| Index: third_party/protobuf/javanano/src/test/java/com/google/protobuf/nano/NanoTest.java
|
| diff --git a/third_party/protobuf/javanano/src/test/java/com/google/protobuf/nano/NanoTest.java b/third_party/protobuf/javanano/src/test/java/com/google/protobuf/nano/NanoTest.java
|
| deleted file mode 100644
|
| index debf7c0ac9fee58b7e06d50ae49df8e8e74c8566..0000000000000000000000000000000000000000
|
| --- a/third_party/protobuf/javanano/src/test/java/com/google/protobuf/nano/NanoTest.java
|
| +++ /dev/null
|
| @@ -1,4468 +0,0 @@
|
| -// Protocol Buffers - Google's data interchange format
|
| -// Copyright 2013 Google Inc. All rights reserved.
|
| -// https://developers.google.com/protocol-buffers/
|
| -//
|
| -// Redistribution and use in source and binary forms, with or without
|
| -// modification, are permitted provided that the following conditions are
|
| -// met:
|
| -//
|
| -// * Redistributions of source code must retain the above copyright
|
| -// notice, this list of conditions and the following disclaimer.
|
| -// * Redistributions in binary form must reproduce the above
|
| -// copyright notice, this list of conditions and the following disclaimer
|
| -// in the documentation and/or other materials provided with the
|
| -// distribution.
|
| -// * Neither the name of Google Inc. nor the names of its
|
| -// contributors may be used to endorse or promote products derived from
|
| -// this software without specific prior written permission.
|
| -//
|
| -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
|
| -// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
|
| -// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
|
| -// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
|
| -// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
|
| -// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
|
| -// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
|
| -// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
|
| -// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
|
| -// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
|
| -// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
|
| -
|
| -package com.google.protobuf.nano;
|
| -
|
| -import com.google.protobuf.nano.MapTestProto.TestMap;
|
| -import com.google.protobuf.nano.CodedOutputByteBufferNano;
|
| -import com.google.protobuf.nano.MapTestProto.TestMap.MessageValue;
|
| -import com.google.protobuf.nano.NanoAccessorsOuterClass.TestNanoAccessors;
|
| -import com.google.protobuf.nano.NanoHasOuterClass.TestAllTypesNanoHas;
|
| -import com.google.protobuf.nano.NanoOuterClass.TestAllTypesNano;
|
| -import com.google.protobuf.nano.UnittestRecursiveNano.RecursiveMessageNano;
|
| -import com.google.protobuf.nano.NanoReferenceTypesCompat;
|
| -import com.google.protobuf.nano.UnittestSimpleNano.SimpleMessageNano;
|
| -import com.google.protobuf.nano.UnittestSingleNano.SingleMessageNano;
|
| -import com.google.protobuf.nano.testext.nano.Extensions;
|
| -import com.google.protobuf.nano.testext.nano.Extensions.AnotherMessage;
|
| -import com.google.protobuf.nano.testext.nano.Extensions.MessageWithGroup;
|
| -import com.google.protobuf.nano.testimport.nano.UnittestImportNano;
|
| -
|
| -import junit.framework.TestCase;
|
| -
|
| -import java.util.Arrays;
|
| -import java.util.HashMap;
|
| -import java.util.Map;
|
| -import java.util.TreeMap;
|
| -
|
| -/**
|
| - * Test nano runtime.
|
| - *
|
| - * @author ulas@google.com Ulas Kirazci
|
| - */
|
| -public class NanoTest extends TestCase {
|
| - @Override
|
| - public void setUp() throws Exception {
|
| - }
|
| -
|
| - public void testSimpleMessageNano() throws Exception {
|
| - SimpleMessageNano msg = new SimpleMessageNano();
|
| - assertEquals(123, msg.d);
|
| - assertEquals(null, msg.nestedMsg);
|
| - assertEquals(SimpleMessageNano.BAZ, msg.defaultNestedEnum);
|
| -
|
| - msg.d = 456;
|
| - assertEquals(456, msg.d);
|
| -
|
| - SimpleMessageNano.NestedMessage nestedMsg = new SimpleMessageNano.NestedMessage();
|
| - nestedMsg.bb = 2;
|
| - assertEquals(2, nestedMsg.bb);
|
| - msg.nestedMsg = nestedMsg;
|
| - assertEquals(2, msg.nestedMsg.bb);
|
| -
|
| - msg.defaultNestedEnum = SimpleMessageNano.BAR;
|
| - assertEquals(SimpleMessageNano.BAR, msg.defaultNestedEnum);
|
| -
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - SimpleMessageNano newMsg = SimpleMessageNano.parseFrom(result);
|
| - assertEquals(456, newMsg.d);
|
| - assertEquals(2, msg.nestedMsg.bb);
|
| - assertEquals(SimpleMessageNano.BAR, msg.defaultNestedEnum);
|
| -
|
| - msg.nestedMsg = null;
|
| - assertTrue(msgSerializedSize != msg.getSerializedSize());
|
| -
|
| - msg.clear();
|
| - assertEquals(0, msg.getSerializedSize());
|
| - }
|
| -
|
| - public void testRecursiveMessageNano() throws Exception {
|
| - RecursiveMessageNano msg = new RecursiveMessageNano();
|
| - assertTrue(msg.repeatedRecursiveMessageNano.length == 0);
|
| -
|
| - RecursiveMessageNano msg1 = new RecursiveMessageNano();
|
| - msg1.id = 1;
|
| - assertEquals(1, msg1.id);
|
| - RecursiveMessageNano msg2 = new RecursiveMessageNano();
|
| - msg2.id = 2;
|
| - RecursiveMessageNano msg3 = new RecursiveMessageNano();
|
| - msg3.id = 3;
|
| -
|
| - RecursiveMessageNano.NestedMessage nestedMsg = new RecursiveMessageNano.NestedMessage();
|
| - nestedMsg.a = msg1;
|
| - assertEquals(1, nestedMsg.a.id);
|
| -
|
| - msg.id = 0;
|
| - msg.nestedMessage = nestedMsg;
|
| - msg.optionalRecursiveMessageNano = msg2;
|
| - msg.repeatedRecursiveMessageNano = new RecursiveMessageNano[] { msg3 };
|
| -
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 16);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - RecursiveMessageNano newMsg = RecursiveMessageNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedRecursiveMessageNano.length);
|
| -
|
| - assertEquals(0, newMsg.id);
|
| - assertEquals(1, newMsg.nestedMessage.a.id);
|
| - assertEquals(2, newMsg.optionalRecursiveMessageNano.id);
|
| - assertEquals(3, newMsg.repeatedRecursiveMessageNano[0].id);
|
| - }
|
| -
|
| - public void testMessageNoFields() {
|
| - SingleMessageNano msg = new SingleMessageNano();
|
| - assertEquals(0, msg.getSerializedSize());
|
| - assertEquals(0, MessageNano.toByteArray(msg).length);
|
| - }
|
| -
|
| - public void testNanoRequiredInt32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.id = 123;
|
| - assertEquals(123, msg.id);
|
| - msg.clear().id = 456;
|
| - assertEquals(456, msg.id);
|
| - msg.clear();
|
| -
|
| - msg.id = 123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 3);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(123, newMsg.id);
|
| - }
|
| -
|
| - public void testNanoOptionalInt32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalInt32 = 123;
|
| - assertEquals(123, msg.optionalInt32);
|
| - msg.clear()
|
| - .optionalInt32 = 456;
|
| - assertEquals(456, msg.optionalInt32);
|
| - msg.clear();
|
| -
|
| - msg.optionalInt32 = 123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 5);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(123, newMsg.optionalInt32);
|
| - }
|
| -
|
| - public void testNanoOptionalInt64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalInt64 = 123;
|
| - assertEquals(123, msg.optionalInt64);
|
| - msg.clear()
|
| - .optionalInt64 = 456;
|
| - assertEquals(456, msg.optionalInt64);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalInt64);
|
| -
|
| - msg.optionalInt64 = 123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 5);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(123, newMsg.optionalInt64);
|
| - }
|
| -
|
| - public void testNanoOptionalUint32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalUint32 = 123;
|
| - assertEquals(123, msg.optionalUint32);
|
| - msg.clear()
|
| - .optionalUint32 = 456;
|
| - assertEquals(456, msg.optionalUint32);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalUint32);
|
| -
|
| - msg.optionalUint32 = 123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 5);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(123, newMsg.optionalUint32);
|
| - }
|
| -
|
| - public void testNanoOptionalUint64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalUint64 = 123;
|
| - assertEquals(123, msg.optionalUint64);
|
| - msg.clear()
|
| - .optionalUint64 = 456;
|
| - assertEquals(456, msg.optionalUint64);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalUint64);
|
| -
|
| - msg.optionalUint64 = 123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 5);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(123, newMsg.optionalUint64);
|
| - }
|
| -
|
| - public void testNanoOptionalSint32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalSint32 = 123;
|
| - assertEquals(123, msg.optionalSint32);
|
| - msg.clear()
|
| - .optionalSint32 = 456;
|
| - assertEquals(456, msg.optionalSint32);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalSint32);
|
| -
|
| - msg.optionalSint32 = -123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(-123, newMsg.optionalSint32);
|
| - }
|
| -
|
| - public void testNanoOptionalSint64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalSint64 = 123;
|
| - assertEquals(123, msg.optionalSint64);
|
| - msg.clear()
|
| - .optionalSint64 = 456;
|
| - assertEquals(456, msg.optionalSint64);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalSint64);
|
| -
|
| - msg.optionalSint64 = -123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(-123, newMsg.optionalSint64);
|
| - }
|
| -
|
| - public void testNanoOptionalFixed32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalFixed32 = 123;
|
| - assertEquals(123, msg.optionalFixed32);
|
| - msg.clear()
|
| - .optionalFixed32 = 456;
|
| - assertEquals(456, msg.optionalFixed32);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalFixed32);
|
| -
|
| - msg.optionalFixed32 = 123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(123, newMsg.optionalFixed32);
|
| - }
|
| -
|
| - public void testNanoOptionalFixed64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalFixed64 = 123;
|
| - assertEquals(123, msg.optionalFixed64);
|
| - msg.clear()
|
| - .optionalFixed64 = 456;
|
| - assertEquals(456, msg.optionalFixed64);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalFixed64);
|
| -
|
| - msg.optionalFixed64 = 123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 12);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(123, newMsg.optionalFixed64);
|
| - }
|
| -
|
| - public void testNanoOptionalSfixed32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalSfixed32 = 123;
|
| - assertEquals(123, msg.optionalSfixed32);
|
| - msg.clear()
|
| - .optionalSfixed32 = 456;
|
| - assertEquals(456, msg.optionalSfixed32);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalSfixed32);
|
| -
|
| - msg.optionalSfixed32 = 123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(123, newMsg.optionalSfixed32);
|
| - }
|
| -
|
| - public void testNanoOptionalSfixed64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalSfixed64 = 123;
|
| - assertEquals(123, msg.optionalSfixed64);
|
| - msg.clear()
|
| - .optionalSfixed64 = 456;
|
| - assertEquals(456, msg.optionalSfixed64);
|
| - msg.clear();
|
| - assertEquals(0, msg.optionalSfixed64);
|
| -
|
| - msg.optionalSfixed64 = -123;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 12);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(-123, newMsg.optionalSfixed64);
|
| - }
|
| -
|
| - public void testNanoOptionalFloat() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalFloat = 123f;
|
| - assertTrue(123.0f == msg.optionalFloat);
|
| - msg.clear()
|
| - .optionalFloat = 456.0f;
|
| - assertTrue(456.0f == msg.optionalFloat);
|
| - msg.clear();
|
| - assertTrue(0.0f == msg.optionalFloat);
|
| -
|
| - msg.optionalFloat = -123.456f;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(-123.456f == newMsg.optionalFloat);
|
| - }
|
| -
|
| - public void testNanoOptionalDouble() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalDouble = 123;
|
| - assertTrue(123.0 == msg.optionalDouble);
|
| - msg.clear()
|
| - .optionalDouble = 456.0;
|
| - assertTrue(456.0 == msg.optionalDouble);
|
| - msg.clear();
|
| - assertTrue(0.0 == msg.optionalDouble);
|
| -
|
| - msg.optionalDouble = -123.456;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 12);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(-123.456 == newMsg.optionalDouble);
|
| - }
|
| -
|
| - public void testNanoOptionalBool() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalBool = true;
|
| - assertTrue(msg.optionalBool);
|
| - msg.clear()
|
| - .optionalBool = true;
|
| - assertTrue(msg.optionalBool);
|
| - msg.clear();
|
| - assertFalse(msg.optionalBool);
|
| -
|
| - msg.optionalBool = true;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 5);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalBool);
|
| - }
|
| -
|
| - public void testNanoOptionalString() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalString = "hello";
|
| - assertEquals("hello", msg.optionalString);
|
| - msg.clear();
|
| - assertTrue(msg.optionalString.isEmpty());
|
| - msg.clear()
|
| - .optionalString = "hello2";
|
| - assertEquals("hello2", msg.optionalString);
|
| - msg.clear();
|
| - assertTrue(msg.optionalString.isEmpty());
|
| -
|
| - msg.optionalString = "bye";
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalString != null);
|
| - assertEquals("bye", newMsg.optionalString);
|
| - }
|
| -
|
| - public void testNanoOptionalBytes() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertFalse(msg.optionalBytes.length > 0);
|
| - msg.optionalBytes = InternalNano.copyFromUtf8("hello");
|
| - assertTrue(msg.optionalBytes.length > 0);
|
| - assertEquals("hello", new String(msg.optionalBytes, InternalNano.UTF_8));
|
| - msg.clear();
|
| - assertFalse(msg.optionalBytes.length > 0);
|
| - msg.clear()
|
| - .optionalBytes = InternalNano.copyFromUtf8("hello");
|
| - assertTrue(msg.optionalBytes.length > 0);
|
| - msg.clear();
|
| - assertFalse(msg.optionalBytes.length > 0);
|
| -
|
| - msg.optionalBytes = InternalNano.copyFromUtf8("bye");
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalBytes.length > 0);
|
| - assertEquals("bye", new String(newMsg.optionalBytes, InternalNano.UTF_8));
|
| - }
|
| -
|
| - public void testNanoOptionalGroup() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - TestAllTypesNano.OptionalGroup grp = new TestAllTypesNano.OptionalGroup();
|
| - grp.a = 1;
|
| - assertFalse(msg.optionalGroup != null);
|
| - msg.optionalGroup = grp;
|
| - assertTrue(msg.optionalGroup != null);
|
| - assertEquals(1, msg.optionalGroup.a);
|
| - msg.clear();
|
| - assertFalse(msg.optionalGroup != null);
|
| - msg.clear()
|
| - .optionalGroup = new TestAllTypesNano.OptionalGroup();
|
| - msg.optionalGroup.a = 2;
|
| - assertTrue(msg.optionalGroup != null);
|
| - msg.clear();
|
| - assertFalse(msg.optionalGroup != null);
|
| -
|
| - msg.optionalGroup = grp;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 10);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalGroup != null);
|
| - assertEquals(1, newMsg.optionalGroup.a);
|
| - }
|
| -
|
| - public void testNanoOptionalGroupWithUnknownFieldsEnabled() throws Exception {
|
| - MessageWithGroup msg = new MessageWithGroup();
|
| - MessageWithGroup.Group grp = new MessageWithGroup.Group();
|
| - grp.a = 1;
|
| - msg.group = grp;
|
| - byte [] serialized = MessageNano.toByteArray(msg);
|
| -
|
| - MessageWithGroup parsed = MessageWithGroup.parseFrom(serialized);
|
| - assertEquals(1, parsed.group.a);
|
| -
|
| - byte [] serialized2 = MessageNano.toByteArray(parsed);
|
| - assertEquals(serialized.length, serialized2.length);
|
| - MessageWithGroup parsed2 = MessageWithGroup.parseFrom(serialized2);
|
| - assertEquals(1, parsed2.group.a);
|
| - }
|
| -
|
| - public void testNanoOptionalNestedMessage() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - TestAllTypesNano.NestedMessage nestedMsg = new TestAllTypesNano.NestedMessage();
|
| - nestedMsg.bb = 1;
|
| - assertFalse(msg.optionalNestedMessage != null);
|
| - msg.optionalNestedMessage = nestedMsg;
|
| - assertTrue(msg.optionalNestedMessage != null);
|
| - assertEquals(1, msg.optionalNestedMessage.bb);
|
| - msg.clear();
|
| - assertFalse(msg.optionalNestedMessage != null);
|
| - msg.clear()
|
| - .optionalNestedMessage = new TestAllTypesNano.NestedMessage();
|
| - msg.optionalNestedMessage.bb = 2;
|
| - assertTrue(msg.optionalNestedMessage != null);
|
| - msg.clear();
|
| - assertFalse(msg.optionalNestedMessage != null);
|
| -
|
| - msg.optionalNestedMessage = nestedMsg;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalNestedMessage != null);
|
| - assertEquals(1, newMsg.optionalNestedMessage.bb);
|
| - }
|
| -
|
| - public void testNanoOptionalForeignMessage() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - NanoOuterClass.ForeignMessageNano nestedMsg = new NanoOuterClass.ForeignMessageNano();
|
| - nestedMsg.c = 1;
|
| - assertFalse(msg.optionalForeignMessage != null);
|
| - msg.optionalForeignMessage = nestedMsg;
|
| - assertTrue(msg.optionalForeignMessage != null);
|
| - assertEquals(1, msg.optionalForeignMessage.c);
|
| - msg.clear();
|
| - assertFalse(msg.optionalForeignMessage != null);
|
| - msg.clear()
|
| - .optionalForeignMessage = new NanoOuterClass.ForeignMessageNano();
|
| - msg.optionalForeignMessage.c = 2;
|
| - assertTrue(msg.optionalForeignMessage != null);
|
| - msg.clear();
|
| - assertFalse(msg.optionalForeignMessage != null);
|
| -
|
| - msg.optionalForeignMessage = nestedMsg;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalForeignMessage != null);
|
| - assertEquals(1, newMsg.optionalForeignMessage.c);
|
| - }
|
| -
|
| - public void testNanoOptionalImportMessage() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - UnittestImportNano.ImportMessageNano nestedMsg = new UnittestImportNano.ImportMessageNano();
|
| - nestedMsg.d = 1;
|
| - assertFalse(msg.optionalImportMessage != null);
|
| - msg.optionalImportMessage = nestedMsg;
|
| - assertTrue(msg.optionalImportMessage != null);
|
| - assertEquals(1, msg.optionalImportMessage.d);
|
| - msg.clear();
|
| - assertFalse(msg.optionalImportMessage != null);
|
| - msg.clear()
|
| - .optionalImportMessage = new UnittestImportNano.ImportMessageNano();
|
| - msg.optionalImportMessage.d = 2;
|
| - assertTrue(msg.optionalImportMessage != null);
|
| - msg.clear();
|
| - assertFalse(msg.optionalImportMessage != null);
|
| -
|
| - msg.optionalImportMessage = nestedMsg;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalImportMessage != null);
|
| - assertEquals(1, newMsg.optionalImportMessage.d);
|
| - }
|
| -
|
| - public void testNanoOptionalNestedEnum() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalNestedEnum = TestAllTypesNano.BAR;
|
| - assertEquals(TestAllTypesNano.BAR, msg.optionalNestedEnum);
|
| - msg.clear()
|
| - .optionalNestedEnum = TestAllTypesNano.BAZ;
|
| - assertEquals(TestAllTypesNano.BAZ, msg.optionalNestedEnum);
|
| - msg.clear();
|
| - assertEquals(TestAllTypesNano.FOO, msg.optionalNestedEnum);
|
| -
|
| - msg.optionalNestedEnum = TestAllTypesNano.BAR;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(TestAllTypesNano.BAR, newMsg.optionalNestedEnum);
|
| - }
|
| -
|
| - public void testNanoOptionalForeignEnum() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalForeignEnum = NanoOuterClass.FOREIGN_NANO_BAR;
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.optionalForeignEnum);
|
| - msg.clear()
|
| - .optionalForeignEnum = NanoOuterClass.FOREIGN_NANO_BAZ;
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_BAZ, msg.optionalForeignEnum);
|
| - msg.clear();
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_FOO, msg.optionalForeignEnum);
|
| -
|
| - msg.optionalForeignEnum = NanoOuterClass.FOREIGN_NANO_BAR;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, newMsg.optionalForeignEnum);
|
| - }
|
| -
|
| - public void testNanoOptionalImportEnum() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalImportEnum = UnittestImportNano.IMPORT_NANO_BAR;
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.optionalImportEnum);
|
| - msg.clear()
|
| - .optionalImportEnum = UnittestImportNano.IMPORT_NANO_BAZ;
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_BAZ, msg.optionalImportEnum);
|
| - msg.clear();
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_FOO, msg.optionalImportEnum);
|
| -
|
| - msg.optionalImportEnum = UnittestImportNano.IMPORT_NANO_BAR;
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_BAR, newMsg.optionalImportEnum);
|
| - }
|
| -
|
| - public void testNanoOptionalStringPiece() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalStringPiece = "hello";
|
| - assertEquals("hello", msg.optionalStringPiece);
|
| - msg.clear();
|
| - assertTrue(msg.optionalStringPiece.isEmpty());
|
| - msg.clear()
|
| - .optionalStringPiece = "hello2";
|
| - assertEquals("hello2", msg.optionalStringPiece);
|
| - msg.clear();
|
| - assertTrue(msg.optionalStringPiece.isEmpty());
|
| -
|
| - msg.optionalStringPiece = "bye";
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalStringPiece != null);
|
| - assertEquals("bye", newMsg.optionalStringPiece);
|
| - }
|
| -
|
| - public void testNanoOptionalCord() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalCord = "hello";
|
| - assertEquals("hello", msg.optionalCord);
|
| - msg.clear();
|
| - assertTrue(msg.optionalCord.isEmpty());
|
| - msg.clear()
|
| - .optionalCord = "hello2";
|
| - assertEquals("hello2", msg.optionalCord);
|
| - msg.clear();
|
| - assertTrue(msg.optionalCord.isEmpty());
|
| -
|
| - msg.optionalCord = "bye";
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertTrue(newMsg.optionalCord != null);
|
| - assertEquals("bye", newMsg.optionalCord);
|
| - }
|
| -
|
| - public void testNanoRepeatedInt32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedInt32.length);
|
| - msg.repeatedInt32 = new int[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedInt32[1]);
|
| - assertEquals(456, msg.repeatedInt32[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedInt32.length);
|
| - msg.clear()
|
| - .repeatedInt32 = new int[] { 456 };
|
| - assertEquals(1, msg.repeatedInt32.length);
|
| - assertEquals(456, msg.repeatedInt32[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedInt32.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedInt32 = new int[] { 123 };
|
| - assertEquals(1, msg.repeatedInt32.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedInt32.length);
|
| - assertEquals(123, newMsg.repeatedInt32[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedInt32 = new int[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedInt32.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 10);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedInt32.length);
|
| - assertEquals(123, newMsg.repeatedInt32[0]);
|
| - assertEquals(456, newMsg.repeatedInt32[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedInt64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedInt64.length);
|
| - msg.repeatedInt64 = new long[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedInt64[1]);
|
| - assertEquals(456, msg.repeatedInt64[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedInt64.length);
|
| - msg.clear()
|
| - .repeatedInt64 = new long[] { 456 };
|
| - assertEquals(1, msg.repeatedInt64.length);
|
| - assertEquals(456, msg.repeatedInt64[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedInt64.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedInt64 = new long[] { 123 };
|
| - assertEquals(1, msg.repeatedInt64.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedInt64.length);
|
| - assertEquals(123, newMsg.repeatedInt64[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedInt64 = new long[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedInt64.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 10);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedInt64.length);
|
| - assertEquals(123, newMsg.repeatedInt64[0]);
|
| - assertEquals(456, newMsg.repeatedInt64[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedUint32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedUint32.length);
|
| - msg.repeatedUint32 = new int[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedUint32[1]);
|
| - assertEquals(456, msg.repeatedUint32[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedUint32.length);
|
| - msg.clear()
|
| - .repeatedUint32 = new int[] { 456 };
|
| - assertEquals(1, msg.repeatedUint32.length);
|
| - assertEquals(456, msg.repeatedUint32[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedUint32.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedUint32 = new int[] { 123 };
