1 // Protocol Buffers - Google's data interchange format 2 // Copyright 2013 Google Inc. All rights reserved. 3 // https://developers.google.com/protocol-buffers/ 4 // 5 // Redistribution and use in source and binary forms, with or without 6 // modification, are permitted provided that the following conditions are 7 // met: 8 // 9 // * Redistributions of source code must retain the above copyright 10 // notice, this list of conditions and the following disclaimer. 11 // * Redistributions in binary form must reproduce the above 12 // copyright notice, this list of conditions and the following disclaimer 13 // in the documentation and/or other materials provided with the 14 // distribution. 15 // * Neither the name of Google Inc. nor the names of its 16 // contributors may be used to endorse or promote products derived from 17 // this software without specific prior written permission. 18 // 19 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 20 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 21 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 22 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 23 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 24 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 25 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 26 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 27 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 28 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 29 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 30 31 package com.google.protobuf.nano; 32 33 import com.google.protobuf.nano.MapTestProto.TestMap; 34 import com.google.protobuf.nano.BytesOffsetLengthTestNanoOuterClass.BytesOffsetLengthTestNano; 35 import com.google.protobuf.nano.CodedInputByteBufferNano; 36 import com.google.protobuf.nano.CodedOutputByteBufferNano; 37 import com.google.protobuf.nano.MapTestProto.TestMap.MessageValue; 38 import com.google.protobuf.nano.NanoAccessorsOuterClass.TestNanoAccessors; 39 import com.google.protobuf.nano.NanoHasOuterClass.TestAllTypesNanoHas; 40 import com.google.protobuf.nano.NanoOuterClass.TestAllTypesNano; 41 import com.google.protobuf.nano.UnittestRecursiveNano.RecursiveMessageNano; 42 import com.google.protobuf.nano.NanoReferenceTypesCompat; 43 import com.google.protobuf.nano.UnittestSimpleNano.SimpleMessageNano; 44 import com.google.protobuf.nano.UnittestSingleNano.SingleMessageNano; 45 import com.google.protobuf.nano.UnknownEnumValuesNanoOuterClass.StandardVersion; 46 import com.google.protobuf.nano.UnknownEnumValuesNanoOuterClass.VersionWithoutVal3; 47 import com.google.protobuf.nano.testext.nano.Extensions; 48 import com.google.protobuf.nano.testext.nano.Extensions.AnotherMessage; 49 import com.google.protobuf.nano.testext.nano.Extensions.MessageWithGroup; 50 import com.google.protobuf.nano.testimport.nano.UnittestImportNano; 51 52 import junit.framework.TestCase; 53 54 import java.util.Arrays; 55 import java.util.HashMap; 56 import java.util.Map; 57 import java.util.TreeMap; 58 59 /** 60 * Test nano runtime. 61 * 62 * @author ulas@google.com Ulas Kirazci 63 */ 64 public class NanoTest extends TestCase { 65 @Override setUp()66 public void setUp() throws Exception { 67 } 68 testSimpleMessageNano()69 public void testSimpleMessageNano() throws Exception { 70 SimpleMessageNano msg = new SimpleMessageNano(); 71 assertEquals(123, msg.d); 72 assertEquals(null, msg.nestedMsg); 73 assertEquals(SimpleMessageNano.BAZ, msg.defaultNestedEnum); 74 75 msg.d = 456; 76 assertEquals(456, msg.d); 77 78 SimpleMessageNano.NestedMessage nestedMsg = new SimpleMessageNano.NestedMessage(); 79 nestedMsg.bb = 2; 80 assertEquals(2, nestedMsg.bb); 81 msg.nestedMsg = nestedMsg; 82 assertEquals(2, msg.nestedMsg.bb); 83 84 msg.defaultNestedEnum = SimpleMessageNano.BAR; 85 assertEquals(SimpleMessageNano.BAR, msg.defaultNestedEnum); 86 87 byte [] result = MessageNano.toByteArray(msg); 88 int msgSerializedSize = msg.getSerializedSize(); 89 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 90 assertTrue(msgSerializedSize == 9); 91 assertEquals(result.length, msgSerializedSize); 92 93 SimpleMessageNano newMsg = SimpleMessageNano.parseFrom(result); 94 assertEquals(456, newMsg.d); 95 assertEquals(2, msg.nestedMsg.bb); 96 assertEquals(SimpleMessageNano.BAR, msg.defaultNestedEnum); 97 98 msg.nestedMsg = null; 99 assertTrue(msgSerializedSize != msg.getSerializedSize()); 100 101 msg.clear(); 102 assertEquals(0, msg.getSerializedSize()); 103 } 104 testRecursiveMessageNano()105 public void testRecursiveMessageNano() throws Exception { 106 RecursiveMessageNano msg = new RecursiveMessageNano(); 107 assertTrue(msg.repeatedRecursiveMessageNano.length == 0); 108 109 RecursiveMessageNano msg1 = new RecursiveMessageNano(); 110 msg1.id = 1; 111 assertEquals(1, msg1.id); 112 RecursiveMessageNano msg2 = new RecursiveMessageNano(); 113 msg2.id = 2; 114 RecursiveMessageNano msg3 = new RecursiveMessageNano(); 115 msg3.id = 3; 116 117 RecursiveMessageNano.NestedMessage nestedMsg = new RecursiveMessageNano.NestedMessage(); 118 nestedMsg.a = msg1; 119 assertEquals(1, nestedMsg.a.id); 120 121 msg.id = 0; 122 msg.nestedMessage = nestedMsg; 123 msg.optionalRecursiveMessageNano = msg2; 124 msg.repeatedRecursiveMessageNano = new RecursiveMessageNano[] { msg3 }; 125 126 byte [] result = MessageNano.toByteArray(msg); 127 int msgSerializedSize = msg.getSerializedSize(); 128 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 129 assertTrue(msgSerializedSize == 16); 130 assertEquals(result.length, msgSerializedSize); 131 132 RecursiveMessageNano newMsg = RecursiveMessageNano.parseFrom(result); 133 assertEquals(1, newMsg.repeatedRecursiveMessageNano.length); 134 135 assertEquals(0, newMsg.id); 136 assertEquals(1, newMsg.nestedMessage.a.id); 137 assertEquals(2, newMsg.optionalRecursiveMessageNano.id); 138 assertEquals(3, newMsg.repeatedRecursiveMessageNano[0].id); 139 } 140 testMessageNoFields()141 public void testMessageNoFields() { 142 SingleMessageNano msg = new SingleMessageNano(); 143 assertEquals(0, msg.getSerializedSize()); 144 assertEquals(0, MessageNano.toByteArray(msg).length); 145 } 146 testNanoRequiredInt32()147 public void testNanoRequiredInt32() throws Exception { 148 TestAllTypesNano msg = new TestAllTypesNano(); 149 msg.id = 123; 150 assertEquals(123, msg.id); 151 msg.clear().id = 456; 152 assertEquals(456, msg.id); 153 msg.clear(); 154 155 msg.id = 123; 156 byte [] result = MessageNano.toByteArray(msg); 157 int msgSerializedSize = msg.getSerializedSize(); 158 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 159 assertTrue(msgSerializedSize == 3); 160 assertEquals(result.length, msgSerializedSize); 161 162 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 163 assertEquals(123, newMsg.id); 164 } 165 testNanoOptionalInt32()166 public void testNanoOptionalInt32() throws Exception { 167 TestAllTypesNano msg = new TestAllTypesNano(); 168 msg.optionalInt32 = 123; 169 assertEquals(123, msg.optionalInt32); 170 msg.clear() 171 .optionalInt32 = 456; 172 assertEquals(456, msg.optionalInt32); 173 msg.clear(); 174 175 msg.optionalInt32 = 123; 176 byte [] result = MessageNano.toByteArray(msg); 177 int msgSerializedSize = msg.getSerializedSize(); 178 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 179 assertTrue(msgSerializedSize == 5); 180 assertEquals(result.length, msgSerializedSize); 181 182 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 183 assertEquals(123, newMsg.optionalInt32); 184 } 185 testNanoOptionalInt64()186 public void testNanoOptionalInt64() throws Exception { 187 TestAllTypesNano msg = new TestAllTypesNano(); 188 msg.optionalInt64 = 123; 189 assertEquals(123, msg.optionalInt64); 190 msg.clear() 191 .optionalInt64 = 456; 192 assertEquals(456, msg.optionalInt64); 193 msg.clear(); 194 assertEquals(0, msg.optionalInt64); 195 196 msg.optionalInt64 = 123; 197 byte [] result = MessageNano.toByteArray(msg); 198 int msgSerializedSize = msg.getSerializedSize(); 199 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 200 assertTrue(msgSerializedSize == 5); 201 assertEquals(result.length, msgSerializedSize); 202 203 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 204 assertEquals(123, newMsg.optionalInt64); 205 } 206 testNanoOptionalUint32()207 public void testNanoOptionalUint32() throws Exception { 208 TestAllTypesNano msg = new TestAllTypesNano(); 209 msg.optionalUint32 = 123; 210 assertEquals(123, msg.optionalUint32); 211 msg.clear() 212 .optionalUint32 = 456; 213 assertEquals(456, msg.optionalUint32); 214 msg.clear(); 215 assertEquals(0, msg.optionalUint32); 216 217 msg.optionalUint32 = 123; 218 byte [] result = MessageNano.toByteArray(msg); 219 int msgSerializedSize = msg.getSerializedSize(); 220 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 221 assertTrue(msgSerializedSize == 5); 222 assertEquals(result.length, msgSerializedSize); 223 224 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 225 assertEquals(123, newMsg.optionalUint32); 226 } 227 testNanoOptionalUint64()228 public void testNanoOptionalUint64() throws Exception { 229 TestAllTypesNano msg = new TestAllTypesNano(); 230 msg.optionalUint64 = 123; 231 assertEquals(123, msg.optionalUint64); 232 msg.clear() 233 .optionalUint64 = 456; 234 assertEquals(456, msg.optionalUint64); 235 msg.clear(); 236 assertEquals(0, msg.optionalUint64); 237 238 msg.optionalUint64 = 123; 239 byte [] result = MessageNano.toByteArray(msg); 240 int msgSerializedSize = msg.getSerializedSize(); 241 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 242 assertTrue(msgSerializedSize == 5); 243 assertEquals(result.length, msgSerializedSize); 244 245 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 246 assertEquals(123, newMsg.optionalUint64); 247 } 248 testNanoOptionalSint32()249 public void testNanoOptionalSint32() throws Exception { 250 TestAllTypesNano msg = new TestAllTypesNano(); 251 msg.optionalSint32 = 123; 252 assertEquals(123, msg.optionalSint32); 253 msg.clear() 254 .optionalSint32 = 456; 255 assertEquals(456, msg.optionalSint32); 256 msg.clear(); 257 assertEquals(0, msg.optionalSint32); 258 259 msg.optionalSint32 = -123; 260 byte [] result = MessageNano.toByteArray(msg); 261 int msgSerializedSize = msg.getSerializedSize(); 262 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 263 assertTrue(msgSerializedSize == 6); 264 assertEquals(result.length, msgSerializedSize); 265 266 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 267 assertEquals(-123, newMsg.optionalSint32); 268 } 269 testNanoOptionalSint64()270 public void testNanoOptionalSint64() throws Exception { 271 TestAllTypesNano msg = new TestAllTypesNano(); 272 msg.optionalSint64 = 123; 273 assertEquals(123, msg.optionalSint64); 274 msg.clear() 275 .optionalSint64 = 456; 276 assertEquals(456, msg.optionalSint64); 277 msg.clear(); 278 assertEquals(0, msg.optionalSint64); 279 280 msg.optionalSint64 = -123; 281 byte [] result = MessageNano.toByteArray(msg); 282 int msgSerializedSize = msg.getSerializedSize(); 283 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 284 assertTrue(msgSerializedSize == 6); 285 assertEquals(result.length, msgSerializedSize); 286 287 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 288 assertEquals(-123, newMsg.optionalSint64); 289 } 290 testNanoOptionalFixed32()291 public void testNanoOptionalFixed32() throws Exception { 292 TestAllTypesNano msg = new TestAllTypesNano(); 293 msg.optionalFixed32 = 123; 294 assertEquals(123, msg.optionalFixed32); 295 msg.clear() 296 .optionalFixed32 = 456; 297 assertEquals(456, msg.optionalFixed32); 298 msg.clear(); 299 assertEquals(0, msg.optionalFixed32); 300 301 msg.optionalFixed32 = 123; 302 byte [] result = MessageNano.toByteArray(msg); 303 int msgSerializedSize = msg.getSerializedSize(); 304 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 305 assertTrue(msgSerializedSize == 8); 306 assertEquals(result.length, msgSerializedSize); 307 308 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 309 assertEquals(123, newMsg.optionalFixed32); 310 } 311 testNanoOptionalFixed64()312 public void testNanoOptionalFixed64() throws Exception { 313 TestAllTypesNano msg = new TestAllTypesNano(); 314 msg.optionalFixed64 = 123; 315 assertEquals(123, msg.optionalFixed64); 316 msg.clear() 317 .optionalFixed64 = 456; 318 assertEquals(456, msg.optionalFixed64); 319 msg.clear(); 320 assertEquals(0, msg.optionalFixed64); 321 322 msg.optionalFixed64 = 123; 323 byte [] result = MessageNano.toByteArray(msg); 324 int msgSerializedSize = msg.getSerializedSize(); 325 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 326 assertTrue(msgSerializedSize == 12); 327 assertEquals(result.length, msgSerializedSize); 328 329 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 330 assertEquals(123, newMsg.optionalFixed64); 331 } 332 testNanoOptionalSfixed32()333 public void testNanoOptionalSfixed32() throws Exception { 334 TestAllTypesNano msg = new TestAllTypesNano(); 335 msg.optionalSfixed32 = 123; 336 assertEquals(123, msg.optionalSfixed32); 337 msg.clear() 338 .optionalSfixed32 = 456; 339 assertEquals(456, msg.optionalSfixed32); 340 msg.clear(); 341 assertEquals(0, msg.optionalSfixed32); 342 343 msg.optionalSfixed32 = 123; 344 byte [] result = MessageNano.toByteArray(msg); 345 int msgSerializedSize = msg.getSerializedSize(); 346 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 347 assertTrue(msgSerializedSize == 8); 348 assertEquals(result.length, msgSerializedSize); 349 350 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 351 assertEquals(123, newMsg.optionalSfixed32); 352 } 353 testNanoOptionalSfixed64()354 public void testNanoOptionalSfixed64() throws Exception { 355 TestAllTypesNano msg = new TestAllTypesNano(); 356 msg.optionalSfixed64 = 123; 357 assertEquals(123, msg.optionalSfixed64); 358 msg.clear() 359 .optionalSfixed64 = 456; 360 assertEquals(456, msg.optionalSfixed64); 361 msg.clear(); 362 assertEquals(0, msg.optionalSfixed64); 363 364 msg.optionalSfixed64 = -123; 365 byte [] result = MessageNano.toByteArray(msg); 366 int msgSerializedSize = msg.getSerializedSize(); 367 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 368 assertTrue(msgSerializedSize == 12); 369 assertEquals(result.length, msgSerializedSize); 370 371 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 372 assertEquals(-123, newMsg.optionalSfixed64); 373 } 374 testNanoOptionalFloat()375 public void testNanoOptionalFloat() throws Exception { 376 TestAllTypesNano msg = new TestAllTypesNano(); 377 msg.optionalFloat = 123f; 378 assertTrue(123.0f == msg.optionalFloat); 379 msg.clear() 380 .optionalFloat = 456.0f; 381 assertTrue(456.0f == msg.optionalFloat); 382 msg.clear(); 383 assertTrue(0.0f == msg.optionalFloat); 384 385 msg.optionalFloat = -123.456f; 386 byte [] result = MessageNano.toByteArray(msg); 387 int msgSerializedSize = msg.getSerializedSize(); 388 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 389 assertTrue(msgSerializedSize == 8); 390 assertEquals(result.length, msgSerializedSize); 391 392 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 393 assertTrue(-123.456f == newMsg.optionalFloat); 394 } 395 testNanoOptionalDouble()396 public void testNanoOptionalDouble() throws Exception { 397 TestAllTypesNano msg = new TestAllTypesNano(); 398 msg.optionalDouble = 123; 399 assertTrue(123.0 == msg.optionalDouble); 400 msg.clear() 401 .optionalDouble = 456.0; 402 assertTrue(456.0 == msg.optionalDouble); 403 msg.clear(); 404 assertTrue(0.0 == msg.optionalDouble); 405 406 msg.optionalDouble = -123.456; 407 byte [] result = MessageNano.toByteArray(msg); 408 int msgSerializedSize = msg.getSerializedSize(); 409 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 410 assertTrue(msgSerializedSize == 12); 411 assertEquals(result.length, msgSerializedSize); 412 413 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 414 assertTrue(-123.456 == newMsg.optionalDouble); 415 } 416 testNanoOptionalBool()417 public void testNanoOptionalBool() throws Exception { 418 TestAllTypesNano msg = new TestAllTypesNano(); 419 msg.optionalBool = true; 420 assertTrue(msg.optionalBool); 421 msg.clear() 422 .optionalBool = true; 423 assertTrue(msg.optionalBool); 424 msg.clear(); 425 assertFalse(msg.optionalBool); 426 427 msg.optionalBool = true; 428 byte [] result = MessageNano.toByteArray(msg); 429 int msgSerializedSize = msg.getSerializedSize(); 430 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 431 assertTrue(msgSerializedSize == 5); 432 assertEquals(result.length, msgSerializedSize); 433 434 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 435 assertTrue(newMsg.optionalBool); 436 } 437 testNanoOptionalString()438 public void testNanoOptionalString() throws Exception { 439 TestAllTypesNano msg = new TestAllTypesNano(); 440 msg.optionalString = "hello"; 441 assertEquals("hello", msg.optionalString); 442 msg.clear(); 443 assertTrue(msg.optionalString.isEmpty()); 444 msg.clear() 445 .optionalString = "hello2"; 446 assertEquals("hello2", msg.optionalString); 447 msg.clear(); 448 assertTrue(msg.optionalString.isEmpty()); 449 450 msg.optionalString = "bye"; 451 byte [] result = MessageNano.toByteArray(msg); 452 int msgSerializedSize = msg.getSerializedSize(); 453 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 454 assertTrue(msgSerializedSize == 8); 455 assertEquals(result.length, msgSerializedSize); 456 457 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 458 assertTrue(newMsg.optionalString != null); 459 assertEquals("bye", newMsg.optionalString); 460 } 461 testNanoOptionalBytes()462 public void testNanoOptionalBytes() throws Exception { 463 TestAllTypesNano msg = new TestAllTypesNano(); 464 assertFalse(msg.optionalBytes.length > 0); 465 msg.optionalBytes = InternalNano.copyFromUtf8("hello"); 466 assertTrue(msg.optionalBytes.length > 0); 467 assertEquals("hello", new String(msg.optionalBytes, InternalNano.UTF_8)); 468 msg.clear(); 469 assertFalse(msg.optionalBytes.length > 0); 470 msg.clear() 471 .optionalBytes = InternalNano.copyFromUtf8("hello"); 472 assertTrue(msg.optionalBytes.length > 0); 473 msg.clear(); 474 assertFalse(msg.optionalBytes.length > 0); 475 476 msg.optionalBytes = InternalNano.copyFromUtf8("bye"); 477 byte [] result = MessageNano.toByteArray(msg); 478 int msgSerializedSize = msg.getSerializedSize(); 479 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 480 assertTrue(msgSerializedSize == 8); 481 assertEquals(result.length, msgSerializedSize); 482 483 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 484 assertTrue(newMsg.optionalBytes.length > 0); 485 assertEquals("bye", new String(newMsg.optionalBytes, InternalNano.UTF_8)); 486 } 487 testNanoOptionalGroup()488 public void testNanoOptionalGroup() throws Exception { 489 TestAllTypesNano msg = new TestAllTypesNano(); 490 TestAllTypesNano.OptionalGroup grp = new TestAllTypesNano.OptionalGroup(); 491 grp.a = 1; 492 assertFalse(msg.optionalGroup != null); 493 msg.optionalGroup = grp; 494 assertTrue(msg.optionalGroup != null); 495 assertEquals(1, msg.optionalGroup.a); 496 msg.clear(); 497 assertFalse(msg.optionalGroup != null); 498 msg.clear() 499 .optionalGroup = new TestAllTypesNano.OptionalGroup(); 500 msg.optionalGroup.a = 2; 501 assertTrue(msg.optionalGroup != null); 502 msg.clear(); 503 assertFalse(msg.optionalGroup != null); 504 505 msg.optionalGroup = grp; 506 byte [] result = MessageNano.toByteArray(msg); 507 int msgSerializedSize = msg.getSerializedSize(); 508 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 509 assertTrue(msgSerializedSize == 10); 510 assertEquals(result.length, msgSerializedSize); 511 512 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 513 assertTrue(newMsg.optionalGroup != null); 514 assertEquals(1, newMsg.optionalGroup.a); 515 } 516 testNanoOptionalGroupWithUnknownFieldsEnabled()517 public void testNanoOptionalGroupWithUnknownFieldsEnabled() throws Exception { 518 MessageWithGroup msg = new MessageWithGroup(); 519 MessageWithGroup.Group grp = new MessageWithGroup.Group(); 520 grp.a = 1; 521 msg.group = grp; 522 byte [] serialized = MessageNano.toByteArray(msg); 523 524 MessageWithGroup parsed = MessageWithGroup.parseFrom(serialized); 525 assertEquals(1, parsed.group.a); 526 527 byte [] serialized2 = MessageNano.toByteArray(parsed); 528 assertEquals(serialized.length, serialized2.length); 529 MessageWithGroup parsed2 = MessageWithGroup.parseFrom(serialized2); 530 assertEquals(1, parsed2.group.a); 531 } 532 testNanoOptionalNestedMessage()533 public void testNanoOptionalNestedMessage() throws Exception { 534 TestAllTypesNano msg = new TestAllTypesNano(); 535 TestAllTypesNano.NestedMessage nestedMsg = new TestAllTypesNano.NestedMessage(); 536 nestedMsg.bb = 1; 537 assertFalse(msg.optionalNestedMessage != null); 538 msg.optionalNestedMessage = nestedMsg; 539 assertTrue(msg.optionalNestedMessage != null); 540 assertEquals(1, msg.optionalNestedMessage.bb); 541 msg.clear(); 542 assertFalse(msg.optionalNestedMessage != null); 543 msg.clear() 544 .optionalNestedMessage = new TestAllTypesNano.NestedMessage(); 545 msg.optionalNestedMessage.bb = 2; 546 assertTrue(msg.optionalNestedMessage != null); 547 msg.clear(); 548 assertFalse(msg.optionalNestedMessage != null); 549 550 msg.optionalNestedMessage = nestedMsg; 551 byte [] result = MessageNano.toByteArray(msg); 552 int msgSerializedSize = msg.getSerializedSize(); 553 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 554 assertTrue(msgSerializedSize == 8); 555 assertEquals(result.length, msgSerializedSize); 556 557 