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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc.  All rights reserved.
// https://developers.google.nl.topicus.jdbc.shaded.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
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package nl.topicus.jdbc.shaded.com.google.protobuf;

import static nl.topicus.jdbc.shaded.com.google.protobuf.WireFormat.FIXED_32_SIZE;
import static nl.topicus.jdbc.shaded.com.google.protobuf.WireFormat.FIXED_64_SIZE;
import static nl.topicus.jdbc.shaded.com.google.protobuf.WireFormat.MAX_VARINT_SIZE;
import static java.lang.Math.max;

import nl.topicus.jdbc.shaded.com.google.protobuf.Utf8.UnpairedSurrogateException;
import java.nl.topicus.jdbc.shaded.io.IOException;
import java.nl.topicus.jdbc.shaded.io.OutputStream;
import java.nio.BufferOverflowException;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.util.logging.Level;
import java.util.logging.Logger;

/**
 * Encodes and writes protocol message fields.
 *
 * 

This class contains two kinds of methods: methods that write specific * protocol message constructs and field types (e.g. {@link #writeTag} and * {@link #writeInt32}) and methods that write low-level values (e.g. * {@link #writeRawVarint32} and {@link #writeRawBytes}). If you are * writing encoded protocol messages, you should use the former methods, but if * you are writing some other format of your own design, use the latter. * *

This class is totally unsynchronized. */ public abstract class CodedOutputStream extends ByteOutput { private static final Logger logger = Logger.getLogger(CodedOutputStream.class.getName()); private static final boolean HAS_UNSAFE_ARRAY_OPERATIONS = UnsafeUtil.hasUnsafeArrayOperations(); private static final long ARRAY_BASE_OFFSET = UnsafeUtil.getArrayBaseOffset(); /** * @deprecated Use {@link #nl.topicus.jdbc.shaded.com.uteFixed32SizeNoTag(int)} instead. */ @Deprecated public static final int LITTLE_ENDIAN_32_SIZE = FIXED_32_SIZE; /** * The buffer size used in {@link #newInstance(OutputStream)}. */ public static final int DEFAULT_BUFFER_SIZE = 4096; /** * Returns the buffer size to efficiently write dataLength bytes to this * CodedOutputStream. Used by AbstractMessageLite. * * @return the buffer size to efficiently write dataLength bytes to this * CodedOutputStream. */ static int nl.topicus.jdbc.shaded.com.utePreferredBufferSize(int dataLength) { if (dataLength > DEFAULT_BUFFER_SIZE) { return DEFAULT_BUFFER_SIZE; } return dataLength; } /** * Create a new {@code CodedOutputStream} wrapping the given {@code OutputStream}. * *

NOTE: The provided {@link OutputStream} MUST NOT retain access or * modify the provided byte arrays. Doing so may result in corrupted data, which would be * difficult to debug. */ public static CodedOutputStream newInstance(final OutputStream output) { return newInstance(output, DEFAULT_BUFFER_SIZE); } /** * Create a new {@code CodedOutputStream} wrapping the given {@code OutputStream} with a given * buffer size. * *

NOTE: The provided {@link OutputStream} MUST NOT retain access or * modify the provided byte arrays. Doing so may result in corrupted data, which would be * difficult to debug. */ public static CodedOutputStream newInstance(final OutputStream output, final int bufferSize) { return new OutputStreamEncoder(output, bufferSize); } /** * Create a new {@code CodedOutputStream} that writes directly to the given * byte array. If more bytes are written than fit in the array, * {@link OutOfSpaceException} will be thrown. Writing directly to a flat * array is faster than writing to an {@code OutputStream}. See also * {@link ByteString#newCodedBuilder}. */ public static CodedOutputStream newInstance(final byte[] flatArray) { return newInstance(flatArray, 0, flatArray.length); } /** * Create a new {@code CodedOutputStream} that writes directly to the given * byte array slice. If more bytes are written than fit in the slice, * {@link OutOfSpaceException} will be thrown. Writing directly to a flat * array is faster than writing to an {@code OutputStream}. See also * {@link ByteString#newCodedBuilder}. */ public static CodedOutputStream newInstance( final byte[] flatArray, final int offset, final int length) { return new ArrayEncoder(flatArray, offset, length); } /** Create a new {@code CodedOutputStream} that writes to the given {@link ByteBuffer}. */ public static CodedOutputStream newInstance(ByteBuffer buffer) { if (buffer.hasArray()) { return new HeapNioEncoder(buffer); } if (buffer.isDirect() && !buffer.isReadOnly()) { return UnsafeDirectNioEncoder.isSupported() ? newUnsafeInstance(buffer) : newSafeInstance(buffer); } throw new IllegalArgumentException("ByteBuffer is read-only"); } /** For testing purposes only. */ static CodedOutputStream newUnsafeInstance(ByteBuffer buffer) { return new UnsafeDirectNioEncoder(buffer); } /** For testing purposes only. */ static CodedOutputStream newSafeInstance(ByteBuffer buffer) { return new SafeDirectNioEncoder(buffer); } /** * Configures serialization to be deterministic. * *

The deterministic serialization guarantees that for a given binary, equal (defined by the * {@code equals()} methods in protos) messages will always be serialized to the same bytes. This * implies: * *

    *
  • repeated serialization of a message will return the same bytes *
  • different processes of the same binary (which may be executing on different machines) will * serialize equal messages to the same bytes. *
* *

Note the deterministic serialization is NOT canonical across languages; it is also unstable * across different builds with schema changes due to unknown fields. Users who need canonical * serialization, e.g. persistent storage in a canonical form, fingerprinting, etc, should define * their own canonicalization specification and implement the serializer using reflection APIs * rather than relying on this API. * *

Once set, the serializer will: (Note this is an implementation detail and may subject to * change in the future) * *

    *
  • sort map entries by keys in lexicographical order or numerical order. Note: For string * keys, the order is based on nl.topicus.jdbc.shaded.com.aring the Unicode value of each character in the strings. * The order may be different from the deterministic serialization in other languages where * maps are sorted on the lexicographical order of the UTF8 encoded keys. *
*/ public void useDeterministicSerialization() { serializationDeterministic = true; } boolean isSerializationDeterministic() { return serializationDeterministic; } private boolean serializationDeterministic; /** * Create a new {@code CodedOutputStream} that writes to the given {@link ByteBuffer}. * * @deprecated the size parameter is no longer used since use of an internal buffer is useless * (and wasteful) when writing to a {@link ByteBuffer}. Use {@link #newInstance(ByteBuffer)} * instead. */ @Deprecated public static CodedOutputStream newInstance(ByteBuffer byteBuffer, @SuppressWarnings("unused") int unused) { return newInstance(byteBuffer); } /** * Create a new {@code CodedOutputStream} that writes to the provided {@link ByteOutput}. * *

NOTE: The {@link ByteOutput} MUST NOT modify the provided buffers. Doing * so may result in corrupted data, which would be difficult to debug. * * @param byteOutput the output target for encoded bytes. * @param bufferSize the size of the internal scratch buffer to be used for string encoding. * Setting this to {@code 0} will disable buffering, requiring an allocation for each encoded * string. */ static CodedOutputStream newInstance(ByteOutput byteOutput, int bufferSize) { if (bufferSize < 0) { throw new IllegalArgumentException("bufferSize must be positive"); } return new ByteOutputEncoder(byteOutput, bufferSize); } // Disallow construction outside of this class. private CodedOutputStream() { } // ----------------------------------------------------------------- /** Encode and write a tag. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeTag(int fieldNumber, int wireType) throws IOException; /** Write an {@code int32} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeInt32(int fieldNumber, int value) throws IOException; /** Write a {@code uint32} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeUInt32(int fieldNumber, int value) throws IOException; /** Write a {@code sint32} field, including tag, to the stream. */ public final void writeSInt32(final int fieldNumber, final int value) throws IOException { writeUInt32(fieldNumber, encodeZigZag32(value)); } /** Write a {@code fixed32} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeFixed32(int fieldNumber, int value) throws IOException; /** Write an {@code sfixed32} field, including tag, to the stream. */ public final void writeSFixed32(final int fieldNumber, final int value) throws IOException { writeFixed32(fieldNumber, value); } /** Write an {@code int64} field, including tag, to the stream. */ public final void writeInt64(final int fieldNumber, final long value) throws IOException { writeUInt64(fieldNumber, value); } /** Write a {@code uint64} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeUInt64(int fieldNumber, long value) throws IOException; /** Write an {@code sint64} field, including tag, to the stream. */ public final void writeSInt64(final int fieldNumber, final long value) throws IOException { writeUInt64(fieldNumber, encodeZigZag64(value)); } /** Write a {@code fixed64} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeFixed64(int fieldNumber, long value) throws IOException; /** Write an {@code sfixed64} field, including tag, to the stream. */ public final void writeSFixed64(final int fieldNumber, final long value) throws IOException { writeFixed64(fieldNumber, value); } /** Write a {@code float} field, including tag, to the stream. */ public final void writeFloat(final int fieldNumber, final float value) throws IOException { writeFixed32(fieldNumber, Float.floatToRawIntBits(value)); } /** Write a {@code double} field, including tag, to the stream. */ public final void writeDouble(final int fieldNumber, final double value) throws IOException { writeFixed64(fieldNumber, Double.doubleToRawLongBits(value)); } /** Write a {@code bool} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeBool(int fieldNumber, boolean value) throws IOException; /** * Write an enum field, including tag, to the stream. The provided value is the numeric * value used to represent the enum value on the wire (not the enum ordinal value). */ public final void writeEnum(final int fieldNumber, final int value) throws IOException { writeInt32(fieldNumber, value); } /** Write a {@code string} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeString(int fieldNumber, String value) throws IOException; /** Write a {@code bytes} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeBytes(int fieldNumber, ByteString value) throws IOException; /** Write a {@code bytes} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeByteArray(int fieldNumber, byte[] value) throws IOException; /** Write a {@code bytes} field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeByteArray(int fieldNumber, byte[] value, int offset, int length) throws IOException; /** * Write a {@code bytes} field, including tag, to the stream. * This method will write all content of the ByteBuffer regardless of the * current position and limit (i.e., the number of bytes to be written is * value.capacity(), not value.remaining()). Furthermore, this method doesn't * alter the state of the passed-in ByteBuffer. Its position, limit, mark, * etc. will remain unchanged. If you only want to write the remaining bytes * of a ByteBuffer, you can call * {@code writeByteBuffer(fieldNumber, byteBuffer.slice())}. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeByteBuffer(int fieldNumber, ByteBuffer value) throws IOException; /** * Write a single byte. */ public final void writeRawByte(final byte value) throws IOException { write(value); } /** Write a single byte, represented by an integer value. */ public final void writeRawByte(final int value) throws IOException { write((byte) value); } /** Write an array of bytes. */ public final void writeRawBytes(final byte[] value) throws IOException { write(value, 0, value.length); } /** * Write part of an array of bytes. */ public final void writeRawBytes(final byte[] value, int offset, int length) throws IOException { write(value, offset, length); } /** Write a byte string. */ public final void writeRawBytes(final ByteString value) throws IOException { value.writeTo(this); } /** * Write a ByteBuffer. This method will write all content of the ByteBuffer * regardless of the current position and limit (i.e., the number of bytes * to be written is value.capacity(), not value.remaining()). Furthermore, * this method doesn't alter the state of the passed-in ByteBuffer. Its * position, limit, mark, etc. will remain unchanged. If you only want to * write the remaining bytes of a ByteBuffer, you can call * {@code writeRawBytes(byteBuffer.slice())}. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeRawBytes(final ByteBuffer value) throws IOException; /** Write an embedded message field, including tag, to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeMessage(final int fieldNumber, final MessageLite value) throws IOException; /** * Write a MessageSet extension field to the stream. For historical reasons, * the wire format differs from normal fields. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeMessageSetExtension(final int fieldNumber, final MessageLite value) throws IOException; /** * Write an unparsed MessageSet extension field to the stream. For * historical reasons, the wire format differs from normal fields. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeRawMessageSetExtension(final int fieldNumber, final ByteString value) throws IOException; // ----------------------------------------------------------------- /** Write an {@code int32} field to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeInt32NoTag(final int value) throws IOException; /** Write a {@code uint32} field to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeUInt32NoTag(int value) throws IOException; /** Write a {@code sint32} field to the stream. */ public final void writeSInt32NoTag(final int value) throws IOException { writeUInt32NoTag(encodeZigZag32(value)); } /** Write a {@code fixed32} field to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeFixed32NoTag(int value) throws IOException; /** Write a {@code sfixed32} field to the stream. */ public final void writeSFixed32NoTag(final int value) throws IOException { writeFixed32NoTag(value); } /** Write an {@code int64} field to the stream. */ public final void writeInt64NoTag(final long value) throws IOException { writeUInt64NoTag(value); } /** Write a {@code uint64} field to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeUInt64NoTag(long value) throws IOException; /** Write a {@code sint64} field to the stream. */ public final void writeSInt64NoTag(final long value) throws IOException { writeUInt64NoTag(encodeZigZag64(value)); } /** Write a {@code fixed64} field to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeFixed64NoTag(long value) throws IOException; /** Write a {@code sfixed64} field to the stream. */ public final void writeSFixed64NoTag(final long value) throws IOException { writeFixed64NoTag(value); } /** Write a {@code float} field to the stream. */ public final void writeFloatNoTag(final float value) throws IOException { writeFixed32NoTag(Float.floatToRawIntBits(value)); } /** Write a {@code double} field to the stream. */ public final void writeDoubleNoTag(final double value) throws IOException { writeFixed64NoTag(Double.doubleToRawLongBits(value)); } /** Write a {@code bool} field to the stream. */ public final void writeBoolNoTag(final boolean value) throws IOException { write((byte) (value ? 1 : 0)); } /** * Write an enum field to the stream. The provided value is the numeric * value used to represent the enum value on the wire (not the enum ordinal value). */ public final void writeEnumNoTag(final int value) throws IOException { writeInt32NoTag(value); } /** Write a {@code string} field to the stream. */ // TODO(dweis): Document behavior on ill-formed UTF-16 input. // Abstract to avoid overhead of additional virtual method calls. public abstract void writeStringNoTag(String value) throws IOException; /** Write a {@code bytes} field to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeBytesNoTag(final ByteString value) throws IOException; /** Write a {@code bytes} field to the stream. */ public final void writeByteArrayNoTag(final byte[] value) throws IOException { writeByteArrayNoTag(value, 0, value.length); } /** Write an embedded message field to the stream. */ // Abstract to avoid overhead of additional virtual method calls. public abstract void writeMessageNoTag(final MessageLite value) throws IOException; //================================================================= @ExperimentalApi @Override public abstract void write(byte value) throws IOException; @ExperimentalApi @Override public abstract void write(byte[] value, int offset, int length) throws IOException; @ExperimentalApi @Override public abstract void writeLazy(byte[] value, int offset, int length) throws IOException; @Override public abstract void write(ByteBuffer value) throws IOException; @ExperimentalApi @Override public abstract void writeLazy(ByteBuffer value) throws IOException; // ================================================================= // ================================================================= /** * Compute the number of bytes that would be needed to encode an * {@code int32} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteInt32Size(final int fieldNumber, final int value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteInt32SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code uint32} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteUInt32Size(final int fieldNumber, final int value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode an * {@code sint32} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteSInt32Size(final int fieldNumber, final int value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteSInt32SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code fixed32} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteFixed32Size(final int fieldNumber, final int value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteFixed32SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode an * {@code sfixed32} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteSFixed32Size(final int fieldNumber, final int value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteSFixed32SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode an * {@code int64} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteInt64Size(final int fieldNumber, final long value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteInt64SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code uint64} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteUInt64Size(final int fieldNumber, final long value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteUInt64SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode an * {@code sint64} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteSInt64Size(final int fieldNumber, final long value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteSInt64SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code fixed64} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteFixed64Size(final int fieldNumber, final long value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteFixed64SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode an * {@code sfixed64} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteSFixed64Size(final int fieldNumber, final long value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteSFixed64SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code float} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteFloatSize(final int fieldNumber, final float value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteFloatSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code double} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteDoubleSize(final int fieldNumber, final double value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteDoubleSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code bool} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteBoolSize(final int fieldNumber, final boolean value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteBoolSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode an * enum field, including tag. The provided value is the numeric * value used to represent the enum value on the wire (not the enum ordinal value). */ public static int nl.topicus.jdbc.shaded.com.uteEnumSize(final int fieldNumber, final int value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteEnumSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code string} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteStringSize(final int fieldNumber, final String value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteStringSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code bytes} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteBytesSize(final int fieldNumber, final ByteString value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteBytesSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code bytes} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteByteArraySize(final