|
| - assertEquals(1, msg.repeatedUint32.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedUint32.length);
|
| - assertEquals(123, newMsg.repeatedUint32[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedUint32 = new int[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedUint32.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 10);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedUint32.length);
|
| - assertEquals(123, newMsg.repeatedUint32[0]);
|
| - assertEquals(456, newMsg.repeatedUint32[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedUint64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedUint64.length);
|
| - msg.repeatedUint64 = new long[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedUint64[1]);
|
| - assertEquals(456, msg.repeatedUint64[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedUint64.length);
|
| - msg.clear()
|
| - .repeatedUint64 = new long[] { 456 };
|
| - assertEquals(1, msg.repeatedUint64.length);
|
| - assertEquals(456, msg.repeatedUint64[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedUint64.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedUint64 = new long[] { 123 };
|
| - assertEquals(1, msg.repeatedUint64.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedUint64.length);
|
| - assertEquals(123, newMsg.repeatedUint64[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedUint64 = new long[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedUint64.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 10);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedUint64.length);
|
| - assertEquals(123, newMsg.repeatedUint64[0]);
|
| - assertEquals(456, newMsg.repeatedUint64[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedSint32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedSint32.length);
|
| - msg.repeatedSint32 = new int[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedSint32[1]);
|
| - assertEquals(456, msg.repeatedSint32[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedSint32.length);
|
| - msg.clear()
|
| - .repeatedSint32 = new int[] { 456 };
|
| - assertEquals(1, msg.repeatedSint32.length);
|
| - assertEquals(456, msg.repeatedSint32[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedSint32.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedSint32 = new int[] { 123 };
|
| - assertEquals(1, msg.repeatedSint32.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 7);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedSint32.length);
|
| - assertEquals(123, newMsg.repeatedSint32[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedSint32 = new int[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedSint32.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 11);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedSint32.length);
|
| - assertEquals(123, newMsg.repeatedSint32[0]);
|
| - assertEquals(456, newMsg.repeatedSint32[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedSint64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedSint64.length);
|
| - msg.repeatedSint64 = new long[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedSint64[1]);
|
| - assertEquals(456, msg.repeatedSint64[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedSint64.length);
|
| - msg.clear()
|
| - .repeatedSint64 = new long[] { 456 };
|
| - assertEquals(1, msg.repeatedSint64.length);
|
| - assertEquals(456, msg.repeatedSint64[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedSint64.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedSint64 = new long[] { 123 };
|
| - assertEquals(1, msg.repeatedSint64.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 7);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedSint64.length);
|
| - assertEquals(123, newMsg.repeatedSint64[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedSint64 = new long[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedSint64.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 11);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedSint64.length);
|
| - assertEquals(123, newMsg.repeatedSint64[0]);
|
| - assertEquals(456, newMsg.repeatedSint64[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedFixed32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedFixed32.length);
|
| - msg.repeatedFixed32 = new int[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedFixed32[1]);
|
| - assertEquals(456, msg.repeatedFixed32[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedFixed32.length);
|
| - msg.clear()
|
| - .repeatedFixed32 = new int[] { 456 };
|
| - assertEquals(1, msg.repeatedFixed32.length);
|
| - assertEquals(456, msg.repeatedFixed32[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedFixed32.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedFixed32 = new int[] { 123 };
|
| - assertEquals(1, msg.repeatedFixed32.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedFixed32.length);
|
| - assertEquals(123, newMsg.repeatedFixed32[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedFixed32 = new int[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedFixed32.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 15);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedFixed32.length);
|
| - assertEquals(123, newMsg.repeatedFixed32[0]);
|
| - assertEquals(456, newMsg.repeatedFixed32[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedFixed64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedFixed64.length);
|
| - msg.repeatedFixed64 = new long[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedFixed64[1]);
|
| - assertEquals(456, msg.repeatedFixed64[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedFixed64.length);
|
| - msg.clear()
|
| - .repeatedFixed64 = new long[] { 456 };
|
| - assertEquals(1, msg.repeatedFixed64.length);
|
| - assertEquals(456, msg.repeatedFixed64[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedFixed64.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedFixed64 = new long[] { 123 };
|
| - assertEquals(1, msg.repeatedFixed64.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 13);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedFixed64.length);
|
| - assertEquals(123, newMsg.repeatedFixed64[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedFixed64 = new long[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedFixed64.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 23);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedFixed64.length);
|
| - assertEquals(123, newMsg.repeatedFixed64[0]);
|
| - assertEquals(456, newMsg.repeatedFixed64[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedSfixed32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedSfixed32.length);
|
| - msg.repeatedSfixed32 = new int[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedSfixed32[1]);
|
| - assertEquals(456, msg.repeatedSfixed32[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedSfixed32.length);
|
| - msg.clear()
|
| - .repeatedSfixed32 = new int[] { 456 };
|
| - assertEquals(1, msg.repeatedSfixed32.length);
|
| - assertEquals(456, msg.repeatedSfixed32[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedSfixed32.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedSfixed32 = new int[] { 123 };
|
| - assertEquals(1, msg.repeatedSfixed32.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedSfixed32.length);
|
| - assertEquals(123, newMsg.repeatedSfixed32[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedSfixed32 = new int[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedSfixed32.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 15);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedSfixed32.length);
|
| - assertEquals(123, newMsg.repeatedSfixed32[0]);
|
| - assertEquals(456, newMsg.repeatedSfixed32[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedSfixed64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedSfixed64.length);
|
| - msg.repeatedSfixed64 = new long[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedSfixed64[1]);
|
| - assertEquals(456, msg.repeatedSfixed64[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedSfixed64.length);
|
| - msg.clear()
|
| - .repeatedSfixed64 = new long[] { 456 };
|
| - assertEquals(1, msg.repeatedSfixed64.length);
|
| - assertEquals(456, msg.repeatedSfixed64[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedSfixed64.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedSfixed64 = new long[] { 123 };
|
| - assertEquals(1, msg.repeatedSfixed64.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 13);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedSfixed64.length);
|
| - assertEquals(123, newMsg.repeatedSfixed64[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedSfixed64 = new long[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedSfixed64.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 23);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedSfixed64.length);
|
| - assertEquals(123, newMsg.repeatedSfixed64[0]);
|
| - assertEquals(456, newMsg.repeatedSfixed64[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedFloat() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedFloat.length);
|
| - msg.repeatedFloat = new float[] { 123f, 789f, 456f };
|
| - assertEquals(789f, msg.repeatedFloat[1]);
|
| - assertEquals(456f, msg.repeatedFloat[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedFloat.length);
|
| - msg.clear()
|
| - .repeatedFloat = new float[] { 456f };
|
| - assertEquals(1, msg.repeatedFloat.length);
|
| - assertEquals(456f, msg.repeatedFloat[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedFloat.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedFloat = new float[] { 123f };
|
| - assertEquals(1, msg.repeatedFloat.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedFloat.length);
|
| - assertEquals(123f, newMsg.repeatedFloat[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedFloat = new float[] { 123f, 456f };
|
| - assertEquals(2, msg.repeatedFloat.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 15);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedFloat.length);
|
| - assertEquals(123f, newMsg.repeatedFloat[0]);
|
| - assertEquals(456f, newMsg.repeatedFloat[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedDouble() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedDouble.length);
|
| - msg.repeatedDouble = new double[] { 123.0, 789.0, 456.0 };
|
| - assertEquals(789.0, msg.repeatedDouble[1]);
|
| - assertEquals(456.0, msg.repeatedDouble[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedDouble.length);
|
| - msg.clear()
|
| - .repeatedDouble = new double[] { 456.0 };
|
| - assertEquals(1, msg.repeatedDouble.length);
|
| - assertEquals(456.0, msg.repeatedDouble[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedDouble.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedDouble = new double[] { 123.0 };
|
| - assertEquals(1, msg.repeatedDouble.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 13);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedDouble.length);
|
| - assertEquals(123.0, newMsg.repeatedDouble[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedDouble = new double[] { 123.0, 456.0 };
|
| - assertEquals(2, msg.repeatedDouble.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 23);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedDouble.length);
|
| - assertEquals(123.0, newMsg.repeatedDouble[0]);
|
| - assertEquals(456.0, newMsg.repeatedDouble[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedBool() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedBool.length);
|
| - msg.repeatedBool = new boolean[] { false, true, false };
|
| - assertTrue(msg.repeatedBool[1]);
|
| - assertFalse(msg.repeatedBool[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedBool.length);
|
| - msg.clear()
|
| - .repeatedBool = new boolean[] { true };
|
| - assertEquals(1, msg.repeatedBool.length);
|
| - assertTrue(msg.repeatedBool[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedBool.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedBool = new boolean[] { false };
|
| - assertEquals(1, msg.repeatedBool.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedBool.length);
|
| - assertFalse(newMsg.repeatedBool[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedBool = new boolean[] { true, false };
|
| - assertEquals(2, msg.repeatedBool.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedBool.length);
|
| - assertTrue(newMsg.repeatedBool[0]);
|
| - assertFalse(newMsg.repeatedBool[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedString() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedString.length);
|
| - msg.repeatedString = new String[] { "hello", "bye", "boo" };
|
| - assertEquals("bye", msg.repeatedString[1]);
|
| - assertEquals("boo", msg.repeatedString[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedString.length);
|
| - msg.clear()
|
| - .repeatedString = new String[] { "boo" };
|
| - assertEquals(1, msg.repeatedString.length);
|
| - assertEquals("boo", msg.repeatedString[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedString.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedString = new String[] { "" };
|
| - assertEquals(1, msg.repeatedString.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedString.length);
|
| - assertTrue(newMsg.repeatedString[0].isEmpty());
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedString = new String[] { "hello", "world" };
|
| - assertEquals(2, msg.repeatedString.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 19);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedString.length);
|
| - assertEquals("hello", newMsg.repeatedString[0]);
|
| - assertEquals("world", newMsg.repeatedString[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedBytes() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedBytes.length);
|
| - msg.repeatedBytes = new byte[][] {
|
| - InternalNano.copyFromUtf8("hello"),
|
| - InternalNano.copyFromUtf8("bye"),
|
| - InternalNano.copyFromUtf8("boo")
|
| - };
|
| - assertEquals("bye", new String(msg.repeatedBytes[1], InternalNano.UTF_8));
|
| - assertEquals("boo", new String(msg.repeatedBytes[2], InternalNano.UTF_8));
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedBytes.length);
|
| - msg.clear()
|
| - .repeatedBytes = new byte[][] { InternalNano.copyFromUtf8("boo") };
|
| - assertEquals(1, msg.repeatedBytes.length);
|
| - assertEquals("boo", new String(msg.repeatedBytes[0], InternalNano.UTF_8));
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedBytes.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedBytes = new byte[][] { InternalNano.copyFromUtf8("") };
|
| - assertEquals(1, msg.repeatedBytes.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedBytes.length);
|
| - assertTrue(newMsg.repeatedBytes[0].length == 0);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedBytes = new byte[][] {
|
| - InternalNano.copyFromUtf8("hello"),
|
| - InternalNano.copyFromUtf8("world")
|
| - };
|
| - assertEquals(2, msg.repeatedBytes.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 19);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedBytes.length);
|
| - assertEquals("hello", new String(newMsg.repeatedBytes[0], InternalNano.UTF_8));
|
| - assertEquals("world", new String(newMsg.repeatedBytes[1], InternalNano.UTF_8));
|
| - }
|
| -
|
| - public void testNanoRepeatedGroup() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - TestAllTypesNano.RepeatedGroup group0 =
|
| - new TestAllTypesNano.RepeatedGroup();
|
| - group0.a = 0;
|
| - TestAllTypesNano.RepeatedGroup group1 =
|
| - new TestAllTypesNano.RepeatedGroup();
|
| - group1.a = 1;
|
| - TestAllTypesNano.RepeatedGroup group2 =
|
| - new TestAllTypesNano.RepeatedGroup();
|
| - group2.a = 2;
|
| -
|
| - msg.repeatedGroup = new TestAllTypesNano.RepeatedGroup[] { group0, group1, group2 };
|
| - assertEquals(3, msg.repeatedGroup.length);
|
| - assertEquals(0, msg.repeatedGroup[0].a);
|
| - assertEquals(1, msg.repeatedGroup[1].a);
|
| - assertEquals(2, msg.repeatedGroup[2].a);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedGroup.length);
|
| - msg.clear()
|
| - .repeatedGroup = new TestAllTypesNano.RepeatedGroup[] { group1 };
|
| - assertEquals(1, msg.repeatedGroup.length);
|
| - assertEquals(1, msg.repeatedGroup[0].a);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedGroup.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedGroup = new TestAllTypesNano.RepeatedGroup[] { group0 };
|
| - assertEquals(1, msg.repeatedGroup.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 7);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedGroup.length);
|
| - assertEquals(0, newMsg.repeatedGroup[0].a);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedGroup = new TestAllTypesNano.RepeatedGroup[] { group0, group1 };
|
| - assertEquals(2, msg.repeatedGroup.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 14);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedGroup.length);
|
| - assertEquals(0, newMsg.repeatedGroup[0].a);
|
| - assertEquals(1, newMsg.repeatedGroup[1].a);
|
| - }
|
| -
|
| - public void testNanoRepeatedNestedMessage() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - TestAllTypesNano.NestedMessage nestedMsg0 =
|
| - new TestAllTypesNano.NestedMessage();
|
| - nestedMsg0.bb = 0;
|
| - TestAllTypesNano.NestedMessage nestedMsg1 =
|
| - new TestAllTypesNano.NestedMessage();
|
| - nestedMsg1.bb = 1;
|
| - TestAllTypesNano.NestedMessage nestedMsg2 =
|
| - new TestAllTypesNano.NestedMessage();
|
| - nestedMsg2.bb = 2;
|
| -
|
| - msg.repeatedNestedMessage =
|
| - new TestAllTypesNano.NestedMessage[] { nestedMsg0, nestedMsg1, nestedMsg2 };
|
| - assertEquals(3, msg.repeatedNestedMessage.length);
|
| - assertEquals(0, msg.repeatedNestedMessage[0].bb);
|
| - assertEquals(1, msg.repeatedNestedMessage[1].bb);
|
| - assertEquals(2, msg.repeatedNestedMessage[2].bb);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedNestedMessage.length);
|
| - msg.clear()
|
| - .repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { nestedMsg1 };
|
| - assertEquals(1, msg.repeatedNestedMessage.length);
|
| - assertEquals(1, msg.repeatedNestedMessage[0].bb);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedNestedMessage.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { nestedMsg0 };
|
| - assertEquals(1, msg.repeatedNestedMessage.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedNestedMessage.length);
|
| - assertEquals(0, newMsg.repeatedNestedMessage[0].bb);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { nestedMsg0, nestedMsg1 };
|
| - assertEquals(2, msg.repeatedNestedMessage.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 11);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedNestedMessage.length);
|
| - assertEquals(0, newMsg.repeatedNestedMessage[0].bb);
|
| - assertEquals(1, newMsg.repeatedNestedMessage[1].bb);
|
| - }
|
| -
|
| - public void testNanoRepeatedForeignMessage() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - NanoOuterClass.ForeignMessageNano foreignMsg0 =
|
| - new NanoOuterClass.ForeignMessageNano();
|
| - foreignMsg0.c = 0;
|
| - NanoOuterClass.ForeignMessageNano foreignMsg1 =
|
| - new NanoOuterClass.ForeignMessageNano();
|
| - foreignMsg1.c = 1;
|
| - NanoOuterClass.ForeignMessageNano foreignMsg2 =
|
| - new NanoOuterClass.ForeignMessageNano();
|
| - foreignMsg2.c = 2;
|
| -
|
| - msg.repeatedForeignMessage =
|
| - new NanoOuterClass.ForeignMessageNano[] { foreignMsg0, foreignMsg1, foreignMsg2 };
|
| - assertEquals(3, msg.repeatedForeignMessage.length);
|
| - assertEquals(0, msg.repeatedForeignMessage[0].c);
|
| - assertEquals(1, msg.repeatedForeignMessage[1].c);
|
| - assertEquals(2, msg.repeatedForeignMessage[2].c);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedForeignMessage.length);
|
| - msg.clear()
|
| - .repeatedForeignMessage = new NanoOuterClass.ForeignMessageNano[] { foreignMsg1 };
|
| - assertEquals(1, msg.repeatedForeignMessage.length);
|
| - assertEquals(1, msg.repeatedForeignMessage[0].c);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedForeignMessage.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedForeignMessage = new NanoOuterClass.ForeignMessageNano[] { foreignMsg0 };
|
| - assertEquals(1, msg.repeatedForeignMessage.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedForeignMessage.length);
|
| - assertEquals(0, newMsg.repeatedForeignMessage[0].c);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedForeignMessage = new NanoOuterClass.ForeignMessageNano[] { foreignMsg0, foreignMsg1 };
|
| - assertEquals(2, msg.repeatedForeignMessage.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 11);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedForeignMessage.length);
|
| - assertEquals(0, newMsg.repeatedForeignMessage[0].c);
|
| - assertEquals(1, newMsg.repeatedForeignMessage[1].c);
|
| - }
|
| -
|
| - public void testNanoRepeatedImportMessage() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - UnittestImportNano.ImportMessageNano foreignMsg0 =
|
| - new UnittestImportNano.ImportMessageNano();
|
| - foreignMsg0.d = 0;
|
| - UnittestImportNano.ImportMessageNano foreignMsg1 =
|
| - new UnittestImportNano.ImportMessageNano();
|
| - foreignMsg1.d = 1;
|
| - UnittestImportNano.ImportMessageNano foreignMsg2 =
|
| - new UnittestImportNano.ImportMessageNano();
|
| - foreignMsg2.d = 2;
|
| -
|
| - msg.repeatedImportMessage =
|
| - new UnittestImportNano.ImportMessageNano[] { foreignMsg0, foreignMsg1, foreignMsg2 };
|
| - assertEquals(3, msg.repeatedImportMessage.length);
|
| - assertEquals(0, msg.repeatedImportMessage[0].d);
|
| - assertEquals(1, msg.repeatedImportMessage[1].d);
|
| - assertEquals(2, msg.repeatedImportMessage[2].d);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedImportMessage.length);
|
| - msg.clear()
|
| - .repeatedImportMessage = new UnittestImportNano.ImportMessageNano[] { foreignMsg1 };
|
| - assertEquals(1, msg.repeatedImportMessage.length);
|
| - assertEquals(1, msg.repeatedImportMessage[0].d);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedImportMessage.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedImportMessage = new UnittestImportNano.ImportMessageNano[] { foreignMsg0 };
|
| - assertEquals(1, msg.repeatedImportMessage.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedImportMessage.length);
|
| - assertEquals(0, newMsg.repeatedImportMessage[0].d);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedImportMessage = new UnittestImportNano.ImportMessageNano[] { foreignMsg0, foreignMsg1 };
|
| - assertEquals(2, msg.repeatedImportMessage.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 11);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedImportMessage.length);
|
| - assertEquals(0, newMsg.repeatedImportMessage[0].d);
|
| - assertEquals(1, newMsg.repeatedImportMessage[1].d);
|
| - }
|
| -
|
| - public void testNanoRepeatedNestedEnum() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.repeatedNestedEnum = new int[] {
|
| - TestAllTypesNano.FOO,
|
| - TestAllTypesNano.BAR,
|
| - TestAllTypesNano.BAZ
|
| - };
|
| - assertEquals(3, msg.repeatedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.FOO, msg.repeatedNestedEnum[0]);
|
| - assertEquals(TestAllTypesNano.BAR, msg.repeatedNestedEnum[1]);
|
| - assertEquals(TestAllTypesNano.BAZ, msg.repeatedNestedEnum[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedNestedEnum.length);
|
| - msg.clear()
|
| - .repeatedNestedEnum = new int[] { TestAllTypesNano.BAR };
|
| - assertEquals(1, msg.repeatedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.BAR, msg.repeatedNestedEnum[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedNestedEnum.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedNestedEnum = new int[] { TestAllTypesNano.FOO };
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.FOO, msg.repeatedNestedEnum[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedNestedEnum = new int[] { TestAllTypesNano.FOO, TestAllTypesNano.BAR };
|
| - assertEquals(2, msg.repeatedNestedEnum.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.FOO, msg.repeatedNestedEnum[0]);
|
| - assertEquals(TestAllTypesNano.BAR, msg.repeatedNestedEnum[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedForeignEnum() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.repeatedForeignEnum = new int[] {
|
| - NanoOuterClass.FOREIGN_NANO_FOO,
|
| - NanoOuterClass.FOREIGN_NANO_BAR,
|
| - NanoOuterClass.FOREIGN_NANO_BAZ
|
| - };
|