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 558 assertTrue(newMsg.optionalNestedMessage != null); 559 assertEquals(1, newMsg.optionalNestedMessage.bb); 560 } 561 testNanoOptionalForeignMessage()562 public void testNanoOptionalForeignMessage() throws Exception { 563 TestAllTypesNano msg = new TestAllTypesNano(); 564 NanoOuterClass.ForeignMessageNano nestedMsg = new NanoOuterClass.ForeignMessageNano(); 565 nestedMsg.c = 1; 566 assertFalse(msg.optionalForeignMessage != null); 567 msg.optionalForeignMessage = nestedMsg; 568 assertTrue(msg.optionalForeignMessage != null); 569 assertEquals(1, msg.optionalForeignMessage.c); 570 msg.clear(); 571 assertFalse(msg.optionalForeignMessage != null); 572 msg.clear() 573 .optionalForeignMessage = new NanoOuterClass.ForeignMessageNano(); 574 msg.optionalForeignMessage.c = 2; 575 assertTrue(msg.optionalForeignMessage != null); 576 msg.clear(); 577 assertFalse(msg.optionalForeignMessage != null); 578 579 msg.optionalForeignMessage = nestedMsg; 580 byte [] result = MessageNano.toByteArray(msg); 581 int msgSerializedSize = msg.getSerializedSize(); 582 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 583 assertTrue(msgSerializedSize == 8); 584 assertEquals(result.length, msgSerializedSize); 585 586 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 587 assertTrue(newMsg.optionalForeignMessage != null); 588 assertEquals(1, newMsg.optionalForeignMessage.c); 589 } 590 testNanoOptionalImportMessage()591 public void testNanoOptionalImportMessage() throws Exception { 592 TestAllTypesNano msg = new TestAllTypesNano(); 593 UnittestImportNano.ImportMessageNano nestedMsg = new UnittestImportNano.ImportMessageNano(); 594 nestedMsg.d = 1; 595 assertFalse(msg.optionalImportMessage != null); 596 msg.optionalImportMessage = nestedMsg; 597 assertTrue(msg.optionalImportMessage != null); 598 assertEquals(1, msg.optionalImportMessage.d); 599 msg.clear(); 600 assertFalse(msg.optionalImportMessage != null); 601 msg.clear() 602 .optionalImportMessage = new UnittestImportNano.ImportMessageNano(); 603 msg.optionalImportMessage.d = 2; 604 assertTrue(msg.optionalImportMessage != null); 605 msg.clear(); 606 assertFalse(msg.optionalImportMessage != null); 607 608 msg.optionalImportMessage = nestedMsg; 609 byte [] result = MessageNano.toByteArray(msg); 610 int msgSerializedSize = msg.getSerializedSize(); 611 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 612 assertTrue(msgSerializedSize == 8); 613 assertEquals(result.length, msgSerializedSize); 614 615 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 616 assertTrue(newMsg.optionalImportMessage != null); 617 assertEquals(1, newMsg.optionalImportMessage.d); 618 } 619 testNanoOptionalNestedEnum()620 public void testNanoOptionalNestedEnum() throws Exception { 621 TestAllTypesNano msg = new TestAllTypesNano(); 622 msg.optionalNestedEnum = TestAllTypesNano.BAR; 623 assertEquals(TestAllTypesNano.BAR, msg.optionalNestedEnum); 624 msg.clear() 625 .optionalNestedEnum = TestAllTypesNano.BAZ; 626 assertEquals(TestAllTypesNano.BAZ, msg.optionalNestedEnum); 627 msg.clear(); 628 assertEquals(TestAllTypesNano.FOO, msg.optionalNestedEnum); 629 630 msg.optionalNestedEnum = TestAllTypesNano.BAR; 631 byte [] result = MessageNano.toByteArray(msg); 632 int msgSerializedSize = msg.getSerializedSize(); 633 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 634 assertTrue(msgSerializedSize == 6); 635 assertEquals(result.length, msgSerializedSize); 636 637 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 638 assertEquals(TestAllTypesNano.BAR, newMsg.optionalNestedEnum); 639 } 640 testNanoOptionalForeignEnum()641 public void testNanoOptionalForeignEnum() throws Exception { 642 TestAllTypesNano msg = new TestAllTypesNano(); 643 msg.optionalForeignEnum = NanoOuterClass.FOREIGN_NANO_BAR; 644 assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.optionalForeignEnum); 645 msg.clear() 646 .optionalForeignEnum = NanoOuterClass.FOREIGN_NANO_BAZ; 647 assertEquals(NanoOuterClass.FOREIGN_NANO_BAZ, msg.optionalForeignEnum); 648 msg.clear(); 649 assertEquals(NanoOuterClass.FOREIGN_NANO_FOO, msg.optionalForeignEnum); 650 651 msg.optionalForeignEnum = NanoOuterClass.FOREIGN_NANO_BAR; 652 byte [] result = MessageNano.toByteArray(msg); 653 int msgSerializedSize = msg.getSerializedSize(); 654 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 655 assertTrue(msgSerializedSize == 6); 656 assertEquals(result.length, msgSerializedSize); 657 658 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 659 assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, newMsg.optionalForeignEnum); 660 } 661 testNanoOptionalImportEnum()662 public void testNanoOptionalImportEnum() throws Exception { 663 TestAllTypesNano msg = new TestAllTypesNano(); 664 msg.optionalImportEnum = UnittestImportNano.IMPORT_NANO_BAR; 665 assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.optionalImportEnum); 666 msg.clear() 667 .optionalImportEnum = UnittestImportNano.IMPORT_NANO_BAZ; 668 assertEquals(UnittestImportNano.IMPORT_NANO_BAZ, msg.optionalImportEnum); 669 msg.clear(); 670 assertEquals(UnittestImportNano.IMPORT_NANO_FOO, msg.optionalImportEnum); 671 672 msg.optionalImportEnum = UnittestImportNano.IMPORT_NANO_BAR; 673 byte [] result = MessageNano.toByteArray(msg); 674 int msgSerializedSize = msg.getSerializedSize(); 675 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 676 assertTrue(msgSerializedSize == 6); 677 assertEquals(result.length, msgSerializedSize); 678 679 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 680 assertEquals(UnittestImportNano.IMPORT_NANO_BAR, newMsg.optionalImportEnum); 681 } 682 testNanoOptionalStringPiece()683 public void testNanoOptionalStringPiece() throws Exception { 684 TestAllTypesNano msg = new TestAllTypesNano(); 685 msg.optionalStringPiece = "hello"; 686 assertEquals("hello", msg.optionalStringPiece); 687 msg.clear(); 688 assertTrue(msg.optionalStringPiece.isEmpty()); 689 msg.clear() 690 .optionalStringPiece = "hello2"; 691 assertEquals("hello2", msg.optionalStringPiece); 692 msg.clear(); 693 assertTrue(msg.optionalStringPiece.isEmpty()); 694 695 msg.optionalStringPiece = "bye"; 696 byte [] result = MessageNano.toByteArray(msg); 697 int msgSerializedSize = msg.getSerializedSize(); 698 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 699 assertTrue(msgSerializedSize == 9); 700 assertEquals(result.length, msgSerializedSize); 701 702 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 703 assertTrue(newMsg.optionalStringPiece != null); 704 assertEquals("bye", newMsg.optionalStringPiece); 705 } 706 testNanoOptionalCord()707 public void testNanoOptionalCord() throws Exception { 708 TestAllTypesNano msg = new TestAllTypesNano(); 709 msg.optionalCord = "hello"; 710 assertEquals("hello", msg.optionalCord); 711 msg.clear(); 712 assertTrue(msg.optionalCord.isEmpty()); 713 msg.clear() 714 .optionalCord = "hello2"; 715 assertEquals("hello2", msg.optionalCord); 716 msg.clear(); 717 assertTrue(msg.optionalCord.isEmpty()); 718 719 msg.optionalCord = "bye"; 720 byte [] result = MessageNano.toByteArray(msg); 721 int msgSerializedSize = msg.getSerializedSize(); 722 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 723 assertTrue(msgSerializedSize == 9); 724 assertEquals(result.length, msgSerializedSize); 725 726 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 727 assertTrue(newMsg.optionalCord != null); 728 assertEquals("bye", newMsg.optionalCord); 729 } 730 testNanoRepeatedInt32()731 public void testNanoRepeatedInt32() throws Exception { 732 TestAllTypesNano msg = new TestAllTypesNano(); 733 assertEquals(0, msg.repeatedInt32.length); 734 msg.repeatedInt32 = new int[] { 123, 789, 456 }; 735 assertEquals(789, msg.repeatedInt32[1]); 736 assertEquals(456, msg.repeatedInt32[2]); 737 msg.clear(); 738 assertEquals(0, msg.repeatedInt32.length); 739 msg.clear() 740 .repeatedInt32 = new int[] { 456 }; 741 assertEquals(1, msg.repeatedInt32.length); 742 assertEquals(456, msg.repeatedInt32[0]); 743 msg.clear(); 744 assertEquals(0, msg.repeatedInt32.length); 745 746 // Test 1 entry 747 msg.clear() 748 .repeatedInt32 = new int[] { 123 }; 749 assertEquals(1, msg.repeatedInt32.length); 750 byte [] result = MessageNano.toByteArray(msg); 751 int msgSerializedSize = msg.getSerializedSize(); 752 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 753 assertTrue(msgSerializedSize == 6); 754 assertEquals(result.length, msgSerializedSize); 755 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 756 assertEquals(1, newMsg.repeatedInt32.length); 757 assertEquals(123, newMsg.repeatedInt32[0]); 758 759 // Test 2 entries 760 msg.clear() 761 .repeatedInt32 = new int[] { 123, 456 }; 762 assertEquals(2, msg.repeatedInt32.length); 763 result = MessageNano.toByteArray(msg); 764 msgSerializedSize = msg.getSerializedSize(); 765 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 766 assertTrue(msgSerializedSize == 10); 767 assertEquals(result.length, msgSerializedSize); 768 769 newMsg = TestAllTypesNano.parseFrom(result); 770 assertEquals(2, newMsg.repeatedInt32.length); 771 assertEquals(123, newMsg.repeatedInt32[0]); 772 assertEquals(456, newMsg.repeatedInt32[1]); 773 } 774 testNanoRepeatedInt64()775 public void testNanoRepeatedInt64() throws Exception { 776 TestAllTypesNano msg = new TestAllTypesNano(); 777 assertEquals(0, msg.repeatedInt64.length); 778 msg.repeatedInt64 = new long[] { 123, 789, 456 }; 779 assertEquals(789, msg.repeatedInt64[1]); 780 assertEquals(456, msg.repeatedInt64[2]); 781 msg.clear(); 782 assertEquals(0, msg.repeatedInt64.length); 783 msg.clear() 784 .repeatedInt64 = new long[] { 456 }; 785 assertEquals(1, msg.repeatedInt64.length); 786 assertEquals(456, msg.repeatedInt64[0]); 787 msg.clear(); 788 assertEquals(0, msg.repeatedInt64.length); 789 790 // Test 1 entry 791 msg.clear() 792 .repeatedInt64 = new long[] { 123 }; 793 assertEquals(1, msg.repeatedInt64.length); 794 byte [] result = MessageNano.toByteArray(msg); 795 int msgSerializedSize = msg.getSerializedSize(); 796 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 797 assertTrue(msgSerializedSize == 6); 798 assertEquals(result.length, msgSerializedSize); 799 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 800 assertEquals(1, newMsg.repeatedInt64.length); 801 assertEquals(123, newMsg.repeatedInt64[0]); 802 803 // Test 2 entries 804 msg.clear() 805 .repeatedInt64 = new long[] { 123, 456 }; 806 assertEquals(2, msg.repeatedInt64.length); 807 result = MessageNano.toByteArray(msg); 808 msgSerializedSize = msg.getSerializedSize(); 809 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 810 assertTrue(msgSerializedSize == 10); 811 assertEquals(result.length, msgSerializedSize); 812 813 newMsg = TestAllTypesNano.parseFrom(result); 814 