int fieldNumber, final byte[] value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteByteArraySizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code bytes} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteByteBufferSize(final int fieldNumber, final ByteBuffer value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteByteBufferSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode an * embedded message in lazy field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteLazyFieldSize(final int fieldNumber, final LazyFieldLite value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteLazyFieldSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode an * embedded message field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteMessageSize(final int fieldNumber, final MessageLite value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) + nl.topicus.jdbc.shaded.com.uteMessageSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * MessageSet extension to the stream. For historical reasons, * the wire format differs from normal fields. */ public static int nl.topicus.jdbc.shaded.com.uteMessageSetExtensionSize(final int fieldNumber, final MessageLite value) { return nl.topicus.jdbc.shaded.com.uteTagSize(WireFormat.MESSAGE_SET_ITEM) * 2 + nl.topicus.jdbc.shaded.com.uteUInt32Size(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber) + nl.topicus.jdbc.shaded.com.uteMessageSize(WireFormat.MESSAGE_SET_MESSAGE, value); } /** * Compute the number of bytes that would be needed to encode an * unparsed MessageSet extension field to the stream. For * historical reasons, the wire format differs from normal fields. */ public static int nl.topicus.jdbc.shaded.com.uteRawMessageSetExtensionSize( final int fieldNumber, final ByteString value) { return nl.topicus.jdbc.shaded.com.uteTagSize(WireFormat.MESSAGE_SET_ITEM) * 2 + nl.topicus.jdbc.shaded.com.uteUInt32Size(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber) + nl.topicus.jdbc.shaded.com.uteBytesSize(WireFormat.MESSAGE_SET_MESSAGE, value); } /** * Compute the number of bytes that would be needed to encode an * lazily parsed MessageSet extension field to the stream. For * historical reasons, the wire format differs from normal fields. */ public static int nl.topicus.jdbc.shaded.com.uteLazyFieldMessageSetExtensionSize( final int fieldNumber, final LazyFieldLite value) { return nl.topicus.jdbc.shaded.com.uteTagSize(WireFormat.MESSAGE_SET_ITEM) * 2 + nl.topicus.jdbc.shaded.com.uteUInt32Size(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber) + nl.topicus.jdbc.shaded.com.uteLazyFieldSize(WireFormat.MESSAGE_SET_MESSAGE, value); } // ----------------------------------------------------------------- /** Compute the number of bytes that would be needed to encode a tag. */ public static int nl.topicus.jdbc.shaded.com.uteTagSize(final int fieldNumber) { return nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(WireFormat.makeTag(fieldNumber, 0)); } /** * Compute the number of bytes that would be needed to encode an * {@code int32} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteInt32SizeNoTag(final int value) { if (value >= 0) { return nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(value); } else { // Must sign-extend. return MAX_VARINT_SIZE; } } /** * Compute the number of bytes that would be needed to encode a * {@code uint32} field. */ public static int nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(final int value) { if ((value & (~0 << 7)) == 0) { return 1; } if ((value & (~0 << 14)) == 0) { return 2; } if ((value & (~0 << 21)) == 0) { return 3; } if ((value & (~0 << 28)) == 0) { return 4; } return 5; } /** * Compute the number of bytes that would be needed to encode an * {@code sint32} field. */ public static int nl.topicus.jdbc.shaded.com.uteSInt32SizeNoTag(final int value) { return nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(encodeZigZag32(value)); } /** * Compute the number of bytes that would be needed to encode a * {@code fixed32} field. */ public static int nl.topicus.jdbc.shaded.com.uteFixed32SizeNoTag(@SuppressWarnings("unused") final int unused) { return FIXED_32_SIZE; } /** * Compute the number of bytes that would be needed to encode an * {@code sfixed32} field. */ public static int nl.topicus.jdbc.shaded.com.uteSFixed32SizeNoTag(@SuppressWarnings("unused") final int unused) { return FIXED_32_SIZE; } /** * Compute the number of bytes that would be needed to encode an * {@code int64} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteInt64SizeNoTag(final long value) { return nl.topicus.jdbc.shaded.com.uteUInt64SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code uint64} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteUInt64SizeNoTag(long value) { // handle two popular special cases up front ... if ((value & (~0L << 7)) == 0L) { return 1; } if (value < 0L) { return 10; } // ... leaving us with 8 remaining, which we can divide and conquer int n = 2; if ((value & (~0L << 35)) != 0L) { n += 4; value >>>= 28; } if ((value & (~0L << 21)) != 0L) { n += 2; value >>>= 14; } if ((value & (~0L << 14)) != 0L) { n += 1; } return n; } /** * Compute the number of bytes that would be needed to encode an * {@code sint64} field. */ public static int nl.topicus.jdbc.shaded.com.uteSInt64SizeNoTag(final long value) { return nl.topicus.jdbc.shaded.com.uteUInt64SizeNoTag(encodeZigZag64(value)); } /** * Compute the number of bytes that would be needed to encode a * {@code fixed64} field. */ public static int nl.topicus.jdbc.shaded.com.uteFixed64SizeNoTag(@SuppressWarnings("unused") final long unused) { return FIXED_64_SIZE; } /** * Compute the number of bytes that would be needed to encode an * {@code sfixed64} field. */ public static int nl.topicus.jdbc.shaded.com.uteSFixed64SizeNoTag(@SuppressWarnings("unused") final long unused) { return FIXED_64_SIZE; } /** * Compute the number of bytes that would be needed to encode a * {@code float} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteFloatSizeNoTag(@SuppressWarnings("unused") final float unused) { return FIXED_32_SIZE; } /** * Compute the number of bytes that would be needed to encode a * {@code double} field, including tag. */ public static int nl.topicus.jdbc.shaded.com.uteDoubleSizeNoTag(@SuppressWarnings("unused") final double unused) { return FIXED_64_SIZE; } /** * Compute the number of bytes that would be needed to encode a * {@code bool} field. */ public static int nl.topicus.jdbc.shaded.com.uteBoolSizeNoTag(@SuppressWarnings("unused") final boolean unused) { return 1; } /** * Compute the number of bytes that would be needed to encode an enum field. * The provided value is the numeric value used to represent the enum value on the wire * (not the enum ordinal value). */ public static int nl.topicus.jdbc.shaded.com.uteEnumSizeNoTag(final int value) { return nl.topicus.jdbc.shaded.com.uteInt32SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code string} field. */ public static int nl.topicus.jdbc.shaded.com.uteStringSizeNoTag(final String value) { int length; try { length = Utf8.encodedLength(value); } catch (UnpairedSurrogateException e) { // TODO(dweis): Consider using nio Charset methods instead. final byte[] bytes = value.getBytes(Internal.UTF_8); length = bytes.length; } return nl.topicus.jdbc.shaded.com.uteLengthDelimitedFieldSize(length); } /** * Compute the number of bytes that would be needed to encode an embedded * message stored in lazy field. */ public static int nl.topicus.jdbc.shaded.com.uteLazyFieldSizeNoTag(final LazyFieldLite value) { return nl.topicus.jdbc.shaded.com.uteLengthDelimitedFieldSize(value.getSerializedSize()); } /** * Compute the number of bytes that would be needed to encode a * {@code bytes} field. */ public static int nl.topicus.jdbc.shaded.com.uteBytesSizeNoTag(final ByteString value) { return nl.topicus.jdbc.shaded.com.uteLengthDelimitedFieldSize(value.size()); } /** * Compute the number of bytes that would be needed to encode a * {@code bytes} field. */ public static int nl.topicus.jdbc.shaded.com.uteByteArraySizeNoTag(final byte[] value) { return nl.topicus.jdbc.shaded.com.uteLengthDelimitedFieldSize(value.length); } /** * Compute the number of bytes that would be needed to encode a * {@code bytes} field. */ public static int nl.topicus.jdbc.shaded.com.uteByteBufferSizeNoTag(final ByteBuffer value) { return nl.topicus.jdbc.shaded.com.uteLengthDelimitedFieldSize(value.capacity()); } /** * Compute the number of bytes that would be needed to encode an embedded * message field. */ public static int nl.topicus.jdbc.shaded.com.uteMessageSizeNoTag(final MessageLite value) { return nl.topicus.jdbc.shaded.com.uteLengthDelimitedFieldSize(value.getSerializedSize()); } static int nl.topicus.jdbc.shaded.com.uteLengthDelimitedFieldSize(int fieldLength) { return nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(fieldLength) + fieldLength; } /** * Encode a ZigZag-encoded 32-bit value. ZigZag encodes signed integers * into values that can be efficiently encoded with varint. (Otherwise, * negative values must be sign-extended to 64 bits to be varint encoded, * thus always taking 10 bytes on the wire.) * * @param n A signed 32-bit integer. * @return An unsigned 32-bit integer, stored in a signed int because * Java has no explicit unsigned support. */ public static int encodeZigZag32(final int n) { // Note: the right-shift must be arithmetic return (n << 1) ^ (n >> 31); } /** * Encode a ZigZag-encoded 64-bit value. ZigZag encodes signed integers * into values that can be efficiently encoded with varint. (Otherwise, * negative values must be sign-extended to 64 bits to be varint encoded, * thus always taking 10 bytes on the wire.) * * @param n A signed 64-bit integer. * @return An unsigned 64-bit integer, stored in a signed int because * Java has no explicit unsigned support. */ public static long encodeZigZag64(final long n) { // Note: the right-shift must be arithmetic return (n << 1) ^ (n >> 63); } // ================================================================= /** * Flushes the stream and forces any buffered bytes to be written. This * does not flush the underlying OutputStream. */ public abstract void flush() throws IOException; /** * If writing to a flat array, return the space left in the array. * Otherwise, throws {@code UnsupportedOperationException}. */ public abstract int spaceLeft(); /** * Verifies that {@link #spaceLeft()} returns zero. It's nl.topicus.jdbc.shaded.com.on to create * a byte array that is exactly big enough to hold a message, then write to * it with a {@code CodedOutputStream}. Calling {@code checkNoSpaceLeft()} * after writing verifies that the message was actually as big as expected, * which can help catch bugs. */ public final void checkNoSpaceLeft() { if (spaceLeft() != 0) { throw new IllegalStateException("Did not write as much data as expected."); } } /** * If you create a CodedOutputStream around a simple flat array, you must * not attempt to write more bytes than the array has space. Otherwise, * this exception will be thrown. */ public static class OutOfSpaceException extends IOException { private static final long serialVersionUID = -6947486886997889499L; private static final String MESSAGE = "CodedOutputStream was writing to a flat byte array and ran out of space."; OutOfSpaceException() { super(MESSAGE); } OutOfSpaceException(String explanationMessage) { super(MESSAGE + ": " + explanationMessage); } OutOfSpaceException(Throwable cause) { super(MESSAGE, cause); } OutOfSpaceException(String explanationMessage, Throwable cause) { super(MESSAGE + ": " + explanationMessage, cause); } } /** * Get the total number of bytes successfully written to this stream. The * returned value is not guaranteed to be accurate if exceptions have been * found in the middle of writing. */ public abstract int getTotalBytesWritten(); // ================================================================= /** Write a {@code bytes} field to the stream. Visible for testing. */ abstract void writeByteArrayNoTag(final byte[] value, final int offset, final int length) throws IOException; final void inefficientWriteStringNoTag(String value, UnpairedSurrogateException cause) throws IOException { logger.log(Level.WARNING, "Converting ill-formed UTF-16. Your Protocol Buffer will not round trip correctly!", cause); // Unfortunately there does not appear to be any way to tell Java to encode // UTF-8 directly into our buffer, so we have to let it create its own byte // array and then copy. // TODO(dweis): Consider using nio Charset methods instead. final byte[] bytes = value.getBytes(Internal.UTF_8); try { writeUInt32NoTag(bytes.length); writeLazy(bytes, 0, bytes.length); } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException(e); } catch (OutOfSpaceException e) { throw e; } } // ================================================================= /** * Write a {@code group} field, including tag, to the stream. * * @deprecated groups are deprecated. */ @Deprecated public final void writeGroup(final int fieldNumber, final MessageLite value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_START_GROUP); writeGroupNoTag(value); writeTag(fieldNumber, WireFormat.WIRETYPE_END_GROUP); } /** * Write a {@code group} field to the stream. * * @deprecated groups are deprecated. */ @Deprecated public final void writeGroupNoTag(final MessageLite value) throws IOException { value.writeTo(this); } /** * Compute the number of bytes that would be needed to encode a * {@code group} field, including tag. * * @deprecated groups are deprecated. */ @Deprecated public static int nl.topicus.jdbc.shaded.com.uteGroupSize(final int fieldNumber, final MessageLite value) { return nl.topicus.jdbc.shaded.com.uteTagSize(fieldNumber) * 2 + nl.topicus.jdbc.shaded.com.uteGroupSizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a * {@code group} field. */ @Deprecated public static int nl.topicus.jdbc.shaded.com.uteGroupSizeNoTag(final MessageLite value) { return value.getSerializedSize(); } /** * Encode and write a varint. {@code value} is treated as * unsigned, so it won't be sign-extended if negative. * * @deprecated use {@link #writeUInt32NoTag} instead. */ @Deprecated public final void writeRawVarint32(int value) throws IOException { writeUInt32NoTag(value); } /** * Encode and write a varint. * * @deprecated use {@link #writeUInt64NoTag} instead. */ @Deprecated public final void writeRawVarint64(long value) throws IOException { writeUInt64NoTag(value); } /** * Compute the number of bytes that would be needed to encode a varint. * {@code value} is treated as unsigned, so it won't be sign-extended if * negative. * * @deprecated use {@link #nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(int)} instead. */ @Deprecated public static int nl.topicus.jdbc.shaded.com.uteRawVarint32Size(final int value) { return nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(value); } /** * Compute the number of bytes that would be needed to encode a varint. * * @deprecated use {@link #nl.topicus.jdbc.shaded.com.uteUInt64SizeNoTag(long)} instead. */ @Deprecated public static int nl.topicus.jdbc.shaded.com.uteRawVarint64Size(long value) { return nl.topicus.jdbc.shaded.com.uteUInt64SizeNoTag(value); } /** * Write a little-endian 32-bit integer. * * @deprecated Use {@link #writeFixed32NoTag} instead. */ @Deprecated public final void writeRawLittleEndian32(final int value) throws IOException { writeFixed32NoTag(value); } /** * Write a little-endian 64-bit integer. * * @deprecated Use {@link #writeFixed64NoTag} instead. */ @Deprecated public final void writeRawLittleEndian64(final long value) throws IOException { writeFixed64NoTag(value); } // ================================================================= /** * A {@link CodedOutputStream} that writes directly to a byte array. */ private static class ArrayEncoder extends CodedOutputStream { private final byte[] buffer; private final int offset; private final int limit; private int position; ArrayEncoder(byte[] buffer, int offset, int length) { if (buffer == null) { throw new NullPointerException("buffer"); } if ((offset | length | (buffer.length - (offset + length))) < 0) { throw new IllegalArgumentException(String.format( "Array range is invalid. Buffer.length=%d, offset=%d, length=%d", buffer.length, offset, length)); } this.buffer = buffer; this.offset = offset; position = offset; limit = offset + length; } @Override public final void writeTag(final int fieldNumber, final int wireType) throws IOException { writeUInt32NoTag(WireFormat.makeTag(fieldNumber, wireType)); } @Override public final void writeInt32(final int fieldNumber, final int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeInt32NoTag(value); } @Override public final void writeUInt32(final int fieldNumber, final int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeUInt32NoTag(value); } @Override public final void writeFixed32(final int fieldNumber, final int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_FIXED32); writeFixed32NoTag(value); } @Override public final void writeUInt64(final int fieldNumber, final long value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeUInt64NoTag(value); } @Override public final void writeFixed64(final int fieldNumber, final long value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_FIXED64); writeFixed64NoTag(value); } @Override public final void writeBool(final int fieldNumber, final boolean value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); write((byte) (value ? 1 : 0)); } @Override public final void writeString(final int fieldNumber, final String value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeStringNoTag(value); } @Override public final void writeBytes(final int fieldNumber, final ByteString value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeBytesNoTag(value); } @Override public final void writeByteArray(final int fieldNumber, final byte[] value) throws IOException { writeByteArray(fieldNumber, value, 0, value.length); } @Override public final void writeByteArray( final int fieldNumber, final byte[] value, final int offset, final int length) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeByteArrayNoTag(value, offset, length); } @Override public final void writeByteBuffer(final int fieldNumber, final ByteBuffer value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeUInt32NoTag(value.capacity()); writeRawBytes(value); } @Override public final void writeBytesNoTag(final ByteString value) throws IOException { writeUInt32NoTag(value.size()); value.writeTo(this); } @Override public final void writeByteArrayNoTag(final byte[] value, int offset, int length) throws IOException { writeUInt32NoTag(length); write(value, offset, length); } @Override public final void writeRawBytes(final ByteBuffer value) throws IOException { if (value.hasArray()) { write(value.array(), value.arrayOffset(), value.capacity()); } else { ByteBuffer duplicated = value.duplicate(); duplicated.clear(); write(duplicated); } } @Override public final void writeMessage(final int fieldNumber, final MessageLite value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeMessageNoTag(value); } @Override public final void writeMessageSetExtension(final int fieldNumber, final MessageLite value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeMessage(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public final void writeRawMessageSetExtension(final int fieldNumber, final ByteString value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeBytes(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public final void writeMessageNoTag(final MessageLite value) throws IOException { writeUInt32NoTag(value.getSerializedSize()); value.writeTo(this); } @Override public final void write(byte value) throws IOException { try { buffer[position++] = value; } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, 1), e); } } @Override public final void writeInt32NoTag(int value) throws IOException { if (value >= 0) { writeUInt32NoTag(value); } else { // Must sign-extend. writeUInt64NoTag(value); } } @Override public final void writeUInt32NoTag(int value) throws IOException { if (HAS_UNSAFE_ARRAY_OPERATIONS && spaceLeft() >= MAX_VARINT_SIZE) { long pos = ARRAY_BASE_OFFSET + position; while (true) { if ((value & ~0x7F) == 0) { UnsafeUtil.putByte(buffer, pos++, (byte) value); position++; return; } else { UnsafeUtil.putByte(buffer, pos++, (byte) ((value & 0x7F) | 0x80)); position++; value >>>= 7; } } } else { try { while (true) { if ((value & ~0x7F) == 0) { buffer[position++] = (byte) value; return; } else { buffer[position++] = (byte) ((value & 0x7F) | 0x80); value >>>= 7; } } } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, 1), e); } } } @Override public final void writeFixed32NoTag(int value) throws IOException { try { buffer[position++] = (byte) (value & 0xFF); buffer[position++] = (byte) ((value >> 8) & 0xFF); buffer[position++] = (byte) ((value >> 16) & 0xFF); buffer[position++] = (byte) ((value >> 24) & 0xFF); } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, 1), e); } } @Override public final void writeUInt64NoTag(long value) throws IOException { if (HAS_UNSAFE_ARRAY_OPERATIONS && spaceLeft() >= MAX_VARINT_SIZE) { long pos = ARRAY_BASE_OFFSET + position; while (true) { if ((value & ~0x7FL) == 0) { UnsafeUtil.putByte(buffer, pos++, (byte) value); position++; return; } else { UnsafeUtil.putByte(buffer, pos++, (byte) (((int) value & 0x7F) | 0x80)); position++; value >>>= 7; } } } else { try { while (true) { if ((value & ~0x7FL) == 