| - assertEquals(3, msg.repeatedForeignEnum.length);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_FOO, msg.repeatedForeignEnum[0]);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.repeatedForeignEnum[1]);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_BAZ, msg.repeatedForeignEnum[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedForeignEnum.length);
|
| - msg.clear()
|
| - .repeatedForeignEnum = new int[] { NanoOuterClass.FOREIGN_NANO_BAR };
|
| - assertEquals(1, msg.repeatedForeignEnum.length);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.repeatedForeignEnum[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedForeignEnum.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedForeignEnum = new int[] { NanoOuterClass.FOREIGN_NANO_FOO };
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedForeignEnum.length);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_FOO, msg.repeatedForeignEnum[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedForeignEnum = new int[] {
|
| - NanoOuterClass.FOREIGN_NANO_FOO,
|
| - NanoOuterClass.FOREIGN_NANO_BAR
|
| - };
|
| - assertEquals(2, msg.repeatedForeignEnum.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedForeignEnum.length);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_FOO, msg.repeatedForeignEnum[0]);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.repeatedForeignEnum[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedImportEnum() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.repeatedImportEnum = new int[] {
|
| - UnittestImportNano.IMPORT_NANO_FOO,
|
| - UnittestImportNano.IMPORT_NANO_BAR,
|
| - UnittestImportNano.IMPORT_NANO_BAZ
|
| - };
|
| - assertEquals(3, msg.repeatedImportEnum.length);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_FOO, msg.repeatedImportEnum[0]);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.repeatedImportEnum[1]);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_BAZ, msg.repeatedImportEnum[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedImportEnum.length);
|
| - msg.clear()
|
| - .repeatedImportEnum = new int[] { UnittestImportNano.IMPORT_NANO_BAR };
|
| - assertEquals(1, msg.repeatedImportEnum.length);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.repeatedImportEnum[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedImportEnum.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedImportEnum = new int[] { UnittestImportNano.IMPORT_NANO_FOO };
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedImportEnum.length);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_FOO, msg.repeatedImportEnum[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedImportEnum = new int[] {
|
| - UnittestImportNano.IMPORT_NANO_FOO,
|
| - UnittestImportNano.IMPORT_NANO_BAR
|
| - };
|
| - assertEquals(2, msg.repeatedImportEnum.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedImportEnum.length);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_FOO, msg.repeatedImportEnum[0]);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.repeatedImportEnum[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedStringPiece() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedStringPiece.length);
|
| - msg.repeatedStringPiece = new String[] { "hello", "bye", "boo" };
|
| - assertEquals("bye", msg.repeatedStringPiece[1]);
|
| - assertEquals("boo", msg.repeatedStringPiece[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedStringPiece.length);
|
| - msg.clear()
|
| - .repeatedStringPiece = new String[] { "boo" };
|
| - assertEquals(1, msg.repeatedStringPiece.length);
|
| - assertEquals("boo", msg.repeatedStringPiece[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedStringPiece.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedStringPiece = new String[] { "" };
|
| - assertEquals(1, msg.repeatedStringPiece.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedStringPiece.length);
|
| - assertTrue(newMsg.repeatedStringPiece[0].isEmpty());
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedStringPiece = new String[] { "hello", "world" };
|
| - assertEquals(2, msg.repeatedStringPiece.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 19);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedStringPiece.length);
|
| - assertEquals("hello", newMsg.repeatedStringPiece[0]);
|
| - assertEquals("world", newMsg.repeatedStringPiece[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedCord() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedCord.length);
|
| - msg.repeatedCord = new String[] { "hello", "bye", "boo" };
|
| - assertEquals("bye", msg.repeatedCord[1]);
|
| - assertEquals("boo", msg.repeatedCord[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedCord.length);
|
| - msg.clear()
|
| - .repeatedCord = new String[] { "boo" };
|
| - assertEquals(1, msg.repeatedCord.length);
|
| - assertEquals("boo", msg.repeatedCord[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedCord.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedCord = new String[] { "" };
|
| - assertEquals(1, msg.repeatedCord.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 6);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedCord.length);
|
| - assertTrue(newMsg.repeatedCord[0].isEmpty());
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedCord = new String[] { "hello", "world" };
|
| - assertEquals(2, msg.repeatedCord.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 19);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedCord.length);
|
| - assertEquals("hello", newMsg.repeatedCord[0]);
|
| - assertEquals("world", newMsg.repeatedCord[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedPackedInt32() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedPackedInt32.length);
|
| - msg.repeatedPackedInt32 = new int[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedPackedInt32[1]);
|
| - assertEquals(456, msg.repeatedPackedInt32[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedPackedInt32.length);
|
| - msg.clear()
|
| - .repeatedPackedInt32 = new int[] { 456 };
|
| - assertEquals(1, msg.repeatedPackedInt32.length);
|
| - assertEquals(456, msg.repeatedPackedInt32[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedPackedInt32.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedPackedInt32 = new int[] { 123 };
|
| - assertEquals(1, msg.repeatedPackedInt32.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 7);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedPackedInt32.length);
|
| - assertEquals(123, newMsg.repeatedPackedInt32[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedPackedInt32 = new int[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedPackedInt32.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 9);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedPackedInt32.length);
|
| - assertEquals(123, newMsg.repeatedPackedInt32[0]);
|
| - assertEquals(456, newMsg.repeatedPackedInt32[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedPackedSfixed64() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - assertEquals(0, msg.repeatedPackedSfixed64.length);
|
| - msg.repeatedPackedSfixed64 = new long[] { 123, 789, 456 };
|
| - assertEquals(789, msg.repeatedPackedSfixed64[1]);
|
| - assertEquals(456, msg.repeatedPackedSfixed64[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedPackedSfixed64.length);
|
| - msg.clear()
|
| - .repeatedPackedSfixed64 = new long[] { 456 };
|
| - assertEquals(1, msg.repeatedPackedSfixed64.length);
|
| - assertEquals(456, msg.repeatedPackedSfixed64[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedPackedSfixed64.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedPackedSfixed64 = new long[] { 123 };
|
| - assertEquals(1, msg.repeatedPackedSfixed64.length);
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 14);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedPackedSfixed64.length);
|
| - assertEquals(123, newMsg.repeatedPackedSfixed64[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedPackedSfixed64 = new long[] { 123, 456 };
|
| - assertEquals(2, msg.repeatedPackedSfixed64.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 22);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedPackedSfixed64.length);
|
| - assertEquals(123, newMsg.repeatedPackedSfixed64[0]);
|
| - assertEquals(456, newMsg.repeatedPackedSfixed64[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedPackedNestedEnum() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.repeatedPackedNestedEnum = new int[] {
|
| - TestAllTypesNano.FOO,
|
| - TestAllTypesNano.BAR,
|
| - TestAllTypesNano.BAZ
|
| - };
|
| - assertEquals(3, msg.repeatedPackedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.FOO, msg.repeatedPackedNestedEnum[0]);
|
| - assertEquals(TestAllTypesNano.BAR, msg.repeatedPackedNestedEnum[1]);
|
| - assertEquals(TestAllTypesNano.BAZ, msg.repeatedPackedNestedEnum[2]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedPackedNestedEnum.length);
|
| - msg.clear()
|
| - .repeatedPackedNestedEnum = new int[] { TestAllTypesNano.BAR };
|
| - assertEquals(1, msg.repeatedPackedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.BAR, msg.repeatedPackedNestedEnum[0]);
|
| - msg.clear();
|
| - assertEquals(0, msg.repeatedPackedNestedEnum.length);
|
| -
|
| - // Test 1 entry
|
| - msg.clear()
|
| - .repeatedPackedNestedEnum = new int[] { TestAllTypesNano.FOO };
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 7);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(1, newMsg.repeatedPackedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.FOO, msg.repeatedPackedNestedEnum[0]);
|
| -
|
| - // Test 2 entries
|
| - msg.clear()
|
| - .repeatedPackedNestedEnum = new int[] { TestAllTypesNano.FOO, TestAllTypesNano.BAR };
|
| - assertEquals(2, msg.repeatedPackedNestedEnum.length);
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 8);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(2, newMsg.repeatedPackedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.FOO, msg.repeatedPackedNestedEnum[0]);
|
| - assertEquals(TestAllTypesNano.BAR, msg.repeatedPackedNestedEnum[1]);
|
| - }
|
| -
|
| - public void testNanoRepeatedPackedSerializedSize() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.repeatedPackedInt32 = new int[] { 123, 789, 456 };
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 11);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - TestAllTypesNano msg2 = new TestAllTypesNano();
|
| - msg2.repeatedPackedInt32 = new int[] { 123, 789, 456 };
|
| - byte [] result2 = new byte[msgSerializedSize];
|
| - MessageNano.toByteArray(msg2, result2, 0, msgSerializedSize);
|
| -
|
| - // Check equal size and content.
|
| - assertEquals(msgSerializedSize, msg2.getSerializedSize());
|
| - assertTrue(Arrays.equals(result, result2));
|
| - }
|
| -
|
| - public void testNanoRepeatedInt32ReMerge() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.repeatedInt32 = new int[] { 234 };
|
| - byte [] result1 = MessageNano.toByteArray(msg);
|
| -
|
| - msg.clear().optionalInt32 = 789;
|
| - byte [] result2 = MessageNano.toByteArray(msg);
|
| -
|
| - msg.clear().repeatedInt32 = new int[] { 123, 456 };
|
| - byte [] result3 = MessageNano.toByteArray(msg);
|
| -
|
| - // Concatenate the three serializations and read as one message.
|
| - byte [] result = new byte[result1.length + result2.length + result3.length];
|
| - System.arraycopy(result1, 0, result, 0, result1.length);
|
| - System.arraycopy(result2, 0, result, result1.length, result2.length);
|
| - System.arraycopy(result3, 0, result, result1.length + result2.length, result3.length);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(789, newMsg.optionalInt32);
|
| - assertEquals(3, newMsg.repeatedInt32.length);
|
| - assertEquals(234, newMsg.repeatedInt32[0]);
|
| - assertEquals(123, newMsg.repeatedInt32[1]);
|
| - assertEquals(456, newMsg.repeatedInt32[2]);
|
| - }
|
| -
|
| - public void testNanoRepeatedNestedEnumReMerge() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.repeatedNestedEnum = new int[] { TestAllTypesNano.FOO };
|
| - byte [] result1 = MessageNano.toByteArray(msg);
|
| -
|
| - msg.clear().optionalInt32 = 789;
|
| - byte [] result2 = MessageNano.toByteArray(msg);
|
| -
|
| - msg.clear().repeatedNestedEnum = new int[] { TestAllTypesNano.BAR, TestAllTypesNano.FOO };
|
| - byte [] result3 = MessageNano.toByteArray(msg);
|
| -
|
| - // Concatenate the three serializations and read as one message.
|
| - byte [] result = new byte[result1.length + result2.length + result3.length];
|
| - System.arraycopy(result1, 0, result, 0, result1.length);
|
| - System.arraycopy(result2, 0, result, result1.length, result2.length);
|
| - System.arraycopy(result3, 0, result, result1.length + result2.length, result3.length);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(789, newMsg.optionalInt32);
|
| - assertEquals(3, newMsg.repeatedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.FOO, newMsg.repeatedNestedEnum[0]);
|
| - assertEquals(TestAllTypesNano.BAR, newMsg.repeatedNestedEnum[1]);
|
| - assertEquals(TestAllTypesNano.FOO, newMsg.repeatedNestedEnum[2]);
|
| - }
|
| -
|
| - public void testNanoRepeatedNestedMessageReMerge() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - TestAllTypesNano.NestedMessage nestedMsg0 =
|
| - new TestAllTypesNano.NestedMessage();
|
| - nestedMsg0.bb = 0;
|
| - TestAllTypesNano.NestedMessage nestedMsg1 =
|
| - new TestAllTypesNano.NestedMessage();
|
| - nestedMsg1.bb = 1;
|
| - TestAllTypesNano.NestedMessage nestedMsg2 =
|
| - new TestAllTypesNano.NestedMessage();
|
| - nestedMsg2.bb = 2;
|
| -
|
| - msg.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { nestedMsg0 };
|
| - byte [] result1 = MessageNano.toByteArray(msg);
|
| -
|
| - msg.clear().optionalInt32 = 789;
|
| - byte [] result2 = MessageNano.toByteArray(msg);
|
| -
|
| - msg.clear().repeatedNestedMessage =
|
| - new TestAllTypesNano.NestedMessage[] { nestedMsg1, nestedMsg2 };
|
| - byte [] result3 = MessageNano.toByteArray(msg);
|
| -
|
| - // Concatenate the three serializations and read as one message.
|
| - byte [] result = new byte[result1.length + result2.length + result3.length];
|
| - System.arraycopy(result1, 0, result, 0, result1.length);
|
| - System.arraycopy(result2, 0, result, result1.length, result2.length);
|
| - System.arraycopy(result3, 0, result, result1.length + result2.length, result3.length);
|
| -
|
| - TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result);
|
| - assertEquals(789, newMsg.optionalInt32);
|
| - assertEquals(3, newMsg.repeatedNestedMessage.length);
|
| - assertEquals(nestedMsg0.bb, newMsg.repeatedNestedMessage[0].bb);
|
| - assertEquals(nestedMsg1.bb, newMsg.repeatedNestedMessage[1].bb);
|
| - assertEquals(nestedMsg2.bb, newMsg.repeatedNestedMessage[2].bb);
|
| - }
|
| -
|
| - /**
|
| - * Tests that invalid enum values from the wire are not accepted.
|
| - */
|
| - public void testNanoEnumValidity() throws Exception {
|
| - final int invalid = 120;
|
| - final int alsoInvalid = 121;
|
| -
|
| - EnumValidity.M m = new EnumValidity.M();
|
| - // Sanity check & baseline of the assertions for the first case below.
|
| - assertEquals(EnumValidity.E.default_, m.optionalE);
|
| - assertEquals(EnumValidity.E.BAZ, m.defaultE);
|
| -
|
| - m.optionalE = invalid;
|
| - m.defaultE = invalid;
|
| - // E contains all valid values
|
| - m.repeatedE = new int[] {EnumValidity.E.FOO, EnumValidity.E.BAR};
|
| - m.packedE = new int[] {EnumValidity.E.FOO, EnumValidity.E.BAZ};
|
| - // E2 contains some invalid values
|
| - m.repeatedE2 = new int[] {invalid, EnumValidity.E.BAR, alsoInvalid};
|
| - m.packedE2 = new int[] {EnumValidity.E.FOO, invalid, alsoInvalid};
|
| - // E3 contains all invalid values
|
| - m.repeatedE3 = new int[] {invalid, invalid};
|
| - m.packedE3 = new int[] {alsoInvalid, alsoInvalid};
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - // Sanity check that we do have all data in the byte array.
|
| - assertEquals(31, serialized.length);
|
| -
|
| - // Test 1: tests that invalid values aren't included in the deserialized message.
|
| - EnumValidity.M deserialized = MessageNano.mergeFrom(new EnumValidity.M(), serialized);
|
| - assertEquals(EnumValidity.E.default_, deserialized.optionalE);
|
| - assertEquals(EnumValidity.E.BAZ, deserialized.defaultE);
|
| - assertTrue(Arrays.equals(
|
| - new int[] {EnumValidity.E.FOO, EnumValidity.E.BAR}, deserialized.repeatedE));
|
| - assertTrue(Arrays.equals(
|
| - new int[] {EnumValidity.E.FOO, EnumValidity.E.BAZ}, deserialized.packedE));
|
| - assertTrue(Arrays.equals(
|
| - new int[] {EnumValidity.E.BAR}, deserialized.repeatedE2));
|
| - assertTrue(Arrays.equals(
|
| - new int[] {EnumValidity.E.FOO}, deserialized.packedE2));
|
| - assertEquals(0, deserialized.repeatedE3.length);
|
| - assertEquals(0, deserialized.packedE3.length);
|
| -
|
| - // Test 2: tests that invalid values do not override previous values in the field, including
|
| - // arrays, including pre-existing invalid values.
|
| - deserialized.optionalE = EnumValidity.E.BAR;
|
| - deserialized.defaultE = alsoInvalid;
|
| - deserialized.repeatedE = new int[] {EnumValidity.E.BAZ};
|
| - deserialized.packedE = new int[] {EnumValidity.E.BAZ, alsoInvalid};
|
| - deserialized.repeatedE2 = new int[] {invalid, alsoInvalid};
|
| - deserialized.packedE2 = null;
|
| - deserialized.repeatedE3 = null;
|
| - deserialized.packedE3 = new int[0];
|
| - MessageNano.mergeFrom(deserialized, serialized);
|
| - assertEquals(EnumValidity.E.BAR, deserialized.optionalE);
|
| - assertEquals(alsoInvalid, deserialized.defaultE);
|
| - assertTrue(Arrays.equals(
|
| - new int[] {EnumValidity.E.BAZ, /* + */ EnumValidity.E.FOO, EnumValidity.E.BAR},
|
| - deserialized.repeatedE));
|
| - assertTrue(Arrays.equals(
|
| - new int[] {EnumValidity.E.BAZ, alsoInvalid, /* + */ EnumValidity.E.FOO, EnumValidity.E.BAZ},
|
| - deserialized.packedE));
|
| - assertTrue(Arrays.equals(
|
| - new int[] {invalid, alsoInvalid, /* + */ EnumValidity.E.BAR},
|
| - deserialized.repeatedE2));
|
| - assertTrue(Arrays.equals(
|
| - new int[] {/* <null> + */ EnumValidity.E.FOO},
|
| - deserialized.packedE2));
|
| - assertNull(deserialized.repeatedE3); // null + all invalid == null
|
| - assertEquals(0, deserialized.packedE3.length); // empty + all invalid == empty
|
| -
|
| - // Test 3: reading by alternative forms
|
| - EnumValidity.Alt alt = MessageNano.mergeFrom(new EnumValidity.Alt(), serialized);
|
| - assertEquals(EnumValidity.E.BAR, // last valid value in m.repeatedE2
|
| - alt.repeatedE2AsOptional);
|
| - assertTrue(Arrays.equals(new int[] {EnumValidity.E.FOO}, alt.packedE2AsNonPacked));
|
| - assertEquals(0, alt.nonPackedE3AsPacked.length);
|
| - }
|
| -
|
| - /**
|
| - * Tests the same as {@link #testNanoEnumValidity()} with accessor style. Repeated fields are
|
| - * not re-tested here because they are not affected by the accessor style.
|
| - */
|
| - public void testNanoEnumValidityAccessors() throws Exception {
|
| - final int invalid = 120;
|
| - final int alsoInvalid = 121;
|
| -
|
| - EnumValidityAccessors.M m = new EnumValidityAccessors.M();
|
| - // Sanity check & baseline of the assertions for the first case below.
|
| - assertEquals(EnumValidityAccessors.default_, m.getOptionalE());
|
| - assertEquals(EnumValidityAccessors.BAZ, m.getDefaultE());
|
| -
|
| - m.setOptionalE(invalid);
|
| - m.setDefaultE(invalid);
|
| - // Set repeatedE2 for Alt.repeatedE2AsOptional
|
| - m.repeatedE2 = new int[] {invalid, EnumValidityAccessors.BAR, alsoInvalid};
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - // Sanity check that we do have all data in the byte array.
|
| - assertEquals(10, serialized.length);
|
| -
|
| - // Test 1: tests that invalid values aren't included in the deserialized message.
|
| - EnumValidityAccessors.M deserialized =
|
| - MessageNano.mergeFrom(new EnumValidityAccessors.M(), serialized);
|
| - assertEquals(EnumValidityAccessors.default_, deserialized.getOptionalE());
|
| - assertEquals(EnumValidityAccessors.BAZ, deserialized.getDefaultE());
|
| -
|
| - // Test 2: tests that invalid values do not override previous values in the field, including
|
| - // pre-existing invalid values.
|
| - deserialized.setOptionalE(EnumValidityAccessors.BAR);
|
| - deserialized.setDefaultE(alsoInvalid);
|
| - MessageNano.mergeFrom(deserialized, serialized);
|
| - assertEquals(EnumValidityAccessors.BAR, deserialized.getOptionalE());
|
| - assertEquals(alsoInvalid, deserialized.getDefaultE());
|
| -
|
| - // Test 3: reading by alternative forms
|
| - EnumValidityAccessors.Alt alt =
|
| - MessageNano.mergeFrom(new EnumValidityAccessors.Alt(), serialized);
|
| - assertEquals(EnumValidityAccessors.BAR, // last valid value in m.repeatedE2
|
| - alt.getRepeatedE2AsOptional());
|
| - }
|
| -
|
| - /**
|
| - * Tests that code generation correctly wraps a single message into its outer
|
| - * class. The class {@code SingleMessageNano} is imported from the outer
|
| - * class {@code UnittestSingleNano}, whose name is implicit. Any error would
|
| - * cause this method to fail compilation.
|
| - */
|
| - public void testNanoSingle() throws Exception {
|
| - SingleMessageNano msg = new SingleMessageNano();
|
| - assertNotNull(msg);
|
| - }
|
| -
|
| - /**
|
| - * Tests that code generation correctly skips generating the outer class if
|
| - * unnecessary, letting a file-scope entity have the same name. The class
|
| - * {@code MultipleNameClashNano} shares the same name with the file's outer
|
| - * class defined explicitly, but the file contains no other entities and has
|
| - * java_multiple_files set. Any error would cause this method to fail
|
| - * compilation.
|
| - */
|
| - public void testNanoMultipleNameClash() throws Exception {
|
| - MultipleNameClashNano msg = new MultipleNameClashNano();
|
| - msg.field = 0;
|
| - }
|
| -
|
| - /**
|
| - * Tests that code generation correctly handles enums in different scopes in
|
| - * a source file with the option java_multiple_files set to true. Any error
|
| - * would cause this method to fail compilation.
|
| - */
|
| - public void testNanoMultipleEnumScoping() throws Exception {
|
| - FileScopeEnumRefNano msg1 = new FileScopeEnumRefNano();
|
| - msg1.enumField = UnittestMultipleNano.ONE;
|
| - MessageScopeEnumRefNano msg2 = new MessageScopeEnumRefNano();
|
| - msg2.enumField = MessageScopeEnumRefNano.TWO;
|
| - }
|
| -
|
| - /**
|
| - * Tests that code generation with mixed values of the java_multiple_files
|
| - * options between the main source file and the imported source files would
|
| - * generate correct references. Any error would cause this method to fail
|
| - * compilation.
|
| - */
|
| - public void testNanoMultipleImportingNonMultiple() throws Exception {
|
| - UnittestImportNano.ImportMessageNano importMsg = new UnittestImportNano.ImportMessageNano();
|
| - MultipleImportingNonMultipleNano1 nano1 = new MultipleImportingNonMultipleNano1();
|
| - nano1.field = importMsg;
|
| - MultipleImportingNonMultipleNano2 nano2 = new MultipleImportingNonMultipleNano2();
|
| - nano2.nano1 = nano1;
|
| - }
|
| -
|
| - public void testNanoDefaults() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - for (int i = 0; i < 2; i++) {
|
| - assertEquals(41, msg.defaultInt32);
|
| - assertEquals(42, msg.defaultInt64);
|
| - assertEquals(43, msg.defaultUint32);
|
| - assertEquals(44, msg.defaultUint64);
|
| - assertEquals(-45, msg.defaultSint32);
|
| - assertEquals(46, msg.defaultSint64);
|
| - assertEquals(47, msg.defaultFixed32);
|
| - assertEquals(48, msg.defaultFixed64);
|
| - assertEquals(49, msg.defaultSfixed32);
|
| - assertEquals(-50, msg.defaultSfixed64);
|
| - assertTrue(51.5f == msg.defaultFloat);
|
| - assertTrue(52.0e3 == msg.defaultDouble);
|
| - assertEquals(true, msg.defaultBool);
|
| - assertEquals("hello", msg.defaultString);
|
| - assertEquals("world", new String(msg.defaultBytes, InternalNano.UTF_8));
|
| - assertEquals("dünya", msg.defaultStringNonascii);
|
| - assertEquals("dünyab", new String(msg.defaultBytesNonascii, InternalNano.UTF_8));
|
| - assertEquals(TestAllTypesNano.BAR, msg.defaultNestedEnum);
|
| - assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.defaultForeignEnum);
|
| - assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.defaultImportEnum);
|
| - assertEquals(Float.POSITIVE_INFINITY, msg.defaultFloatInf);
|
| - assertEquals(Float.NEGATIVE_INFINITY, msg.defaultFloatNegInf);
|
| - assertEquals(Float.NaN, msg.defaultFloatNan);
|
| - assertEquals(Double.POSITIVE_INFINITY, msg.defaultDoubleInf);
|
| - assertEquals(Double.NEGATIVE_INFINITY, msg.defaultDoubleNegInf);
|
| - assertEquals(Double.NaN, msg.defaultDoubleNan);
|
| -
|
| - // Default values are not output, except for required fields.