assertEquals(2, newMsg.repeatedInt64.length); 815 assertEquals(123, newMsg.repeatedInt64[0]); 816 assertEquals(456, newMsg.repeatedInt64[1]); 817 } 818 testNanoRepeatedUint32()819 public void testNanoRepeatedUint32() throws Exception { 820 TestAllTypesNano msg = new TestAllTypesNano(); 821 assertEquals(0, msg.repeatedUint32.length); 822 msg.repeatedUint32 = new int[] { 123, 789, 456 }; 823 assertEquals(789, msg.repeatedUint32[1]); 824 assertEquals(456, msg.repeatedUint32[2]); 825 msg.clear(); 826 assertEquals(0, msg.repeatedUint32.length); 827 msg.clear() 828 .repeatedUint32 = new int[] { 456 }; 829 assertEquals(1, msg.repeatedUint32.length); 830 assertEquals(456, msg.repeatedUint32[0]); 831 msg.clear(); 832 assertEquals(0, msg.repeatedUint32.length); 833 834 // Test 1 entry 835 msg.clear() 836 .repeatedUint32 = new int[] { 123 }; 837 assertEquals(1, msg.repeatedUint32.length); 838 byte [] result = MessageNano.toByteArray(msg); 839 int msgSerializedSize = msg.getSerializedSize(); 840 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 841 assertTrue(msgSerializedSize == 6); 842 assertEquals(result.length, msgSerializedSize); 843 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 844 assertEquals(1, newMsg.repeatedUint32.length); 845 assertEquals(123, newMsg.repeatedUint32[0]); 846 847 // Test 2 entries 848 msg.clear() 849 .repeatedUint32 = new int[] { 123, 456 }; 850 assertEquals(2, msg.repeatedUint32.length); 851 result = MessageNano.toByteArray(msg); 852 msgSerializedSize = msg.getSerializedSize(); 853 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 854 assertTrue(msgSerializedSize == 10); 855 assertEquals(result.length, msgSerializedSize); 856 857 newMsg = TestAllTypesNano.parseFrom(result); 858 assertEquals(2, newMsg.repeatedUint32.length); 859 assertEquals(123, newMsg.repeatedUint32[0]); 860 assertEquals(456, newMsg.repeatedUint32[1]); 861 } 862 testNanoRepeatedUint64()863 public void testNanoRepeatedUint64() throws Exception { 864 TestAllTypesNano msg = new TestAllTypesNano(); 865 assertEquals(0, msg.repeatedUint64.length); 866 msg.repeatedUint64 = new long[] { 123, 789, 456 }; 867 assertEquals(789, msg.repeatedUint64[1]); 868 assertEquals(456, msg.repeatedUint64[2]); 869 msg.clear(); 870 assertEquals(0, msg.repeatedUint64.length); 871 msg.clear() 872 .repeatedUint64 = new long[] { 456 }; 873 assertEquals(1, msg.repeatedUint64.length); 874 assertEquals(456, msg.repeatedUint64[0]); 875 msg.clear(); 876 assertEquals(0, msg.repeatedUint64.length); 877 878 // Test 1 entry 879 msg.clear() 880 .repeatedUint64 = new long[] { 123 }; 881 assertEquals(1, msg.repeatedUint64.length); 882 byte [] result = MessageNano.toByteArray(msg); 883 int msgSerializedSize = msg.getSerializedSize(); 884 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 885 assertTrue(msgSerializedSize == 6); 886 assertEquals(result.length, msgSerializedSize); 887 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 888 assertEquals(1, newMsg.repeatedUint64.length); 889 assertEquals(123, newMsg.repeatedUint64[0]); 890 891 // Test 2 entries 892 msg.clear() 893 .repeatedUint64 = new long[] { 123, 456 }; 894 assertEquals(2, msg.repeatedUint64.length); 895 result = MessageNano.toByteArray(msg); 896 msgSerializedSize = msg.getSerializedSize(); 897 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 898 assertTrue(msgSerializedSize == 10); 899 assertEquals(result.length, msgSerializedSize); 900 901 newMsg = TestAllTypesNano.parseFrom(result); 902 assertEquals(2, newMsg.repeatedUint64.length); 903 assertEquals(123, newMsg.repeatedUint64[0]); 904 assertEquals(456, newMsg.repeatedUint64[1]); 905 } 906 testNanoRepeatedSint32()907 public void testNanoRepeatedSint32() throws Exception { 908 TestAllTypesNano msg = new TestAllTypesNano(); 909 assertEquals(0, msg.repeatedSint32.length); 910 msg.repeatedSint32 = new int[] { 123, 789, 456 }; 911 assertEquals(789, msg.repeatedSint32[1]); 912 assertEquals(456, msg.repeatedSint32[2]); 913 msg.clear(); 914 assertEquals(0, msg.repeatedSint32.length); 915 msg.clear() 916 .repeatedSint32 = new int[] { 456 }; 917 assertEquals(1, msg.repeatedSint32.length); 918 assertEquals(456, msg.repeatedSint32[0]); 919 msg.clear(); 920 assertEquals(0, msg.repeatedSint32.length); 921 922 // Test 1 entry 923 msg.clear() 924 .repeatedSint32 = new int[] { 123 }; 925 assertEquals(1, msg.repeatedSint32.length); 926 byte [] result = MessageNano.toByteArray(msg); 927 int msgSerializedSize = msg.getSerializedSize(); 928 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 929 assertTrue(msgSerializedSize == 7); 930 assertEquals(result.length, msgSerializedSize); 931 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 932 assertEquals(1, newMsg.repeatedSint32.length); 933 assertEquals(123, newMsg.repeatedSint32[0]); 934 935 // Test 2 entries 936 msg.clear() 937 .repeatedSint32 = new int[] { 123, 456 }; 938 assertEquals(2, msg.repeatedSint32.length); 939 result = MessageNano.toByteArray(msg); 940 msgSerializedSize = msg.getSerializedSize(); 941 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 942 assertTrue(msgSerializedSize == 11); 943 assertEquals(result.length, msgSerializedSize); 944 945 newMsg = TestAllTypesNano.parseFrom(result); 946 assertEquals(2, newMsg.repeatedSint32.length); 947 assertEquals(123, newMsg.repeatedSint32[0]); 948 assertEquals(456, newMsg.repeatedSint32[1]); 949 } 950 testNanoRepeatedSint64()951 public void testNanoRepeatedSint64() throws Exception { 952 TestAllTypesNano msg = new TestAllTypesNano(); 953 assertEquals(0, msg.repeatedSint64.length); 954 msg.repeatedSint64 = new long[] { 123, 789, 456 }; 955 assertEquals(789, msg.repeatedSint64[1]); 956 assertEquals(456, msg.repeatedSint64[2]); 957 msg.clear(); 958 assertEquals(0, msg.repeatedSint64.length); 959 msg.clear() 960 .repeatedSint64 = new long[] { 456 }; 961 assertEquals(1, msg.repeatedSint64.length); 962 assertEquals(456, msg.repeatedSint64[0]); 963 msg.clear(); 964 assertEquals(0, msg.repeatedSint64.length); 965 966 // Test 1 entry 967 msg.clear() 968 .repeatedSint64 = new long[] { 123 }; 969 assertEquals(1, msg.repeatedSint64.length); 970 byte [] result = MessageNano.toByteArray(msg); 971 int msgSerializedSize = msg.getSerializedSize(); 972 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 973 assertTrue(msgSerializedSize == 7); 974 assertEquals(result.length, msgSerializedSize); 975 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 976 assertEquals(1, newMsg.repeatedSint64.length); 977 assertEquals(123, newMsg.repeatedSint64[0]); 978 979 // Test 2 entries 980 msg.clear() 981 .repeatedSint64 = new long[] { 123, 456 }; 982 assertEquals(2, msg.repeatedSint64.length); 983 result = MessageNano.toByteArray(msg); 984 msgSerializedSize = msg.getSerializedSize(); 985 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 986 assertTrue(msgSerializedSize == 11); 987 assertEquals(result.length, msgSerializedSize); 988 989 newMsg = TestAllTypesNano.parseFrom(result); 990 assertEquals(2, newMsg.repeatedSint64.length); 991 assertEquals(123, newMsg.repeatedSint64[0]); 992 assertEquals(456, newMsg.repeatedSint64[1]); 993 } 994 testNanoRepeatedFixed32()995 public void testNanoRepeatedFixed32() throws Exception { 996 TestAllTypesNano msg = new TestAllTypesNano(); 997 assertEquals(0, msg.repeatedFixed32.length); 998 msg.repeatedFixed32 = new int[] { 123, 789, 456 }; 999 assertEquals(789, msg.repeatedFixed32[1]); 1000 assertEquals(456, msg.repeatedFixed32[2]); 1001 msg.clear(); 1002 assertEquals(0, msg.repeatedFixed32.length); 1003 msg.clear() 1004 .repeatedFixed32 = new int[] { 456 }; 1005 assertEquals(1, msg.repeatedFixed32.length); 1006 assertEquals(456, msg.repeatedFixed32[0]); 1007 msg.clear(); 1008 assertEquals(0, msg.repeatedFixed32.length); 1009 1010 // Test 1 entry 1011 msg.clear() 1012 .repeatedFixed32 = new int[] { 123 }; 1013 assertEquals(1, msg.repeatedFixed32.length); 1014 byte [] result = MessageNano.toByteArray(msg); 1015 int msgSerializedSize = msg.getSerializedSize(); 1016 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1017 assertTrue(msgSerializedSize == 9); 1018 assertEquals(result.length, msgSerializedSize); 1019 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1020 assertEquals(1, newMsg.repeatedFixed32.length); 1021 assertEquals(123, newMsg.repeatedFixed32[0]); 1022 1023 // Test 2 entries 1024 msg.clear() 1025 .repeatedFixed32 = new int[] { 123, 456 }; 1026 assertEquals(2, msg.repeatedFixed32.length); 1027 result = MessageNano.toByteArray(msg); 1028 msgSerializedSize = msg.getSerializedSize(); 1029 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1030 assertTrue(msgSerializedSize == 15); 1031 assertEquals(result.length, msgSerializedSize); 1032 1033 newMsg = TestAllTypesNano.parseFrom(result); 1034 assertEquals(2, newMsg.repeatedFixed32.length); 1035 assertEquals(123, newMsg.repeatedFixed32[0]); 1036 assertEquals(456, newMsg.repeatedFixed32[1]); 1037 } 1038 testNanoRepeatedFixed64()1039 public void testNanoRepeatedFixed64() throws Exception { 1040 TestAllTypesNano msg = new TestAllTypesNano(); 1041 assertEquals(0, msg.repeatedFixed64.length); 1042 msg.repeatedFixed64 = new long[] { 123, 789, 456 }; 1043 assertEquals(789, msg.repeatedFixed64[1]); 1044 assertEquals(456, msg.repeatedFixed64[2]); 1045 msg.clear(); 1046 assertEquals(0, msg.repeatedFixed64.length); 1047 msg.clear() 1048 .repeatedFixed64 = new long[] { 456 }; 1049 assertEquals(1, msg.repeatedFixed64.length); 1050 assertEquals(456, msg.repeatedFixed64[0]); 1051 msg.clear(); 1052 assertEquals(0, msg.repeatedFixed64.length); 1053 1054 // Test 1 entry 1055 msg.clear() 1056 .repeatedFixed64 = new long[] { 123 }; 1057 assertEquals(1, msg.repeatedFixed64.length); 1058 byte [] result = MessageNano.toByteArray(msg); 1059 int msgSerializedSize = msg.getSerializedSize(); 1060 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1061 assertTrue(msgSerializedSize == 13); 1062 assertEquals(result.length, msgSerializedSize); 1063 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1064 assertEquals(1, newMsg.repeatedFixed64.length); 1065 assertEquals(123, newMsg.repeatedFixed64[0]); 1066 1067 // Test 2 entries 1068 msg.clear() 1069 .repeatedFixed64 = new long[] { 123, 456 }; 1070 assertEquals(2, msg.repeatedFixed64.length); 1071 result = MessageNano.toByteArray(msg); 1072 msgSerializedSize = msg.getSerializedSize(); 1073 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1074 assertTrue(msgSerializedSize == 23); 1075 assertEquals(result.length, msgSerializedSize); 1076 1077 newMsg = TestAllTypesNano.parseFrom(result); 1078 assertEquals(2, newMsg.repeatedFixed64.length); 1079 assertEquals(123, newMsg.repeatedFixed64[0]); 1080 assertEquals(456, newMsg.repeatedFixed64[1]); 1081 } 1082 testNanoRepeatedSfixed32()1083 public