0) { buffer[position++] = (byte) value; return; } else { buffer[position++] = (byte) (((int) value & 0x7F) | 0x80); value >>>= 7; } } } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, 1), e); } } } @Override public final void writeFixed64NoTag(long value) throws IOException { try { buffer[position++] = (byte) ((int) (value) & 0xFF); buffer[position++] = (byte) ((int) (value >> 8) & 0xFF); buffer[position++] = (byte) ((int) (value >> 16) & 0xFF); buffer[position++] = (byte) ((int) (value >> 24) & 0xFF); buffer[position++] = (byte) ((int) (value >> 32) & 0xFF); buffer[position++] = (byte) ((int) (value >> 40) & 0xFF); buffer[position++] = (byte) ((int) (value >> 48) & 0xFF); buffer[position++] = (byte) ((int) (value >> 56) & 0xFF); } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, 1), e); } } @Override public final void write(byte[] value, int offset, int length) throws IOException { try { System.arraycopy(value, offset, buffer, position, length); position += length; } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, length), e); } } @Override public final void writeLazy(byte[] value, int offset, int length) throws IOException { write(value, offset, length); } @Override public final void write(ByteBuffer value) throws IOException { final int length = value.remaining(); try { value.get(buffer, position, length); position += length; } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, length), e); } } @Override public final void writeLazy(ByteBuffer value) throws IOException { write(value); } @Override public final void writeStringNoTag(String value) throws IOException { final int oldPosition = position; try { // UTF-8 byte length of the string is at least its UTF-16 code unit length (value.length()), // and at most 3 times of it. We take advantage of this in both branches below. final int maxLength = value.length() * Utf8.MAX_BYTES_PER_CHAR; final int maxLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(maxLength); final int minLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(value.length()); if (minLengthVarIntSize == maxLengthVarIntSize) { position = oldPosition + minLengthVarIntSize; int newPosition = Utf8.encode(value, buffer, position, spaceLeft()); // Since this class is stateful and tracks the position, we rewind and store the state, // prepend the length, then reset it back to the end of the string. position = oldPosition; int length = newPosition - oldPosition - minLengthVarIntSize; writeUInt32NoTag(length); position = newPosition; } else { int length = Utf8.encodedLength(value); writeUInt32NoTag(length); position = Utf8.encode(value, buffer, position, spaceLeft()); } } catch (UnpairedSurrogateException e) { // Roll back the change - we fall back to inefficient path. position = oldPosition; // TODO(nathanmittler): We should throw an IOException here instead. inefficientWriteStringNoTag(value, e); } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException(e); } } @Override public void flush() { // Do nothing. } @Override public final int spaceLeft() { return limit - position; } @Override public final int getTotalBytesWritten() { return position - offset; } } /** * A {@link CodedOutputStream} that writes directly to a heap {@link ByteBuffer}. Writes are * done directly to the underlying array. The buffer position is only updated after a flush. */ private static final class HeapNioEncoder extends ArrayEncoder { private final ByteBuffer byteBuffer; private int initialPosition; HeapNioEncoder(ByteBuffer byteBuffer) { super(byteBuffer.array(), byteBuffer.arrayOffset() + byteBuffer.position(), byteBuffer.remaining()); this.byteBuffer = byteBuffer; this.initialPosition = byteBuffer.position(); } @Override public void flush() { // Update the position on the buffer. byteBuffer.position(initialPosition + getTotalBytesWritten()); } } /** * A {@link CodedOutputStream} that writes directly to a direct {@link ByteBuffer}, using only * safe operations.. */ private static final class SafeDirectNioEncoder extends CodedOutputStream { private final ByteBuffer originalBuffer; private final ByteBuffer buffer; private final int initialPosition; SafeDirectNioEncoder(ByteBuffer buffer) { this.originalBuffer = buffer; this.buffer = buffer.duplicate().order(ByteOrder.LITTLE_ENDIAN); initialPosition = buffer.position(); } @Override public void writeTag(final int fieldNumber, final int wireType) throws IOException { writeUInt32NoTag(WireFormat.makeTag(fieldNumber, wireType)); } @Override public void writeInt32(final int fieldNumber, final int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeInt32NoTag(value); } @Override public void writeUInt32(final int fieldNumber, final int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeUInt32NoTag(value); } @Override public void writeFixed32(final int fieldNumber, final int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_FIXED32); writeFixed32NoTag(value); } @Override public void writeUInt64(final int fieldNumber, final long value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeUInt64NoTag(value); } @Override public void writeFixed64(final int fieldNumber, final long value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_FIXED64); writeFixed64NoTag(value); } @Override public void writeBool(final int fieldNumber, final boolean value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); write((byte) (value ? 1 : 0)); } @Override public void writeString(final int fieldNumber, final String value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeStringNoTag(value); } @Override public void writeBytes(final int fieldNumber, final ByteString value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeBytesNoTag(value); } @Override public void writeByteArray(final int fieldNumber, final byte[] value) throws IOException { writeByteArray(fieldNumber, value, 0, value.length); } @Override public void writeByteArray( final int fieldNumber, final byte[] value, final int offset, final int length) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeByteArrayNoTag(value, offset, length); } @Override public void writeByteBuffer(final int fieldNumber, final ByteBuffer value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeUInt32NoTag(value.capacity()); writeRawBytes(value); } @Override public void writeMessage(final int fieldNumber, final MessageLite value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeMessageNoTag(value); } @Override public void writeMessageSetExtension(final int fieldNumber, final MessageLite value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeMessage(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public void writeRawMessageSetExtension(final int fieldNumber, final ByteString value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeBytes(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public void writeMessageNoTag(final MessageLite value) throws IOException { writeUInt32NoTag(value.getSerializedSize()); value.writeTo(this); } @Override public void write(byte value) throws IOException { try { buffer.put(value); } catch (BufferOverflowException e) { throw new OutOfSpaceException(e); } } @Override public void writeBytesNoTag(final ByteString value) throws IOException { writeUInt32NoTag(value.size()); value.writeTo(this); } @Override public void writeByteArrayNoTag(final byte[] value, int offset, int length) throws IOException { writeUInt32NoTag(length); write(value, offset, length); } @Override public void writeRawBytes(final ByteBuffer value) throws IOException { if (value.hasArray()) { write(value.array(), value.arrayOffset(), value.capacity()); } else { ByteBuffer duplicated = value.duplicate(); duplicated.clear(); write(duplicated); } } @Override public void writeInt32NoTag(int value) throws IOException { if (value >= 0) { writeUInt32NoTag(value); } else { // Must sign-extend. writeUInt64NoTag(value); } } @Override public void writeUInt32NoTag(int value) throws IOException { try { while (true) { if ((value & ~0x7F) == 0) { buffer.put((byte) value); return; } else { buffer.put((byte) ((value & 0x7F) | 0x80)); value >>>= 7; } } } catch (BufferOverflowException e) { throw new OutOfSpaceException(e); } } @Override public void writeFixed32NoTag(int value) throws IOException { try { buffer.putInt(value); } catch (BufferOverflowException e) { throw new OutOfSpaceException(e); } } @Override public void writeUInt64NoTag(long value) throws IOException { try { while (true) { if ((value & ~0x7FL) == 0) { buffer.put((byte) value); return; } else { buffer.put((byte) (((int) value & 0x7F) | 0x80)); value >>>= 7; } } } catch (BufferOverflowException e) { throw new OutOfSpaceException(e); } } @Override public void writeFixed64NoTag(long value) throws IOException { try { buffer.putLong(value); } catch (BufferOverflowException e) { throw new OutOfSpaceException(e); } } @Override public void write(byte[] value, int offset, int length) throws IOException { try { buffer.put(value, offset, length); } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException(e); } catch (BufferOverflowException e) { throw new OutOfSpaceException(e); } } @Override public void writeLazy(byte[] value, int offset, int length) throws IOException { write(value, offset, length); } @Override public void write(ByteBuffer value) throws IOException { try { buffer.put(value); } catch (BufferOverflowException e) { throw new OutOfSpaceException(e); } } @Override public void writeLazy(ByteBuffer value) throws IOException { write(value); } @Override public void writeStringNoTag(String value) throws IOException { final int startPos = buffer.position(); try { // UTF-8 byte length of the string is at least its UTF-16 code unit length (value.length()), // and at most 3 times of it. We take advantage of this in both branches below. final int maxEncodedSize = value.length() * Utf8.MAX_BYTES_PER_CHAR; final int maxLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(maxEncodedSize); final int minLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(value.length()); if (minLengthVarIntSize == maxLengthVarIntSize) { // Save the current position and increment past the length field. We'll nl.topicus.jdbc.shaded.com. back // and write the length field after the encoding is nl.topicus.jdbc.shaded.com.lete. final int startOfBytes = buffer.position() + minLengthVarIntSize; buffer.position(startOfBytes); // Encode the string. encode(value); // Now go back to the beginning and write the length. int endOfBytes = buffer.position(); buffer.position(startPos); writeUInt32NoTag(endOfBytes - startOfBytes); // Reposition the buffer past the written data. buffer.position(endOfBytes); } else { final int length = Utf8.encodedLength(value); writeUInt32NoTag(length); encode(value); } } catch (UnpairedSurrogateException e) { // Roll back the change and convert to an IOException. buffer.position(startPos); // TODO(nathanmittler): We