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 3);
|
| - assertEquals(result.length, msgSerializedSize);
|
| - msg.clear();
|
| - }
|
| - }
|
| -
|
| - public void testDifferentStringLengthsNano() throws Exception {
|
| - // Test string serialization roundtrip using strings of the following lengths,
|
| - // with ASCII and Unicode characters requiring different UTF-8 byte counts per
|
| - // char, hence causing the length delimiter varint to sometimes require more
|
| - // bytes for the Unicode strings than the ASCII string of the same length.
|
| - int[] lengths = new int[] {
|
| - 0,
|
| - 1,
|
| - (1 << 4) - 1, // 1 byte for ASCII and Unicode
|
| - (1 << 7) - 1, // 1 byte for ASCII, 2 bytes for Unicode
|
| - (1 << 11) - 1, // 2 bytes for ASCII and Unicode
|
| - (1 << 14) - 1, // 2 bytes for ASCII, 3 bytes for Unicode
|
| - (1 << 17) - 1, // 3 bytes for ASCII and Unicode
|
| - };
|
| - for (int i : lengths) {
|
| - testEncodingOfString('q', i); // 1 byte per char
|
| - testEncodingOfString('\u07FF', i); // 2 bytes per char
|
| - testEncodingOfString('\u0981', i); // 3 bytes per char
|
| - }
|
| - }
|
| -
|
| - /** Regression test for https://github.com/google/protobuf/issues/292 */
|
| - public void testCorrectExceptionThrowWhenEncodingStringsWithoutEnoughSpace() throws Exception {
|
| - String testCase = "Foooooooo";
|
| - assertEquals(CodedOutputByteBufferNano.computeRawVarint32Size(testCase.length()),
|
| - CodedOutputByteBufferNano.computeRawVarint32Size(testCase.length() * 3));
|
| - assertEquals(11, CodedOutputByteBufferNano.computeStringSize(1, testCase));
|
| - // Tag is one byte, varint describing string length is 1 byte, string length is 9 bytes.
|
| - // An array of size 1 will cause a failure when trying to write the varint.
|
| - for (int i = 0; i < 11; i++) {
|
| - CodedOutputByteBufferNano bufferNano = CodedOutputByteBufferNano.newInstance(new byte[i]);
|
| - try {
|
| - bufferNano.writeString(1, testCase);
|
| - fail("Should have thrown an out of space exception");
|
| - } catch (CodedOutputByteBufferNano.OutOfSpaceException expected) {}
|
| - }
|
| - }
|
| -
|
| - private void testEncodingOfString(char c, int length) throws InvalidProtocolBufferNanoException {
|
| - TestAllTypesNano testAllTypesNano = new TestAllTypesNano();
|
| - final String fullString = fullString(c, length);
|
| - testAllTypesNano.optionalString = fullString;
|
| - final TestAllTypesNano resultNano = new TestAllTypesNano();
|
| - MessageNano.mergeFrom(resultNano, MessageNano.toByteArray(testAllTypesNano));
|
| - assertEquals(fullString, resultNano.optionalString);
|
| - }
|
| -
|
| - private String fullString(char c, int length) {
|
| - char[] result = new char[length];
|
| - Arrays.fill(result, c);
|
| - return new String(result);
|
| - }
|
| -
|
| - public void testNanoWithHasParseFrom() throws Exception {
|
| - TestAllTypesNanoHas msg = null;
|
| - // Test false on creation, after clear and upon empty parse.
|
| - for (int i = 0; i < 3; i++) {
|
| - if (i == 0) {
|
| - msg = new TestAllTypesNanoHas();
|
| - } else if (i == 1) {
|
| - msg.clear();
|
| - } else if (i == 2) {
|
| - msg = TestAllTypesNanoHas.parseFrom(new byte[0]);
|
| - }
|
| - assertFalse(msg.hasOptionalInt32);
|
| - assertFalse(msg.hasOptionalString);
|
| - assertFalse(msg.hasOptionalBytes);
|
| - assertFalse(msg.hasOptionalNestedEnum);
|
| - assertFalse(msg.hasDefaultInt32);
|
| - assertFalse(msg.hasDefaultString);
|
| - assertFalse(msg.hasDefaultBytes);
|
| - assertFalse(msg.hasDefaultFloatNan);
|
| - assertFalse(msg.hasDefaultNestedEnum);
|
| - assertFalse(msg.hasId);
|
| - assertFalse(msg.hasRequiredEnum);
|
| - msg.optionalInt32 = 123;
|
| - msg.optionalNestedMessage = new TestAllTypesNanoHas.NestedMessage();
|
| - msg.optionalNestedMessage.bb = 2;
|
| - msg.optionalNestedEnum = TestAllTypesNano.BAZ;
|
| - }
|
| -
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 10);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - // Has fields true upon parse.
|
| - TestAllTypesNanoHas newMsg = TestAllTypesNanoHas.parseFrom(result);
|
| - assertEquals(123, newMsg.optionalInt32);
|
| - assertTrue(newMsg.hasOptionalInt32);
|
| - assertEquals(2, newMsg.optionalNestedMessage.bb);
|
| - assertTrue(newMsg.optionalNestedMessage.hasBb);
|
| - assertEquals(TestAllTypesNanoHas.BAZ, newMsg.optionalNestedEnum);
|
| - assertTrue(newMsg.hasOptionalNestedEnum);
|
| - }
|
| -
|
| - public void testNanoWithHasSerialize() throws Exception {
|
| - TestAllTypesNanoHas msg = new TestAllTypesNanoHas();
|
| - msg.hasOptionalInt32 = true;
|
| - msg.hasOptionalString = true;
|
| - msg.hasOptionalBytes = true;
|
| - msg.optionalNestedMessage = new TestAllTypesNanoHas.NestedMessage();
|
| - msg.optionalNestedMessage.hasBb = true;
|
| - msg.hasOptionalNestedEnum = true;
|
| - msg.hasDefaultInt32 = true;
|
| - msg.hasDefaultString = true;
|
| - msg.hasDefaultBytes = true;
|
| - msg.hasDefaultFloatNan = true;
|
| - msg.hasDefaultNestedEnum = true;
|
| - msg.hasId = true;
|
| - msg.hasRequiredEnum = true;
|
| -
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - // Now deserialize and find that all fields are set and equal to their defaults.
|
| - TestAllTypesNanoHas newMsg = TestAllTypesNanoHas.parseFrom(result);
|
| - assertTrue(newMsg.hasOptionalInt32);
|
| - assertTrue(newMsg.hasOptionalString);
|
| - assertTrue(newMsg.hasOptionalBytes);
|
| - assertTrue(newMsg.optionalNestedMessage.hasBb);
|
| - assertTrue(newMsg.hasOptionalNestedEnum);
|
| - assertTrue(newMsg.hasDefaultInt32);
|
| - assertTrue(newMsg.hasDefaultString);
|
| - assertTrue(newMsg.hasDefaultBytes);
|
| - assertTrue(newMsg.hasDefaultFloatNan);
|
| - assertTrue(newMsg.hasDefaultNestedEnum);
|
| - assertTrue(newMsg.hasId);
|
| - assertTrue(newMsg.hasRequiredEnum);
|
| - assertEquals(0, newMsg.optionalInt32);
|
| - assertEquals(0, newMsg.optionalString.length());
|
| - assertEquals(0, newMsg.optionalBytes.length);
|
| - assertEquals(0, newMsg.optionalNestedMessage.bb);
|
| - assertEquals(TestAllTypesNanoHas.FOO, newMsg.optionalNestedEnum);
|
| - assertEquals(41, newMsg.defaultInt32);
|
| - assertEquals("hello", newMsg.defaultString);
|
| - assertEquals("world", new String(newMsg.defaultBytes, InternalNano.UTF_8));
|
| - assertEquals(TestAllTypesNanoHas.BAR, newMsg.defaultNestedEnum);
|
| - assertEquals(Float.NaN, newMsg.defaultFloatNan);
|
| - assertEquals(0, newMsg.id);
|
| - assertEquals(TestAllTypesNanoHas.FOO, newMsg.requiredEnum);
|
| - }
|
| -
|
| - public void testNanoWithAccessorsBasic() throws Exception {
|
| - TestNanoAccessors msg = new TestNanoAccessors();
|
| -
|
| - // Makes sure required, repeated, and message fields are still public
|
| - msg.id = 3;
|
| - msg.repeatedBytes = new byte[2][3];
|
| - msg.optionalNestedMessage = null;
|
| -
|
| - // Test accessors
|
| - assertEquals(0, msg.getOptionalInt32());
|
| - assertFalse(msg.hasOptionalInt32());
|
| - msg.setOptionalInt32(135);
|
| - assertEquals(135, msg.getOptionalInt32());
|
| - assertTrue(msg.hasOptionalInt32());
|
| - msg.clearOptionalInt32();
|
| - assertFalse(msg.hasOptionalInt32());
|
| - msg.setOptionalInt32(0); // default value
|
| - assertTrue(msg.hasOptionalInt32());
|
| -
|
| - // Test NPE
|
| - try {
|
| - msg.setOptionalBytes(null);
|
| - fail();
|
| - } catch (NullPointerException expected) {}
|
| - try {
|
| - msg.setOptionalString(null);
|
| - fail();
|
| - } catch (NullPointerException expected) {}
|
| -
|
| - // Test has bit on bytes field with defaults and clear() re-clones the default array
|
| - assertFalse(msg.hasDefaultBytes());
|
| - byte[] defaultBytes = msg.getDefaultBytes();
|
| - msg.setDefaultBytes(defaultBytes);
|
| - assertTrue(msg.hasDefaultBytes());
|
| - msg.clearDefaultBytes();
|
| - assertFalse(msg.hasDefaultBytes());
|
| - defaultBytes[0]++; // modify original array
|
| - assertFalse(Arrays.equals(defaultBytes, msg.getDefaultBytes()));
|
| -
|
| - // Test has bits that require additional bit fields
|
| - assertFalse(msg.hasBitFieldCheck());
|
| - msg.setBitFieldCheck(0);
|
| - assertTrue(msg.hasBitFieldCheck());
|
| - assertFalse(msg.hasBeforeBitFieldCheck()); // checks bit field does not leak
|
| - assertFalse(msg.hasAfterBitFieldCheck());
|
| -
|
| - // Test clear() clears has bits
|
| - msg.setOptionalString("hi");
|
| - msg.setDefaultString("there");
|
| - msg.clear();
|
| - assertFalse(msg.hasOptionalString());
|
| - assertFalse(msg.hasDefaultString());
|
| - assertFalse(msg.hasBitFieldCheck());
|
| -
|
| - // Test set() and clear() returns itself (compiles = success)
|
| - msg.clear()
|
| - .setOptionalInt32(3)
|
| - .clearDefaultBytes()
|
| - .setOptionalString("4");
|
| - }
|
| -
|
| - public void testNanoWithAccessorsParseFrom() throws Exception {
|
| - TestNanoAccessors msg = null;
|
| - // Test false on creation, after clear and upon empty parse.
|
| - for (int i = 0; i < 3; i++) {
|
| - if (i == 0) {
|
| - msg = new TestNanoAccessors();
|
| - } else if (i == 1) {
|
| - msg.clear();
|
| - } else if (i == 2) {
|
| - msg = TestNanoAccessors.parseFrom(new byte[0]);
|
| - }
|
| - assertFalse(msg.hasOptionalInt32());
|
| - assertFalse(msg.hasOptionalString());
|
| - assertFalse(msg.hasOptionalBytes());
|
| - assertFalse(msg.hasOptionalNestedEnum());
|
| - assertFalse(msg.hasDefaultInt32());
|
| - assertFalse(msg.hasDefaultString());
|
| - assertFalse(msg.hasDefaultBytes());
|
| - assertFalse(msg.hasDefaultFloatNan());
|
| - assertFalse(msg.hasDefaultNestedEnum());
|
| - msg.optionalNestedMessage = new TestNanoAccessors.NestedMessage();
|
| - msg.optionalNestedMessage.setBb(2);
|
| - msg.setOptionalNestedEnum(TestNanoAccessors.BAZ);
|
| - msg.setDefaultInt32(msg.getDefaultInt32());
|
| - }
|
| -
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length);
|
| - assertTrue(msgSerializedSize == 14);
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - // Has fields true upon parse.
|
| - TestNanoAccessors newMsg = TestNanoAccessors.parseFrom(result);
|
| - assertEquals(2, newMsg.optionalNestedMessage.getBb());
|
| - assertTrue(newMsg.optionalNestedMessage.hasBb());
|
| - assertEquals(TestNanoAccessors.BAZ, newMsg.getOptionalNestedEnum());
|
| - assertTrue(newMsg.hasOptionalNestedEnum());
|
| -
|
| - // Has field true on fields with explicit default values from wire.
|
| - assertTrue(newMsg.hasDefaultInt32());
|
| - assertEquals(41, newMsg.getDefaultInt32());
|
| - }
|
| -
|
| - public void testNanoWithAccessorsPublicFieldTypes() throws Exception {
|
| - TestNanoAccessors msg = new TestNanoAccessors();
|
| - assertNull(msg.optionalNestedMessage);
|
| - assertEquals(0, msg.id);
|
| - assertEquals(0, msg.repeatedNestedEnum.length);
|
| -
|
| - TestNanoAccessors newMsg = TestNanoAccessors.parseFrom(MessageNano.toByteArray(msg));
|
| - assertNull(newMsg.optionalNestedMessage);
|
| - assertEquals(0, newMsg.id);
|
| - assertEquals(0, newMsg.repeatedNestedEnum.length);
|
| -
|
| - TestNanoAccessors.NestedMessage nestedMessage = new TestNanoAccessors.NestedMessage();
|
| - nestedMessage.setBb(5);
|
| - newMsg.optionalNestedMessage = nestedMessage;
|
| - newMsg.id = -1;
|
| - newMsg.repeatedNestedEnum = new int[] { TestAllTypesNano.FOO };
|
| -
|
| - TestNanoAccessors newMsg2 = TestNanoAccessors.parseFrom(MessageNano.toByteArray(newMsg));
|
| - assertEquals(nestedMessage.getBb(), newMsg2.optionalNestedMessage.getBb());
|
| - assertEquals(-1, newMsg2.id);
|
| - assertEquals(TestAllTypesNano.FOO, newMsg2.repeatedNestedEnum[0]);
|
| -
|
| - newMsg2.optionalNestedMessage = null;
|
| - newMsg2.id = 0;
|
| - newMsg2.repeatedNestedEnum = null;
|
| -
|
| - TestNanoAccessors newMsg3 = TestNanoAccessors.parseFrom(MessageNano.toByteArray(newMsg2));
|
| - assertNull(newMsg3.optionalNestedMessage);
|
| - assertEquals(0, newMsg3.id);
|
| - assertEquals(0, newMsg3.repeatedNestedEnum.length);
|
| - }
|
| -
|
| - public void testNanoWithAccessorsSerialize() throws Exception {
|
| - TestNanoAccessors msg = new TestNanoAccessors();
|
| - msg.setOptionalInt32(msg.getOptionalInt32());
|
| - msg.setOptionalString(msg.getOptionalString());
|
| - msg.setOptionalBytes(msg.getOptionalBytes());
|
| - TestNanoAccessors.NestedMessage nestedMessage = new TestNanoAccessors.NestedMessage();
|
| - nestedMessage.setBb(nestedMessage.getBb());
|
| - msg.optionalNestedMessage = nestedMessage;
|
| - msg.setOptionalNestedEnum(msg.getOptionalNestedEnum());
|
| - msg.setDefaultInt32(msg.getDefaultInt32());
|
| - msg.setDefaultString(msg.getDefaultString());
|
| - msg.setDefaultBytes(msg.getDefaultBytes());
|
| - msg.setDefaultFloatNan(msg.getDefaultFloatNan());
|
| - msg.setDefaultNestedEnum(msg.getDefaultNestedEnum());
|
| -
|
| - byte [] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - assertEquals(result.length, msgSerializedSize);
|
| -
|
| - // Now deserialize and find that all fields are set and equal to their defaults.
|
| - TestNanoAccessors newMsg = TestNanoAccessors.parseFrom(result);
|
| - assertTrue(newMsg.hasOptionalInt32());
|
| - assertTrue(newMsg.hasOptionalString());
|
| - assertTrue(newMsg.hasOptionalBytes());
|
| - assertTrue(newMsg.optionalNestedMessage.hasBb());
|
| - assertTrue(newMsg.hasOptionalNestedEnum());
|
| - assertTrue(newMsg.hasDefaultInt32());
|
| - assertTrue(newMsg.hasDefaultString());
|
| - assertTrue(newMsg.hasDefaultBytes());
|
| - assertTrue(newMsg.hasDefaultFloatNan());
|
| - assertTrue(newMsg.hasDefaultNestedEnum());
|
| - assertEquals(0, newMsg.getOptionalInt32());
|
| - assertEquals(0, newMsg.getOptionalString().length());
|
| - assertEquals(0, newMsg.getOptionalBytes().length);
|
| - assertEquals(0, newMsg.optionalNestedMessage.getBb());
|
| - assertEquals(TestNanoAccessors.FOO, newMsg.getOptionalNestedEnum());
|
| - assertEquals(41, newMsg.getDefaultInt32());
|
| - assertEquals("hello", newMsg.getDefaultString());
|
| - assertEquals("world", new String(newMsg.getDefaultBytes(), InternalNano.UTF_8));
|
| - assertEquals(TestNanoAccessors.BAR, newMsg.getDefaultNestedEnum());
|
| - assertEquals(Float.NaN, newMsg.getDefaultFloatNan());
|
| - assertEquals(0, newMsg.id);
|
| - }
|
| -
|
| - public void testNanoJavaEnumStyle() throws Exception {
|
| - EnumClassNanos.EnumClassNano msg = new EnumClassNanos.EnumClassNano();
|
| - assertEquals(EnumClassNanos.FileScopeEnum.ONE, msg.one);
|
| - assertEquals(EnumClassNanos.EnumClassNano.MessageScopeEnum.TWO, msg.two);
|
| -
|
| - EnumClassNanoMultiple msg2 = new EnumClassNanoMultiple();
|
| - assertEquals(FileScopeEnumMultiple.THREE, msg2.three);
|
| - assertEquals(EnumClassNanoMultiple.MessageScopeEnumMultiple.FOUR, msg2.four);
|
| - }
|
| -
|
| - /**
|
| - * Tests that fields with a default value of NaN are not serialized when
|
| - * set to NaN. This is a special case as NaN != NaN, so normal equality
|
| - * checks don't work.
|
| - */
|
| - public void testNanoNotANumberDefaults() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.defaultDoubleNan = 0;
|
| - msg.defaultFloatNan = 0;
|
| - byte[] result = MessageNano.toByteArray(msg);
|
| - int msgSerializedSize = msg.getSerializedSize();
|
| - assertTrue(result.length == msgSerializedSize);
|
| - assertTrue(msgSerializedSize > 3);
|
| -
|
| - msg.defaultDoubleNan = Double.NaN;
|
| - msg.defaultFloatNan = Float.NaN;
|
| - result = MessageNano.toByteArray(msg);
|
| - msgSerializedSize = msg.getSerializedSize();
|
| - assertEquals(3, result.length);
|
| - assertEquals(3, msgSerializedSize);
|
| - }
|
| -
|
| - /**
|
| - * Test that a bug in skipRawBytes() has been fixed: if the skip skips
|
| - * exactly up to a limit, this should not break things.
|
| - */
|
| - public void testSkipRawBytesBug() throws Exception {
|
| - byte[] rawBytes = new byte[] { 1, 2 };
|
| - CodedInputByteBufferNano input = CodedInputByteBufferNano.newInstance(rawBytes);
|
| -
|
| - int limit = input.pushLimit(1);
|
| - input.skipRawBytes(1);
|
| - input.popLimit(limit);
|
| - assertEquals(2, input.readRawByte());
|
| - }
|
| -
|
| - /**
|
| - * Test that a bug in skipRawBytes() has been fixed: if the skip skips
|
| - * past the end of a buffer with a limit that has been set past the end of
|
| - * that buffer, this should not break things.
|
| - */
|
| - public void testSkipRawBytesPastEndOfBufferWithLimit() throws Exception {
|
| - byte[] rawBytes = new byte[] { 1, 2, 3, 4, 5 };
|
| - CodedInputByteBufferNano input = CodedInputByteBufferNano.newInstance(rawBytes);
|
| -
|
| - int limit = input.pushLimit(4);
|
| - // In order to expose the bug we need to read at least one byte to prime the
|
| - // buffer inside the CodedInputStream.
|
| - assertEquals(1, input.readRawByte());
|
| - // Skip to the end of the limit.
