsonMappingException
{
SettableBeanProperty asettablebeanproperty[];
Iterator iterator1;
boolean flag;
asettablebeanproperty = beandeserializerbuilder.getValueInstantiator().getFromObjectArguments(deserializationcontext.getConfig());
Object obj = deserializationcontext.getAnnotationIntrospector();
Object obj2 = ((AnnotationIntrospector) (obj)).findIgnoreUnknownProperties(beandescription.getClassInfo());
if (obj2 != null)
{
beandeserializerbuilder.setIgnoreUnknownProperties(((Boolean) (obj2)).booleanValue());
}
obj = ArrayBuilders.arrayToSet(((AnnotationIntrospector) (obj)).findPropertiesToIgnore(beandescription.getClassInfo()));
for (obj2 = ((Set) (obj)).iterator(); ((Iterator) (obj2)).hasNext(); beandeserializerbuilder.addIgnorable((String)((Iterator) (obj2)).next())) { }
obj2 = beandescription.findAnySetter();
if (obj2 != null)
{
beandeserializerbuilder.setAnySetter(constructAnySetter(deserializationcontext, beandescription, ((AnnotatedMethod) (obj2))));
}
if (obj2 == null)
{
obj2 = beandescription.getIgnoredPropertyNames();
if (obj2 != null)
{
for (obj2 = ((Collection) (obj2)).iterator(); ((Iterator) (obj2)).hasNext(); beandeserializerbuilder.addIgnorable((String)((Iterator) (obj2)).next())) { }
}
}
if (deserializationcontext.isEnabled(MapperFeature.USE_GETTERS_AS_SETTERS) && deserializationcontext.isEnabled(MapperFeature.AUTO_DETECT_GETTERS))
{
flag = true;
} else
{
flag = false;
}
obj = filterBeanProps(deserializationcontext, beandescription, beandeserializerbuilder, beandescription.findProperties(), ((Set) (obj)));
obj2 = obj;
if (_factoryConfig.hasDeserializerModifiers())
{
Iterator iterator = _factoryConfig.deserializerModifiers().iterator();
do
{
obj2 = obj;
if (!iterator.hasNext())
{
break;
}
obj = ((BeanDeserializerModifier)iterator.next()).updateProperties(deserializationcontext.getConfig(), beandescription, ((List) (obj)));
} while (true);
}
iterator1 = ((List) (obj2)).iterator();
_L7:
if (!iterator1.hasNext()) goto _L2; else goto _L1
@Override
public JsonDeserializer<Object> createBuilderBasedDeserializer(
DeserializationContext ctxt,
JavaType valueType,
BeanDescription beanDesc,
Class<?> builderClass)
throws JsonMappingException {
// First: need a BeanDescription for builder class
JavaType builderType = ctxt.constructType(builderClass);
BeanDescription builderDesc = ctxt.getConfig().introspectForBuilder(builderType);
return buildBuilderBasedDeserializer(ctxt, valueType, builderDesc);
}
@Override
public EnumMap<?, ?> deserialize(JsonParser jp, DeserializationContext ctxt) throws IOException {
// Ok: must point to START_OBJECT
if (jp.getCurrentToken() != JsonToken.START_OBJECT) {
return _deserializeFromEmpty(jp, ctxt);
}
EnumMap result = constructMap();
final JsonDeserializer<Object> valueDes = _valueDeserializer;
final TypeDeserializer typeDeser = _valueTypeDeserializer;
while ((jp.nextToken()) == JsonToken.FIELD_NAME) {
String keyName = jp.getCurrentName(); // just for error message
// but we need to let key deserializer handle it separately, nonetheless
Enum<?> key = (Enum<?>) _keyDeserializer.deserializeKey(keyName, ctxt);
if (key == null) {
if (!ctxt.isEnabled(DeserializationFeature.READ_UNKNOWN_ENUM_VALUES_AS_NULL)) {
throw ctxt.weirdStringException(
keyName,
_enumClass,
"value not one of declared Enum instance names for " + _mapType.getKeyType());
}
/* 24-Mar-2012, tatu: Null won't work as a key anyway, so let's
* just skip the entry then. But we must skip the value as well, if so.