should throw an IOException here instead. inefficientWriteStringNoTag(value, e); } catch (IllegalArgumentException e) { // Thrown by buffer.position() if out of range. throw new OutOfSpaceException(e); } } @Override public void flush() { // Update the position of the original buffer. originalBuffer.position(buffer.position()); } @Override public int spaceLeft() { return buffer.remaining(); } @Override public int getTotalBytesWritten() { return buffer.position() - initialPosition; } private void encode(String value) throws IOException { try { Utf8.encodeUtf8(value, buffer); } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException(e); } } } /** * A {@link CodedOutputStream} that writes directly to a direct {@link ByteBuffer} using {@code * sun.misc.Unsafe}. */ private static final class UnsafeDirectNioEncoder extends CodedOutputStream { private final ByteBuffer originalBuffer; private final ByteBuffer buffer; private final long address; private final long initialPosition; private final long limit; private final long oneVarintLimit; private long position; UnsafeDirectNioEncoder(ByteBuffer buffer) { this.originalBuffer = buffer; this.buffer = buffer.duplicate().order(ByteOrder.LITTLE_ENDIAN); address = UnsafeUtil.addressOffset(buffer); initialPosition = address + buffer.position(); limit = address + buffer.limit(); oneVarintLimit = limit - MAX_VARINT_SIZE; position = initialPosition; } static boolean isSupported() { return UnsafeUtil.hasUnsafeByteBufferOperations() && UnsafeUtil.hasUnsafeCopyMemory(); } @Override public void writeTag(int fieldNumber, int wireType) throws IOException { writeUInt32NoTag(WireFormat.makeTag(fieldNumber, wireType)); } @Override public void writeInt32(int fieldNumber, int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeInt32NoTag(value); } @Override public void writeUInt32(int fieldNumber, int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeUInt32NoTag(value); } @Override public void writeFixed32(int fieldNumber, int value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_FIXED32); writeFixed32NoTag(value); } @Override public void writeUInt64(int fieldNumber, long value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); writeUInt64NoTag(value); } @Override public void writeFixed64(int fieldNumber, long value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_FIXED64); writeFixed64NoTag(value); } @Override public void writeBool(int fieldNumber, boolean value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_VARINT); write((byte) (value ? 1 : 0)); } @Override public void writeString(int fieldNumber, String value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeStringNoTag(value); } @Override public void writeBytes(int fieldNumber, ByteString value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeBytesNoTag(value); } @Override public void writeByteArray(int fieldNumber, byte[] value) throws IOException { writeByteArray(fieldNumber, value, 0, value.length); } @Override public void writeByteArray(int fieldNumber, byte[] value, int offset, int length) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeByteArrayNoTag(value, offset, length); } @Override public void writeByteBuffer(int fieldNumber, ByteBuffer value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeUInt32NoTag(value.capacity()); writeRawBytes(value); } @Override public void writeMessage(int fieldNumber, MessageLite value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeMessageNoTag(value); } @Override public void writeMessageSetExtension(int fieldNumber, MessageLite value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeMessage(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public void writeRawMessageSetExtension(int fieldNumber, ByteString value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeBytes(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public void writeMessageNoTag(MessageLite value) throws IOException { writeUInt32NoTag(value.getSerializedSize()); value.writeTo(this); } @Override public void write(byte value) throws IOException { if (position >= limit) { throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, 1)); } UnsafeUtil.putByte(position++, value); } @Override public void writeBytesNoTag(ByteString value) throws IOException { writeUInt32NoTag(value.size()); value.writeTo(this); } @Override public void writeByteArrayNoTag(byte[] value, int offset, int length) throws IOException { writeUInt32NoTag(length); write(value, offset, length); } @Override public void writeRawBytes(ByteBuffer value) throws IOException { if (value.hasArray()) { write(value.array(), value.arrayOffset(), value.capacity()); } else { ByteBuffer duplicated = value.duplicate(); duplicated.clear(); write(duplicated); } } @Override public void writeInt32NoTag(int value) throws IOException { if (value >= 0) { writeUInt32NoTag(value); } else { // Must sign-extend. writeUInt64NoTag(value); } } @Override public void writeUInt32NoTag(int value) throws IOException { if (position <= oneVarintLimit) { // Optimization to avoid bounds checks on each iteration. while (true) { if ((value & ~0x7F) == 0) { UnsafeUtil.putByte(position++, (byte) value); return; } else { UnsafeUtil.putByte(position++, (byte) ((value & 0x7F) | 0x80)); value >>>= 7; } } } else { while (position < limit) { if ((value & ~0x7F) == 0) { UnsafeUtil.putByte(position++, (byte) value); return; } else { UnsafeUtil.putByte(position++, (byte) ((value & 0x7F) | 0x80)); value >>>= 7; } } throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, 1)); } } @Override public void writeFixed32NoTag(int value) throws IOException { buffer.putInt(bufferPos(position), value); position += FIXED_32_SIZE; } @Override public void writeUInt64NoTag(long value) throws IOException { if (position <= oneVarintLimit) { // Optimization to avoid bounds checks on each iteration. while (true) { if ((value & ~0x7FL) == 0) { UnsafeUtil.putByte(position++, (byte) value); return; } else { UnsafeUtil.putByte(position++, (byte) (((int) value & 0x7F) | 0x80)); value >>>= 7; } } } else { while (position < limit) { if ((value & ~0x7FL) == 0) { UnsafeUtil.putByte(position++, (byte) value); return; } else { UnsafeUtil.putByte(position++, (byte) (((int) value & 0x7F) | 0x80)); value >>>= 7; } } throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, 1)); } } @Override public void writeFixed64NoTag(long value) throws IOException { buffer.putLong(bufferPos(position), value); position += FIXED_64_SIZE; } @Override public void write(byte[] value, int offset, int length) throws IOException { if (value == null || offset < 0 || length < 0 || (value.length - length) < offset || (limit - length) < position) { if (value == null) { throw new NullPointerException("value"); } throw new OutOfSpaceException( String.format("Pos: %d, limit: %d, len: %d", position, limit, length)); } UnsafeUtil.copyMemory( value, UnsafeUtil.getArrayBaseOffset() + offset, null, position, length); position += length; } @Override public void writeLazy(byte[] value, int offset, int length) throws IOException { write(value, offset, length); } @Override public void write(ByteBuffer value) throws IOException { try { int length = value.remaining(); repositionBuffer(position); buffer.put(value); position += length; } catch (BufferOverflowException e) { throw new OutOfSpaceException(e); } } @Override public void writeLazy(ByteBuffer value) throws IOException { write(value); } @Override public void writeStringNoTag(String value) throws IOException { long prevPos = position; try { // UTF-8 byte length of the string is at least its UTF-16 code unit length (value.length()), // and at most 3 times of it. We take advantage of this in both branches below. int maxEncodedSize = value.length() * Utf8.MAX_BYTES_PER_CHAR; int maxLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(maxEncodedSize); int minLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(value.length()); if (minLengthVarIntSize == maxLengthVarIntSize) { // Save the current position and increment past the length field. We'll nl.topicus.jdbc.shaded.com. back // and write the length field after the encoding is nl.topicus.jdbc.shaded.com.lete. int stringStart = bufferPos(position) + minLengthVarIntSize; buffer.position(stringStart); // Encode the string. Utf8.encodeUtf8(value, buffer); // Write the length and advance the position. int length = buffer.position() - stringStart; writeUInt32NoTag(length); position += length; } else { // Calculate and write the encoded length. int length = Utf8.encodedLength(value); writeUInt32NoTag(length); // Write the string and advance the position. repositionBuffer(position); Utf8.encodeUtf8(value, buffer); position += length; } } catch (UnpairedSurrogateException e) { // Roll back the change and convert to an IOException. position = prevPos; repositionBuffer(position); // TODO(nathanmittler): We should throw an IOException here instead. inefficientWriteStringNoTag(value, e); } catch (IllegalArgumentException e) { // Thrown by buffer.position() if out of range. throw new OutOfSpaceException(e); } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException(e); } } @Override public void flush() { // Update the position of the original buffer. originalBuffer.position(bufferPos(position)); } @Override public int spaceLeft() { return (int) (limit - position); } @Override public int getTotalBytesWritten() { return (int) (position - initialPosition); } private void repositionBuffer(long pos) { buffer.position(bufferPos(pos)); } private int bufferPos(long pos) { return (int) (pos - address); } } /** * Abstract base class for buffered encoders. */ private abstract static class AbstractBufferedEncoder extends CodedOutputStream { final byte[] buffer; final int limit; int position; int totalBytesWritten; AbstractBufferedEncoder(int bufferSize) { if (bufferSize < 0) { throw new IllegalArgumentException("bufferSize must be >= 0"); } // As an optimization, we require that the buffer be able to store at least 2 // varints so that we can buffer any integer write (tag + value). This reduces the // number of range checks for a single write to 1 (i.e. if there is not enough space // to buffer the tag+value, flush and then buffer it). this.buffer = new byte[max(bufferSize, MAX_VARINT_SIZE * 2)]; this.limit = buffer.length; } @Override public final int spaceLeft() { throw new UnsupportedOperationException( "spaceLeft() can only be called on CodedOutputStreams that are " + "writing to a flat array or ByteBuffer."); } @Override public final int getTotalBytesWritten() { return totalBytesWritten; } /** * This method does not perform bounds checking on the array. Checking array bounds is the * responsibility of the caller. */ final void buffer(byte value) { buffer[position++] = value; totalBytesWritten++; } /** * This