|
| - input.skipRawBytes(3);
|
| - assertTrue(input.isAtEnd());
|
| - input.popLimit(limit);
|
| - assertEquals(5, input.readRawByte());
|
| - }
|
| -
|
| - // Test a smattering of various proto types for printing
|
| - public void testMessageNanoPrinter() {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.optionalInt32 = 14;
|
| - msg.optionalFloat = 42.3f;
|
| - msg.optionalString = "String \"with' both quotes";
|
| - msg.optionalBytes = new byte[] {'"', '\0', 1, 8};
|
| - msg.optionalGroup = new TestAllTypesNano.OptionalGroup();
|
| - msg.optionalGroup.a = 15;
|
| - msg.repeatedInt64 = new long[2];
|
| - msg.repeatedInt64[0] = 1L;
|
| - msg.repeatedInt64[1] = -1L;
|
| - msg.repeatedBytes = new byte[2][];
|
| - msg.repeatedBytes[1] = new byte[] {'h', 'e', 'l', 'l', 'o'};
|
| - msg.repeatedGroup = new TestAllTypesNano.RepeatedGroup[2];
|
| - msg.repeatedGroup[0] = new TestAllTypesNano.RepeatedGroup();
|
| - msg.repeatedGroup[0].a = -27;
|
| - msg.repeatedGroup[1] = new TestAllTypesNano.RepeatedGroup();
|
| - msg.repeatedGroup[1].a = -72;
|
| - msg.optionalNestedMessage = new TestAllTypesNano.NestedMessage();
|
| - msg.optionalNestedMessage.bb = 7;
|
| - msg.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[2];
|
| - msg.repeatedNestedMessage[0] = new TestAllTypesNano.NestedMessage();
|
| - msg.repeatedNestedMessage[0].bb = 77;
|
| - msg.repeatedNestedMessage[1] = new TestAllTypesNano.NestedMessage();
|
| - msg.repeatedNestedMessage[1].bb = 88;
|
| - msg.optionalNestedEnum = TestAllTypesNano.BAZ;
|
| - msg.repeatedNestedEnum = new int[2];
|
| - msg.repeatedNestedEnum[0] = TestAllTypesNano.BAR;
|
| - msg.repeatedNestedEnum[1] = TestAllTypesNano.FOO;
|
| - msg.repeatedStringPiece = new String[] {null, "world"};
|
| - msg.setOneofString("hello");
|
| -
|
| - String protoPrint = msg.toString();
|
| - assertTrue(protoPrint.contains("optional_int32: 14"));
|
| - assertTrue(protoPrint.contains("optional_float: 42.3"));
|
| - assertTrue(protoPrint.contains("optional_double: 0.0"));
|
| - assertTrue(protoPrint.contains("optional_string: \"String \\u0022with\\u0027 both quotes\""));
|
| - assertTrue(protoPrint.contains("optional_bytes: \"\\\"\\000\\001\\010\""));
|
| - assertTrue(protoPrint.contains("optional_group <\n a: 15\n>"));
|
| -
|
| - assertTrue(protoPrint.contains("repeated_int64: 1\nrepeated_int64: -1"));
|
| - assertFalse(protoPrint.contains("repeated_bytes: \"\"")); // null should be dropped
|
| - assertTrue(protoPrint.contains("repeated_bytes: \"hello\""));
|
| - assertTrue(protoPrint.contains("repeated_group <\n a: -27\n>\n"
|
| - + "repeated_group <\n a: -72\n>"));
|
| - assertTrue(protoPrint.contains("optional_nested_message <\n bb: 7\n>"));
|
| - assertTrue(protoPrint.contains("repeated_nested_message <\n bb: 77\n>\n"
|
| - + "repeated_nested_message <\n bb: 88\n>"));
|
| - assertTrue(protoPrint.contains("optional_nested_enum: 3"));
|
| - assertTrue(protoPrint.contains("repeated_nested_enum: 2\nrepeated_nested_enum: 1"));
|
| - assertTrue(protoPrint.contains("default_int32: 41"));
|
| - assertTrue(protoPrint.contains("default_string: \"hello\""));
|
| - assertFalse(protoPrint.contains("repeated_string_piece: \"\"")); // null should be dropped
|
| - assertTrue(protoPrint.contains("repeated_string_piece: \"world\""));
|
| - assertTrue(protoPrint.contains("oneof_string: \"hello\""));
|
| - }
|
| -
|
| - public void testMessageNanoPrinterAccessors() throws Exception {
|
| - TestNanoAccessors msg = new TestNanoAccessors();
|
| - msg.setOptionalInt32(13);
|
| - msg.setOptionalString("foo");
|
| - msg.setOptionalBytes(new byte[] {'"', '\0', 1, 8});
|
| - msg.optionalNestedMessage = new TestNanoAccessors.NestedMessage();
|
| - msg.optionalNestedMessage.setBb(7);
|
| - msg.setOptionalNestedEnum(TestNanoAccessors.BAZ);
|
| - msg.repeatedInt32 = new int[] { 1, -1 };
|
| - msg.repeatedString = new String[] { "Hello", "world" };
|
| - msg.repeatedBytes = new byte[2][];
|
| - msg.repeatedBytes[1] = new byte[] {'h', 'e', 'l', 'l', 'o'};
|
| - msg.repeatedNestedMessage = new TestNanoAccessors.NestedMessage[2];
|
| - msg.repeatedNestedMessage[0] = new TestNanoAccessors.NestedMessage();
|
| - msg.repeatedNestedMessage[0].setBb(5);
|
| - msg.repeatedNestedMessage[1] = new TestNanoAccessors.NestedMessage();
|
| - msg.repeatedNestedMessage[1].setBb(6);
|
| - msg.repeatedNestedEnum = new int[] { TestNanoAccessors.FOO, TestNanoAccessors.BAR };
|
| - msg.id = 33;
|
| -
|
| - String protoPrint = msg.toString();
|
| - assertTrue(protoPrint.contains("optional_int32: 13"));
|
| - assertTrue(protoPrint.contains("optional_string: \"foo\""));
|
| - assertTrue(protoPrint.contains("optional_bytes: \"\\\"\\000\\001\\010\""));
|
| - assertTrue(protoPrint.contains("optional_nested_message <\n bb: 7\n>"));
|
| - assertTrue(protoPrint.contains("optional_nested_enum: 3"));
|
| - assertTrue(protoPrint.contains("repeated_int32: 1\nrepeated_int32: -1"));
|
| - assertTrue(protoPrint.contains("repeated_string: \"Hello\"\nrepeated_string: \"world\""));
|
| - assertFalse(protoPrint.contains("repeated_bytes: \"\"")); // null should be dropped
|
| - assertTrue(protoPrint.contains("repeated_bytes: \"hello\""));
|
| - assertTrue(protoPrint.contains("repeated_nested_message <\n bb: 5\n>\n"
|
| - + "repeated_nested_message <\n bb: 6\n>"));
|
| - assertTrue(protoPrint.contains("repeated_nested_enum: 1\nrepeated_nested_enum: 2"));
|
| - assertTrue(protoPrint.contains("id: 33"));
|
| - }
|
| -
|
| - public void testMessageNanoPrinterForMaps() throws Exception {
|
| - TestMap msg = new TestMap();
|
| - MessageValue msgValues[] = new MessageValue[] {
|
| - new MessageValue(), new MessageValue()
|
| - };
|
| - msgValues[0].value = 1;
|
| - msgValues[1].value = 2;
|
| - msg.int32ToBytesField = new HashMap<Integer, byte[]>();
|
| - msg.int32ToBytesField.put(1, new byte[] {'"', '\0'});
|
| - msg.int32ToBytesField.put(2, new byte[] {1, 8});
|
| - msg.stringToInt32Field = new HashMap<String, Integer>();
|
| - msg.stringToInt32Field.put("hello", 1);
|
| - msg.stringToInt32Field.put("world", 2);
|
| - msg.int32ToMessageField = new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - msg.int32ToMessageField.put(0, msgValues[0]);
|
| - msg.int32ToMessageField.put(1, msgValues[1]);
|
| - msg.int32ToEnumField = new HashMap<Integer, Integer>();
|
| - msg.int32ToEnumField.put(1, 2);
|
| - msg.int32ToEnumField.put(2, 3);
|
| - String protoPrint = msg.toString();
|
| -
|
| - assertTrue(protoPrint.contains(
|
| - "int32_to_bytes_field <\n key: 1\n value: \"\\\"\\000\"\n>"));
|
| - assertTrue(protoPrint.contains(
|
| - "int32_to_bytes_field <\n key: 2\n value: \"\\001\\010\"\n>"));
|
| - assertTrue(protoPrint.contains(
|
| - "string_to_int32_field <\n key: \"hello\"\n value: 1\n>"));
|
| - assertTrue(protoPrint.contains(
|
| - "string_to_int32_field <\n key: \"world\"\n value: 2\n>"));
|
| - assertTrue(protoPrint.contains(
|
| - "int32_to_message_field <\n key: 0\n value <\n value: 1\n"));
|
| - assertTrue(protoPrint.contains(
|
| - "int32_to_message_field <\n key: 1\n value <\n value: 2\n"));
|
| - assertTrue(protoPrint.contains(
|
| - "int32_to_enum_field <\n key: 1\n value: 2\n>"));
|
| - assertTrue(protoPrint.contains(
|
| - "int32_to_enum_field <\n key: 2\n value: 3\n>"));
|
| - }
|
| -
|
| - public void testExtensions() throws Exception {
|
| - Extensions.ExtendableMessage message = new Extensions.ExtendableMessage();
|
| - message.field = 5;
|
| - int[] int32s = {1, 2};
|
| - int[] uint32s = {3, 4};
|
| - int[] sint32s = {-5, -6};
|
| - long[] int64s = {7, 8};
|
| - long[] uint64s = {9, 10};
|
| - long[] sint64s = {-11, -12};
|
| - int[] fixed32s = {13, 14};
|
| - int[] sfixed32s = {-15, -16};
|
| - long[] fixed64s = {17, 18};
|
| - long[] sfixed64s = {-19, -20};
|
| - boolean[] bools = {true, false};
|
| - float[] floats = {2.1f, 2.2f};
|
| - double[] doubles = {2.3, 2.4};
|
| - int[] enums = {Extensions.SECOND_VALUE, Extensions.FIRST_VALUE};
|
| - String[] strings = {"vijfentwintig", "twenty-six"};
|
| - byte[][] bytess = {{2, 7}, {2, 8}};
|
| - AnotherMessage another1 = new AnotherMessage();
|
| - another1.string = "er shi jiu";
|
| - another1.value = false;
|
| - AnotherMessage another2 = new AnotherMessage();
|
| - another2.string = "trente";
|
| - another2.value = true;
|
| - AnotherMessage[] messages = {another1, another2};
|
| - RepeatedExtensions.RepeatedGroup group1 = new RepeatedExtensions.RepeatedGroup();
|
| - group1.a = 31;
|
| - RepeatedExtensions.RepeatedGroup group2 = new RepeatedExtensions.RepeatedGroup();
|
| - group2.a = 32;
|
| - RepeatedExtensions.RepeatedGroup[] groups = {group1, group2};
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedInt32));
|
| - message.setExtension(RepeatedExtensions.repeatedInt32, int32s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedInt32));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedUint32));
|
| - message.setExtension(RepeatedExtensions.repeatedUint32, uint32s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedUint32));
|
| - message.setExtension(RepeatedExtensions.repeatedSint32, sint32s);
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedInt64));
|
| - message.setExtension(RepeatedExtensions.repeatedInt64, int64s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedInt64));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedUint64));
|
| - message.setExtension(RepeatedExtensions.repeatedUint64, uint64s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedUint64));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedSint64));
|
| - message.setExtension(RepeatedExtensions.repeatedSint64, sint64s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedSint64));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedFixed32));
|
| - message.setExtension(RepeatedExtensions.repeatedFixed32, fixed32s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedFixed32));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedSfixed32));
|
| - message.setExtension(RepeatedExtensions.repeatedSfixed32, sfixed32s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedSfixed32));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedFixed64));
|
| - message.setExtension(RepeatedExtensions.repeatedFixed64, fixed64s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedFixed64));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedSfixed64));
|
| - message.setExtension(RepeatedExtensions.repeatedSfixed64, sfixed64s);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedSfixed64));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedBool));
|
| - message.setExtension(RepeatedExtensions.repeatedBool, bools);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedBool));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedFloat));
|
| - message.setExtension(RepeatedExtensions.repeatedFloat, floats);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedFloat));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedDouble));
|
| - message.setExtension(RepeatedExtensions.repeatedDouble, doubles);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedDouble));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedEnum));
|
| - message.setExtension(RepeatedExtensions.repeatedEnum, enums);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedEnum));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedString));
|
| - message.setExtension(RepeatedExtensions.repeatedString, strings);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedString));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedBytes));
|
| - message.setExtension(RepeatedExtensions.repeatedBytes, bytess);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedBytes));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedMessage));
|
| - message.setExtension(RepeatedExtensions.repeatedMessage, messages);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedMessage));
|
| - assertFalse(message.hasExtension(RepeatedExtensions.repeatedGroup));
|
| - message.setExtension(RepeatedExtensions.repeatedGroup, groups);
|
| - assertTrue(message.hasExtension(RepeatedExtensions.repeatedGroup));
|
| -
|
| - byte[] data = MessageNano.toByteArray(message);
|
| - message = Extensions.ExtendableMessage.parseFrom(data);
|
| - assertEquals(5, message.field);
|
| -
|
| - // Test reading back using SingularExtensions: the retrieved value should equal the last
|
| - // in each array.
|
| - assertEquals(int32s[1], (int) message.getExtension(SingularExtensions.someInt32));
|
| - assertEquals(uint32s[1], (int) message.getExtension(SingularExtensions.someUint32));
|
| - assertEquals(sint32s[1], (int) message.getExtension(SingularExtensions.someSint32));
|
| - assertEquals(int64s[1], (long) message.getExtension(SingularExtensions.someInt64));
|
| - assertEquals(uint64s[1], (long) message.getExtension(SingularExtensions.someUint64));
|
| - assertEquals(sint64s[1], (long) message.getExtension(SingularExtensions.someSint64));
|
| - assertEquals(fixed32s[1], (int) message.getExtension(SingularExtensions.someFixed32));
|
| - assertEquals(sfixed32s[1], (int) message.getExtension(SingularExtensions.someSfixed32));
|
| - assertEquals(fixed64s[1], (long) message.getExtension(SingularExtensions.someFixed64));
|
| - assertEquals(sfixed64s[1], (long) message.getExtension(SingularExtensions.someSfixed64));
|
| - assertEquals(bools[1], (boolean) message.getExtension(SingularExtensions.someBool));
|
| - assertEquals(floats[1], (float) message.getExtension(SingularExtensions.someFloat));
|
| - assertEquals(doubles[1], (double) message.getExtension(SingularExtensions.someDouble));
|
| - assertEquals(enums[1], (int) message.getExtension(SingularExtensions.someEnum));
|
| - assertEquals(strings[1], message.getExtension(SingularExtensions.someString));
|
| - assertTrue(Arrays.equals(bytess[1], message.getExtension(SingularExtensions.someBytes)));
|
| - AnotherMessage deserializedMessage = message.getExtension(SingularExtensions.someMessage);
|
| - assertEquals(another2.string, deserializedMessage.string);
|
| - assertEquals(another2.value, deserializedMessage.value);
|
| - assertEquals(group2.a, message.getExtension(SingularExtensions.someGroup).a);
|
| -
|
| - // Test reading back using RepeatedExtensions: the arrays should be equal.
|
| - message = Extensions.ExtendableMessage.parseFrom(data);
|
| - assertEquals(5, message.field);
|
| - assertTrue(Arrays.equals(int32s, message.getExtension(RepeatedExtensions.repeatedInt32)));
|
| - assertTrue(Arrays.equals(uint32s, message.getExtension(RepeatedExtensions.repeatedUint32)));
|
| - assertTrue(Arrays.equals(sint32s, message.getExtension(RepeatedExtensions.repeatedSint32)));
|
| - assertTrue(Arrays.equals(int64s, message.getExtension(RepeatedExtensions.repeatedInt64)));
|
| - assertTrue(Arrays.equals(uint64s, message.getExtension(RepeatedExtensions.repeatedUint64)));
|
| - assertTrue(Arrays.equals(sint64s, message.getExtension(RepeatedExtensions.repeatedSint64)));
|
| - assertTrue(Arrays.equals(fixed32s, message.getExtension(RepeatedExtensions.repeatedFixed32)));
|
| - assertTrue(Arrays.equals(sfixed32s, message.getExtension(RepeatedExtensions.repeatedSfixed32)));
|
| - assertTrue(Arrays.equals(fixed64s, message.getExtension(RepeatedExtensions.repeatedFixed64)));
|
| - assertTrue(Arrays.equals(sfixed64s, message.getExtension(RepeatedExtensions.repeatedSfixed64)));
|
| - assertTrue(Arrays.equals(bools, message.getExtension(RepeatedExtensions.repeatedBool)));
|
| - assertTrue(Arrays.equals(floats, message.getExtension(RepeatedExtensions.repeatedFloat)));
|
| - assertTrue(Arrays.equals(doubles, message.getExtension(RepeatedExtensions.repeatedDouble)));
|
| - assertTrue(Arrays.equals(enums, message.getExtension(RepeatedExtensions.repeatedEnum)));
|
| - assertTrue(Arrays.equals(strings, message.getExtension(RepeatedExtensions.repeatedString)));
|
| - byte[][] deserializedRepeatedBytes = message.getExtension(RepeatedExtensions.repeatedBytes);
|
| - assertEquals(2, deserializedRepeatedBytes.length);
|
| - assertTrue(Arrays.equals(bytess[0], deserializedRepeatedBytes[0]));
|
| - assertTrue(Arrays.equals(bytess[1], deserializedRepeatedBytes[1]));
|
| - AnotherMessage[] deserializedRepeatedMessage =
|
| - message.getExtension(RepeatedExtensions.repeatedMessage);
|
| - assertEquals(2, deserializedRepeatedMessage.length);
|
| - assertEquals(another1.string, deserializedRepeatedMessage[0].string);
|
| - assertEquals(another1.value, deserializedRepeatedMessage[0].value);
|
| - assertEquals(another2.string, deserializedRepeatedMessage[1].string);
|
| - assertEquals(another2.value, deserializedRepeatedMessage[1].value);
|
| - RepeatedExtensions.RepeatedGroup[] deserializedRepeatedGroup =
|
| - message.getExtension(RepeatedExtensions.repeatedGroup);
|
| - assertEquals(2, deserializedRepeatedGroup.length);
|
| - assertEquals(group1.a, deserializedRepeatedGroup[0].a);
|
| - assertEquals(group2.a, deserializedRepeatedGroup[1].a);
|
| -
|
| - message = Extensions.ExtendableMessage.parseFrom(data);
|
| - assertEquals(5, message.field);
|
| - // Test hasExtension using PackedExtensions.
|
| - assertTrue(message.hasExtension(PackedExtensions.packedInt32));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedUint32));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedSint32));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedInt64));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedUint64));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedSint64));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedFixed32));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedSfixed32));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedFixed64));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedSfixed64));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedBool));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedFloat));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedDouble));
|
| - assertTrue(message.hasExtension(PackedExtensions.packedEnum));
|
| -
|
| - // Test reading back using PackedExtensions: the arrays should be equal, even the fields
|
| - // are non-packed.
|
| - assertTrue(Arrays.equals(int32s, message.getExtension(PackedExtensions.packedInt32)));
|
| - assertTrue(Arrays.equals(uint32s, message.getExtension(PackedExtensions.packedUint32)));
|
| - assertTrue(Arrays.equals(sint32s, message.getExtension(PackedExtensions.packedSint32)));
|
| - assertTrue(Arrays.equals(int64s, message.getExtension(PackedExtensions.packedInt64)));
|
| - assertTrue(Arrays.equals(uint64s, message.getExtension(PackedExtensions.packedUint64)));
|
| - assertTrue(Arrays.equals(sint64s, message.getExtension(PackedExtensions.packedSint64)));
|
| - assertTrue(Arrays.equals(fixed32s, message.getExtension(PackedExtensions.packedFixed32)));
|
| - assertTrue(Arrays.equals(sfixed32s, message.getExtension(PackedExtensions.packedSfixed32)));
|
| - assertTrue(Arrays.equals(fixed64s, message.getExtension(PackedExtensions.packedFixed64)));
|
| - assertTrue(Arrays.equals(sfixed64s, message.getExtension(PackedExtensions.packedSfixed64)));
|
| - assertTrue(Arrays.equals(bools, message.getExtension(PackedExtensions.packedBool)));
|
| - assertTrue(Arrays.equals(floats, message.getExtension(PackedExtensions.packedFloat)));
|
| - assertTrue(Arrays.equals(doubles, message.getExtension(PackedExtensions.packedDouble)));
|
| - assertTrue(Arrays.equals(enums, message.getExtension(PackedExtensions.packedEnum)));
|
| -
|
| - // Now set the packable extension values using PackedExtensions so they're serialized packed.
|
| - message.setExtension(PackedExtensions.packedInt32, int32s);
|
| - message.setExtension(PackedExtensions.packedUint32, uint32s);
|
| - message.setExtension(PackedExtensions.packedSint32, sint32s);
|
| - message.setExtension(PackedExtensions.packedInt64, int64s);
|
| - message.setExtension(PackedExtensions.packedUint64, uint64s);
|
| - message.setExtension(PackedExtensions.packedSint64, sint64s);
|
| - message.setExtension(PackedExtensions.packedFixed32, fixed32s);
|
| - message.setExtension(PackedExtensions.packedSfixed32, sfixed32s);
|
| - message.setExtension(PackedExtensions.packedFixed64, fixed64s);
|
| - message.setExtension(PackedExtensions.packedSfixed64, sfixed64s);
|
| - message.setExtension(PackedExtensions.packedBool, bools);
|
| - message.setExtension(PackedExtensions.packedFloat, floats);
|
| - message.setExtension(PackedExtensions.packedDouble, doubles);
|
| - message.setExtension(PackedExtensions.packedEnum, enums);
|
| -
|
| - // And read back using non-packed RepeatedExtensions.
|
| - byte[] data2 = MessageNano.toByteArray(message);
|
| - message = MessageNano.mergeFrom(new Extensions.ExtendableMessage(), data2);
|
| - assertTrue(Arrays.equals(int32s, message.getExtension(RepeatedExtensions.repeatedInt32)));
|
| - assertTrue(Arrays.equals(uint32s, message.getExtension(RepeatedExtensions.repeatedUint32)));
|
| - assertTrue(Arrays.equals(sint32s, message.getExtension(RepeatedExtensions.repeatedSint32)));
|
| - assertTrue(Arrays.equals(int64s, message.getExtension(RepeatedExtensions.repeatedInt64)));
|
| - assertTrue(Arrays.equals(uint64s, message.getExtension(RepeatedExtensions.repeatedUint64)));
|
| - assertTrue(Arrays.equals(sint64s, message.getExtension(RepeatedExtensions.repeatedSint64)));
|
| - assertTrue(Arrays.equals(fixed32s, message.getExtension(RepeatedExtensions.repeatedFixed32)));
|
| - assertTrue(Arrays.equals(sfixed32s, message.getExtension(RepeatedExtensions.repeatedSfixed32)));
|
| - assertTrue(Arrays.equals(fixed64s, message.getExtension(RepeatedExtensions.repeatedFixed64)));
|
| - assertTrue(Arrays.equals(sfixed64s, message.getExtension(RepeatedExtensions.repeatedSfixed64)));
|
| - assertTrue(Arrays.equals(bools, message.getExtension(RepeatedExtensions.repeatedBool)));
|
| - assertTrue(Arrays.equals(floats, message.getExtension(RepeatedExtensions.repeatedFloat)));
|
| - assertTrue(Arrays.equals(doubles, message.getExtension(RepeatedExtensions.repeatedDouble)));
|
| - assertTrue(Arrays.equals(enums, message.getExtension(RepeatedExtensions.repeatedEnum)));
|
| -
|
| - // Clone the message and ensure it's still equal.
|
| - Extensions.ExtendableMessage clone = message.clone();
|
| - assertEquals(clone, message);
|
| - }
|
| -
|
| - public void testNullExtensions() throws Exception {
|
| - // Check that clearing the extension on an empty message is a no-op.
|
| - Extensions.ExtendableMessage message = new Extensions.ExtendableMessage();
|
| - assertFalse(message.hasExtension(SingularExtensions.someMessage));
|
| - message.setExtension(SingularExtensions.someMessage, null);
|
| - assertFalse(message.hasExtension(SingularExtensions.someMessage));
|
| - assertEquals(0, MessageNano.toByteArray(message).length);
|
| -
|
| - // Check that the message is empty after setting and clearing an extension.