*/
jp.nextToken();
jp.skipChildren();
continue;
}
// And then the value...
JsonToken t = jp.nextToken();
/* note: MUST check for nulls separately: deserializers will
* not handle them (and maybe fail or return bogus data)
*/
Object value;
try {
if (t == JsonToken.VALUE_NULL) {
value = valueDes.getNullValue(ctxt);
} else if (typeDeser == null) {
value = valueDes.deserialize(jp, ctxt);
} else {
value = valueDes.deserializeWithType(jp, ctxt, typeDeser);
}
} catch (Exception e) {
wrapAndThrow(e, result, keyName);
return null;
}
result.put(key, value);
}
return result;
}
/** Offlined version used when we do not use the default deserialization method. */
protected final String[] _deserializeCustom(
JsonParser p, DeserializationContext ctxt, String[] old) throws IOException {
final ObjectBuffer buffer = ctxt.leaseObjectBuffer();
int ix;
Object[] chunk;
if (old == null) {
ix = 0;
chunk = buffer.resetAndStart();
} else {
ix = old.length;
chunk = buffer.resetAndStart(old, ix);
}
final JsonDeserializer<String> deser = _elementDeserializer;
try {
while (true) {
/* 30-Dec-2014, tatu: This may look odd, but let's actually call method
* that suggest we are expecting a String; this helps with some formats,
* notably XML. Note, however, that while we can get String, we can't
* assume that's what we use due to custom deserializer
*/
String value;
if (p.nextTextValue() == null) {
JsonToken t = p.getCurrentToken();
if (t == JsonToken.END_ARRAY) {
break;
}
// Ok: no need to convert Strings, but must recognize nulls
value =
(t == JsonToken.VALUE_NULL) ? deser.getNullValue(ctxt) : deser.deserialize(p, ctxt);
} else {
value = deser.deserialize(p, ctxt);
}
if (ix >= chunk.length) {
chunk = buffer.appendCompletedChunk(chunk);
ix = 0;
}
chunk[ix++] = value;
}
} catch (Exception e) {
// note: pass String.class, not String[].class, as we need element type for error info
throw JsonMappingException.wrapWithPath(e, String.class, ix);
}
String[] result = buffer.completeAndClearBuffer(chunk, ix, String.class);
ctxt.returnObjectBuffer(buffer);
return result;
}
private final byte[] handleNonArray(JsonParser paramJsonParser, DeserializationContext paramDeserializationContext)
{
if ((paramJsonParser.getCurrentToken() == JsonToken.VALUE_STRING) && (paramDeserializationContext.isEnabled(DeserializationFeature.ACCEPT_EMPTY_STRING_AS_NULL_OBJECT)) && (paramJsonParser.getText().length() == 0))
return null;
if (!paramDeserializationContext.isEnabled(DeserializationFeature.ACCEPT_SINGLE_VALUE_AS_ARRAY))
throw paramDeserializationContext.mappingException(this._valueClass);
JsonToken localJsonToken = paramJsonParser.getCurrentToken();
if ((localJsonToken == JsonToken.VALUE_NUMBER_INT) || (localJsonToken == JsonToken.VALUE_NUMBER_FLOAT));
for (int i = paramJsonParser.getByteValue(); ; i = 0)
{
return new byte[] { i };
if (localJsonToken != JsonToken.VALUE_NULL)
throw paramDeserializationContext.mappingException(this._valueClass.getComponentType());
}
}
public ObjectNode deserialize(JsonParser jsonparser, DeserializationContext deserializationcontext)
{
if (jsonparser.getCurrentToken() == JsonToken.START_OBJECT)
{
jsonparser.nextToken();
return deserializeObject(jsonparser, deserializationcontext, deserializationcontext.getNodeFactory());
}
if (jsonparser.getCurrentToken() == JsonToken.FIELD_NAME)
{
return deserializeObject(jsonparser, deserializationcontext, deserializationcontext.getNodeFactory());
} else
{
throw deserializationcontext.mappingException(com/fasterxml/jackson/databind/node/ObjectNode);
