diff options
Diffstat (limited to 'javanano/src/main/java/com/google/protobuf/nano/Extension.java')
| -rw-r--r-- | javanano/src/main/java/com/google/protobuf/nano/Extension.java | 706 |
1 files changed, 0 insertions, 706 deletions
diff --git a/javanano/src/main/java/com/google/protobuf/nano/Extension.java b/javanano/src/main/java/com/google/protobuf/nano/Extension.java deleted file mode 100644 index c458f9b1..00000000 --- a/javanano/src/main/java/com/google/protobuf/nano/Extension.java +++ /dev/null @@ -1,706 +0,0 @@ -// Protocol Buffers - Google's data interchange format -// Copyright 2013 Google Inc. All rights reserved. -// https://developers.google.com/protocol-buffers/ -// -// Redistribution and use in source and binary forms, with or without -// modification, are permitted provided that the following conditions are -// met: -// -// * Redistributions of source code must retain the above copyright -// notice, this list of conditions and the following disclaimer. -// * Redistributions in binary form must reproduce the above -// copyright notice, this list of conditions and the following disclaimer -// in the documentation and/or other materials provided with the -// distribution. -// * Neither the name of Google Inc. nor the names of its -// contributors may be used to endorse or promote products derived from -// this software without specific prior written permission. -// -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR -// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT -// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT -// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, -// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY -// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT -// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE -// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - -package com.google.protobuf.nano; - -import java.io.IOException; -import java.lang.reflect.Array; -import java.util.ArrayList; -import java.util.List; - -/** - * Represents an extension. - * - * @author bduff@google.com (Brian Duff) - * @author maxtroy@google.com (Max Cai) - * @param <M> the type of the extendable message this extension is for. - * @param <T> the Java type of the extension; see {@link #clazz}. - */ -public class Extension<M extends ExtendableMessageNano<M>, T> { - - /* - * Because we typically only define message-typed extensions, the Extension class hierarchy is - * designed as follows, to allow a big amount of code in this file to be removed by ProGuard: - * - * Extension // ready to use for message/group typed extensions - * Δ - * | - * PrimitiveExtension // for primitive/enum typed extensions - */ - - public static final int TYPE_DOUBLE = InternalNano.TYPE_DOUBLE; - public static final int TYPE_FLOAT = InternalNano.TYPE_FLOAT; - public static final int TYPE_INT64 = InternalNano.TYPE_INT64; - public static final int TYPE_UINT64 = InternalNano.TYPE_UINT64; - public static final int TYPE_INT32 = InternalNano.TYPE_INT32; - public static final int TYPE_FIXED64 = InternalNano.TYPE_FIXED64; - public static final int TYPE_FIXED32 = InternalNano.TYPE_FIXED32; - public static final int TYPE_BOOL = InternalNano.TYPE_BOOL; - public static final int TYPE_STRING = InternalNano.TYPE_STRING; - public static final int TYPE_GROUP = InternalNano.TYPE_GROUP; - public static final int TYPE_MESSAGE = InternalNano.TYPE_MESSAGE; - public static final int TYPE_BYTES = InternalNano.TYPE_BYTES; - public static final int TYPE_UINT32 = InternalNano.TYPE_UINT32; - public static final int TYPE_ENUM = InternalNano.TYPE_ENUM; - public static final int TYPE_SFIXED32 = InternalNano.TYPE_SFIXED32; - public static final int TYPE_SFIXED64 = InternalNano.TYPE_SFIXED64; - public static final int TYPE_SINT32 = InternalNano.TYPE_SINT32; - public static final int TYPE_SINT64 = InternalNano.TYPE_SINT64; - - /** - * Creates an {@code Extension} of the given message type and tag number. - * Should be used by the generated code only. - * - * @param type {@link #TYPE_MESSAGE} or {@link #TYPE_GROUP} - * @deprecated use {@link #createMessageTyped(int, Class, long)} instead. - */ - @Deprecated - public static <M extends ExtendableMessageNano<M>, T extends MessageNano> - Extension<M, T> createMessageTyped(int type, Class<T> clazz, int tag) { - return new Extension<M, T>(type, clazz, tag, false); - } - - // Note: these create...