private static void writeSingleFieldNoTag(
CodedOutputStream output, FieldDescriptor fd, Object value) throws IOException {
switch (fd.getType()) {
case DOUBLE:
output.writeDoubleNoTag((Double) value);
break;
case FLOAT:
output.writeFloatNoTag((Float) value);
break;
case INT64:
case UINT64:
output.writeInt64NoTag((Long) value);
break;
case INT32:
output.writeInt32NoTag((Integer) value);
break;
case FIXED64:
output.writeFixed64NoTag((Long) value);
break;
case FIXED32:
output.writeFixed32NoTag((Integer) value);
break;
case BOOL:
output.writeBoolNoTag((Boolean) value);
break;
case STRING:
output.writeStringNoTag((String) value);
break;
case GROUP:
case MESSAGE:
output.writeMessageNoTag((Message) value);
break;
case BYTES:
output.writeBytesNoTag((ByteString) value);
break;
case UINT32:
output.writeUInt32NoTag((Integer) value);
break;
case ENUM:
output.writeEnumNoTag(((ProtocolMessageEnum) value).getNumber());
break;
case SFIXED32:
output.writeSFixed32NoTag((Integer) value);
break;
case SFIXED64:
output.writeSFixed64NoTag((Long) value);
break;
case SINT32:
output.writeSInt32NoTag((Integer) value);
break;
case SINT64:
output.writeSInt64NoTag((Integer) value);
break;
default:
throw new IllegalArgumentException(
"Unknown type " + fd.getType() + " for " + fd.getFullName());
}
}
private void printSingleField(final FieldDescriptor field,
final Object value,
final TextGenerator generator)
throws IOException {
if (field.isExtension()) {
generator.print("[");
// We special-case MessageSet elements for compatibility with proto1.
if (field.getContainingType().getOptions().getMessageSetWireFormat()
&& (field.getType() == FieldDescriptor.Type.MESSAGE)
&& (field.isOptional())
// object equality
&& (field.getExtensionScope() == field.getMessageType())) {
generator.print(field.getMessageType().getFullName());
} else {
generator.print(field.getFullName());
}
generator.print("]");
} else {
if (field.getType() == FieldDescriptor.Type.GROUP) {
// Groups must be serialized with their original capitalization.
generator.print(field.getMessageType().getName());
} else {
generator.print(field.getName());
}
}
if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
if (singleLineMode) {
generator.print(" { ");
} else {
generator.print(" {\n");
generator.indent();
}
} else {
generator.print(": ");
}
printFieldValue(field, value, generator);
if (field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
if (singleLineMode) {
generator.print("} ");
} else {
generator.outdent();
generator.print("}\n");
}
} else {
if (singleLineMode) {
generator.print(" ");
} else {
generator.print("\n");
}
}
}
private static String subMessagePrefix(
final String prefix, final FieldDescriptor field, final int index) {
final StringBuilder result = new StringBuilder(prefix);
if (field.isExtension()) {
result.append('(').append(field.getFullName()).append(')');
} else {
result.append(field.getName());
}
if (index != -1) {
result.append('[').append(index).append(']');
}
result.append('.');
return result.toString();
}
private static Object readSingleFieldNoTag(
CodedInputStream input, FieldDescriptor fd, Builder enclosingBuilder) throws IOException {
switch (fd.getType()) {
case DOUBLE:
return input.readDouble();
case FLOAT:
return input.readFloat();
case INT64:
case UINT64:
return input.readInt64();
case INT32:
return input.readInt32();
case FIXED64:
return input.readFixed64();
case FIXED32:
return input.readFixed32();
case BOOL:
return input.readBool();
case STRING:
return input.readString();
case GROUP:
case MESSAGE:
Builder fieldBuilder = enclosingBuilder.newBuilderForField(fd);
input.readMessage(fieldBuilder, null);
return fieldBuilder.build();
case BYTES:
return input.readBytes();
case UINT32:
return input.readUInt32();
case ENUM:
EnumValueDescriptor eVal = fd.getEnumType().findValueByNumber(input.readEnum());
// ideally if a given enum does not exist, we should search
// unknown fields. but we don't have access to that here. return default
return eVal != null ? eVal : fd.getDefaultValue();
case SFIXED32:
return input.readSFixed32();
case SFIXED64:
return input.readSFixed64();
case SINT32:
return input.readSInt32();
case SINT64:
return input.readSInt64();
default:
throw new IllegalArgumentException(
"Unknown type " + fd.getType() + " for " + fd.getFullName());
}
}
/**
* Recursively checks whether the specified class uses any Protocol Buffers fields that cannot be
* deterministically encoded.
*
* @throws NonDeterministicException if the object cannot be encoded deterministically.
*/
static void verifyDeterministic(ProtoCoder<?> coder) throws NonDeterministicException {
Class<? extends Message> message = coder.getMessageType();
ExtensionRegistry registry = coder.getExtensionRegistry();
Set<Descriptor> descriptors = getRecursiveDescriptorsForClass(message, registry);
for (Descriptor d : descriptors) {
for (FieldDescriptor fd : d.getFields()) {
// If there is a transitively reachable Protocol Buffers map field, then this object cannot
// be encoded deterministically.
if (fd.isMapField()) {
String reason =
String.format(
"Protocol Buffers message %s transitively includes Map field %s (from file %s)."