}
}
@Override
public String[] deserialize(JsonParser p, DeserializationContext ctxt, String[] intoValue)
throws IOException {
// Ok: must point to START_ARRAY (or equivalent)
if (!p.isExpectedStartArrayToken()) {
String[] arr = handleNonArray(p, ctxt);
if (arr == null) {
return intoValue;
}
final int offset = intoValue.length;
String[] result = new String[offset + arr.length];
System.arraycopy(intoValue, 0, result, 0, offset);
System.arraycopy(arr, 0, result, offset, arr.length);
return result;
}
if (_elementDeserializer != null) {
return _deserializeCustom(p, ctxt, intoValue);
}
final ObjectBuffer buffer = ctxt.leaseObjectBuffer();
int ix = intoValue.length;
Object[] chunk = buffer.resetAndStart(intoValue, ix);
try {
while (true) {
String value = p.nextTextValue();
if (value == null) {
JsonToken t = p.getCurrentToken();
if (t == JsonToken.END_ARRAY) {
break;
}
if (t != JsonToken.VALUE_NULL) {
value = _parseString(p, ctxt);
}
}
if (ix >= chunk.length) {
chunk = buffer.appendCompletedChunk(chunk);
ix = 0;
}
chunk[ix++] = value;
}
} catch (Exception e) {
throw JsonMappingException.wrapWithPath(e, chunk, buffer.bufferedSize() + ix);
}
String[] result = buffer.completeAndClearBuffer(chunk, ix, String.class);
ctxt.returnObjectBuffer(buffer);
return result;
}
@Override
public JSONObject deserialize(JsonParser jp, DeserializationContext ctxt)
throws IOException, JsonProcessingException {
JSONObject ob = new JSONObject();
JsonToken t = jp.getCurrentToken();
if (t == JsonToken.START_OBJECT) {
t = jp.nextToken();
}
for (; t == JsonToken.FIELD_NAME; t = jp.nextToken()) {
String fieldName = jp.getCurrentName();
t = jp.nextToken();
try {
switch (t) {
case START_ARRAY:
ob.put(fieldName, JSONArrayDeserializer.instance.deserialize(jp, ctxt));
continue;
case START_OBJECT:
ob.put(fieldName, deserialize(jp, ctxt));
continue;
case VALUE_STRING:
ob.put(fieldName, jp.getText());
continue;
case VALUE_NULL:
ob.put(fieldName, JSONObject.NULL);
continue;
case VALUE_TRUE:
ob.put(fieldName, Boolean.TRUE);
continue;
case VALUE_FALSE:
ob.put(fieldName, Boolean.FALSE);
continue;
case VALUE_NUMBER_INT:
ob.put(fieldName, jp.getNumberValue());
continue;
case VALUE_NUMBER_FLOAT:
ob.put(fieldName, jp.getNumberValue());
continue;
case VALUE_EMBEDDED_OBJECT:
ob.put(fieldName, jp.getEmbeddedObject());
continue;
}
} catch (JSONException e) {
throw ctxt.mappingException("Failed to construct JSONObject: " + e.getMessage());
}
throw ctxt.mappingException("Urecognized or unsupported JsonToken type: " + t);
}
return ob;
}
/**
* Method called to construct fallback {@link SettableAnyProperty} for handling unknown bean
* properties, given a method that has been designated as such setter.
*/
protected SettableAnyProperty constructAnySetter(
DeserializationContext ctxt, BeanDescription beanDesc, AnnotatedMethod setter)
throws JsonMappingException {
if (ctxt.canOverrideAccessModifiers()) {
setter.fixAccess(); // to ensure we can call it
}
// we know it's a 2-arg method, second arg is the value
JavaType type = beanDesc.bindingsForBeanType().resolveType(setter.getGenericParameterType(1));
BeanProperty.Std property =
new BeanProperty.Std(setter.getName(), type, beanDesc.getClassAnnotations(), setter);
type = resolveType(ctxt, beanDesc, type, setter);
/* AnySetter can be annotated with @JsonClass (etc) just like a
* regular setter... so let's see if those are used.
* Returns null if no annotations, in which case binding will
* be done at a later point.