void testNanoRepeatedSfixed32() throws Exception { 1084 TestAllTypesNano msg = new TestAllTypesNano(); 1085 assertEquals(0, msg.repeatedSfixed32.length); 1086 msg.repeatedSfixed32 = new int[] { 123, 789, 456 }; 1087 assertEquals(789, msg.repeatedSfixed32[1]); 1088 assertEquals(456, msg.repeatedSfixed32[2]); 1089 msg.clear(); 1090 assertEquals(0, msg.repeatedSfixed32.length); 1091 msg.clear() 1092 .repeatedSfixed32 = new int[] { 456 }; 1093 assertEquals(1, msg.repeatedSfixed32.length); 1094 assertEquals(456, msg.repeatedSfixed32[0]); 1095 msg.clear(); 1096 assertEquals(0, msg.repeatedSfixed32.length); 1097 1098 // Test 1 entry 1099 msg.clear() 1100 .repeatedSfixed32 = new int[] { 123 }; 1101 assertEquals(1, msg.repeatedSfixed32.length); 1102 byte [] result = MessageNano.toByteArray(msg); 1103 int msgSerializedSize = msg.getSerializedSize(); 1104 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1105 assertTrue(msgSerializedSize == 9); 1106 assertEquals(result.length, msgSerializedSize); 1107 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1108 assertEquals(1, newMsg.repeatedSfixed32.length); 1109 assertEquals(123, newMsg.repeatedSfixed32[0]); 1110 1111 // Test 2 entries 1112 msg.clear() 1113 .repeatedSfixed32 = new int[] { 123, 456 }; 1114 assertEquals(2, msg.repeatedSfixed32.length); 1115 result = MessageNano.toByteArray(msg); 1116 msgSerializedSize = msg.getSerializedSize(); 1117 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1118 assertTrue(msgSerializedSize == 15); 1119 assertEquals(result.length, msgSerializedSize); 1120 1121 newMsg = TestAllTypesNano.parseFrom(result); 1122 assertEquals(2, newMsg.repeatedSfixed32.length); 1123 assertEquals(123, newMsg.repeatedSfixed32[0]); 1124 assertEquals(456, newMsg.repeatedSfixed32[1]); 1125 } 1126 testNanoRepeatedSfixed64()1127 public void testNanoRepeatedSfixed64() throws Exception { 1128 TestAllTypesNano msg = new TestAllTypesNano(); 1129 assertEquals(0, msg.repeatedSfixed64.length); 1130 msg.repeatedSfixed64 = new long[] { 123, 789, 456 }; 1131 assertEquals(789, msg.repeatedSfixed64[1]); 1132 assertEquals(456, msg.repeatedSfixed64[2]); 1133 msg.clear(); 1134 assertEquals(0, msg.repeatedSfixed64.length); 1135 msg.clear() 1136 .repeatedSfixed64 = new long[] { 456 }; 1137 assertEquals(1, msg.repeatedSfixed64.length); 1138 assertEquals(456, msg.repeatedSfixed64[0]); 1139 msg.clear(); 1140 assertEquals(0, msg.repeatedSfixed64.length); 1141 1142 // Test 1 entry 1143 msg.clear() 1144 .repeatedSfixed64 = new long[] { 123 }; 1145 assertEquals(1, msg.repeatedSfixed64.length); 1146 byte [] result = MessageNano.toByteArray(msg); 1147 int msgSerializedSize = msg.getSerializedSize(); 1148 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1149 assertTrue(msgSerializedSize == 13); 1150 assertEquals(result.length, msgSerializedSize); 1151 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1152 assertEquals(1, newMsg.repeatedSfixed64.length); 1153 assertEquals(123, newMsg.repeatedSfixed64[0]); 1154 1155 // Test 2 entries 1156 msg.clear() 1157 .repeatedSfixed64 = new long[] { 123, 456 }; 1158 assertEquals(2, msg.repeatedSfixed64.length); 1159 result = MessageNano.toByteArray(msg); 1160 msgSerializedSize = msg.getSerializedSize(); 1161 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1162 assertTrue(msgSerializedSize == 23); 1163 assertEquals(result.length, msgSerializedSize); 1164 1165 newMsg = TestAllTypesNano.parseFrom(result); 1166 assertEquals(2, newMsg.repeatedSfixed64.length); 1167 assertEquals(123, newMsg.repeatedSfixed64[0]); 1168 assertEquals(456, newMsg.repeatedSfixed64[1]); 1169 } 1170 testNanoRepeatedFloat()1171 public void testNanoRepeatedFloat() throws Exception { 1172 TestAllTypesNano msg = new TestAllTypesNano(); 1173 assertEquals(0, msg.repeatedFloat.length); 1174 msg.repeatedFloat = new float[] { 123f, 789f, 456f }; 1175 assertEquals(789f, msg.repeatedFloat[1]); 1176 assertEquals(456f, msg.repeatedFloat[2]); 1177 msg.clear(); 1178 assertEquals(0, msg.repeatedFloat.length); 1179 msg.clear() 1180 .repeatedFloat = new float[] { 456f }; 1181 assertEquals(1, msg.repeatedFloat.length); 1182 assertEquals(456f, msg.repeatedFloat[0]); 1183 msg.clear(); 1184 assertEquals(0, msg.repeatedFloat.length); 1185 1186 // Test 1 entry 1187 msg.clear() 1188 .repeatedFloat = new float[] { 123f }; 1189 assertEquals(1, msg.repeatedFloat.length); 1190 byte [] result = MessageNano.toByteArray(msg); 1191 int msgSerializedSize = msg.getSerializedSize(); 1192 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1193 assertTrue(msgSerializedSize == 9); 1194 assertEquals(result.length, msgSerializedSize); 1195 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1196 assertEquals(1, newMsg.repeatedFloat.length); 1197 assertEquals(123f, newMsg.repeatedFloat[0]); 1198 1199 // Test 2 entries 1200 msg.clear() 1201 .repeatedFloat = new float[] { 123f, 456f }; 1202 assertEquals(2, msg.repeatedFloat.length); 1203 result = MessageNano.toByteArray(msg); 1204 msgSerializedSize = msg.getSerializedSize(); 1205 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1206 assertTrue(msgSerializedSize == 15); 1207 assertEquals(result.length, msgSerializedSize); 1208 1209 newMsg = TestAllTypesNano.parseFrom(result); 1210 assertEquals(2, newMsg.repeatedFloat.length); 1211 assertEquals(123f, newMsg.repeatedFloat[0]); 1212 assertEquals(456f, newMsg.repeatedFloat[1]); 1213 } 1214 testNanoRepeatedDouble()1215 public void testNanoRepeatedDouble() throws Exception { 1216 TestAllTypesNano msg = new TestAllTypesNano(); 1217 assertEquals(0, msg.repeatedDouble.length); 1218 msg.repeatedDouble = new double[] { 123.0, 789.0, 456.0 }; 1219 assertEquals(789.0, msg.repeatedDouble[1]); 1220 assertEquals(456.0, msg.repeatedDouble[2]); 1221 msg.clear(); 1222 assertEquals(0, msg.repeatedDouble.length); 1223 msg.clear() 1224 .repeatedDouble = new double[] { 456.0 }; 1225 assertEquals(1, msg.repeatedDouble.length); 1226 assertEquals(456.0, msg.repeatedDouble[0]); 1227 msg.clear(); 1228 assertEquals(0, msg.repeatedDouble.length); 1229 1230 // Test 1 entry 1231 msg.clear() 1232 .repeatedDouble = new double[] { 123.0 }; 1233 assertEquals(1, msg.repeatedDouble.length); 1234 byte [] result = MessageNano.toByteArray(msg); 1235 int msgSerializedSize = msg.getSerializedSize(); 1236 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1237 assertTrue(msgSerializedSize == 13); 1238 assertEquals(result.length, msgSerializedSize); 1239 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1240 assertEquals(1, newMsg.repeatedDouble.length); 1241 assertEquals(123.0, newMsg.repeatedDouble[0]); 1242 1243 // Test 2 entries 1244 msg.clear() 1245 .repeatedDouble = new double[] { 123.0, 456.0 }; 1246 assertEquals(2, msg.repeatedDouble.length); 1247 result = MessageNano.toByteArray(msg); 1248 msgSerializedSize = msg.getSerializedSize(); 1249 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1250 assertTrue(msgSerializedSize == 23); 1251 assertEquals(result.length, msgSerializedSize); 1252 1253 newMsg = TestAllTypesNano.parseFrom(result); 1254 assertEquals(2, newMsg.repeatedDouble.length); 1255 assertEquals(123.0, newMsg.repeatedDouble[0]); 1256 assertEquals(456.0, newMsg.repeatedDouble[1]); 1257 } 1258 testNanoRepeatedBool()1259 public void testNanoRepeatedBool() throws Exception { 1260 TestAllTypesNano msg = new TestAllTypesNano(); 1261 assertEquals(0, msg.repeatedBool.length); 1262 msg.repeatedBool = new boolean[] { false, true, false }; 1263 assertTrue(msg.repeatedBool[1]); 1264 assertFalse(msg.repeatedBool[2]); 1265 msg.clear(); 1266 assertEquals(0, msg.repeatedBool.length); 1267 msg.clear() 1268 .repeatedBool = new boolean[] { true }; 1269 assertEquals(1, msg.repeatedBool.length); 1270 assertTrue(msg.repeatedBool[0]); 1271 msg.clear(); 1272 assertEquals(0, msg.repeatedBool.length); 1273 1274 // Test 1 entry 1275 msg.clear() 1276 .repeatedBool = new boolean[] { false }; 1277 assertEquals(1, msg.repeatedBool.length); 1278 byte [] result = MessageNano.toByteArray(msg); 1279 int msgSerializedSize = msg.getSerializedSize(); 1280 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1281 assertTrue(msgSerializedSize == 6); 1282 assertEquals(result.length, msgSerializedSize); 1283 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1284 assertEquals(1, newMsg.repeatedBool.length); 1285 assertFalse(newMsg.repeatedBool[0]); 1286 1287 // Test 2 entries 1288 msg.clear() 1289 .repeatedBool = new boolean[] { true, false }; 1290 assertEquals(2, msg.repeatedBool.length); 1291 result = MessageNano.toByteArray(msg); 1292 msgSerializedSize = msg.getSerializedSize(); 1293 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1294 assertTrue(msgSerializedSize == 9); 1295 assertEquals(result.length, msgSerializedSize); 1296 1297 newMsg = TestAllTypesNano.parseFrom(result); 1298 assertEquals(2, newMsg.repeatedBool.length); 1299 assertTrue(newMsg.repeatedBool[0]); 1300 assertFalse(newMsg.repeatedBool[1]); 1301 } 1302 testNanoRepeatedString()1303 public void testNanoRepeatedString() throws Exception { 1304 TestAllTypesNano msg = new TestAllTypesNano(); 1305 assertEquals(0, msg.repeatedString.length); 1306 msg.repeatedString = new String[] { "hello", "bye", "boo" }; 1307 assertEquals("bye", msg.repeatedString[1]); 1308 assertEquals("boo", msg.repeatedString[2]); 1309 msg.clear(); 1310 assertEquals(0, msg.repeatedString.length); 1311 msg.clear() 1312 .repeatedString = new String[] { "boo" }; 1313 assertEquals(1, msg.repeatedString.length); 1314 assertEquals("boo", msg.repeatedString[0]); 1315 msg.clear(); 1316 assertEquals(0, msg.repeatedString.length); 1317 1318 // Test 1 entry 1319 msg.clear() 1320 .repeatedString = new String[] { "" }; 1321 assertEquals(1, msg.repeatedString.length); 1322 byte [] result = MessageNano.toByteArray(msg); 1323 int msgSerializedSize = msg.getSerializedSize(); 1324 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1325 assertTrue(msgSerializedSize == 6); 1326 assertEquals(result.length, msgSerializedSize); 1327 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1328 assertEquals(1, newMsg.repeatedString.length); 1329 assertTrue(newMsg.repeatedString[0].isEmpty()); 1330 1331 // Test 2 entries 1332 msg.clear() 1333 .repeatedString = new String[] { "hello", "world" }; 1334 assertEquals(2, msg.repeatedString.length); 1335 result = MessageNano.toByteArray(msg); 1336 msgSerializedSize = msg.getSerializedSize(); 1337 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1338 assertTrue(msgSerializedSize == 19); 1339 assertEquals(result.length, msgSerializedSize); 1340 1341 newMsg = TestAllTypesNano.parseFrom(result); 1342 assertEquals(2, newMsg.repeatedString.length); 1343 assertEquals("hello", newMsg.repeatedString[0]); 1344 assertEquals("world", newMsg.repeatedString[1]); 