+ " Maps cannot be deterministically encoded.",
message.getName(), fd.getFullName(), fd.getFile().getFullName());
throw new NonDeterministicException(coder, reason);
}
}
}
}
/**
* Like {@link #mergeFrom(CodedInputStream, ExtensionRegistryLite)}, but parses a single field.
*
* <p>When {@code builder} is not null, the method will parse and merge the field into {@code
* builder}. Otherwise, it will try to parse the field into {@code extensions}, when it's called
* by the parsing constructor in generated classes.
*
* <p>Package-private because it is used by GeneratedMessage.ExtendableMessage.
*
* @param tag The tag, which should have already been read.
* @return {@code true} unless the tag is an end-group tag.
*/
static boolean mergeFieldFrom(
CodedInputStream input,
UnknownFieldSet.Builder unknownFields,
ExtensionRegistryLite extensionRegistry,
Descriptor type,
Message.Builder builder,
FieldSet<FieldDescriptor> extensions,
int tag)
throws IOException {
if (type.getOptions().getMessageSetWireFormat() && tag == WireFormat.MESSAGE_SET_ITEM_TAG) {
mergeMessageSetExtensionFromCodedStream(
input, unknownFields, extensionRegistry, type, builder, extensions);
return true;
}
final int wireType = WireFormat.getTagWireType(tag);
final int fieldNumber = WireFormat.getTagFieldNumber(tag);
final FieldDescriptor field;
Message defaultInstance = null;
if (type.isExtensionNumber(fieldNumber)) {
// extensionRegistry may be either ExtensionRegistry or
// ExtensionRegistryLite. Since the type we are parsing is a full
// message, only a full ExtensionRegistry could possibly contain
// extensions of it. Otherwise we will treat the registry as if it
// were empty.
if (extensionRegistry instanceof ExtensionRegistry) {
final ExtensionRegistry.ExtensionInfo extension =
((ExtensionRegistry) extensionRegistry).findExtensionByNumber(type, fieldNumber);
if (extension == null) {
field = null;
} else {
field = extension.descriptor;
defaultInstance = extension.defaultInstance;
if (defaultInstance == null
&& field.getJavaType() == FieldDescriptor.JavaType.MESSAGE) {
throw new IllegalStateException(
"Message-typed extension lacked default instance: " + field.getFullName());
}
}
} else {
field = null;
}
} else if (builder != null) {
field = type.findFieldByNumber(fieldNumber);
} else {
field = null;
}
boolean unknown = false;
boolean packed = false;
if (field == null) {
unknown = true; // Unknown field.
} else if (wireType
== FieldSet.getWireFormatForFieldType(field.getLiteType(), false /* isPacked */)) {
packed = false;
} else if (field.isPackable()
&& wireType
== FieldSet.getWireFormatForFieldType(field.getLiteType(), true /* isPacked */)) {
packed = true;
} else {
unknown = true; // Unknown wire type.
}
if (unknown) { // Unknown field or wrong wire type. Skip.
return unknownFields.mergeFieldFrom(tag, input);
}
if (packed) {
final int length = input.readRawVarint32();
final int limit = input.pushLimit(length);
if (field.getLiteType() == WireFormat.FieldType.ENUM) {
while (input.getBytesUntilLimit() > 0) {
final int rawValue = input.readEnum();
final Object value = field.getEnumType().findValueByNumber(rawValue);
if (value == null) {
// If the number isn't recognized as a valid value for this
// enum, drop it (don't even add it to unknownFields).
return true;
}
addRepeatedField(builder, extensions, field, value);
}
} else {
while (input.getBytesUntilLimit() > 0) {
final Object value = FieldSet.readPrimitiveField(input, field.getLiteType());
addRepeatedField(builder, extensions, field, value);
}
}
input.popLimit(limit);
} else {
final Object value;
switch (field.getType()) {
case GROUP:
{
final Message.Builder subBuilder;
if (defaultInstance != null) {
subBuilder = defaultInstance.newBuilderForType();
} else {
subBuilder = builder.newBuilderForField(field);
}
if (!field.isRepeated()) {
mergeOriginalMessage(builder, extensions, field, subBuilder);
}
input.readGroup(field.getNumber(), subBuilder, extensionRegistry);
value = subBuilder.buildPartial();
break;
}
case MESSAGE:
{
final Message.Builder subBuilder;
if (defaultInstance != null) {
subBuilder = defaultInstance.newBuilderForType();
} else {
subBuilder = builder.newBuilderForField(field);
}
if (!field.isRepeated()) {
mergeOriginalMessage(builder, extensions, field, subBuilder);
}
input.readMessage(subBuilder, extensionRegistry);
value = subBuilder.buildPartial();
break;
}
case ENUM:
final int rawValue = input.readEnum();
value = field.getEnumType().findValueByNumber(rawValue);
// If the number isn't recognized as a valid value for this enum,
// drop it.
if (value == null) {
unknownFields.mergeVarintField(fieldNumber, rawValue);
return true;
}
break;
default:
value = FieldSet.readPrimitiveField(input, field.getLiteType());
break;
}
if (field.isRepeated()) {
addRepeatedField(builder, extensions, field, value);
} else {
setField(builder, extensions, field, value);
}
}
return true;
}