*/
JsonDeserializer<Object> deser = findDeserializerFromAnnotation(ctxt, setter);
if (deser != null) {
return new SettableAnyProperty(property, setter, type, deser);
}
/* Otherwise, method may specify more specific (sub-)class for
* value (no need to check if explicit deser was specified):
*/
type = modifyTypeByAnnotation(ctxt, setter, type);
return new SettableAnyProperty(property, setter, type, null);
}
public static PropertyBasedCreator construct(
DeserializationContext ctxt,
ValueInstantiator valueInstantiator,
SettableBeanProperty[] srcProps)
throws JsonMappingException {
int len = srcProps.length;
SettableBeanProperty[] creatorProps = new SettableBeanProperty[len];
Object[] defaultValues = null;
for (int i = 0; i < len; i++) {
SettableBeanProperty prop = srcProps[i];
if (!prop.hasValueDeserializer()) {
prop =
prop.withValueDeserializer(ctxt.findContextualValueDeserializer(prop.getType(), prop));
}
creatorProps[i] = prop;
JsonDeserializer<?> deser = prop.getValueDeserializer();
Object nullValue = deser == null ? null : deser.getNullValue();
if (nullValue == null && prop.getType().isPrimitive()) {
nullValue = ClassUtil.defaultValue(prop.getType().getRawClass());
}
if (nullValue != null) {
if (defaultValues == null) {
defaultValues = new Object[len];
}
defaultValues[i] = nullValue;
}
}
return new PropertyBasedCreator(valueInstantiator, creatorProps, defaultValues);
}
public float[] deserialize(JsonParser paramJsonParser, DeserializationContext paramDeserializationContext)
{
if (!paramJsonParser.isExpectedStartArrayToken())
return handleNonArray(paramJsonParser, paramDeserializationContext);
ArrayBuilders.FloatBuilder localFloatBuilder = paramDeserializationContext.getArrayBuilders().getFloatBuilder();
Object localObject = (float[])localFloatBuilder.resetAndStart();
int i = 0;
float f;
int j;
if (paramJsonParser.nextToken() != JsonToken.END_ARRAY)
{
f = _parseFloatPrimitive(paramJsonParser, paramDeserializationContext);
if (i < localObject.length)
break label108;
float[] arrayOfFloat = (float[])localFloatBuilder.appendCompletedChunk(localObject, i);
j = 0;
localObject = arrayOfFloat;
}
while (true)
{
i = j + 1;
localObject[j] = f;
break;
return (float[])localFloatBuilder.completeAndClearBuffer(localObject, i);
label108: j = i;
}
}
@Override
public T deserialize(final JsonParser jp, final DeserializationContext ctxt)
throws IOException, JsonProcessingException {
client = (ODataClient) ctxt.findInjectableValue(ODataClient.class.getName(), null, null);
return doDeserialize(jp, ctxt);
}
public short[] deserialize(JsonParser paramJsonParser, DeserializationContext paramDeserializationContext)
{
if (!paramJsonParser.isExpectedStartArrayToken())
return handleNonArray(paramJsonParser, paramDeserializationContext);
ArrayBuilders.ShortBuilder localShortBuilder = paramDeserializationContext.getArrayBuilders().getShortBuilder();
Object localObject = (short[])localShortBuilder.resetAndStart();
int i = 0;
int j;
int k;
if (paramJsonParser.nextToken() != JsonToken.END_ARRAY)
{
j = _parseShortPrimitive(paramJsonParser, paramDeserializationContext);
if (i < localObject.length)
break label108;
short[] arrayOfShort = (short[])localShortBuilder.appendCompletedChunk(localObject, i);
k = 0;
localObject = arrayOfShort;
}
while (true)
{
i = k + 1;
localObject[k] = j;
break;
return (short[])localShortBuilder.completeAndClearBuffer(localObject, i);
label108: k = i;
}
}
public boolean[] deserialize(JsonParser paramJsonParser, DeserializationContext paramDeserializationContext)
{
if (!paramJsonParser.isExpectedStartArrayToken())
return handleNonArray(paramJsonParser, paramDeserializationContext);