|
| - AnotherMessage another = new AnotherMessage();
|
| - assertFalse(message.hasExtension(SingularExtensions.someMessage));
|
| - message.setExtension(SingularExtensions.someMessage, another);
|
| - assertTrue(message.hasExtension(SingularExtensions.someMessage));
|
| - assertTrue(MessageNano.toByteArray(message).length > 0);
|
| - message.setExtension(SingularExtensions.someMessage, null);
|
| - assertFalse(message.hasExtension(SingularExtensions.someMessage));
|
| - assertEquals(0, MessageNano.toByteArray(message).length);
|
| - }
|
| -
|
| - public void testExtensionsMutation() {
|
| - Extensions.ExtendableMessage extendableMessage = new Extensions.ExtendableMessage();
|
| - extendableMessage.setExtension(SingularExtensions.someMessage,
|
| - new Extensions.AnotherMessage());
|
| -
|
| - extendableMessage.getExtension(SingularExtensions.someMessage).string = "not empty";
|
| -
|
| - assertEquals("not empty",
|
| - extendableMessage.getExtension(SingularExtensions.someMessage).string);
|
| - }
|
| -
|
| - public void testExtensionsMutation_Equals() throws InvalidProtocolBufferNanoException {
|
| - Extensions.ExtendableMessage extendableMessage = new Extensions.ExtendableMessage();
|
| - extendableMessage.field = 5;
|
| - int int32 = 42;
|
| - int[] uint32s = {3, 4};
|
| - int[] sint32s = {-5, -6};
|
| - long[] int64s = {7, 8};
|
| - long[] uint64s = {9, 10};
|
| - long[] sint64s = {-11, -12};
|
| - int[] fixed32s = {13, 14};
|
| - int[] sfixed32s = {-15, -16};
|
| - long[] fixed64s = {17, 18};
|
| - long[] sfixed64s = {-19, -20};
|
| - boolean[] bools = {true, false};
|
| - float[] floats = {2.1f, 2.2f};
|
| - double[] doubles = {2.3, 2.4};
|
| - int[] enums = {Extensions.SECOND_VALUE, Extensions.FIRST_VALUE};
|
| - String[] strings = {"vijfentwintig", "twenty-six"};
|
| - byte[][] bytess = {{2, 7}, {2, 8}};
|
| - AnotherMessage another1 = new AnotherMessage();
|
| - another1.string = "er shi jiu";
|
| - another1.value = false;
|
| - AnotherMessage another2 = new AnotherMessage();
|
| - another2.string = "trente";
|
| - another2.value = true;
|
| - AnotherMessage[] messages = {another1, another2};
|
| - RepeatedExtensions.RepeatedGroup group1 = new RepeatedExtensions.RepeatedGroup();
|
| - group1.a = 31;
|
| - RepeatedExtensions.RepeatedGroup group2 = new RepeatedExtensions.RepeatedGroup();
|
| - group2.a = 32;
|
| - RepeatedExtensions.RepeatedGroup[] groups = {group1, group2};
|
| - extendableMessage.setExtension(SingularExtensions.someInt32, int32);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedUint32, uint32s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedSint32, sint32s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedInt64, int64s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedUint64, uint64s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedSint64, sint64s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedFixed32, fixed32s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedSfixed32, sfixed32s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedFixed64, fixed64s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedSfixed64, sfixed64s);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedBool, bools);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedFloat, floats);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedDouble, doubles);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedEnum, enums);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedString, strings);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedBytes, bytess);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedMessage, messages);
|
| - extendableMessage.setExtension(RepeatedExtensions.repeatedGroup, groups);
|
| -
|
| - byte[] data = MessageNano.toByteArray(extendableMessage);
|
| -
|
| - extendableMessage = Extensions.ExtendableMessage.parseFrom(data);
|
| - Extensions.ExtendableMessage messageCopy = Extensions.ExtendableMessage.parseFrom(data);
|
| -
|
| - // Without deserialising.
|
| - assertEquals(extendableMessage, messageCopy);
|
| - assertEquals(extendableMessage.hashCode(), messageCopy.hashCode());
|
| -
|
| - // Only one deserialized.
|
| - extendableMessage.getExtension(SingularExtensions.someInt32);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedUint32);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedSint32);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedInt64);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedUint64);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedSint64);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedFixed32);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedSfixed32);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedFixed64);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedSfixed64);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedBool);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedFloat);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedDouble);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedEnum);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedString);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedBytes);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedMessage);
|
| - extendableMessage.getExtension(RepeatedExtensions.repeatedGroup);
|
| - assertEquals(extendableMessage, messageCopy);
|
| - assertEquals(extendableMessage.hashCode(), messageCopy.hashCode());
|
| -
|
| - // Both deserialized.
|
| - messageCopy.getExtension(SingularExtensions.someInt32);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedUint32);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedSint32);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedInt64);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedUint64);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedSint64);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedFixed32);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedSfixed32);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedFixed64);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedSfixed64);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedBool);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedFloat);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedDouble);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedEnum);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedString);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedBytes);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedMessage);
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedGroup);
|
| - assertEquals(extendableMessage, messageCopy);
|
| - assertEquals(extendableMessage.hashCode(), messageCopy.hashCode());
|
| -
|
| - // Change one, make sure they are still different.
|
| - messageCopy.getExtension(RepeatedExtensions.repeatedMessage)[0].string = "not empty";
|
| - assertFalse(extendableMessage.equals(messageCopy));
|
| -
|
| - // Even if the extension hasn't been deserialized.
|
| - extendableMessage = Extensions.ExtendableMessage.parseFrom(data);
|
| - assertFalse(extendableMessage.equals(messageCopy));
|
| - }
|
| -
|
| - public void testExtensionsCaching() {
|
| - Extensions.ExtendableMessage extendableMessage = new Extensions.ExtendableMessage();
|
| - extendableMessage.setExtension(SingularExtensions.someMessage,
|
| - new Extensions.AnotherMessage());
|
| - assertSame("Consecutive calls to getExtensions should return the same object",
|
| - extendableMessage.getExtension(SingularExtensions.someMessage),
|
| - extendableMessage.getExtension(SingularExtensions.someMessage));
|
| - }
|
| -
|
| - public void testUnknownFields() throws Exception {
|
| - // Check that we roundtrip (serialize and deserialize) unrecognized fields.
|
| - AnotherMessage message = new AnotherMessage();
|
| - message.string = "Hello World";
|
| - message.value = false;
|
| -
|
| - byte[] bytes = MessageNano.toByteArray(message);
|
| - int extraFieldSize = CodedOutputByteBufferNano.computeStringSize(
|
| - 1001, "This is an unknown field");
|
| - byte[] newBytes = new byte[bytes.length + extraFieldSize];
|
| - System.arraycopy(bytes, 0, newBytes, 0, bytes.length);
|
| - CodedOutputByteBufferNano.newInstance(newBytes, bytes.length, extraFieldSize)
|
| - .writeString(1001, "This is an unknown field");
|
| -
|
| - // Deserialize with an unknown field.
|
| - AnotherMessage deserialized = AnotherMessage.parseFrom(newBytes);
|
| - byte[] serialized = MessageNano.toByteArray(deserialized);
|
| -
|
| - assertEquals(newBytes.length, serialized.length);
|
| -
|
| - // Clear, and make sure it clears everything.
|
| - deserialized.clear();
|
| - assertEquals(0, MessageNano.toByteArray(deserialized).length);
|
| - }
|
| -
|
| - public void testMergeFrom() throws Exception {
|
| - SimpleMessageNano message = new SimpleMessageNano();
|
| - message.d = 123;
|
| - byte[] bytes = MessageNano.toByteArray(message);
|
| -
|
| - SimpleMessageNano newMessage = MessageNano.mergeFrom(new SimpleMessageNano(), bytes);
|
| - assertEquals(message.d, newMessage.d);
|
| - }
|
| -
|
| - public void testJavaKeyword() throws Exception {
|
| - TestAllTypesNano msg = new TestAllTypesNano();
|
| - msg.synchronized_ = 123;
|
| - assertEquals(123, msg.synchronized_);
|
| - }
|
| -
|
| - public void testReferenceTypesForPrimitives() throws Exception {
|
| - NanoReferenceTypes.TestAllTypesNano message = new NanoReferenceTypes.TestAllTypesNano();
|
| -
|
| - // Base check - when nothing is set, we serialize nothing.
|
| - assertHasWireData(message, false);
|
| -
|
| - message.defaultBool = true;
|
| - assertHasWireData(message, true);
|
| -
|
| - message.defaultBool = false;
|
| - assertHasWireData(message, true);
|
| -
|
| - message.defaultBool = null;
|
| - assertHasWireData(message, false);
|
| -
|
| - message.defaultInt32 = 5;
|
| - assertHasWireData(message, true);
|
| -
|
| - message.defaultInt32 = null;
|
| - assertHasWireData(message, false);
|
| -
|
| - message.defaultInt64 = 123456L;
|
| - assertHasWireData(message, true);
|
| -
|
| - message.defaultInt64 = null;
|
| - assertHasWireData(message, false);
|
| -
|
| - message.defaultFloat = 1f;
|
| - assertHasWireData(message, true);
|
| -
|
| - message.defaultFloat = null;
|
| - assertHasWireData(message, false);
|
| -
|
| - message.defaultDouble = 2.1;
|
| - assertHasWireData(message, true);
|
| -
|
| - message.defaultDouble = null;
|
| - assertHasWireData(message, false);
|
| -
|
| - message.defaultString = "hello";
|
| - assertHasWireData(message, true);
|
| -
|
| - message.defaultString = null;
|
| - assertHasWireData(message, false);
|
| -
|
| - message.defaultBytes = new byte[] { 1, 2, 3 };
|
| - assertHasWireData(message, true);
|
| -
|
| - message.defaultBytes = null;
|
| - assertHasWireData(message, false);
|
| - }
|
| -
|
| - public void testHashCodeEquals() throws Exception {
|
| - // Complete equality:
|
| - TestAllTypesNano a = createMessageForHashCodeEqualsTest();
|
| - TestAllTypesNano aEquivalent = createMessageForHashCodeEqualsTest();
|
| -
|
| - assertTrue(MessageNano.messageNanoEquals(a, aEquivalent));
|
| - assertFalse(MessageNano.messageNanoEquals(a, new TestAllTypesNano()));
|
| -
|
| - // Null and empty array for repeated fields equality:
|
| - TestAllTypesNano b = createMessageForHashCodeEqualsTest();
|
| - b.repeatedBool = null;
|
| - b.repeatedFloat = new float[0];
|
| - TestAllTypesNano bEquivalent = createMessageForHashCodeEqualsTest();
|
| - bEquivalent.repeatedBool = new boolean[0];
|
| - bEquivalent.repeatedFloat = null;
|
| -
|
| - // Ref-element-type repeated fields use non-null subsequence equality:
|
| - TestAllTypesNano c = createMessageForHashCodeEqualsTest();
|
| - c.repeatedString = null;
|
| - c.repeatedStringPiece = new String[] {null, "one", null, "two"};
|
| - c.repeatedBytes = new byte[][] {{3, 4}, null};
|
| - TestAllTypesNano cEquivalent = createMessageForHashCodeEqualsTest();
|
| - cEquivalent.repeatedString = new String[3];
|
| - cEquivalent.repeatedStringPiece = new String[] {"one", "two", null};
|
| - cEquivalent.repeatedBytes = new byte[][] {{3, 4}};
|
| -
|
| - // Complete equality for messages with has fields:
|
| - TestAllTypesNanoHas d = createMessageWithHasForHashCodeEqualsTest();
|
| - TestAllTypesNanoHas dEquivalent = createMessageWithHasForHashCodeEqualsTest();
|
| -
|
| - // If has-fields exist, fields with the same default values but
|
| - // different has-field values are different.
|
| - TestAllTypesNanoHas e = createMessageWithHasForHashCodeEqualsTest();
|
| - e.optionalInt32++; // make different from d
|
| - e.hasDefaultString = false;
|
| - TestAllTypesNanoHas eDifferent = createMessageWithHasForHashCodeEqualsTest();
|
| - eDifferent.optionalInt32 = e.optionalInt32;
|
| - eDifferent.hasDefaultString = true;
|
| -
|
| - // Complete equality for messages with accessors:
|
| - TestNanoAccessors f = createMessageWithAccessorsForHashCodeEqualsTest();
|
| - TestNanoAccessors fEquivalent = createMessageWithAccessorsForHashCodeEqualsTest();
|
| -
|
| - // If using accessors, explicitly setting a field to its default value
|
| - // should make the message different.
|
| - TestNanoAccessors g = createMessageWithAccessorsForHashCodeEqualsTest();
|
| - g.setOptionalInt32(g.getOptionalInt32() + 1); // make different from f
|
| - g.clearDefaultString();
|
| - TestNanoAccessors gDifferent = createMessageWithAccessorsForHashCodeEqualsTest();
|
| - gDifferent.setOptionalInt32(g.getOptionalInt32());
|
| - gDifferent.setDefaultString(g.getDefaultString());
|
| -
|
| - // Complete equality for reference typed messages:
|
| - NanoReferenceTypes.TestAllTypesNano h = createRefTypedMessageForHashCodeEqualsTest();
|
| - NanoReferenceTypes.TestAllTypesNano hEquivalent = createRefTypedMessageForHashCodeEqualsTest();
|
| -
|
| - // Inequality of null and default value for reference typed messages:
|
| - NanoReferenceTypes.TestAllTypesNano i = createRefTypedMessageForHashCodeEqualsTest();
|
| - i.optionalInt32 = 1; // make different from h
|
| - i.optionalFloat = null;
|
| - NanoReferenceTypes.TestAllTypesNano iDifferent = createRefTypedMessageForHashCodeEqualsTest();
|
| - iDifferent.optionalInt32 = i.optionalInt32;
|
| - iDifferent.optionalFloat = 0.0f;
|
| -
|
| - HashMap<MessageNano, String> hashMap = new HashMap<MessageNano, String>();
|
| - hashMap.put(a, "a");
|
| - hashMap.put(b, "b");
|
| - hashMap.put(c, "c");
|
| - hashMap.put(d, "d");
|
| - hashMap.put(e, "e");
|
| - hashMap.put(f, "f");
|
| - hashMap.put(g, "g");
|
| - hashMap.put(h, "h");
|
| - hashMap.put(i, "i");
|
| -
|
| - assertEquals(9, hashMap.size()); // a-i should be different from each other.
|
| -
|
| - assertEquals("a", hashMap.get(a));
|
| - assertEquals("a", hashMap.get(aEquivalent));
|
| -
|
| - assertEquals("b", hashMap.get(b));
|
| - assertEquals("b", hashMap.get(bEquivalent));
|
| -
|
| - assertEquals("c", hashMap.get(c));
|
| - assertEquals("c", hashMap.get(cEquivalent));
|
| -
|
| - assertEquals("d", hashMap.get(d));
|
| - assertEquals("d", hashMap.get(dEquivalent));
|
| -
|
| - assertEquals("e", hashMap.get(e));
|
| - assertNull(hashMap.get(eDifferent));
|
| -
|
| - assertEquals("f", hashMap.get(f));
|
| - assertEquals("f", hashMap.get(fEquivalent));
|
| -
|
| - assertEquals("g", hashMap.get(g));
|
| - assertNull(hashMap.get(gDifferent));
|
| -
|
| - assertEquals("h", hashMap.get(h));
|
| - assertEquals("h", hashMap.get(hEquivalent));
|
| -
|
| - assertEquals("i", hashMap.get(i));
|
| - assertNull(hashMap.get(iDifferent));
|
| - }
|
| -
|
| - private TestAllTypesNano createMessageForHashCodeEqualsTest() {
|
| - TestAllTypesNano message = new TestAllTypesNano();
|
| - message.optionalInt32 = 5;
|
| - message.optionalInt64 = 777;
|
| - message.optionalFloat = 1.0f;
|
| - message.optionalDouble = 2.0;
|
| - message.optionalBool = true;
|
| - message.optionalString = "Hello";
|
| - message.optionalBytes = new byte[] { 1, 2, 3 };
|
| - message.optionalNestedMessage = new TestAllTypesNano.NestedMessage();
|
| - message.optionalNestedMessage.bb = 27;
|
| - message.optionalNestedEnum = TestAllTypesNano.BAR;
|
| - message.repeatedInt32 = new int[] { 5, 6, 7, 8 };
|
| - message.repeatedInt64 = new long[] { 27L, 28L, 29L };
|
| - message.repeatedFloat = new float[] { 5.0f, 6.0f };
|
| - message.repeatedDouble = new double[] { 99.1, 22.5 };
|
| - message.repeatedBool = new boolean[] { true, false, true };
|
| - message.repeatedString = new String[] { "One", "Two" };
|
| - message.repeatedBytes = new byte[][] { { 2, 7 }, { 2, 7 } };
|
| - message.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] {
|
| - message.optionalNestedMessage,
|
| - message.optionalNestedMessage
|
| - };
|
| - message.repeatedNestedEnum = new int[] {
|
| - TestAllTypesNano.BAR,
|
| - TestAllTypesNano.BAZ
|
| - };
|
| - message.setOneofUint32(3);
|
| - return message;
|
| - }
|
| -
|
| - private TestAllTypesNanoHas createMessageWithHasForHashCodeEqualsTest() {
|
| - TestAllTypesNanoHas message = new TestAllTypesNanoHas();
|
| - message.optionalInt32 = 5;
|
| - message.optionalString = "Hello";
|
| - message.optionalBytes = new byte[] { 1, 2, 3 };
|
| - message.optionalNestedMessage = new TestAllTypesNanoHas.NestedMessage();
|
| - message.optionalNestedMessage.bb = 27;
|
| - message.optionalNestedEnum = TestAllTypesNano.BAR;
|
| - message.repeatedInt32 = new int[] { 5, 6, 7, 8 };
|
| - message.repeatedString = new String[] { "One", "Two" };
|
| - message.repeatedBytes = new byte[][] { { 2, 7 }, { 2, 7 } };
|
| - message.repeatedNestedMessage = new TestAllTypesNanoHas.NestedMessage[] {
|
| - message.optionalNestedMessage,
|
| - message.optionalNestedMessage
|
| - };
|
| - message.repeatedNestedEnum = new int[] {
|
| - TestAllTypesNano.BAR,
|
| - TestAllTypesNano.BAZ
|
| - };
|
| - return message;
|
| - }
|
| -
|
| - private TestNanoAccessors createMessageWithAccessorsForHashCodeEqualsTest() {
|
| - TestNanoAccessors message = new TestNanoAccessors()
|
| - .setOptionalInt32(5)
|
| - .setOptionalString("Hello")
|
| - .setOptionalBytes(new byte[] {1, 2, 3})
|
| - .setOptionalNestedEnum(TestNanoAccessors.BAR);
|
| - message.optionalNestedMessage = new TestNanoAccessors.NestedMessage().setBb(27);
|
| - message.repeatedInt32 = new int[] { 5, 6, 7, 8 };
|
| - message.repeatedString = new String[] { "One", "Two" };
|
| - message.repeatedBytes = new byte[][] { { 2, 7 }, { 2, 7 } };
|
| - message.repeatedNestedMessage = new TestNanoAccessors.NestedMessage[] {
|
| - message.optionalNestedMessage,
|
| - message.optionalNestedMessage
|
| - };
|
| - message.repeatedNestedEnum = new int[] {
|
| - TestAllTypesNano.BAR,
|
| - TestAllTypesNano.BAZ
|
| - };
|
| - return message;
|
| - }
|
| -
|
| - private NanoReferenceTypes.TestAllTypesNano createRefTypedMessageForHashCodeEqualsTest() {
|
| - NanoReferenceTypes.TestAllTypesNano message = new NanoReferenceTypes.TestAllTypesNano();
|
| - message.optionalInt32 = 5;
|
| - message.optionalInt64 = 777L;
|
| - message.optionalFloat = 1.0f;
|
| - message.optionalDouble = 2.0;
|
| - message.optionalBool = true;
|
| - message.optionalString = "Hello";
|
| - message.optionalBytes = new byte[] { 1, 2, 3 };
|
| - message.optionalNestedMessage =
|
| - new NanoReferenceTypes.TestAllTypesNano.NestedMessage();
|
| - message.optionalNestedMessage.foo = 27;
|
| - message.optionalNestedEnum = NanoReferenceTypes.TestAllTypesNano.BAR;
|
| - message.repeatedInt32 = new int[] { 5, 6, 7, 8 };
|
| - message.repeatedInt64 = new long[] { 27L, 28L, 29L };
|
| - message.repeatedFloat = new float[] { 5.0f, 6.0f };
|
| - message.repeatedDouble = new double[] { 99.1, 22.5 };
|
| - message.repeatedBool = new boolean[] { true, false, true };
|
| - message.repeatedString = new String[] { "One", "Two" };
|
| - message.repeatedBytes = new byte[][] { { 2, 7 }, { 2, 7 } };
|
| - message.repeatedNestedMessage =
|
| - new NanoReferenceTypes.TestAllTypesNano.NestedMessage[] {
|
| - message.optionalNestedMessage,
|
| - message.optionalNestedMessage
|
| - };
|
| - message.repeatedNestedEnum = new int[] {
|
| - NanoReferenceTypes.TestAllTypesNano.BAR,
|
| - NanoReferenceTypes.TestAllTypesNano.BAZ
|
| - };
|
| - return message;
|
| - }
|
| -
|
| - public void testEqualsWithSpecialFloatingPointValues() throws Exception {
|
| - // Checks that the nano implementation complies with Object.equals() when treating
|
| - // floating point numbers, i.e. NaN == NaN and +0.0 != -0.0.
|
| - // This test assumes that the generated equals() implementations are symmetric, so
|
| - // there will only be one direction for each equality check.
|
| -
|
| - TestAllTypesNano m1 = new TestAllTypesNano();
|
| - m1.optionalFloat = Float.NaN;
|
| - m1.optionalDouble = Double.NaN;
|
| - TestAllTypesNano m2 = new TestAllTypesNano();
|
| - m2.optionalFloat = Float.NaN;
|
| - m2.optionalDouble = Double.NaN;
|
| - assertTrue(m1.equals(m2));
|
| - assertTrue(m1.equals(
|
| - MessageNano.mergeFrom(new TestAllTypesNano(), MessageNano.toByteArray(m1))));
|
| -
|
| - m1.optionalFloat = +0f;
|
| - m2.optionalFloat = -0f;
|
| - assertFalse(m1.equals(m2));
|
| -
|
| - m1.optionalFloat = -0f;
|
| - m1.optionalDouble = +0d;
|
| - m2.optionalDouble = -0d;
|
| - assertFalse(m1.equals(m2));
|
| -
|
| - m1.optionalDouble = -0d;
|
| - assertTrue(m1.equals(m2));
|
| - assertFalse(m1.equals(new TestAllTypesNano())); // -0 does not equals() the default +0
|
| - assertTrue(m1.equals(
|
| - MessageNano.mergeFrom(new TestAllTypesNano(), MessageNano.toByteArray(m1))));
|
| -
|
| - // -------
|
| -
|
| - TestAllTypesNanoHas m3 = new TestAllTypesNanoHas();
|
| - m3.optionalFloat = Float.NaN;
|
| - m3.hasOptionalFloat = true;
|
| - m3.optionalDouble = Double.NaN;
|
| - m3.hasOptionalDouble = true;
|
| - TestAllTypesNanoHas m4 = new TestAllTypesNanoHas();
|
| - m4.optionalFloat = Float.NaN;
|
| - m4.hasOptionalFloat = true;
|
| - m4.optionalDouble = Double.NaN;
|
| - m4.hasOptionalDouble = true;
|
| - assertTrue(m3.equals(m4));
|
| - assertTrue(m3.equals(
|
| - MessageNano.mergeFrom(new TestAllTypesNanoHas(), MessageNano.toByteArray(m3))));
|
| -
|
| - m3.optionalFloat = +0f;
|
| - m4.optionalFloat = -0f;
|
| - assertFalse(m3.equals(m4));
|
| -
|
| - m3.optionalFloat = -0f;
|
| - m3.optionalDouble = +0d;
|
| - m4.optionalDouble = -0d;
|
| - assertFalse(m3.equals(m4));
|
| -
|
| - m3.optionalDouble = -0d;
|
| - m3.hasOptionalFloat = false; // -0 does not equals() the default +0,
|
| - m3.hasOptionalDouble = false; // so these incorrect 'has' flags should be disregarded.