1345 } 1346 testNanoRepeatedBytes()1347 public void testNanoRepeatedBytes() throws Exception { 1348 TestAllTypesNano msg = new TestAllTypesNano(); 1349 assertEquals(0, msg.repeatedBytes.length); 1350 msg.repeatedBytes = new byte[][] { 1351 InternalNano.copyFromUtf8("hello"), 1352 InternalNano.copyFromUtf8("bye"), 1353 InternalNano.copyFromUtf8("boo") 1354 }; 1355 assertEquals("bye", new String(msg.repeatedBytes[1], InternalNano.UTF_8)); 1356 assertEquals("boo", new String(msg.repeatedBytes[2], InternalNano.UTF_8)); 1357 msg.clear(); 1358 assertEquals(0, msg.repeatedBytes.length); 1359 msg.clear() 1360 .repeatedBytes = new byte[][] { InternalNano.copyFromUtf8("boo") }; 1361 assertEquals(1, msg.repeatedBytes.length); 1362 assertEquals("boo", new String(msg.repeatedBytes[0], InternalNano.UTF_8)); 1363 msg.clear(); 1364 assertEquals(0, msg.repeatedBytes.length); 1365 1366 // Test 1 entry 1367 msg.clear() 1368 .repeatedBytes = new byte[][] { InternalNano.copyFromUtf8("") }; 1369 assertEquals(1, msg.repeatedBytes.length); 1370 byte [] result = MessageNano.toByteArray(msg); 1371 int msgSerializedSize = msg.getSerializedSize(); 1372 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1373 assertTrue(msgSerializedSize == 6); 1374 assertEquals(result.length, msgSerializedSize); 1375 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1376 assertEquals(1, newMsg.repeatedBytes.length); 1377 assertTrue(newMsg.repeatedBytes[0].length == 0); 1378 1379 // Test 2 entries 1380 msg.clear() 1381 .repeatedBytes = new byte[][] { 1382 InternalNano.copyFromUtf8("hello"), 1383 InternalNano.copyFromUtf8("world") 1384 }; 1385 assertEquals(2, msg.repeatedBytes.length); 1386 result = MessageNano.toByteArray(msg); 1387 msgSerializedSize = msg.getSerializedSize(); 1388 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1389 assertTrue(msgSerializedSize == 19); 1390 assertEquals(result.length, msgSerializedSize); 1391 1392 newMsg = TestAllTypesNano.parseFrom(result); 1393 assertEquals(2, newMsg.repeatedBytes.length); 1394 assertEquals("hello", new String(newMsg.repeatedBytes[0], InternalNano.UTF_8)); 1395 assertEquals("world", new String(newMsg.repeatedBytes[1], InternalNano.UTF_8)); 1396 } 1397 testNanoRepeatedGroup()1398 public void testNanoRepeatedGroup() throws Exception { 1399 TestAllTypesNano msg = new TestAllTypesNano(); 1400 TestAllTypesNano.RepeatedGroup group0 = 1401 new TestAllTypesNano.RepeatedGroup(); 1402 group0.a = 0; 1403 TestAllTypesNano.RepeatedGroup group1 = 1404 new TestAllTypesNano.RepeatedGroup(); 1405 group1.a = 1; 1406 TestAllTypesNano.RepeatedGroup group2 = 1407 new TestAllTypesNano.RepeatedGroup(); 1408 group2.a = 2; 1409 1410 msg.repeatedGroup = new TestAllTypesNano.RepeatedGroup[] { group0, group1, group2 }; 1411 assertEquals(3, msg.repeatedGroup.length); 1412 assertEquals(0, msg.repeatedGroup[0].a); 1413 assertEquals(1, msg.repeatedGroup[1].a); 1414 assertEquals(2, msg.repeatedGroup[2].a); 1415 msg.clear(); 1416 assertEquals(0, msg.repeatedGroup.length); 1417 msg.clear() 1418 .repeatedGroup = new TestAllTypesNano.RepeatedGroup[] { group1 }; 1419 assertEquals(1, msg.repeatedGroup.length); 1420 assertEquals(1, msg.repeatedGroup[0].a); 1421 msg.clear(); 1422 assertEquals(0, msg.repeatedGroup.length); 1423 1424 // Test 1 entry 1425 msg.clear() 1426 .repeatedGroup = new TestAllTypesNano.RepeatedGroup[] { group0 }; 1427 assertEquals(1, msg.repeatedGroup.length); 1428 byte [] result = MessageNano.toByteArray(msg); 1429 int msgSerializedSize = msg.getSerializedSize(); 1430 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1431 assertTrue(msgSerializedSize == 7); 1432 assertEquals(result.length, msgSerializedSize); 1433 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1434 assertEquals(1, newMsg.repeatedGroup.length); 1435 assertEquals(0, newMsg.repeatedGroup[0].a); 1436 1437 // Test 2 entries 1438 msg.clear() 1439 .repeatedGroup = new TestAllTypesNano.RepeatedGroup[] { group0, group1 }; 1440 assertEquals(2, msg.repeatedGroup.length); 1441 result = MessageNano.toByteArray(msg); 1442 msgSerializedSize = msg.getSerializedSize(); 1443 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1444 assertTrue(msgSerializedSize == 14); 1445 assertEquals(result.length, msgSerializedSize); 1446 1447 newMsg = TestAllTypesNano.parseFrom(result); 1448 assertEquals(2, newMsg.repeatedGroup.length); 1449 assertEquals(0, newMsg.repeatedGroup[0].a); 1450 assertEquals(1, newMsg.repeatedGroup[1].a); 1451 } 1452 testNanoRepeatedNestedMessage()1453 public void testNanoRepeatedNestedMessage() throws Exception { 1454 TestAllTypesNano msg = new TestAllTypesNano(); 1455 TestAllTypesNano.NestedMessage nestedMsg0 = 1456 new TestAllTypesNano.NestedMessage(); 1457 nestedMsg0.bb = 0; 1458 TestAllTypesNano.NestedMessage nestedMsg1 = 1459 new TestAllTypesNano.NestedMessage(); 1460 nestedMsg1.bb = 1; 1461 TestAllTypesNano.NestedMessage nestedMsg2 = 1462 new TestAllTypesNano.NestedMessage(); 1463 nestedMsg2.bb = 2; 1464 1465 msg.repeatedNestedMessage = 1466 new TestAllTypesNano.NestedMessage[] { nestedMsg0, nestedMsg1, nestedMsg2 }; 1467 assertEquals(3, msg.repeatedNestedMessage.length); 1468 assertEquals(0, msg.repeatedNestedMessage[0].bb); 1469 assertEquals(1, msg.repeatedNestedMessage[1].bb); 1470 assertEquals(2, msg.repeatedNestedMessage[2].bb); 1471 msg.clear(); 1472 assertEquals(0, msg.repeatedNestedMessage.length); 1473 msg.clear() 1474 .repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { nestedMsg1 }; 1475 assertEquals(1, msg.repeatedNestedMessage.length); 1476 assertEquals(1, msg.repeatedNestedMessage[0].bb); 1477 msg.clear(); 1478 assertEquals(0, msg.repeatedNestedMessage.length); 1479 1480 // Test 1 entry 1481 msg.clear() 1482 .repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { nestedMsg0 }; 1483 assertEquals(1, msg.repeatedNestedMessage.length); 1484 byte [] result = MessageNano.toByteArray(msg); 1485 int msgSerializedSize = msg.getSerializedSize(); 1486 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1487 assertTrue(msgSerializedSize == 6); 1488 assertEquals(result.length, msgSerializedSize); 1489 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1490 assertEquals(1, newMsg.repeatedNestedMessage.length); 1491 assertEquals(0, newMsg.repeatedNestedMessage[0].bb); 1492 1493 // Test 2 entries 1494 msg.clear() 1495 .repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { nestedMsg0, nestedMsg1 }; 1496 assertEquals(2, msg.repeatedNestedMessage.length); 1497 result = MessageNano.toByteArray(msg); 1498 msgSerializedSize = msg.getSerializedSize(); 1499 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1500 assertTrue(msgSerializedSize == 11); 1501 assertEquals(result.length, msgSerializedSize); 1502 1503 newMsg = TestAllTypesNano.parseFrom(result); 1504 assertEquals(2, newMsg.repeatedNestedMessage.length); 1505 assertEquals(0, newMsg.repeatedNestedMessage[0].bb); 1506 assertEquals(1, newMsg.repeatedNestedMessage[1].bb); 1507 } 1508 testNanoRepeatedForeignMessage()1509 public void testNanoRepeatedForeignMessage() throws Exception { 1510 TestAllTypesNano msg = new TestAllTypesNano(); 1511 NanoOuterClass.ForeignMessageNano foreignMsg0 = 1512 new NanoOuterClass.ForeignMessageNano(); 1513 foreignMsg0.c = 0; 1514 NanoOuterClass.ForeignMessageNano foreignMsg1 = 1515 new NanoOuterClass.ForeignMessageNano(); 1516 foreignMsg1.c = 1; 1517 NanoOuterClass.ForeignMessageNano foreignMsg2 = 1518 new NanoOuterClass.ForeignMessageNano(); 1519 foreignMsg2.c = 2; 1520 1521 msg.repeatedForeignMessage = 1522 new NanoOuterClass.ForeignMessageNano[] { foreignMsg0, foreignMsg1, foreignMsg2 }; 1523 assertEquals(3, msg.repeatedForeignMessage.length); 1524 assertEquals(0, msg.repeatedForeignMessage[0].c); 1525 assertEquals(1, msg.repeatedForeignMessage[1].c); 1526 assertEquals(2, msg.repeatedForeignMessage[2].c); 1527 msg.clear(); 1528 assertEquals(0, msg.repeatedForeignMessage.length); 1529 msg.clear() 1530 .repeatedForeignMessage = new NanoOuterClass.ForeignMessageNano[] { foreignMsg1 }; 1531 assertEquals(1, msg.repeatedForeignMessage.length); 1532 assertEquals(1, msg.repeatedForeignMessage[0].c); 1533 msg.clear(); 1534 assertEquals(0, msg.repeatedForeignMessage.length); 1535 1536 // Test 1 entry 1537 msg.clear() 1538 .repeatedForeignMessage = new NanoOuterClass.ForeignMessageNano[] { foreignMsg0 }; 1539 assertEquals(1, msg.repeatedForeignMessage.length); 1540 byte [] result = MessageNano.toByteArray(msg); 1541 int msgSerializedSize = msg.getSerializedSize(); 1542 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1543 assertTrue(msgSerializedSize == 6); 1544 assertEquals(result.length, msgSerializedSize); 1545 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1546 assertEquals(1, newMsg.repeatedForeignMessage.length); 1547 assertEquals(0, newMsg.repeatedForeignMessage[0].c); 1548 1549 // Test 2 entries 1550 msg.clear() 1551 .repeatedForeignMessage = new NanoOuterClass.ForeignMessageNano[] { foreignMsg0, foreignMsg1 }; 1552 assertEquals(2, msg.repeatedForeignMessage.length); 1553 result = MessageNano.toByteArray(msg); 1554 msgSerializedSize = msg.getSerializedSize(); 1555 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1556 assertTrue(msgSerializedSize == 11); 1557 assertEquals(result.length, msgSerializedSize); 1558 1559 newMsg = TestAllTypesNano.parseFrom(result); 1560 assertEquals(2, newMsg.repeatedForeignMessage.length); 1561 assertEquals(0, newMsg.repeatedForeignMessage[0].c); 1562 assertEquals(1, newMsg.repeatedForeignMessage[1].c); 1563 } 1564 testNanoRepeatedImportMessage()1565 public void testNanoRepeatedImportMessage() throws Exception { 1566 TestAllTypesNano msg = new TestAllTypesNano(); 1567 UnittestImportNano.ImportMessageNano foreignMsg0 = 1568 new UnittestImportNano.ImportMessageNano(); 1569 foreignMsg0.d = 0; 1570 UnittestImportNano.ImportMessageNano foreignMsg1 = 1571 new UnittestImportNano.ImportMessageNano(); 1572 foreignMsg1.d = 1; 1573 UnittestImportNano.ImportMessageNano foreignMsg2 = 1574 new UnittestImportNano.ImportMessageNano(); 1575 foreignMsg2.d = 2; 1576 1577 msg.repeatedImportMessage = 1578 new UnittestImportNano.ImportMessageNano[] { foreignMsg0, foreignMsg1, foreignMsg2 }; 1579 assertEquals(3, msg.repeatedImportMessage.length); 1580 assertEquals(0, msg.repeatedImportMessage[0].d); 1581 assertEquals(1, msg.repeatedImportMessage[1].d); 1582 assertEquals(2, msg.repeatedImportMessage[2].d); 1583 msg.clear(); 1584 assertEquals(0, msg.repeatedImportMessage.length); 1585 msg.clear() 1586 .repeatedImportMessage = new UnittestImportNano.ImportMessageNano[] { foreignMsg1 }; 1587 assertEquals(1, msg.repeatedImportMessage.length); 1588 assertEquals(1, msg.repeatedImportMessage[0].d); 1589 msg.clear(); 1590 assertEquals(0, msg.repeatedImportMessage.length); 1591 