ArrayBuilders.BooleanBuilder localBooleanBuilder = paramDeserializationContext.getArrayBuilders().getBooleanBuilder();
Object localObject = (boolean[])localBooleanBuilder.resetAndStart();
int i = 0;
boolean bool;
int j;
if (paramJsonParser.nextToken() != JsonToken.END_ARRAY)
{
bool = _parseBooleanPrimitive(paramJsonParser, paramDeserializationContext);
if (i < localObject.length)
break label108;
boolean[] arrayOfBoolean = (boolean[])localBooleanBuilder.appendCompletedChunk(localObject, i);
j = 0;
localObject = arrayOfBoolean;
}
while (true)
{
i = j + 1;
localObject[j] = bool;
break;
return (boolean[])localBooleanBuilder.completeAndClearBuffer(localObject, i);
label108: j = i;
}
}
/*
* (non-Javadoc)
*
* @see
* org.codehaus.jackson.map.JsonDeserializer#deserialize(org.codehaus.jackson
* .JsonParser, org.codehaus.jackson.map.DeserializationContext)
*/
@Override
public NamedErlangFunction deserialize(JsonParser jp, DeserializationContext ctxt)
throws IOException, JsonProcessingException {
JsonToken token = jp.getCurrentToken();
if (JsonToken.START_OBJECT.equals(token)) {
String mod = null;
String fun = null;
while (!JsonToken.END_OBJECT.equals(token)) {
String field = jp.getCurrentName();
if (Constants.FL_SCHEMA_FUN_MOD.equals(field)) {
jp.nextToken();
mod = jp.getText();
} else if (Constants.FL_SCHEMA_FUN_FUN.equals(field)) {
jp.nextToken();
fun = jp.getText();
}
token = jp.nextToken();
}
if (mod != null && fun != null) {
return new NamedErlangFunction(mod, fun);
} else {
return null;
}
}
throw ctxt.mappingException(NamedErlangFunction.class);
}
/** Method that will construct a regular bean property setter using the given setter method. */
protected SettableBeanProperty constructSetterlessProperty(
DeserializationContext ctxt, BeanDescription beanDesc, BeanPropertyDefinition propDef)
throws JsonMappingException {
final AnnotatedMethod getter = propDef.getGetter();
// need to ensure it is callable now:
if (ctxt.canOverrideAccessModifiers()) {
getter.fixAccess();
}
/* 26-Jan-2012, tatu: Alas, this complication is still needed to handle
* (or at least work around) local type declarations...
*/
JavaType type = getter.getType(beanDesc.bindingsForBeanType());
/* First: does the Method specify the deserializer to use?
* If so, let's use it.
*/
JsonDeserializer<Object> propDeser = findDeserializerFromAnnotation(ctxt, getter);
type = modifyTypeByAnnotation(ctxt, getter, type);
TypeDeserializer typeDeser = type.getTypeHandler();
SettableBeanProperty prop =
new SetterlessProperty(propDef, type, typeDeser, beanDesc.getClassAnnotations(), getter);
if (propDeser != null) {
prop = prop.withValueDeserializer(propDeser);
}
return prop;
}
protected T _deserializeEmbedded(
Object paramObject, DeserializationContext paramDeserializationContext) throws IOException {
throw paramDeserializationContext.mappingException(
"Don't know how to convert embedded Object of type "
+ paramObject.getClass().getName()
+ " into "
+ this._valueClass.getName());
}
public JsonDeserializer<?> createContextual(
DeserializationContext deserializationContext, BeanProperty beanProperty) {
if (this._delegateDeserializer != null) {
JsonDeserializer handleSecondaryContextualization =
deserializationContext.handleSecondaryContextualization(
this._delegateDeserializer, beanProperty);
if (handleSecondaryContextualization != this._delegateDeserializer) {
return withDelegate(this._converter, this._delegateType, handleSecondaryContextualization);
}
return this;
}
JavaType inputType = this._converter.getInputType(deserializationContext.getTypeFactory());
return withDelegate(
this._converter,
inputType,
deserializationContext.findContextualValueDeserializer(inputType, beanProperty));
}