() methods take a long for the tag parameter, - // because tags are represented as unsigned ints, and these values exist - // in generated code as long values. However, they can fit in 32-bits, so - // it's safe to cast them to int without loss of precision. - - /** - * Creates an {@code Extension} of the given message type and tag number. - * Should be used by the generated code only. - * - * @param type {@link #TYPE_MESSAGE} or {@link #TYPE_GROUP} - */ - public static <M extends ExtendableMessageNano<M>, T extends MessageNano> - Extension<M, T> createMessageTyped(int type, Class<T> clazz, long tag) { - return new Extension<M, T>(type, clazz, (int) tag, false); - } - - /** - * Creates a repeated {@code Extension} of the given message type and tag number. - * Should be used by the generated code only. - * - * @param type {@link #TYPE_MESSAGE} or {@link #TYPE_GROUP} - */ - public static <M extends ExtendableMessageNano<M>, T extends MessageNano> - Extension<M, T[]> createRepeatedMessageTyped(int type, Class<T[]> clazz, long tag) { - return new Extension<M, T[]>(type, clazz, (int) tag, true); - } - - /** - * Creates an {@code Extension} of the given primitive type and tag number. - * Should be used by the generated code only. - * - * @param type one of {@code TYPE_*}, except {@link #TYPE_MESSAGE} and {@link #TYPE_GROUP} - * @param clazz the boxed Java type of this extension - */ - public static <M extends ExtendableMessageNano<M>, T> - Extension<M, T> createPrimitiveTyped(int type, Class<T> clazz, long tag) { - return new PrimitiveExtension<M, T>(type, clazz, (int) tag, false, 0, 0); - } - - /** - * Creates a repeated {@code Extension} of the given primitive type and tag number. - * Should be used by the generated code only. - * - * @param type one of {@code TYPE_*}, except {@link #TYPE_MESSAGE} and {@link #TYPE_GROUP} - * @param clazz the Java array type of this extension, with an unboxed component type - */ - public static <M extends ExtendableMessageNano<M>, T> - Extension<M, T> createRepeatedPrimitiveTyped( - int type, Class<T> clazz, long tag, long nonPackedTag, long packedTag) { - return new PrimitiveExtension<M, T>(type, clazz, (int) tag, true, - (int) nonPackedTag, (int) packedTag); - } - - /** - * Protocol Buffer type of this extension; one of the {@code TYPE_} constants. - */ - protected final int type; - - /** - * Java type of this extension. For a singular extension, this is the boxed Java type for the - * Protocol Buffer {@link #type}; for a repeated extension, this is an array type whose - * component type is the unboxed Java type for {@link #type}. For example, for a singular - * {@code int32}/{@link #TYPE_INT32} extension, this equals {@code Integer.class}; for a - * repeated {@code int32} extension, this equals {@code int[].class}. - */ - protected final Class<T> clazz; - - /** - * Tag number of this extension. The data should be viewed as an unsigned 32-bit value. - */ - public final int tag; - - /** - * Whether this extension is repeated. - */ - protected final boolean repeated; - - private Extension(int type, Class<T> clazz, int tag, boolean repeated) { - this.type = type; - this.clazz = clazz; - this.tag = tag; - this.repeated = repeated; - } - - /** - * Returns the value of this extension stored in the given list of unknown fields, or - * {@code null} if no unknown fields matches this extension. - * - * @param unknownFields a list of {@link UnknownFieldData}. All of the elements must have a tag - * that matches this Extension's tag. - * - */ - final T getValueFrom(List<UnknownFieldData> unknownFields) { - if (unknownFields == null) { - return null; - } - return repeated ? getRepeatedValueFrom(unknownFields) : getSingularValueFrom(unknownFields); - } - - private T getRepeatedValueFrom(List<UnknownFieldData> unknownFields) { - // For repeated extensions, read all matching unknown fields in their original order. - List<Object> resultList = new ArrayList<Object>(); - for (int i = 0; i < unknownFields.size(); i++) { - UnknownFieldData data = unknownFields.get(i); - if (data.bytes.length != 0) { - readDataInto(data, resultList); - } - } - - int resultSize = resultList.size(); - if (resultSize == 0) { - return null; - } else { - T result = clazz.cast(Array.newInstance(clazz.getComponentType(), resultSize)); - for (int i = 0; i < resultSize; i++) { - Array.set(result, i, resultList.get(i)); - } - return result; - } - } - - private T getSingularValueFrom(List<UnknownFieldData> unknownFields) { - // For singular extensions, get the last piece of data stored under this extension. - if (unknownFields.isEmpty()) { - return null; - } - UnknownFieldData lastData = unknownFields.get(unknownFields.size() - 1); - return clazz.cast(readData(CodedInputByteBufferNano.newInstance(lastData.bytes))); - } - - protected Object readData(CodedInputByteBufferNano input) { - // This implementation is for message/group extensions. - Class<?> messageType = repeated ? clazz.getComponentType() : clazz; - try { - switch (type) { - case TYPE_GROUP: - MessageNano group = (MessageNano) messageType.newInstance(); - input.readGroup(group, WireFormatNano.getTagFieldNumber(tag)); - return group; - case TYPE_MESSAGE: - MessageNano message = (MessageNano) messageType.newInstance(); - input.readMessage(message); - return message; - default: - throw new IllegalArgumentException("Unknown type " + type); - } - } catch (InstantiationException e) { - throw new IllegalArgumentException( - "Error creating instance of class " + messageType, e); - } catch (IllegalAccessException e) { - throw new IllegalArgumentException( - "Error creating instance of class " + messageType, e); - } catch (IOException e) { - throw new IllegalArgumentException("Error reading extension field", e); - } - } - - protected void readDataInto(UnknownFieldData data, List<Object> resultList) { - // This implementation is for message/group extensions. - resultList.add(readData(CodedInputByteBufferNano.newInstance(data.bytes))); - } - - void writeTo(Object value, CodedOutputByteBufferNano output) throws IOException { - if (repeated) { - writeRepeatedData(value, output); - } else { - writeSingularData(value, output); - } - } - - protected void writeSingularData(Object value, CodedOutputByteBufferNano out) { - // This implementation is for message/group extensions. - try { - out.writeRawVarint32(tag); - switch (type) { - case TYPE_GROUP: - MessageNano groupValue = (MessageNano) value; - int fieldNumber = WireFormatNano.getTagFieldNumber(tag); - out.writeGroupNoTag(groupValue); - // The endgroup tag must be included in the data payload. - out.writeTag(fieldNumber, WireFormatNano.WIRETYPE_END_GROUP); - break; - case TYPE_MESSAGE: - MessageNano messageValue = (MessageNano) value; - out.writeMessageNoTag(messageValue); - break; - default: - throw new IllegalArgumentException("Unknown type " + type); - } - } catch (IOException e) { - // Should not happen - throw new IllegalStateException(e); - } - } - - protected void writeRepeatedData(Object array, CodedOutputByteBufferNano output) { - // This implementation is for non-packed extensions. - int arrayLength = Array.getLength(array); - for (int i = 0; i < arrayLength; i++) { - Object element = Array.get(array, i); - if (element != null) { - writeSingularData(element, output); - } - } - } - - int computeSerializedSize(Object value) { - if (repeated) { - return computeRepeatedSerializedSize(value); - } else { - return computeSingularSerializedSize(value); - } - } - - protected int computeRepeatedSerializedSize(Object array) { - // This implementation is for non-packed extensions. - int size = 0; - int arrayLength = Array.getLength(array); - for (int i = 0; i < arrayLength; i++) { - Object element = Array.get(array, i); - if (element != null) { - size += computeSingularSerializedSize(Array.get(array, i)); - } - } - return size; - } - - protected int computeSingularSerializedSize(Object value) { - // This implementation is for message/group extensions. - int fieldNumber = WireFormatNano.getTagFieldNumber(tag); - switch (type) { - case TYPE_GROUP: - MessageNano groupValue = (MessageNano) value; - return CodedOutputByteBufferNano.computeGroupSize(fieldNumber, groupValue); - case TYPE_MESSAGE: - MessageNano messageValue = (MessageNano) value; - return CodedOutputByteBufferNano.computeMessageSize(fieldNumber, messageValue); - default: - throw new IllegalArgumentException("Unknown type " + type); - } - } - - /** - * Represents an extension of a primitive (including enum) type. If there is no primitive - * extensions, this subclass will be removable by ProGuard. - */ - private static class PrimitiveExtension<M extends ExtendableMessageNano<M>, T> - extends Extension<M, T> { - - /** - * Tag of a piece of non-packed data from the wire compatible with this extension. - */ - private final int nonPackedTag; - - /** - * Tag of a piece of packed data from the wire compatible with this extension. - * 0 if the type of this extension is not packable. - */ - private final int packedTag; - - public PrimitiveExtension(int type, Class<T> clazz, int tag, boolean repeated, - int nonPackedTag, int packedTag) { - super(type, clazz, tag, repeated); - this.nonPackedTag = nonPackedTag; - this.packedTag = packedTag; - } - - @Override - protected Object readData(CodedInputByteBufferNano input) { - try { - return input.readPrimitiveField(type); - } catch (IOException e) { - throw new IllegalArgumentException("Error reading extension field", e); - } - } - - @Override - protected void readDataInto(UnknownFieldData data, List<Object> resultList) { - // This implementation is for primitive typed extensions, - // which can read both packed and non-packed data. - if (data.tag == nonPackedTag) { - resultList.add(readData(CodedInputByteBufferNano.newInstance(data.bytes))); - } else { - CodedInputByteBufferNano buffer = - CodedInputByteBufferNano.newInstance(data.bytes); - try { - buffer.pushLimit(buffer.readRawVarint32()); // length limit - } catch (IOException e) { - throw new IllegalArgumentException("Error reading extension field", e); - } - while (!buffer.isAtEnd()) { - resultList.add(readData(buffer)); - } - } - } - - @Override - protected final void writeSingularData(Object value, CodedOutputByteBufferNano output) { - try { - output.writeRawVarint32(tag); - switch (type) { - case TYPE_DOUBLE: - Double doubleValue = (Double) value; - output.writeDoubleNoTag(doubleValue); - break; - case TYPE_FLOAT: - Float floatValue = (Float) value; - output.writeFloatNoTag(floatValue); - break; - case TYPE_INT64: - Long int64Value = (Long) value; - output.writeInt64NoTag(int64Value); - break; - case TYPE_UINT64: - Long uint64Value = (Long) value; - output.writeUInt64NoTag(uint64Value); - break; - case TYPE_INT32: - Integer int32Value = (Integer) value; - output.writeInt32NoTag(int32Value); - break; - case TYPE_FIXED64: - Long fixed64Value = (Long) value; - output.writeFixed64NoTag(fixed64Value); - break; - case TYPE_FIXED32: - Integer fixed32Value = (Integer) value; - output.writeFixed32NoTag(fixed32Value); - break; - case TYPE_BOOL: - Boolean boolValue = (Boolean) value; - output.writeBoolNoTag(boolValue); - break; - case TYPE_STRING: - String stringValue = (String) value; - output.writeStringNoTag(stringValue); - break; - case TYPE_BYTES: - byte[] bytesValue = (byte[]) value; - output.writeBytesNoTag(bytesValue); - break; - case TYPE_UINT32: - Integer uint32Value = (Integer) value; - output.writeUInt32NoTag(uint32Value); - break; - case TYPE_ENUM: - Integer enumValue = (Integer) value; - output.writeEnumNoTag(enumValue); - break; - case TYPE_SFIXED32: - Integer sfixed32Value = (Integer) value; - output.writeSFixed32NoTag(sfixed32Value); - break; - case TYPE_SFIXED64: - Long sfixed64Value = (Long) value; - output.writeSFixed64NoTag(sfixed64Value); - break; - case