|
| - assertTrue(m3.equals(m4)); // note: m4 has the 'has' flags set.
|
| - assertFalse(m3.equals(new TestAllTypesNanoHas())); // note: the new message has +0 defaults
|
| - assertTrue(m3.equals(
|
| - MessageNano.mergeFrom(new TestAllTypesNanoHas(), MessageNano.toByteArray(m3))));
|
| - // note: the deserialized message has the 'has' flags set.
|
| -
|
| - // -------
|
| -
|
| - TestNanoAccessors m5 = new TestNanoAccessors();
|
| - m5.setOptionalFloat(Float.NaN);
|
| - m5.setOptionalDouble(Double.NaN);
|
| - TestNanoAccessors m6 = new TestNanoAccessors();
|
| - m6.setOptionalFloat(Float.NaN);
|
| - m6.setOptionalDouble(Double.NaN);
|
| - assertTrue(m5.equals(m6));
|
| - assertTrue(m5.equals(
|
| - MessageNano.mergeFrom(new TestNanoAccessors(), MessageNano.toByteArray(m6))));
|
| -
|
| - m5.setOptionalFloat(+0f);
|
| - m6.setOptionalFloat(-0f);
|
| - assertFalse(m5.equals(m6));
|
| -
|
| - m5.setOptionalFloat(-0f);
|
| - m5.setOptionalDouble(+0d);
|
| - m6.setOptionalDouble(-0d);
|
| - assertFalse(m5.equals(m6));
|
| -
|
| - m5.setOptionalDouble(-0d);
|
| - assertTrue(m5.equals(m6));
|
| - assertFalse(m5.equals(new TestNanoAccessors()));
|
| - assertTrue(m5.equals(
|
| - MessageNano.mergeFrom(new TestNanoAccessors(), MessageNano.toByteArray(m6))));
|
| -
|
| - // -------
|
| -
|
| - NanoReferenceTypes.TestAllTypesNano m7 = new NanoReferenceTypes.TestAllTypesNano();
|
| - m7.optionalFloat = Float.NaN;
|
| - m7.optionalDouble = Double.NaN;
|
| - NanoReferenceTypes.TestAllTypesNano m8 = new NanoReferenceTypes.TestAllTypesNano();
|
| - m8.optionalFloat = Float.NaN;
|
| - m8.optionalDouble = Double.NaN;
|
| - assertTrue(m7.equals(m8));
|
| - assertTrue(m7.equals(MessageNano.mergeFrom(
|
| - new NanoReferenceTypes.TestAllTypesNano(), MessageNano.toByteArray(m7))));
|
| -
|
| - m7.optionalFloat = +0f;
|
| - m8.optionalFloat = -0f;
|
| - assertFalse(m7.equals(m8));
|
| -
|
| - m7.optionalFloat = -0f;
|
| - m7.optionalDouble = +0d;
|
| - m8.optionalDouble = -0d;
|
| - assertFalse(m7.equals(m8));
|
| -
|
| - m7.optionalDouble = -0d;
|
| - assertTrue(m7.equals(m8));
|
| - assertFalse(m7.equals(new NanoReferenceTypes.TestAllTypesNano()));
|
| - assertTrue(m7.equals(MessageNano.mergeFrom(
|
| - new NanoReferenceTypes.TestAllTypesNano(), MessageNano.toByteArray(m7))));
|
| - }
|
| -
|
| - private static TestAllTypesNano generateMessageForOneof(int caseNumber) {
|
| - TestAllTypesNano result = new TestAllTypesNano();
|
| - TestAllTypesNano.NestedMessage nested =
|
| - new TestAllTypesNano.NestedMessage();
|
| - nested.bb = 2;
|
| - switch (caseNumber) {
|
| - case TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER:
|
| - result.setOneofUint32(1);
|
| - break;
|
| - case TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER:
|
| - result.setOneofEnum(TestAllTypesNano.BAR);
|
| - break;
|
| - case TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER:
|
| - result.setOneofNestedMessage(nested);
|
| - break;
|
| - case TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER:
|
| - result.setOneofBytes(new byte[] {1, 2});
|
| - break;
|
| - case TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER:
|
| - result.setOneofString("hello");
|
| - break;
|
| - case TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER:
|
| - result.setOneofFixed64(-1L);
|
| - break;
|
| - default:
|
| - throw new RuntimeException("unexpected case number: " + caseNumber);
|
| - }
|
| - return result;
|
| - }
|
| -
|
| - public void testOneofHashCodeEquals() throws Exception {
|
| - TestAllTypesNano m1 = generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER);
|
| - assertEquals(m1, generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER));
|
| - assertFalse(m1.equals(new TestAllTypesNano()));
|
| -
|
| - TestAllTypesNano m2 = generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER);
|
| - assertEquals(m2, generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER));
|
| - assertFalse(m2.equals(new TestAllTypesNano()));
|
| -
|
| - TestAllTypesNano m3 = generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER);
|
| - assertEquals(m3, generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER));
|
| - assertFalse(m3.equals(new TestAllTypesNano()));
|
| -
|
| - TestAllTypesNano m4 = generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER);
|
| - assertEquals(m4, generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER));
|
| - assertFalse(m4.equals(new TestAllTypesNano()));
|
| -
|
| - TestAllTypesNano m5 = generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER);
|
| - assertEquals(m5, generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER));
|
| - assertFalse(m5.equals(new TestAllTypesNano()));
|
| -
|
| - TestAllTypesNano m6 = generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER);
|
| - assertEquals(m6, generateMessageForOneof(
|
| - TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER));
|
| - assertFalse(m6.equals(new TestAllTypesNano()));
|
| -
|
| - Map<TestAllTypesNano, Integer> map =
|
| - new HashMap<TestAllTypesNano, Integer>();
|
| - map.put(m1, 1);
|
| - map.put(m2, 2);
|
| - map.put(m3, 3);
|
| - map.put(m4, 4);
|
| - map.put(m5, 5);
|
| - map.put(m6, 6);
|
| -
|
| - assertEquals(6, map.size());
|
| - }
|
| -
|
| - private void checkOneofCase(TestAllTypesNano nano, int field)
|
| - throws Exception {
|
| - assertEquals(field, nano.getOneofFieldCase());
|
| - assertEquals(
|
| - field == TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER,
|
| - nano.hasOneofBytes());
|
| - assertEquals(
|
| - field == TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER,
|
| - nano.hasOneofEnum());
|
| - assertEquals(
|
| - field == TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER,
|
| - nano.hasOneofFixed64());
|
| - assertEquals(
|
| - field == TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER,
|
| - nano.hasOneofNestedMessage());
|
| - assertEquals(
|
| - field == TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER,
|
| - nano.hasOneofString());
|
| - assertEquals(
|
| - field == TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER,
|
| - nano.hasOneofUint32());
|
| -
|
| - }
|
| -
|
| - public void testOneofDefault() throws Exception {
|
| - TestAllTypesNano m1 = new TestAllTypesNano();
|
| - checkOneofCase(m1, 0);
|
| - assertEquals(WireFormatNano.EMPTY_BYTES, m1.getOneofBytes());
|
| - assertEquals(TestAllTypesNano.FOO, m1.getOneofEnum());
|
| - assertEquals(0L, m1.getOneofFixed64());
|
| - assertEquals(null, m1.getOneofNestedMessage());
|
| - assertEquals("", m1.getOneofString());
|
| - assertEquals(0, m1.getOneofUint32());
|
| - }
|
| -
|
| - public void testOneofExclusiveness() throws Exception {
|
| - TestAllTypesNano m = new TestAllTypesNano();
|
| - checkOneofCase(m, 0);
|
| -
|
| - m.setOneofBytes(new byte[]{0, 1});
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER);
|
| - assertTrue(Arrays.equals(new byte[]{0, 1}, m.getOneofBytes()));
|
| -
|
| - m.setOneofEnum(TestAllTypesNano.BAZ);
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER);
|
| - assertEquals(TestAllTypesNano.BAZ, m.getOneofEnum());
|
| - assertEquals(WireFormatNano.EMPTY_BYTES, m.getOneofBytes());
|
| -
|
| - m.setOneofFixed64(-1L);
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER);
|
| - assertEquals(-1L, m.getOneofFixed64());
|
| - assertEquals(TestAllTypesNano.FOO, m.getOneofEnum());
|
| -
|
| - m.setOneofNestedMessage(new TestAllTypesNano.NestedMessage());
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER);
|
| - assertEquals(
|
| - new TestAllTypesNano.NestedMessage(), m.getOneofNestedMessage());
|
| - assertEquals(0L, m.getOneofFixed64());
|
| -
|
| - m.setOneofString("hello");
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER);
|
| - assertEquals("hello", m.getOneofString());
|
| - assertNull(m.getOneofNestedMessage());
|
| -
|
| - m.setOneofUint32(10);
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER);
|
| - assertEquals(10, m.getOneofUint32());
|
| - assertEquals("", m.getOneofString());
|
| -
|
| - m.setOneofBytes(new byte[]{0, 1});
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER);
|
| - assertTrue(Arrays.equals(new byte[]{0, 1}, m.getOneofBytes()));
|
| - assertEquals(0, m.getOneofUint32());
|
| - }
|
| -
|
| - public void testOneofClear() throws Exception {
|
| - TestAllTypesNano m = new TestAllTypesNano();
|
| - m.setOneofBytes(new byte[]{0, 1});
|
| - m.clearOneofField();
|
| - checkOneofCase(m, 0);
|
| -
|
| - m.setOneofEnum(TestAllTypesNano.BAZ);
|
| - m.clearOneofField();
|
| - checkOneofCase(m, 0);
|
| -
|
| - m.setOneofFixed64(-1L);
|
| - m.clearOneofField();
|
| - checkOneofCase(m, 0);
|
| -
|
| - m.setOneofNestedMessage(new TestAllTypesNano.NestedMessage());
|
| - m.clearOneofField();
|
| - checkOneofCase(m, 0);
|
| -
|
| - m.setOneofString("hello");
|
| - m.clearOneofField();
|
| - checkOneofCase(m, 0);
|
| -
|
| - m.setOneofUint32(10);
|
| - m.clearOneofField();
|
| - checkOneofCase(m, 0);
|
| - }
|
| -
|
| - public void testOneofMarshaling() throws Exception {
|
| - TestAllTypesNano m = new TestAllTypesNano();
|
| - TestAllTypesNano parsed = new TestAllTypesNano();
|
| - {
|
| - m.setOneofBytes(new byte[]{0, 1});
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - MessageNano.mergeFrom(parsed, serialized);
|
| - checkOneofCase(parsed, TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER);
|
| - assertTrue(Arrays.equals(new byte[]{0, 1}, parsed.getOneofBytes()));
|
| - }
|
| - {
|
| - m.setOneofEnum(TestAllTypesNano.BAZ);
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - MessageNano.mergeFrom(parsed, serialized);
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER);
|
| - assertEquals(TestAllTypesNano.BAZ, m.getOneofEnum());
|
| - }
|
| - {
|
| - m.setOneofEnum(TestAllTypesNano.BAZ);
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - MessageNano.mergeFrom(parsed, serialized);
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER);
|
| - assertEquals(TestAllTypesNano.BAZ, m.getOneofEnum());
|
| - }
|
| - {
|
| - m.setOneofFixed64(-1L);
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - MessageNano.mergeFrom(parsed, serialized);
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER);
|
| - assertEquals(-1L, m.getOneofFixed64());
|
| - }
|
| - {
|
| - m.setOneofNestedMessage(new TestAllTypesNano.NestedMessage());
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - MessageNano.mergeFrom(parsed, serialized);
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER);
|
| - assertEquals(
|
| - new TestAllTypesNano.NestedMessage(), m.getOneofNestedMessage());
|
| - }
|
| - {
|
| - m.setOneofString("hello");
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - MessageNano.mergeFrom(parsed, serialized);
|
| - assertEquals("hello", m.getOneofString());
|
| - assertNull(m.getOneofNestedMessage());
|
| - }
|
| - {
|
| - m.setOneofUint32(10);
|
| - byte[] serialized = MessageNano.toByteArray(m);
|
| - MessageNano.mergeFrom(parsed, serialized);
|
| - checkOneofCase(m, TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER);
|
| - assertEquals(10, m.getOneofUint32());
|
| - }
|
| - }
|
| -
|
| - public void testOneofSerializedConcat() throws Exception {
|
| - TestAllTypesNano m1 = new TestAllTypesNano();
|
| - m1.setOneofBytes(new byte[] {0, 1});
|
| - byte[] b1 = MessageNano.toByteArray(m1);
|
| - TestAllTypesNano m2 = new TestAllTypesNano();
|
| - m2.setOneofEnum(TestAllTypesNano.BAZ);
|
| - byte[] b2 = MessageNano.toByteArray(m2);
|
| - byte[] b3 = new byte[b1.length + b2.length];
|
| - System.arraycopy(b1, 0, b3, 0, b1.length);
|
| - System.arraycopy(b2, 0, b3, b1.length, b2.length);
|
| - TestAllTypesNano parsed = new TestAllTypesNano();
|
| - MessageNano.mergeFrom(parsed, b3);
|
| - // the last on the wire wins.
|
| - checkOneofCase(parsed, TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER);
|
| - assertEquals(TestAllTypesNano.BAZ, parsed.getOneofEnum());
|
| - }
|
| -
|
| - public void testNullRepeatedFields() throws Exception {
|
| - // Check that serialization after explicitly setting a repeated field
|
| - // to null doesn't NPE.
|
| - TestAllTypesNano message = new TestAllTypesNano();
|
| - message.repeatedInt32 = null;
|
| - MessageNano.toByteArray(message); // should not NPE
|
| - message.toString(); // should not NPE
|
| -
|
| - message.repeatedNestedEnum = null;
|
| - MessageNano.toByteArray(message); // should not NPE
|
| - message.toString(); // should not NPE
|
| -
|
| - message.repeatedBytes = null;
|
| - MessageNano.toByteArray(message); // should not NPE
|
| - message.toString(); // should not NPE
|
| -
|
| - message.repeatedNestedMessage = null;
|
| - MessageNano.toByteArray(message); // should not NPE
|
| - message.toString(); // should not NPE
|
| -
|
| - message.repeatedPackedInt32 = null;
|
| - MessageNano.toByteArray(message); // should not NPE
|
| - message.toString(); // should not NPE
|
| -
|
| - message.repeatedPackedNestedEnum = null;
|
| - MessageNano.toByteArray(message); // should not NPE
|
| - message.toString(); // should not NPE
|
| -
|
| - // Create a second message to merge into message.
|
| - TestAllTypesNano secondMessage = new TestAllTypesNano();
|
| - secondMessage.repeatedInt32 = new int[] {1, 2, 3};
|
| - secondMessage.repeatedNestedEnum = new int[] {
|
| - TestAllTypesNano.FOO, TestAllTypesNano.BAR
|
| - };
|
| - secondMessage.repeatedBytes = new byte[][] {{1, 2}, {3, 4}};
|
| - TestAllTypesNano.NestedMessage nested =
|
| - new TestAllTypesNano.NestedMessage();
|
| - nested.bb = 55;
|
| - secondMessage.repeatedNestedMessage =
|
| - new TestAllTypesNano.NestedMessage[] {nested};
|
| - secondMessage.repeatedPackedInt32 = new int[] {1, 2, 3};
|
| - secondMessage.repeatedPackedNestedEnum = new int[] {
|
| - TestAllTypesNano.FOO, TestAllTypesNano.BAR
|
| - };
|
| -
|
| - // Should not NPE
|
| - message.mergeFrom(CodedInputByteBufferNano.newInstance(
|
| - MessageNano.toByteArray(secondMessage)));
|
| - assertEquals(3, message.repeatedInt32.length);
|
| - assertEquals(3, message.repeatedInt32[2]);
|
| - assertEquals(2, message.repeatedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.FOO, message.repeatedNestedEnum[0]);
|
| - assertEquals(2, message.repeatedBytes.length);
|
| - assertEquals(4, message.repeatedBytes[1][1]);
|
| - assertEquals(1, message.repeatedNestedMessage.length);
|
| - assertEquals(55, message.repeatedNestedMessage[0].bb);
|
| - assertEquals(3, message.repeatedPackedInt32.length);
|
| - assertEquals(2, message.repeatedPackedInt32[1]);
|
| - assertEquals(2, message.repeatedPackedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.BAR, message.repeatedPackedNestedEnum[1]);
|
| - }
|
| -
|
| - public void testNullRepeatedFieldElements() throws Exception {
|
| - // Check that serialization with null array elements doesn't NPE.
|
| - String string1 = "1";
|
| - String string2 = "2";
|
| - byte[] bytes1 = {3, 4};
|
| - byte[] bytes2 = {5, 6};
|
| - TestAllTypesNano.NestedMessage msg1 = new TestAllTypesNano.NestedMessage();
|
| - msg1.bb = 7;
|
| - TestAllTypesNano.NestedMessage msg2 = new TestAllTypesNano.NestedMessage();
|
| - msg2.bb = 8;
|
| -
|
| - TestAllTypesNano message = new TestAllTypesNano();
|
| - message.repeatedString = new String[] {null, string1, string2};
|
| - message.repeatedBytes = new byte[][] {bytes1, null, bytes2};
|
| - message.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] {msg1, msg2, null};
|
| - message.repeatedGroup = new TestAllTypesNano.RepeatedGroup[] {null, null, null};
|
| -
|
| - byte[] serialized = MessageNano.toByteArray(message); // should not NPE
|
| - TestAllTypesNano deserialized = MessageNano.mergeFrom(new TestAllTypesNano(), serialized);
|
| - assertEquals(2, deserialized.repeatedString.length);
|
| - assertEquals(string1, deserialized.repeatedString[0]);
|
| - assertEquals(string2, deserialized.repeatedString[1]);
|
| - assertEquals(2, deserialized.repeatedBytes.length);
|
| - assertTrue(Arrays.equals(bytes1, deserialized.repeatedBytes[0]));
|
| - assertTrue(Arrays.equals(bytes2, deserialized.repeatedBytes[1]));
|
| - assertEquals(2, deserialized.repeatedNestedMessage.length);
|
| - assertEquals(msg1.bb, deserialized.repeatedNestedMessage[0].bb);
|
| - assertEquals(msg2.bb, deserialized.repeatedNestedMessage[1].bb);
|
| - assertEquals(0, deserialized.repeatedGroup.length);
|
| - }
|
| -
|
| - public void testRepeatedMerge() throws Exception {
|
| - // Check that merging repeated fields cause the arrays to expand with
|
| - // new data.
|
| - TestAllTypesNano first = new TestAllTypesNano();
|
| - first.repeatedInt32 = new int[] {1, 2, 3};
|
| - TestAllTypesNano second = new TestAllTypesNano();
|
| - second.repeatedInt32 = new int[] {4, 5};
|
| - MessageNano.mergeFrom(first, MessageNano.toByteArray(second));
|
| - assertEquals(5, first.repeatedInt32.length);
|
| - assertEquals(1, first.repeatedInt32[0]);
|
| - assertEquals(4, first.repeatedInt32[3]);
|
| -
|
| - first = new TestAllTypesNano();
|
| - first.repeatedNestedEnum = new int[] {TestAllTypesNano.BAR};
|
| - second = new TestAllTypesNano();
|
| - second.repeatedNestedEnum = new int[] {TestAllTypesNano.FOO};
|
| - MessageNano.mergeFrom(first, MessageNano.toByteArray(second));
|
| - assertEquals(2, first.repeatedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.BAR, first.repeatedNestedEnum[0]);
|
| - assertEquals(TestAllTypesNano.FOO, first.repeatedNestedEnum[1]);
|
| -
|
| - first = new TestAllTypesNano();
|
| - first.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] {
|
| - new TestAllTypesNano.NestedMessage()
|
| - };
|
| - first.repeatedNestedMessage[0].bb = 3;
|
| - second = new TestAllTypesNano();
|
| - second.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] {
|
| - new TestAllTypesNano.NestedMessage()
|
| - };
|
| - second.repeatedNestedMessage[0].bb = 5;
|
| - MessageNano.mergeFrom(first, MessageNano.toByteArray(second));
|
| - assertEquals(2, first.repeatedNestedMessage.length);
|
| - assertEquals(3, first.repeatedNestedMessage[0].bb);
|
| - assertEquals(5, first.repeatedNestedMessage[1].bb);
|
| -
|
| - first = new TestAllTypesNano();
|
| - first.repeatedPackedSfixed64 = new long[] {-1, -2, -3};
|
| - second = new TestAllTypesNano();
|
| - second.repeatedPackedSfixed64 = new long[] {-4, -5};
|
| - MessageNano.mergeFrom(first, MessageNano.toByteArray(second));
|
| - assertEquals(5, first.repeatedPackedSfixed64.length);
|
| - assertEquals(-1, first.repeatedPackedSfixed64[0]);
|
| - assertEquals(-4, first.repeatedPackedSfixed64[3]);
|
| -
|
| - first = new TestAllTypesNano();
|
| - first.repeatedPackedNestedEnum = new int[] {TestAllTypesNano.BAR};
|
| - second = new TestAllTypesNano();
|
| - second.repeatedPackedNestedEnum = new int[] {TestAllTypesNano.FOO};
|
| - MessageNano.mergeFrom(first, MessageNano.toByteArray(second));
|
| - assertEquals(2, first.repeatedPackedNestedEnum.length);
|
| - assertEquals(TestAllTypesNano.BAR, first.repeatedPackedNestedEnum[0]);
|
| - assertEquals(TestAllTypesNano.FOO, first.repeatedPackedNestedEnum[1]);
|
| -
|
| - // Now test repeated merging in a nested scope
|
| - TestRepeatedMergeNano firstContainer = new TestRepeatedMergeNano();
|
| - firstContainer.contained = new TestAllTypesNano();
|
| - firstContainer.contained.repeatedInt32 = new int[] {10, 20};
|
| - TestRepeatedMergeNano secondContainer = new TestRepeatedMergeNano();
|
| - secondContainer.contained = new TestAllTypesNano();
|
| - secondContainer.contained.repeatedInt32 = new int[] {30};
|
| - MessageNano.mergeFrom(firstContainer, MessageNano.toByteArray(secondContainer));
|
| - assertEquals(3, firstContainer.contained.repeatedInt32.length);
|
| - assertEquals(20, firstContainer.contained.repeatedInt32[1]);
|
| - assertEquals(30, firstContainer.contained.repeatedInt32[2]);
|
| - }
|
| -
|
| - public void testRepeatedPackables() throws Exception {
|
| - // Check that repeated fields with packable types can accept both packed and unpacked
|
| - // serialized forms.