method does not perform bounds checking on the array. Checking array bounds is the * responsibility of the caller. */ final void bufferTag(final int fieldNumber, final int wireType) { bufferUInt32NoTag(WireFormat.makeTag(fieldNumber, wireType)); } /** * This method does not perform bounds checking on the array. Checking array bounds is the * responsibility of the caller. */ final void bufferInt32NoTag(final int value) { if (value >= 0) { bufferUInt32NoTag(value); } else { // Must sign-extend. bufferUInt64NoTag(value); } } /** * This method does not perform bounds checking on the array. Checking array bounds is the * responsibility of the caller. */ final void bufferUInt32NoTag(int value) { if (HAS_UNSAFE_ARRAY_OPERATIONS) { final long originalPos = ARRAY_BASE_OFFSET + position; long pos = originalPos; while (true) { if ((value & ~0x7F) == 0) { UnsafeUtil.putByte(buffer, pos++, (byte) value); break; } else { UnsafeUtil.putByte(buffer, pos++, (byte) ((value & 0x7F) | 0x80)); value >>>= 7; } } int delta = (int) (pos - originalPos); position += delta; totalBytesWritten += delta; } else { while (true) { if ((value & ~0x7F) == 0) { buffer[position++] = (byte) value; totalBytesWritten++; return; } else { buffer[position++] = (byte) ((value & 0x7F) | 0x80); totalBytesWritten++; value >>>= 7; } } } } /** * This method does not perform bounds checking on the array. Checking array bounds is the * responsibility of the caller. */ final void bufferUInt64NoTag(long value) { if (HAS_UNSAFE_ARRAY_OPERATIONS) { final long originalPos = ARRAY_BASE_OFFSET + position; long pos = originalPos; while (true) { if ((value & ~0x7FL) == 0) { UnsafeUtil.putByte(buffer, pos++, (byte) value); break; } else { UnsafeUtil.putByte(buffer, pos++, (byte) (((int) value & 0x7F) | 0x80)); value >>>= 7; } } int delta = (int) (pos - originalPos); position += delta; totalBytesWritten += delta; } else { while (true) { if ((value & ~0x7FL) == 0) { buffer[position++] = (byte) value; totalBytesWritten++; return; } else { buffer[position++] = (byte) (((int) value & 0x7F) | 0x80); totalBytesWritten++; value >>>= 7; } } } } /** * This method does not perform bounds checking on the array. Checking array bounds is the * responsibility of the caller. */ final void bufferFixed32NoTag(int value) { buffer[position++] = (byte) (value & 0xFF); buffer[position++] = (byte) ((value >> 8) & 0xFF); buffer[position++] = (byte) ((value >> 16) & 0xFF); buffer[position++] = (byte) ((value >> 24) & 0xFF); totalBytesWritten += FIXED_32_SIZE; } /** * This method does not perform bounds checking on the array. Checking array bounds is the * responsibility of the caller. */ final void bufferFixed64NoTag(long value) { buffer[position++] = (byte) (value & 0xFF); buffer[position++] = (byte) ((value >> 8) & 0xFF); buffer[position++] = (byte) ((value >> 16) & 0xFF); buffer[position++] = (byte) ((value >> 24) & 0xFF); buffer[position++] = (byte) ((int) (value >> 32) & 0xFF); buffer[position++] = (byte) ((int) (value >> 40) & 0xFF); buffer[position++] = (byte) ((int) (value >> 48) & 0xFF); buffer[position++] = (byte) ((int) (value >> 56) & 0xFF); totalBytesWritten += FIXED_64_SIZE; } } /** * A {@link CodedOutputStream} that decorates a {@link ByteOutput}. It internal buffer only to * support string encoding operations. All other writes are just passed through to the * {@link ByteOutput}. */ private static final class ByteOutputEncoder extends AbstractBufferedEncoder { private final ByteOutput out; ByteOutputEncoder(ByteOutput out, int bufferSize) { super(bufferSize); if (out == null) { throw new NullPointerException("out"); } this.out = out; } @Override public void writeTag(final int fieldNumber, final int wireType) throws IOException { writeUInt32NoTag(WireFormat.makeTag(fieldNumber, wireType)); } @Override public void writeInt32(final int fieldNumber, final int value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE * 2); bufferTag(fieldNumber, WireFormat.WIRETYPE_VARINT); bufferInt32NoTag(value); } @Override public void writeUInt32(final int fieldNumber, final int value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE * 2); bufferTag(fieldNumber, WireFormat.WIRETYPE_VARINT); bufferUInt32NoTag(value); } @Override public void writeFixed32(final int fieldNumber, final int value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE + FIXED_32_SIZE); bufferTag(fieldNumber, WireFormat.WIRETYPE_FIXED32); bufferFixed32NoTag(value); } @Override public void writeUInt64(final int fieldNumber, final long value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE * 2); bufferTag(fieldNumber, WireFormat.WIRETYPE_VARINT); bufferUInt64NoTag(value); } @Override public void writeFixed64(final int fieldNumber, final long value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE + FIXED_64_SIZE); bufferTag(fieldNumber, WireFormat.WIRETYPE_FIXED64); bufferFixed64NoTag(value); } @Override public void writeBool(final int fieldNumber, final boolean value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE + 1); bufferTag(fieldNumber, WireFormat.WIRETYPE_VARINT); buffer((byte) (value ? 1 : 0)); } @Override public void writeString(final int fieldNumber, final String value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeStringNoTag(value); } @Override public void writeBytes(final int fieldNumber, final ByteString value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeBytesNoTag(value); } @Override public void writeByteArray(final int fieldNumber, final byte[] value) throws IOException { writeByteArray(fieldNumber, value, 0, value.length); } @Override public void writeByteArray( final int fieldNumber, final byte[] value, final int offset, final int length) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeByteArrayNoTag(value, offset, length); } @Override public void writeByteBuffer(final int fieldNumber, final ByteBuffer value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeUInt32NoTag(value.capacity()); writeRawBytes(value); } @Override public void writeBytesNoTag(final ByteString value) throws IOException { writeUInt32NoTag(value.size()); value.writeTo(this); } @Override public void writeByteArrayNoTag(final byte[] value, int offset, int length) throws IOException { writeUInt32NoTag(length); write(value, offset, length); } @Override public void writeRawBytes(final ByteBuffer value) throws IOException { if (value.hasArray()) { write(value.array(), value.arrayOffset(), value.capacity()); } else { ByteBuffer duplicated = value.duplicate(); duplicated.clear(); write(duplicated); } } @Override public void writeMessage(final int fieldNumber, final MessageLite value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeMessageNoTag(value); } @Override public void writeMessageSetExtension(final int fieldNumber, final MessageLite value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeMessage(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public void writeRawMessageSetExtension(final int fieldNumber, final ByteString value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeBytes(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public void writeMessageNoTag(final MessageLite value) throws IOException { writeUInt32NoTag(value.getSerializedSize()); value.writeTo(this); } @Override public void write(byte value) throws IOException { if (position == limit) { doFlush(); } buffer(value); } @Override public void writeInt32NoTag(int value) throws IOException { if (value >= 0) { writeUInt32NoTag(value); } else { // Must sign-extend. writeUInt64NoTag(value); } } @Override public void writeUInt32NoTag(int value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE); bufferUInt32NoTag(value); } @Override public void writeFixed32NoTag(final int value) throws IOException { flushIfNotAvailable(FIXED_32_SIZE); bufferFixed32NoTag(value); } @Override public void writeUInt64NoTag(long value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE); bufferUInt64NoTag(value); } @Override public void writeFixed64NoTag(final long value) throws IOException { flushIfNotAvailable(FIXED_64_SIZE); bufferFixed64NoTag(value); } @Override public void writeStringNoTag(String value) throws IOException { // UTF-8 byte length of the string is at least its UTF-16 code unit length (value.length()), // and at most 3 times of it. We take advantage of this in both branches below. final int maxLength = value.length() * Utf8.MAX_BYTES_PER_CHAR; final int maxLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(maxLength); // If we are streaming and the potential length is too big to fit in our buffer, we take the // slower path. if (maxLengthVarIntSize + maxLength > limit) { // Allocate a byte[] that we know can fit the string and encode into it. String.getBytes() // does the same internally and then does *another copy* to return a byte[] of exactly the // right size. We can skip that copy and just writeRawBytes up to the actualLength of the // UTF-8 encoded bytes. final byte[] encodedBytes = new byte[maxLength]; int actualLength = Utf8.encode(value, encodedBytes, 0, maxLength); writeUInt32NoTag(actualLength); writeLazy(encodedBytes, 0, actualLength); return; } // Fast path: we have enough space available in our buffer for the string... if (maxLengthVarIntSize + maxLength > limit - position) { // Flush to free up space. doFlush(); } final int oldPosition = position; try { // Optimize for the case where we know this length results in a constant varint length as // this saves a pass for measuring the length of the string. final int minLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(value.length()); if (minLengthVarIntSize == maxLengthVarIntSize) { position = oldPosition + minLengthVarIntSize; int newPosition = Utf8.encode(value, buffer, position, limit - position); // Since this class is stateful and tracks the position, we rewind and store the state, // prepend the length, then reset it back to the end of the string. position = oldPosition; int length = newPosition - oldPosition - minLengthVarIntSize; bufferUInt32NoTag(length); position = newPosition; totalBytesWritten += length; } else { int length = Utf8.encodedLength(value); bufferUInt32NoTag(length); position = Utf8.encode(value, buffer, position, length); totalBytesWritten += length; } } catch (UnpairedSurrogateException e) { // Roll back the change and convert to an IOException. totalBytesWritten -= position - oldPosition; position = oldPosition; // TODO(nathanmittler): We should throw an IOException here instead. inefficientWriteStringNoTag(value, e); } catch (IndexOutOfBoundsException e) { throw new OutOfSpaceException(e); } } @Override public void flush() throws IOException { if (position > 0) { // Flush the buffer. doFlush(); } } @Override public void write(byte[] value, int offset, int length) throws IOException { flush(); out.write(value, offset, length); totalBytesWritten += length; } @Override public void writeLazy(byte[] value, int offset, int length) throws IOException { flush(); out.writeLazy(value, offset, length); totalBytesWritten += length; } @Override public void write(ByteBuffer value) throws IOException { flush(); int length = value.remaining(); out.write(value); totalBytesWritten += length; } @Override public void writeLazy(ByteBuffer value) throws IOException { flush(); int length = value.remaining(); out.writeLazy(value); totalBytesWritten += length; } private void flushIfNotAvailable(int requiredSize) throws IOException { if (limit - position < requiredSize) { doFlush(); } } private void doFlush() throws IOException { out.write(buffer, 0, position); position = 0; } } /** * An {@link CodedOutputStream} that decorates an {@link OutputStream}. It performs internal * buffering to optimize writes to the {@link OutputStream}. */ private static final class OutputStreamEncoder extends AbstractBufferedEncoder { private final OutputStream out; OutputStreamEncoder(OutputStream out, int bufferSize) { super(bufferSize); if (out == null) { throw new NullPointerException("out"); } this.out = out; } @Override public void writeTag(final int fieldNumber, final int wireType) throws IOException { writeUInt32NoTag(WireFormat.makeTag(fieldNumber, wireType)); } @Override public void writeInt32(final int fieldNumber, final int value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE * 2); bufferTag(fieldNumber, WireFormat.WIRETYPE_VARINT); bufferInt32NoTag(value); } @Override public void writeUInt32(final int fieldNumber, final int value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE * 2); bufferTag(fieldNumber, WireFormat.WIRETYPE_VARINT); bufferUInt32NoTag(value); } @Override public void writeFixed32(final int fieldNumber, final int value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE + FIXED_32_SIZE); bufferTag(fieldNumber, WireFormat.WIRETYPE_FIXED32); bufferFixed32NoTag(value); } @Override public void writeUInt64(final int fieldNumber, final long value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE * 2); bufferTag(fieldNumber, WireFormat.WIRETYPE_VARINT); bufferUInt64NoTag(value); } @Override public void writeFixed64(final int fieldNumber, final long value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE + FIXED_64_SIZE); bufferTag(fieldNumber, WireFormat.WIRETYPE_FIXED64); bufferFixed64NoTag(value); } @Override public void writeBool(final int fieldNumber, final boolean value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE + 1); bufferTag(fieldNumber, WireFormat.WIRETYPE_VARINT); buffer((byte) (value ? 1 : 0)); } @Override public void writeString(final int fieldNumber, final String value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeStringNoTag(value); } @Override public void writeBytes(final int fieldNumber, final ByteString value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeBytesNoTag(value); } @Override public void writeByteArray(final int fieldNumber, final byte[] value) throws IOException { writeByteArray(fieldNumber, value, 0, value.length); } @Override public void writeByteArray( final int fieldNumber, final byte[] value, final int offset, final int length) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeByteArrayNoTag(value, offset, length); } @Override public void writeByteBuffer(final int fieldNumber, final ByteBuffer value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeUInt32NoTag(value.capacity()); writeRawBytes(value); } @Override public void writeBytesNoTag(final ByteString value) throws IOException { writeUInt32NoTag(value.size()); value.writeTo(this); } @Override public void writeByteArrayNoTag(final byte[] value, int offset, int length) throws IOException { writeUInt32NoTag(length); write(value, offset, length); } @Override public void writeRawBytes(final ByteBuffer value) throws IOException { if (value.hasArray()) { write(value.array(), value.arrayOffset(), value.capacity()); } else { ByteBuffer duplicated = value.duplicate(); duplicated.clear(); write(duplicated); } } @Override public void writeMessage(final int fieldNumber, final MessageLite value) throws IOException { writeTag(fieldNumber, WireFormat.WIRETYPE_LENGTH_DELIMITED); writeMessageNoTag(value); } @Override public void writeMessageSetExtension(final int fieldNumber, final MessageLite value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeMessage(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public void writeRawMessageSetExtension(final int fieldNumber, final ByteString value) throws IOException { writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_START_GROUP); writeUInt32(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber); writeBytes(WireFormat.MESSAGE_SET_MESSAGE, value); writeTag(WireFormat.MESSAGE_SET_ITEM, WireFormat.WIRETYPE_END_GROUP); } @Override public void writeMessageNoTag(final MessageLite value) throws IOException { writeUInt32NoTag(value.getSerializedSize()); value.writeTo(this); } @Override public void write(byte value) throws IOException { if (position == limit) { doFlush(); } buffer(value); } @Override public void writeInt32NoTag(int value) throws IOException { if (value >= 0) { writeUInt32NoTag(value); } else { // Must sign-extend. writeUInt64NoTag(value); } } @Override public void writeUInt32NoTag(int value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE); bufferUInt32NoTag(value); } @Override public void writeFixed32NoTag(final int value) throws IOException { flushIfNotAvailable(FIXED_32_SIZE); bufferFixed32NoTag(value); } @Override public void writeUInt64NoTag(long value) throws IOException { flushIfNotAvailable(MAX_VARINT_SIZE); bufferUInt64NoTag(value); } @Override public void writeFixed64NoTag(final long value) throws IOException { flushIfNotAvailable(FIXED_64_SIZE); bufferFixed64NoTag(value); } @Override public void writeStringNoTag(String value) throws IOException { try { // UTF-8 byte length of the string is at least its UTF-16 code unit length (value.length()), // and at most 3 times of it. We take advantage of this in both branches below. final int maxLength = value.length() * Utf8.MAX_BYTES_PER_CHAR; final int maxLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(maxLength); // If we are streaming and the potential length is too big to fit in our buffer, we take the // slower path. if (maxLengthVarIntSize + maxLength > limit) { // Allocate a byte[] that we know can fit the string and encode into it. String.getBytes() // does the same internally and then does *another copy* to return a byte[] of exactly the // right size. We can skip that copy and just writeRawBytes up to the actualLength of the // UTF-8 encoded bytes. final byte[] encodedBytes = new byte[maxLength]; int actualLength = Utf8.encode(value, encodedBytes, 0, maxLength); writeUInt32NoTag(actualLength); writeLazy(encodedBytes, 0, actualLength); return; } // Fast path: we have enough space available in our buffer for the string... if (maxLengthVarIntSize + maxLength > limit - position) { // Flush to free up space. doFlush(); } // Optimize for the case where we know this length results in a constant varint length as // this saves a pass for measuring the length of the string. final int minLengthVarIntSize = nl.topicus.jdbc.shaded.com.uteUInt32SizeNoTag(value.length()); int oldPosition = position; final int length; try { if (minLengthVarIntSize == maxLengthVarIntSize) { position = oldPosition + minLengthVarIntSize; int newPosition = Utf8.encode(value, buffer, position, limit - position); // Since this class is stateful and tracks the position, we rewind and store the // state, prepend the length, then reset it back to the end of the string. position = oldPosition; length = newPosition - oldPosition - minLengthVarIntSize; bufferUInt32NoTag(length); position = newPosition; } else { length = Utf8.encodedLength(value); bufferUInt32NoTag(length); position = Utf8.encode(value, buffer, position, length); } totalBytesWritten += length; } catch (UnpairedSurrogateException e) { // Be extra careful and restore the original position for retrying the write with the // less efficient path. totalBytesWritten -= position - oldPosition; position = oldPosition; throw e; } catch (ArrayIndexOutOfBoundsException e) { throw new OutOfSpaceException(e); } } catch (UnpairedSurrogateException e) { inefficientWriteStringNoTag(value, e); } } @Override public void flush() throws IOException { if (position > 0) { // Flush the buffer. doFlush(); } } @Override public void write(byte[] value, int offset, int length) throws IOException { if (limit - position >= length) { // We have room in the current buffer. System.arraycopy(value, offset, buffer, position, length); position += length; totalBytesWritten += length; } else { // Write extends past current buffer. Fill the rest of this buffer and // flush. final int bytesWritten = limit - position; System.arraycopy(value, offset, buffer, position, bytesWritten); offset += bytesWritten; length -= bytesWritten; position = limit; totalBytesWritten += bytesWritten; doFlush(); // Now deal with the rest. // Since we have an output stream, this is our buffer // and buffer offset == 0 if (length <= limit) { // Fits in new buffer. System.arraycopy(value, offset, buffer, 0, length); position = length; } else { // Write is very big. Let's do it all at once. out.write(value, offset, length); } totalBytesWritten += length; } } @Override public void writeLazy(byte[] value, int offset, int length) throws IOException { write(value, offset, length); } @Override public void write(ByteBuffer value) throws IOException { int length = value.remaining(); if (limit - position >= length) { // We have room in the current buffer. value.get(buffer, position, length); position += length; totalBytesWritten += length; } else { // Write extends past current buffer. Fill the rest of this buffer and // flush. final int bytesWritten = limit - position; value.get(buffer, position, bytesWritten); length -= bytesWritten; position = limit; totalBytesWritten += bytesWritten; doFlush(); // Now deal with the rest. // Since we have an output stream, this is our buffer // and buffer offset == 0 while (length > limit) { // Copy data into the buffer before writing it to OutputStream. value.get(buffer, 0, limit); out.write(buffer, 0, limit); length -= limit; totalBytesWritten += limit; } value.get(buffer, 0, length); position = length; totalBytesWritten += length; } } @Override public void writeLazy(ByteBuffer value) throws IOException { write(value); } private void flushIfNotAvailable(int requiredSize) throws IOException { if (limit - position < requiredSize) { doFlush(); } } private void doFlush() throws IOException { out.write(buffer, 0, position); position = 0; } } }





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