TYPE_SINT32: - Integer sint32Value = (Integer) value; - output.writeSInt32NoTag(sint32Value); - break; - case TYPE_SINT64: - Long sint64Value = (Long) value; - output.writeSInt64NoTag(sint64Value); - break; - default: - throw new IllegalArgumentException("Unknown type " + type); - } - } catch (IOException e) { - // Should not happen - throw new IllegalStateException(e); - } - } - - @Override - protected void writeRepeatedData(Object array, CodedOutputByteBufferNano output) { - if (tag == nonPackedTag) { - // Use base implementation for non-packed data - super.writeRepeatedData(array, output); - } else if (tag == packedTag) { - // Packed. Note that the array element type is guaranteed to be primitive, so there - // won't be any null elements, so no null check in this block. - int arrayLength = Array.getLength(array); - int dataSize = computePackedDataSize(array); - - try { - output.writeRawVarint32(tag); - output.writeRawVarint32(dataSize); - switch (type) { - case TYPE_BOOL: - for (int i = 0; i < arrayLength; i++) { - output.writeBoolNoTag(Array.getBoolean(array, i)); - } - break; - case TYPE_FIXED32: - for (int i = 0; i < arrayLength; i++) { - output.writeFixed32NoTag(Array.getInt(array, i)); - } - break; - case TYPE_SFIXED32: - for (int i = 0; i < arrayLength; i++) { - output.writeSFixed32NoTag(Array.getInt(array, i)); - } - break; - case TYPE_FLOAT: - for (int i = 0; i < arrayLength; i++) { - output.writeFloatNoTag(Array.getFloat(array, i)); - } - break; - case TYPE_FIXED64: - for (int i = 0; i < arrayLength; i++) { - output.writeFixed64NoTag(Array.getLong(array, i)); - } - break; - case TYPE_SFIXED64: - for (int i = 0; i < arrayLength; i++) { - output.writeSFixed64NoTag(Array.getLong(array, i)); - } - break; - case TYPE_DOUBLE: - for (int i = 0; i < arrayLength; i++) { - output.writeDoubleNoTag(Array.getDouble(array, i)); - } - break; - case TYPE_INT32: - for (int i = 0; i < arrayLength; i++) { - output.writeInt32NoTag(Array.getInt(array, i)); - } - break; - case TYPE_SINT32: - for (int i = 0; i < arrayLength; i++) { - output.writeSInt32NoTag(Array.getInt(array, i)); - } - break; - case TYPE_UINT32: - for (int i = 0; i < arrayLength; i++) { - output.writeUInt32NoTag(Array.getInt(array, i)); - } - break; - case TYPE_INT64: - for (int i = 0; i < arrayLength; i++) { - output.writeInt64NoTag(Array.getLong(array, i)); - } - break; - case TYPE_SINT64: - for (int i = 0; i < arrayLength; i++) { - output.writeSInt64NoTag(Array.getLong(array, i)); - } - break; - case TYPE_UINT64: - for (int i = 0; i < arrayLength; i++) { - output.writeUInt64NoTag(Array.getLong(array, i)); - } - break; - case TYPE_ENUM: - for (int i = 0; i < arrayLength; i++) { - output.writeEnumNoTag(Array.getInt(array, i)); - } - break; - default: - throw new IllegalArgumentException("Unpackable type " + type); - } - } catch (IOException e) { - // Should not happen. - throw new IllegalStateException(e); - } - } else { - throw new IllegalArgumentException("Unexpected repeated extension tag " + tag - + ", unequal to both non-packed variant " + nonPackedTag - + " and packed variant " + packedTag); - } - } - - private int computePackedDataSize(Object array) { - int dataSize = 0; - int arrayLength = Array.getLength(array); - switch (type) { - case TYPE_BOOL: - // Bools are stored as int32 but just as 0 or 1, so 1 byte each. - dataSize = arrayLength; - break; - case TYPE_FIXED32: - case TYPE_SFIXED32: - case TYPE_FLOAT: - dataSize = arrayLength * CodedOutputByteBufferNano.LITTLE_ENDIAN_32_SIZE; - break; - case TYPE_FIXED64: - case TYPE_SFIXED64: - case TYPE_DOUBLE: - dataSize = arrayLength * CodedOutputByteBufferNano.LITTLE_ENDIAN_64_SIZE; - break; - case TYPE_INT32: - for (int i = 0; i < arrayLength; i++) { - dataSize += CodedOutputByteBufferNano.computeInt32SizeNoTag( - Array.getInt(array, i)); - } - break; - case TYPE_SINT32: - for (int i = 0; i < arrayLength; i++) { - dataSize += CodedOutputByteBufferNano.computeSInt32SizeNoTag( - Array.getInt(array, i)); - } - break; - case TYPE_UINT32: - for (int i = 0; i < arrayLength; i++) { - dataSize += CodedOutputByteBufferNano.computeUInt32SizeNoTag( - Array.getInt(array, i)); - } - break; - case TYPE_INT64: - for (int i = 0; i < arrayLength; i++) { - dataSize += CodedOutputByteBufferNano.computeInt64SizeNoTag( - Array.getLong(array, i)); - } - break; - case TYPE_SINT64: - for (int i = 0; i < arrayLength; i++) { - dataSize += CodedOutputByteBufferNano.computeSInt64SizeNoTag( - Array.getLong(array, i)); - } - break; - case TYPE_UINT64: - for (int i = 0; i < arrayLength; i++) { - dataSize += CodedOutputByteBufferNano.computeUInt64SizeNoTag( - Array.getLong(array, i)); - } - break; - case TYPE_ENUM: - for (int i = 0; i < arrayLength; i++) { - dataSize += CodedOutputByteBufferNano.computeEnumSizeNoTag( - Array.getInt(array, i)); - } - break; - default: - throw new IllegalArgumentException("Unexpected non-packable type " + type); - } - return dataSize; - } - - @Override - protected int computeRepeatedSerializedSize(Object array) { - if (tag == nonPackedTag) { - // Use base implementation for non-packed data - return super.computeRepeatedSerializedSize(array); - } else if (tag == packedTag) { - // Packed. - int dataSize = computePackedDataSize(array); - int payloadSize = - dataSize + CodedOutputByteBufferNano.computeRawVarint32Size(dataSize); - return payloadSize + CodedOutputByteBufferNano.computeRawVarint32Size(tag); - } else { - throw new IllegalArgumentException("Unexpected repeated extension tag " + tag - + ", unequal to both non-packed variant " + nonPackedTag - + " and packed variant " + packedTag); - } - } - - @Override - protected final int computeSingularSerializedSize(Object value) { - int fieldNumber = WireFormatNano.getTagFieldNumber(tag); - switch (type) { - case TYPE_DOUBLE: - Double doubleValue = (Double) value; - return CodedOutputByteBufferNano.computeDoubleSize(fieldNumber, doubleValue); - case TYPE_FLOAT: - Float floatValue = (Float) value; - return CodedOutputByteBufferNano.computeFloatSize(fieldNumber, floatValue); - case TYPE_INT64: - Long int64Value = (Long) value; - return CodedOutputByteBufferNano.computeInt64Size(fieldNumber, int64Value); - case TYPE_UINT64: - Long uint64Value = (Long) value; - return CodedOutputByteBufferNano.computeUInt64Size(fieldNumber, uint64Value); - case TYPE_INT32: - Integer int32Value = (Integer) value; - return CodedOutputByteBufferNano.computeInt32Size(fieldNumber, int32Value); - case TYPE_FIXED64: - Long fixed64Value = (Long) value; - return CodedOutputByteBufferNano.computeFixed64Size(fieldNumber, fixed64Value); - case TYPE_FIXED32: - Integer fixed32Value = (Integer) value; - return CodedOutputByteBufferNano.computeFixed32Size(fieldNumber, fixed32Value); - case TYPE_BOOL: - Boolean boolValue = (Boolean) value; - return CodedOutputByteBufferNano.computeBoolSize(fieldNumber, boolValue); - case TYPE_STRING: - String stringValue = (String) value; - return CodedOutputByteBufferNano.computeStringSize(fieldNumber, stringValue); - case TYPE_BYTES: - byte[] bytesValue = (byte[]) value; - return CodedOutputByteBufferNano.computeBytesSize(fieldNumber, bytesValue); - case TYPE_UINT32: - Integer uint32Value = (Integer) value; - return CodedOutputByteBufferNano.computeUInt32Size(fieldNumber, uint32Value); - case TYPE_ENUM: - Integer enumValue = (Integer) value; - return CodedOutputByteBufferNano.computeEnumSize(fieldNumber, enumValue); - case TYPE_SFIXED32: - Integer sfixed32Value = (Integer) value; - return CodedOutputByteBufferNano.computeSFixed32Size(fieldNumber, - sfixed32Value); - case TYPE_SFIXED64: - Long sfixed64Value = (Long) value; - return CodedOutputByteBufferNano.computeSFixed64Size(fieldNumber, - sfixed64Value); - case TYPE_SINT32: - Integer sint32Value = (Integer) value; - return CodedOutputByteBufferNano.computeSInt32Size(fieldNumber, sint32Value); - case TYPE_SINT64: - Long sint64Value = (Long) value; - return CodedOutputByteBufferNano.computeSInt64Size(fieldNumber, sint64Value); - default: - throw new IllegalArgumentException("Unknown type " + type); - } - } - } -} |