|
| - NanoRepeatedPackables.NonPacked nonPacked = new NanoRepeatedPackables.NonPacked();
|
| - // Exaggerates the first values of varint-typed arrays. This is to test that the parsing code
|
| - // of packed fields handles non-packed data correctly. If the code incorrectly thinks it is
|
| - // reading from a packed tag, it will read the first value as the byte length of the field,
|
| - // and the large number will cause the input to go out of bounds, thus capturing the error.
|
| - nonPacked.int32S = new int[] {1000, 2, 3};
|
| - nonPacked.int64S = new long[] {4000, 5, 6};
|
| - nonPacked.uint32S = new int[] {7000, 8, 9};
|
| - nonPacked.uint64S = new long[] {10000, 11, 12};
|
| - nonPacked.sint32S = new int[] {13000, 14, 15};
|
| - nonPacked.sint64S = new long[] {16000, 17, 18};
|
| - nonPacked.fixed32S = new int[] {19, 20, 21};
|
| - nonPacked.fixed64S = new long[] {22, 23, 24};
|
| - nonPacked.sfixed32S = new int[] {25, 26, 27};
|
| - nonPacked.sfixed64S = new long[] {28, 29, 30};
|
| - nonPacked.floats = new float[] {31, 32, 33};
|
| - nonPacked.doubles = new double[] {34, 35, 36};
|
| - nonPacked.bools = new boolean[] {false, true};
|
| - nonPacked.enums = new int[] {
|
| - NanoRepeatedPackables.Enum.OPTION_ONE,
|
| - NanoRepeatedPackables.Enum.OPTION_TWO,
|
| - };
|
| - nonPacked.noise = 13579;
|
| -
|
| - byte[] nonPackedSerialized = MessageNano.toByteArray(nonPacked);
|
| -
|
| - NanoRepeatedPackables.Packed packed =
|
| - MessageNano.mergeFrom(new NanoRepeatedPackables.Packed(), nonPackedSerialized);
|
| - assertRepeatedPackablesEqual(nonPacked, packed);
|
| -
|
| - byte[] packedSerialized = MessageNano.toByteArray(packed);
|
| - // Just a cautious check that the two serialized forms are different,
|
| - // to make sure the remaining of this test is useful:
|
| - assertFalse(Arrays.equals(nonPackedSerialized, packedSerialized));
|
| -
|
| - nonPacked = MessageNano.mergeFrom(new NanoRepeatedPackables.NonPacked(), packedSerialized);
|
| - assertRepeatedPackablesEqual(nonPacked, packed);
|
| -
|
| - // Test mixed serialized form.
|
| - byte[] mixedSerialized = new byte[nonPackedSerialized.length + packedSerialized.length];
|
| - System.arraycopy(nonPackedSerialized, 0, mixedSerialized, 0, nonPackedSerialized.length);
|
| - System.arraycopy(packedSerialized, 0,
|
| - mixedSerialized, nonPackedSerialized.length, packedSerialized.length);
|
| -
|
| - nonPacked = MessageNano.mergeFrom(new NanoRepeatedPackables.NonPacked(), mixedSerialized);
|
| - packed = MessageNano.mergeFrom(new NanoRepeatedPackables.Packed(), mixedSerialized);
|
| - assertRepeatedPackablesEqual(nonPacked, packed);
|
| - assertTrue(Arrays.equals(new int[] {1000, 2, 3, 1000, 2, 3}, nonPacked.int32S));
|
| - assertTrue(Arrays.equals(new int[] {13000, 14, 15, 13000, 14, 15}, nonPacked.sint32S));
|
| - assertTrue(Arrays.equals(new int[] {25, 26, 27, 25, 26, 27}, nonPacked.sfixed32S));
|
| - assertTrue(Arrays.equals(new boolean[] {false, true, false, true}, nonPacked.bools));
|
| - }
|
| -
|
| - public void testMapsSerializeAndParse() throws Exception {
|
| - TestMap origin = new TestMap();
|
| - setMapMessage(origin);
|
| - assertMapMessageSet(origin);
|
| -
|
| - byte[] output = MessageNano.toByteArray(origin);
|
| - TestMap parsed = new TestMap();
|
| - MessageNano.mergeFrom(parsed, output);
|
| - }
|
| -
|
| - public void testMapSerializeRejectNull() throws Exception {
|
| - TestMap primitiveMap = new TestMap();
|
| - primitiveMap.int32ToInt32Field = new HashMap<Integer, Integer>();
|
| - primitiveMap.int32ToInt32Field.put(null, 1);
|
| - try {
|
| - MessageNano.toByteArray(primitiveMap);
|
| - fail("should reject null keys");
|
| - } catch (IllegalStateException e) {
|
| - // pass.
|
| - }
|
| -
|
| - TestMap messageMap = new TestMap();
|
| - messageMap.int32ToMessageField =
|
| - new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - messageMap.int32ToMessageField.put(0, null);
|
| - try {
|
| - MessageNano.toByteArray(messageMap);
|
| - fail("should reject null values");
|
| - } catch (IllegalStateException e) {
|
| - // pass.
|
| - }
|
| - }
|
| -
|
| - /**
|
| - * Tests that merging bytes containing conflicting keys with override the
|
| - * message value instead of merging the message value into the existing entry.
|
| - */
|
| - public void testMapMergeOverrideMessageValues() throws Exception {
|
| - TestMap.MessageValue origValue = new TestMap.MessageValue();
|
| - origValue.value = 1;
|
| - origValue.value2 = 2;
|
| - TestMap.MessageValue newValue = new TestMap.MessageValue();
|
| - newValue.value = 3;
|
| -
|
| - TestMap origMessage = new TestMap();
|
| - origMessage.int32ToMessageField =
|
| - new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - origMessage.int32ToMessageField.put(1, origValue);
|
| -
|
| - TestMap newMessage = new TestMap();
|
| - newMessage.int32ToMessageField =
|
| - new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - newMessage.int32ToMessageField.put(1, newValue);
|
| - MessageNano.mergeFrom(origMessage,
|
| - MessageNano.toByteArray(newMessage));
|
| - TestMap.MessageValue mergedValue = origMessage.int32ToMessageField.get(1);
|
| - assertEquals(3, mergedValue.value);
|
| - assertEquals(0, mergedValue.value2);
|
| - }
|
| -
|
| - /**
|
| - * Tests that when merging with empty entries,
|
| - * we will use default for the key and value, instead of null.
|
| - */
|
| - public void testMapMergeEmptyEntry() throws Exception {
|
| - TestMap testMap = new TestMap();
|
| - byte[] buffer = new byte[1024];
|
| - CodedOutputByteBufferNano output =
|
| - CodedOutputByteBufferNano.newInstance(buffer);
|
| - // An empty entry for int32_to_int32 map.
|
| - output.writeTag(1, WireFormatNano.WIRETYPE_LENGTH_DELIMITED);
|
| - output.writeRawVarint32(0);
|
| - // An empty entry for int32_to_message map.
|
| - output.writeTag(5, WireFormatNano.WIRETYPE_LENGTH_DELIMITED);
|
| - output.writeRawVarint32(0);
|
| -
|
| - CodedInputByteBufferNano input = CodedInputByteBufferNano.newInstance(
|
| - buffer, 0, buffer.length - output.spaceLeft());
|
| - testMap.mergeFrom(input);
|
| - assertNotNull(testMap.int32ToInt32Field);;
|
| - assertEquals(1, testMap.int32ToInt32Field.size());
|
| - assertEquals(Integer.valueOf(0), testMap.int32ToInt32Field.get(0));
|
| - assertNotNull(testMap.int32ToMessageField);
|
| - assertEquals(1, testMap.int32ToMessageField.size());
|
| - TestMap.MessageValue messageValue = testMap.int32ToMessageField.get(0);
|
| - assertNotNull(messageValue);
|
| - assertEquals(0, messageValue.value);
|
| - assertEquals(0, messageValue.value2);
|
| - }
|
| -
|
| - public void testMapEquals() throws Exception {
|
| - TestMap a = new TestMap();
|
| - TestMap b = new TestMap();
|
| -
|
| - // empty and null map fields are equal.
|
| - assertTestMapEqual(a, b);
|
| - a.int32ToBytesField = new HashMap<Integer, byte[]>();
|
| - assertTestMapEqual(a, b);
|
| -
|
| - a.int32ToInt32Field = new HashMap<Integer, Integer>();
|
| - b.int32ToInt32Field = new HashMap<Integer, Integer>();
|
| - setMap(a.int32ToInt32Field, deepCopy(int32Values), deepCopy(int32Values));
|
| - setMap(b.int32ToInt32Field, deepCopy(int32Values), deepCopy(int32Values));
|
| - assertTestMapEqual(a, b);
|
| -
|
| - a.int32ToMessageField =
|
| - new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - b.int32ToMessageField =
|
| - new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - setMap(a.int32ToMessageField,
|
| - deepCopy(int32Values), deepCopy(messageValues));
|
| - setMap(b.int32ToMessageField,
|
| - deepCopy(int32Values), deepCopy(messageValues));
|
| - assertTestMapEqual(a, b);
|
| -
|
| - a.stringToInt32Field = new HashMap<String, Integer>();
|
| - b.stringToInt32Field = new HashMap<String, Integer>();
|
| - setMap(a.stringToInt32Field, deepCopy(stringValues), deepCopy(int32Values));
|
| - setMap(b.stringToInt32Field, deepCopy(stringValues), deepCopy(int32Values));
|
| - assertTestMapEqual(a, b);
|
| -
|
| - a.int32ToBytesField = new HashMap<Integer, byte[]>();
|
| - b.int32ToBytesField = new HashMap<Integer, byte[]>();
|
| - setMap(a.int32ToBytesField, deepCopy(int32Values), deepCopy(bytesValues));
|
| - setMap(b.int32ToBytesField, deepCopy(int32Values), deepCopy(bytesValues));
|
| - assertTestMapEqual(a, b);
|
| -
|
| - // Make sure the map implementation does not matter.
|
| - a.int32ToStringField = new TreeMap<Integer, String>();
|
| - b.int32ToStringField = new HashMap<Integer, String>();
|
| - setMap(a.int32ToStringField, deepCopy(int32Values), deepCopy(stringValues));
|
| - setMap(b.int32ToStringField, deepCopy(int32Values), deepCopy(stringValues));
|
| - assertTestMapEqual(a, b);
|
| -
|
| - a.clear();
|
| - b.clear();
|
| -
|
| - // unequal cases: different value
|
| - a.int32ToInt32Field = new HashMap<Integer, Integer>();
|
| - b.int32ToInt32Field = new HashMap<Integer, Integer>();
|
| - a.int32ToInt32Field.put(1, 1);
|
| - b.int32ToInt32Field.put(1, 2);
|
| - assertTestMapUnequal(a, b);
|
| - // unequal case: additional entry
|
| - b.int32ToInt32Field.put(1, 1);
|
| - b.int32ToInt32Field.put(2, 1);
|
| - assertTestMapUnequal(a, b);
|
| - a.int32ToInt32Field.put(2, 1);
|
| - assertTestMapEqual(a, b);
|
| -
|
| - // unequal case: different message value.
|
| - a.int32ToMessageField =
|
| - new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - b.int32ToMessageField =
|
| - new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - MessageValue va = new MessageValue();
|
| - va.value = 1;
|
| - MessageValue vb = new MessageValue();
|
| - vb.value = 1;
|
| - a.int32ToMessageField.put(1, va);
|
| - b.int32ToMessageField.put(1, vb);
|
| - assertTestMapEqual(a, b);
|
| - vb.value = 2;
|
| - assertTestMapUnequal(a, b);
|
| - }
|
| -
|
| - private static void assertTestMapEqual(TestMap a, TestMap b)
|
| - throws Exception {
|
| - assertEquals(a.hashCode(), b.hashCode());
|
| - assertTrue(a.equals(b));
|
| - assertTrue(b.equals(a));
|
| - }
|
| -
|
| - private static void assertTestMapUnequal(TestMap a, TestMap b)
|
| - throws Exception {
|
| - assertFalse(a.equals(b));
|
| - assertFalse(b.equals(a));
|
| - }
|
| -
|
| - private static final Integer[] int32Values = new Integer[] {
|
| - 0, 1, -1, Integer.MAX_VALUE, Integer.MIN_VALUE,
|
| - };
|
| -
|
| - private static final Long[] int64Values = new Long[] {
|
| - 0L, 1L, -1L, Long.MAX_VALUE, Long.MIN_VALUE,
|
| - };
|
| -
|
| - private static final String[] stringValues = new String[] {
|
| - "", "hello", "world", "foo", "bar",
|
| - };
|
| -
|
| - private static final byte[][] bytesValues = new byte[][] {
|
| - new byte[] {},
|
| - new byte[] {0},
|
| - new byte[] {1, -1},
|
| - new byte[] {127, -128},
|
| - new byte[] {'a', 'b', '0', '1'},
|
| - };
|
| -
|
| - private static final Boolean[] boolValues = new Boolean[] {
|
| - false, true,
|
| - };
|
| -
|
| - private static final Integer[] enumValues = new Integer[] {
|
| - TestMap.FOO, TestMap.BAR, TestMap.BAZ, TestMap.QUX,
|
| - Integer.MAX_VALUE /* unknown */,
|
| - };
|
| -
|
| - private static final TestMap.MessageValue[] messageValues =
|
| - new TestMap.MessageValue[] {
|
| - newMapValueMessage(0),
|
| - newMapValueMessage(1),
|
| - newMapValueMessage(-1),
|
| - newMapValueMessage(Integer.MAX_VALUE),
|
| - newMapValueMessage(Integer.MIN_VALUE),
|
| - };
|
| -
|
| - private static TestMap.MessageValue newMapValueMessage(int value) {
|
| - TestMap.MessageValue result = new TestMap.MessageValue();
|
| - result.value = value;
|
| - return result;
|
| - }
|
| -
|
| - @SuppressWarnings("unchecked")
|
| - private static <T> T[] deepCopy(T[] orig) throws Exception {
|
| - if (orig instanceof MessageValue[]) {
|
| - MessageValue[] result = new MessageValue[orig.length];
|
| - for (int i = 0; i < orig.length; i++) {
|
| - result[i] = new MessageValue();
|
| - MessageNano.mergeFrom(
|
| - result[i], MessageNano.toByteArray((MessageValue) orig[i]));
|
| - }
|
| - return (T[]) result;
|
| - }
|
| - if (orig instanceof byte[][]) {
|
| - byte[][] result = new byte[orig.length][];
|
| - for (int i = 0; i < orig.length; i++) {
|
| - byte[] origBytes = (byte[]) orig[i];
|
| - result[i] = Arrays.copyOf(origBytes, origBytes.length);
|
| - }
|
| - }
|
| - return Arrays.copyOf(orig, orig.length);
|
| - }
|
| -
|
| - private <K, V> void setMap(Map<K, V> map, K[] keys, V[] values) {
|
| - assert(keys.length == values.length);
|
| - for (int i = 0; i < keys.length; i++) {
|
| - map.put(keys[i], values[i]);
|
| - }
|
| - }
|
| -
|
| - private <K, V> void assertMapSet(
|
| - Map<K, V> map, K[] keys, V[] values) throws Exception {
|
| - assert(keys.length == values.length);
|
| - for (int i = 0; i < values.length; i++) {
|
| - assertEquals(values[i], map.get(keys[i]));
|
| - }
|
| - assertEquals(keys.length, map.size());
|
| - }
|
| -
|
| - private void setMapMessage(TestMap testMap) {
|
| - testMap.int32ToInt32Field = new HashMap<Integer, Integer>();
|
| - testMap.int32ToBytesField = new HashMap<Integer, byte[]>();
|
| - testMap.int32ToEnumField = new HashMap<Integer, Integer>();
|
| - testMap.int32ToMessageField =
|
| - new HashMap<Integer, MapTestProto.TestMap.MessageValue>();
|
| - testMap.int32ToStringField = new HashMap<Integer, String>();
|
| - testMap.stringToInt32Field = new HashMap<String, Integer>();
|
| - testMap.boolToBoolField = new HashMap<Boolean, Boolean>();
|
| - testMap.uint32ToUint32Field = new HashMap<Integer, Integer>();
|
| - testMap.sint32ToSint32Field = new HashMap<Integer, Integer>();
|
| - testMap.fixed32ToFixed32Field = new HashMap<Integer, Integer>();
|
| - testMap.sfixed32ToSfixed32Field = new HashMap<Integer, Integer>();
|
| - testMap.int64ToInt64Field = new HashMap<Long, Long>();
|
| - testMap.uint64ToUint64Field = new HashMap<Long, Long>();
|
| - testMap.sint64ToSint64Field = new HashMap<Long, Long>();
|
| - testMap.fixed64ToFixed64Field = new HashMap<Long, Long>();
|
| - testMap.sfixed64ToSfixed64Field = new HashMap<Long, Long>();
|
| - setMap(testMap.int32ToInt32Field, int32Values, int32Values);
|
| - setMap(testMap.int32ToBytesField, int32Values, bytesValues);
|
| - setMap(testMap.int32ToEnumField, int32Values, enumValues);
|
| - setMap(testMap.int32ToMessageField, int32Values, messageValues);
|
| - setMap(testMap.int32ToStringField, int32Values, stringValues);
|
| - setMap(testMap.stringToInt32Field, stringValues, int32Values);
|
| - setMap(testMap.boolToBoolField, boolValues, boolValues);
|
| - setMap(testMap.uint32ToUint32Field, int32Values, int32Values);
|
| - setMap(testMap.sint32ToSint32Field, int32Values, int32Values);
|
| - setMap(testMap.fixed32ToFixed32Field, int32Values, int32Values);
|
| - setMap(testMap.sfixed32ToSfixed32Field, int32Values, int32Values);
|
| - setMap(testMap.int64ToInt64Field, int64Values, int64Values);
|
| - setMap(testMap.uint64ToUint64Field, int64Values, int64Values);
|
| - setMap(testMap.sint64ToSint64Field, int64Values, int64Values);
|
| - setMap(testMap.fixed64ToFixed64Field, int64Values, int64Values);
|
| - setMap(testMap.sfixed64ToSfixed64Field, int64Values, int64Values);
|
| - }
|
| - private void assertMapMessageSet(TestMap testMap) throws Exception {
|
| - assertMapSet(testMap.int32ToInt32Field, int32Values, int32Values);
|
| - assertMapSet(testMap.int32ToBytesField, int32Values, bytesValues);
|
| - assertMapSet(testMap.int32ToEnumField, int32Values, enumValues);
|
| - assertMapSet(testMap.int32ToMessageField, int32Values, messageValues);
|
| - assertMapSet(testMap.int32ToStringField, int32Values, stringValues);
|
| - assertMapSet(testMap.stringToInt32Field, stringValues, int32Values);
|
| - assertMapSet(testMap.boolToBoolField, boolValues, boolValues);
|
| - assertMapSet(testMap.uint32ToUint32Field, int32Values, int32Values);
|
| - assertMapSet(testMap.sint32ToSint32Field, int32Values, int32Values);
|
| - assertMapSet(testMap.fixed32ToFixed32Field, int32Values, int32Values);
|
| - assertMapSet(testMap.sfixed32ToSfixed32Field, int32Values, int32Values);
|
| - assertMapSet(testMap.int64ToInt64Field, int64Values, int64Values);
|
| - assertMapSet(testMap.uint64ToUint64Field, int64Values, int64Values);
|
| - assertMapSet(testMap.sint64ToSint64Field, int64Values, int64Values);
|
| - assertMapSet(testMap.fixed64ToFixed64Field, int64Values, int64Values);
|
| - assertMapSet(testMap.sfixed64ToSfixed64Field, int64Values, int64Values);
|
| - }
|
| -
|
| - public void testRepeatedFieldInitializedInReftypesCompatMode() {
|
| - NanoReferenceTypesCompat.TestAllTypesNano proto = new NanoReferenceTypesCompat.TestAllTypesNano();
|
| - assertNotNull(proto.repeatedString);
|
| - }
|
| -
|
| - private void assertRepeatedPackablesEqual(
|
| - NanoRepeatedPackables.NonPacked nonPacked, NanoRepeatedPackables.Packed packed) {
|
| - // Not using MessageNano.equals() -- that belongs to a separate test.
|
| - assertTrue(Arrays.equals(nonPacked.int32S, packed.int32S));
|
| - assertTrue(Arrays.equals(nonPacked.int64S, packed.int64S));
|
| - assertTrue(Arrays.equals(nonPacked.uint32S, packed.uint32S));
|
| - assertTrue(Arrays.equals(nonPacked.uint64S, packed.uint64S));
|
| - assertTrue(Arrays.equals(nonPacked.sint32S, packed.sint32S));
|
| - assertTrue(Arrays.equals(nonPacked.sint64S, packed.sint64S));
|
| - assertTrue(Arrays.equals(nonPacked.fixed32S, packed.fixed32S));
|
| - assertTrue(Arrays.equals(nonPacked.fixed64S, packed.fixed64S));
|
| - assertTrue(Arrays.equals(nonPacked.sfixed32S, packed.sfixed32S));
|
| - assertTrue(Arrays.equals(nonPacked.sfixed64S, packed.sfixed64S));
|
| - assertTrue(Arrays.equals(nonPacked.floats, packed.floats));
|
| - assertTrue(Arrays.equals(nonPacked.doubles, packed.doubles));
|
| - assertTrue(Arrays.equals(nonPacked.bools, packed.bools));
|
| - assertTrue(Arrays.equals(nonPacked.enums, packed.enums));
|
| - }
|
| -
|
| - public void testClone() throws Exception {
|
| - // A simple message.
|
| - AnotherMessage anotherMessage = new AnotherMessage();
|
| - anotherMessage.string = "Hello";
|
| - anotherMessage.value = true;
|
| - anotherMessage.integers = new int[] { 1, 2, 3 };
|
| -
|
| - AnotherMessage clone = anotherMessage.clone();
|
| - assertEquals(clone, anotherMessage);
|
| -
|
| - // Verify it was a deep clone - changes to the clone shouldn't affect the
|
| - // original.
|
| - clone.integers[1] = 100;
|
| - assertFalse(clone.equals(anotherMessage));
|
| - }
|
| -
|
| - private void assertHasWireData(MessageNano message, boolean expected) {
|
| - byte[] bytes = MessageNano.toByteArray(message);
|
| - int wireLength = bytes.length;
|
| - if (expected) {
|
| - assertFalse(wireLength == 0);
|
| - } else {
|
| - if (wireLength != 0) {
|
| - fail("Expected no wire data for message \n" + message
|
| - + "\nBut got:\n"
|
| - + hexDump(bytes));
|
| - }
|
| - }
|
| - }
|
| -
|
| - private static String hexDump(byte[] bytes) {
|
| - StringBuilder sb = new StringBuilder();
|
| - for (byte b : bytes) {
|
| - sb.append(String.format("%02x ", b));
|
| - }
|
| - return sb.toString();
|
| - }
|
| -}
|
|
|
Chromium Code Reviews
Issue 1322483002:
Revert https://codereview.chromium.org/1291903002 (protobuf roll). (Closed)
Base URL: https://chromium.googlesource.com/chromium/src.git@master