1592 // Test 1 entry 1593 msg.clear() 1594 .repeatedImportMessage = new UnittestImportNano.ImportMessageNano[] { foreignMsg0 }; 1595 assertEquals(1, msg.repeatedImportMessage.length); 1596 byte [] result = MessageNano.toByteArray(msg); 1597 int msgSerializedSize = msg.getSerializedSize(); 1598 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1599 assertTrue(msgSerializedSize == 6); 1600 assertEquals(result.length, msgSerializedSize); 1601 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1602 assertEquals(1, newMsg.repeatedImportMessage.length); 1603 assertEquals(0, newMsg.repeatedImportMessage[0].d); 1604 1605 // Test 2 entries 1606 msg.clear() 1607 .repeatedImportMessage = new UnittestImportNano.ImportMessageNano[] { foreignMsg0, foreignMsg1 }; 1608 assertEquals(2, msg.repeatedImportMessage.length); 1609 result = MessageNano.toByteArray(msg); 1610 msgSerializedSize = msg.getSerializedSize(); 1611 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1612 assertTrue(msgSerializedSize == 11); 1613 assertEquals(result.length, msgSerializedSize); 1614 1615 newMsg = TestAllTypesNano.parseFrom(result); 1616 assertEquals(2, newMsg.repeatedImportMessage.length); 1617 assertEquals(0, newMsg.repeatedImportMessage[0].d); 1618 assertEquals(1, newMsg.repeatedImportMessage[1].d); 1619 } 1620 testNanoRepeatedNestedEnum()1621 public void testNanoRepeatedNestedEnum() throws Exception { 1622 TestAllTypesNano msg = new TestAllTypesNano(); 1623 msg.repeatedNestedEnum = new int[] { 1624 TestAllTypesNano.FOO, 1625 TestAllTypesNano.BAR, 1626 TestAllTypesNano.BAZ 1627 }; 1628 assertEquals(3, msg.repeatedNestedEnum.length); 1629 assertEquals(TestAllTypesNano.FOO, msg.repeatedNestedEnum[0]); 1630 assertEquals(TestAllTypesNano.BAR, msg.repeatedNestedEnum[1]); 1631 assertEquals(TestAllTypesNano.BAZ, msg.repeatedNestedEnum[2]); 1632 msg.clear(); 1633 assertEquals(0, msg.repeatedNestedEnum.length); 1634 msg.clear() 1635 .repeatedNestedEnum = new int[] { TestAllTypesNano.BAR }; 1636 assertEquals(1, msg.repeatedNestedEnum.length); 1637 assertEquals(TestAllTypesNano.BAR, msg.repeatedNestedEnum[0]); 1638 msg.clear(); 1639 assertEquals(0, msg.repeatedNestedEnum.length); 1640 1641 // Test 1 entry 1642 msg.clear() 1643 .repeatedNestedEnum = new int[] { TestAllTypesNano.FOO }; 1644 byte [] result = MessageNano.toByteArray(msg); 1645 int msgSerializedSize = msg.getSerializedSize(); 1646 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1647 assertTrue(msgSerializedSize == 6); 1648 assertEquals(result.length, msgSerializedSize); 1649 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1650 assertEquals(1, newMsg.repeatedNestedEnum.length); 1651 assertEquals(TestAllTypesNano.FOO, msg.repeatedNestedEnum[0]); 1652 1653 // Test 2 entries 1654 msg.clear() 1655 .repeatedNestedEnum = new int[] { TestAllTypesNano.FOO, TestAllTypesNano.BAR }; 1656 assertEquals(2, msg.repeatedNestedEnum.length); 1657 result = MessageNano.toByteArray(msg); 1658 msgSerializedSize = msg.getSerializedSize(); 1659 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1660 assertTrue(msgSerializedSize == 9); 1661 assertEquals(result.length, msgSerializedSize); 1662 1663 newMsg = TestAllTypesNano.parseFrom(result); 1664 assertEquals(2, newMsg.repeatedNestedEnum.length); 1665 assertEquals(TestAllTypesNano.FOO, msg.repeatedNestedEnum[0]); 1666 assertEquals(TestAllTypesNano.BAR, msg.repeatedNestedEnum[1]); 1667 } 1668 testNanoRepeatedForeignEnum()1669 public void testNanoRepeatedForeignEnum() throws Exception { 1670 TestAllTypesNano msg = new TestAllTypesNano(); 1671 msg.repeatedForeignEnum = new int[] { 1672 NanoOuterClass.FOREIGN_NANO_FOO, 1673 NanoOuterClass.FOREIGN_NANO_BAR, 1674 NanoOuterClass.FOREIGN_NANO_BAZ 1675 }; 1676 assertEquals(3, msg.repeatedForeignEnum.length); 1677 assertEquals(NanoOuterClass.FOREIGN_NANO_FOO, msg.repeatedForeignEnum[0]); 1678 assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.repeatedForeignEnum[1]); 1679 assertEquals(NanoOuterClass.FOREIGN_NANO_BAZ, msg.repeatedForeignEnum[2]); 1680 msg.clear(); 1681 assertEquals(0, msg.repeatedForeignEnum.length); 1682 msg.clear() 1683 .repeatedForeignEnum = new int[] { NanoOuterClass.FOREIGN_NANO_BAR }; 1684 assertEquals(1, msg.repeatedForeignEnum.length); 1685 assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.repeatedForeignEnum[0]); 1686 msg.clear(); 1687 assertEquals(0, msg.repeatedForeignEnum.length); 1688 1689 // Test 1 entry 1690 msg.clear() 1691 .repeatedForeignEnum = new int[] { NanoOuterClass.FOREIGN_NANO_FOO }; 1692 byte [] result = MessageNano.toByteArray(msg); 1693 int msgSerializedSize = msg.getSerializedSize(); 1694 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1695 assertTrue(msgSerializedSize == 6); 1696 assertEquals(result.length, msgSerializedSize); 1697 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1698 assertEquals(1, newMsg.repeatedForeignEnum.length); 1699 assertEquals(NanoOuterClass.FOREIGN_NANO_FOO, msg.repeatedForeignEnum[0]); 1700 1701 // Test 2 entries 1702 msg.clear() 1703 .repeatedForeignEnum = new int[] { 1704 NanoOuterClass.FOREIGN_NANO_FOO, 1705 NanoOuterClass.FOREIGN_NANO_BAR 1706 }; 1707 assertEquals(2, msg.repeatedForeignEnum.length); 1708 result = MessageNano.toByteArray(msg); 1709 msgSerializedSize = msg.getSerializedSize(); 1710 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1711 assertTrue(msgSerializedSize == 9); 1712 assertEquals(result.length, msgSerializedSize); 1713 1714 newMsg = TestAllTypesNano.parseFrom(result); 1715 assertEquals(2, newMsg.repeatedForeignEnum.length); 1716 assertEquals(NanoOuterClass.FOREIGN_NANO_FOO, msg.repeatedForeignEnum[0]); 1717 assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.repeatedForeignEnum[1]); 1718 } 1719 testNanoRepeatedImportEnum()1720 public void testNanoRepeatedImportEnum() throws Exception { 1721 TestAllTypesNano msg = new TestAllTypesNano(); 1722 msg.repeatedImportEnum = new int[] { 1723 UnittestImportNano.IMPORT_NANO_FOO, 1724 UnittestImportNano.IMPORT_NANO_BAR, 1725 UnittestImportNano.IMPORT_NANO_BAZ 1726 }; 1727 assertEquals(3, msg.repeatedImportEnum.length); 1728 assertEquals(UnittestImportNano.IMPORT_NANO_FOO, msg.repeatedImportEnum[0]); 1729 assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.repeatedImportEnum[1]); 1730 assertEquals(UnittestImportNano.IMPORT_NANO_BAZ, msg.repeatedImportEnum[2]); 1731 msg.clear(); 1732 assertEquals(0, msg.repeatedImportEnum.length); 1733 msg.clear() 1734 .repeatedImportEnum = new int[] { UnittestImportNano.IMPORT_NANO_BAR }; 1735 assertEquals(1, msg.repeatedImportEnum.length); 1736 assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.repeatedImportEnum[0]); 1737 msg.clear(); 1738 assertEquals(0, msg.repeatedImportEnum.length); 1739 1740 // Test 1 entry 1741 msg.clear() 1742 .repeatedImportEnum = new int[] { UnittestImportNano.IMPORT_NANO_FOO }; 1743 byte [] result = MessageNano.toByteArray(msg); 1744 int msgSerializedSize = msg.getSerializedSize(); 1745 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1746 assertTrue(msgSerializedSize == 6); 1747 assertEquals(result.length, msgSerializedSize); 1748 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1749 assertEquals(1, newMsg.repeatedImportEnum.length); 1750 assertEquals(UnittestImportNano.IMPORT_NANO_FOO, msg.repeatedImportEnum[0]); 1751 1752 // Test 2 entries 1753 msg.clear() 1754 .repeatedImportEnum = new int[] { 1755 UnittestImportNano.IMPORT_NANO_FOO, 1756 UnittestImportNano.IMPORT_NANO_BAR 1757 }; 1758 assertEquals(2, msg.repeatedImportEnum.length); 1759 result = MessageNano.toByteArray(msg); 1760 msgSerializedSize = msg.getSerializedSize(); 1761 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1762 assertTrue(msgSerializedSize == 9); 1763 assertEquals(result.length, msgSerializedSize); 1764 1765 newMsg = TestAllTypesNano.parseFrom(result); 1766 assertEquals(2, newMsg.repeatedImportEnum.length); 1767 assertEquals(UnittestImportNano.IMPORT_NANO_FOO, msg.repeatedImportEnum[0]); 1768 assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.repeatedImportEnum[1]); 1769 } 1770 testNanoRepeatedStringPiece()1771 public void testNanoRepeatedStringPiece() throws Exception { 1772 TestAllTypesNano msg = new TestAllTypesNano(); 1773 assertEquals(0, msg.repeatedStringPiece.length); 1774 msg.repeatedStringPiece = new String[] { "hello", "bye", "boo" }; 1775 assertEquals("bye", msg.repeatedStringPiece[1]); 1776 assertEquals("boo", msg.repeatedStringPiece[2]); 1777 msg.clear(); 1778 assertEquals(0, msg.repeatedStringPiece.length); 1779 msg.clear() 1780 .repeatedStringPiece = new String[] { "boo" }; 1781 assertEquals(1, msg.repeatedStringPiece.length); 1782 assertEquals("boo", msg.repeatedStringPiece[0]); 1783 msg.clear(); 1784 assertEquals(0, msg.repeatedStringPiece.length); 1785 1786 // Test 1 entry 1787 msg.clear() 1788 .repeatedStringPiece = new String[] { "" }; 1789 assertEquals(1, msg.repeatedStringPiece.length); 1790 byte [] result = MessageNano.toByteArray(msg); 1791 int msgSerializedSize = msg.getSerializedSize(); 1792 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1793 assertTrue(msgSerializedSize == 6); 1794 assertEquals(result.length, msgSerializedSize); 1795 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1796 assertEquals(1, newMsg.repeatedStringPiece.length); 1797 assertTrue(newMsg.repeatedStringPiece[0].isEmpty()); 1798 1799 // Test 2 entries 1800 msg.clear() 1801 .repeatedStringPiece = new String[] { "hello", "world" }; 1802 assertEquals(2, msg.repeatedStringPiece.length); 1803 result = MessageNano.toByteArray(msg); 1804 msgSerializedSize = msg.getSerializedSize(); 1805 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1806 assertTrue(msgSerializedSize == 19); 1807 assertEquals(result.length, msgSerializedSize); 1808 1809 newMsg = TestAllTypesNano.parseFrom(result); 1810 assertEquals(2, newMsg.repeatedStringPiece.length); 1811 assertEquals("hello", newMsg.repeatedStringPiece[0]); 1812 assertEquals("world", newMsg.repeatedStringPiece[1]); 1813 } 1814 testNanoRepeatedCord()1815 public void testNanoRepeatedCord() throws Exception { 1816 TestAllTypesNano msg = new TestAllTypesNano(); 1817 assertEquals(0, msg.repeatedCord.length); 1818 msg.repeatedCord = new String[] { "hello", "bye", "boo" }; 1819 assertEquals("bye", msg.repeatedCord[1]); 1820 assertEquals("boo", msg.repeatedCord[2]); 1821 msg.clear(); 1822 assertEquals(0, msg.repeatedCord.length); 1823 msg.clear() 1824 .repeatedCord = new String[] { "boo" }; 1825 assertEquals(1, msg.repeatedCord.length); 1826 assertEquals("boo", msg.repeatedCord[0]); 1827 msg.clear(); 1828 assertEquals(0, msg.repeatedCord.length); 1829 1830 // Test 1 entry 1831 msg.clear() 1832 .repeatedCord = new String[] { "" }; 1833 assertEquals(1, msg.repeatedCord.length); 1834 byte [] result = MessageNano.toByteArray(msg); 1835 int msgSerializedSize = msg.getSerializedSize(); 1836 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1837 assertTrue(msgSerializedSize == 6); 1838 assertEquals(result.length, msgSerializedSize); 1839 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1840 assertEquals(1, newMsg.repeatedCord.length); 1841 assertTrue(newMsg.repeatedCord[0].isEmpty()); 1842 1843 // Test 2 entries 1844 msg.clear() 1845 .repeatedCord = new String[] { "hello", "world" }; 1846 assertEquals(2, msg.repeatedCord.length); 1847 result = MessageNano.toByteArray(msg); 1848 msgSerializedSize = msg.getSerializedSize(); 1849 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1850 assertTrue(msgSerializedSize == 19); 1851 assertEquals(result.length, msgSerializedSize); 1852 1853 newMsg = TestAllTypesNano.parseFrom(result); 1854 assertEquals(2, newMsg.repeatedCord.length); 1855 assertEquals("hello", newMsg.repeatedCord[0]); 1856 assertEquals("world", newMsg.repeatedCord[1]); 1857 } 1858 testNanoRepeatedPackedInt32()1859 public void testNanoRepeatedPackedInt32() throws Exception { 1860 TestAllTypesNano msg = new TestAllTypesNano(); 1861 assertEquals(0, msg.repeatedPackedInt32.length); 1862 msg.repeatedPackedInt32 = new int[] { 123, 789, 456 }; 1863 assertEquals(789, msg.repeatedPackedInt32[1]); 1864 assertEquals(456, msg.repeatedPackedInt32[2]); 1865 msg.clear(); 1866 assertEquals(0, msg.repeatedPackedInt32.length); 1867 msg.clear() 1868 .repeatedPackedInt32 = new int[] { 456 }; 1869 assertEquals(1, msg.repeatedPackedInt32.length); 1870 assertEquals(456, msg.repeatedPackedInt32[0]); 1871 msg.clear(); 1872 assertEquals(0, msg.repeatedPackedInt32.length); 1873 1874 // Test 1 entry 1875 msg.clear() 1876 .repeatedPackedInt32 = new int[] { 123 }; 1877 assertEquals(1, msg.repeatedPackedInt32.length); 1878 byte [] result = MessageNano.toByteArray(msg); 1879 int msgSerializedSize = msg.getSerializedSize(); 1880 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1881 assertTrue(msgSerializedSize == 7); 1882 assertEquals(result.length, msgSerializedSize); 1883 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1884 assertEquals(1, newMsg.repeatedPackedInt32.length); 1885 assertEquals(123, newMsg.repeatedPackedInt32[0]); 1886 1887 // Test 2 entries 1888 msg.clear() 1889 .repeatedPackedInt32 = new int[] { 123, 456 }; 1890 assertEquals(2, msg.repeatedPackedInt32.length); 1891 result = MessageNano.toByteArray(msg); 1892 msgSerializedSize = msg.getSerializedSize(); 1893 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1894 assertTrue(msgSerializedSize == 9); 1895 assertEquals(result.length, msgSerializedSize); 1896 1897 newMsg = TestAllTypesNano.parseFrom(result); 1898 assertEquals(2, newMsg.repeatedPackedInt32.length); 1899 assertEquals(123, newMsg.repeatedPackedInt32[0]); 1900 assertEquals(456, newMsg.repeatedPackedInt32[1]); 1901 } 1902 testNanoRepeatedPackedSfixed64()1903 public void testNanoRepeatedPackedSfixed64() throws Exception { 1904 TestAllTypesNano msg = new TestAllTypesNano(); 1905 assertEquals(0, msg.repeatedPackedSfixed64.length); 1906 msg.repeatedPackedSfixed64 = new long[] { 123, 789, 456 }; 1907 assertEquals(789, msg.repeatedPackedSfixed64[1]); 1908 assertEquals(456, msg.repeatedPackedSfixed64[2]); 1909 msg.clear(); 1910 assertEquals(0, msg.repeatedPackedSfixed64.length); 1911 msg.clear() 1912 .repeatedPackedSfixed64 = new long[] { 456 }; 1913 assertEquals(1, msg.repeatedPackedSfixed64.length); 1914 assertEquals(456, msg.repeatedPackedSfixed64[0]); 1915 msg.clear(); 1916 assertEquals(0, msg.repeatedPackedSfixed64.length); 1917 1918 // Test 1 entry 1919 msg.clear() 1920 .repeatedPackedSfixed64 = new long[] { 123 }; 1921 assertEquals(1, msg.repeatedPackedSfixed64.length); 1922 byte [] result = MessageNano.toByteArray(msg); 1923 int msgSerializedSize = msg.getSerializedSize(); 1924 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1925 assertTrue(msgSerializedSize == 14); 1926 assertEquals(result.length, msgSerializedSize); 1927 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1928 assertEquals(1, newMsg.repeatedPackedSfixed64.length); 1929 assertEquals(123, newMsg.repeatedPackedSfixed64[0]); 1930 1931 // Test 2 entries 1932 msg.clear() 1933 .repeatedPackedSfixed64 = new long[] { 123, 456 }; 1934 assertEquals(2, msg.repeatedPackedSfixed64.length); 1935 result = MessageNano.toByteArray(msg); 1936 msgSerializedSize = msg.getSerializedSize(); 1937 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1938 assertTrue(msgSerializedSize == 22); 1939 assertEquals(result.length, msgSerializedSize); 1940 1941 newMsg = TestAllTypesNano.parseFrom(result); 1942 assertEquals(2, newMsg.repeatedPackedSfixed64.length); 1943 assertEquals(123, newMsg.repeatedPackedSfixed64[0]); 1944 assertEquals(456, newMsg.repeatedPackedSfixed64[1]); 1945 } 1946 testNanoRepeatedPackedNestedEnum()1947 public void testNanoRepeatedPackedNestedEnum() throws Exception { 1948 TestAllTypesNano msg = new TestAllTypesNano(); 1949 msg.repeatedPackedNestedEnum = new int[] { 1950 TestAllTypesNano.FOO, 1951 TestAllTypesNano.BAR, 1952 TestAllTypesNano.BAZ 1953 }; 1954 assertEquals(3, msg.repeatedPackedNestedEnum.length); 1955 assertEquals(TestAllTypesNano.FOO, msg.repeatedPackedNestedEnum[0]); 1956 assertEquals(TestAllTypesNano.BAR, msg.repeatedPackedNestedEnum[1]); 1957 assertEquals(TestAllTypesNano.BAZ, msg.repeatedPackedNestedEnum[2]); 1958 msg.clear(); 1959 assertEquals(0, msg.repeatedPackedNestedEnum.length); 1960 msg.clear() 1961 .repeatedPackedNestedEnum = new int[] { TestAllTypesNano.BAR }; 1962 assertEquals(1, msg.repeatedPackedNestedEnum.length); 1963 assertEquals(TestAllTypesNano.BAR, msg.repeatedPackedNestedEnum[0]); 1964 msg.clear(); 1965 assertEquals(0, msg.repeatedPackedNestedEnum.length); 1966 1967 // Test 1 entry 1968 msg.clear() 1969 .repeatedPackedNestedEnum = new int[] { TestAllTypesNano.FOO }; 1970 byte [] result = MessageNano.toByteArray(msg); 1971 int msgSerializedSize = msg.getSerializedSize(); 1972 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1973 assertTrue(msgSerializedSize == 7); 1974 assertEquals(result.length, msgSerializedSize); 1975 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 1976 assertEquals(1, newMsg.repeatedPackedNestedEnum.length); 1977 assertEquals(TestAllTypesNano.FOO, msg.repeatedPackedNestedEnum[0]); 1978 1979 // Test 2 entries 1980 msg.clear() 1981 .repeatedPackedNestedEnum = new int[] { TestAllTypesNano.FOO, TestAllTypesNano.BAR }; 1982 assertEquals(2, msg.repeatedPackedNestedEnum.length); 1983 result = MessageNano.toByteArray(msg); 1984 msgSerializedSize = msg.getSerializedSize(); 1985 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 1986 assertTrue(msgSerializedSize == 8); 1987 assertEquals(result.length, msgSerializedSize); 1988 1989 newMsg = TestAllTypesNano.parseFrom(result); 1990 assertEquals(2, newMsg.repeatedPackedNestedEnum.length); 1991 assertEquals(TestAllTypesNano.FOO, msg.repeatedPackedNestedEnum[0]); 1992 assertEquals(TestAllTypesNano.BAR, msg.repeatedPackedNestedEnum[1]); 1993 } 1994 testNanoRepeatedPackedSerializedSize()1995 public void testNanoRepeatedPackedSerializedSize() throws Exception { 1996 TestAllTypesNano msg = new TestAllTypesNano(); 1997 msg.repeatedPackedInt32 = new int[] { 123, 789, 456 }; 1998 int msgSerializedSize = msg.getSerializedSize(); 1999 byte [] result = MessageNano.toByteArray(msg); 2000 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 2001 assertTrue(msgSerializedSize == 11); 2002 assertEquals(result.length, msgSerializedSize); 2003 TestAllTypesNano msg2 = new TestAllTypesNano(); 2004 msg2.repeatedPackedInt32 = new int[] { 123, 789, 456 }; 2005 byte [] result2 = new byte[msgSerializedSize]; 2006 MessageNano.toByteArray(msg2, result2, 0, msgSerializedSize); 2007 2008 // Check equal size and content. 2009 assertEquals(msgSerializedSize, msg2.getSerializedSize()); 2010 assertTrue(Arrays.equals(result, result2)); 2011 } 2012 testNanoRepeatedInt32ReMerge()2013 public void testNanoRepeatedInt32ReMerge() throws Exception { 2014 TestAllTypesNano msg = new TestAllTypesNano(); 2015 msg.repeatedInt32 = new int[] { 234 }; 2016 byte [] result1 = MessageNano.toByteArray(msg); 2017 2018 msg.clear().optionalInt32 = 789; 2019 byte [] result2 = MessageNano.toByteArray(msg); 2020 2021 msg.clear().repeatedInt32 = new int[] { 123, 456 }; 2022 byte [] result3 = MessageNano.toByteArray(msg); 2023 2024 // Concatenate the three serializations and read as one message. 2025 byte [] result = new byte[result1.length + result2.length + result3.length]; 2026 System.arraycopy(result1, 0, result, 0, result1.length); 2027 System.arraycopy(result2, 0, result, result1.length, result2.length); 2028 System.arraycopy(result3, 0, result, result1.length + result2.length, result3.length); 2029 2030 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 2031 assertEquals(789, newMsg.optionalInt32); 2032 assertEquals(3, newMsg.repeatedInt32.length); 2033 assertEquals(234, newMsg.repeatedInt32[0]); 2034 assertEquals(123, newMsg.repeatedInt32[1]); 2035 assertEquals(456, newMsg.repeatedInt32[2]); 2036 } 2037 testNanoRepeatedNestedEnumReMerge()2038 public void testNanoRepeatedNestedEnumReMerge() throws Exception { 2039 TestAllTypesNano msg = new TestAllTypesNano(); 2040 msg.repeatedNestedEnum = new int[] { TestAllTypesNano.FOO }; 2041 byte [] result1 = MessageNano.toByteArray(msg); 2042 2043 msg.clear().optionalInt32 = 789; 2044 byte [] result2 = MessageNano.toByteArray(msg); 2045 2046 msg.clear().repeatedNestedEnum = new int[] { TestAllTypesNano.BAR, TestAllTypesNano.FOO }; 2047 byte [] result3 = MessageNano.toByteArray(msg); 2048 2049 // Concatenate the three serializations and read as one message. 2050 byte [] result = new byte[result1.length + result2.length + result3.length]; 2051 System.arraycopy(result1, 0, result, 0, result1.length); 2052 System.arraycopy(result2, 0, result, result1.length, result2.length); 2053 System.arraycopy(result3, 0, result, result1.length + result2.length, result3.length); 2054 2055 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 2056 assertEquals(789, newMsg.optionalInt32); 2057 assertEquals(3, newMsg.repeatedNestedEnum.length); 2058 assertEquals(TestAllTypesNano.FOO, newMsg.repeatedNestedEnum[0]); 2059 assertEquals(TestAllTypesNano.BAR, newMsg.repeatedNestedEnum[1]); 2060 assertEquals(TestAllTypesNano.FOO, newMsg.repeatedNestedEnum[2]); 2061 } 2062 testNanoRepeatedNestedMessageReMerge()2063 public void testNanoRepeatedNestedMessageReMerge() throws Exception { 2064 TestAllTypesNano msg = new TestAllTypesNano(); 2065 TestAllTypesNano.NestedMessage nestedMsg0 = 2066 new TestAllTypesNano.NestedMessage(); 2067 nestedMsg0.bb = 0; 2068 TestAllTypesNano.NestedMessage nestedMsg1 = 2069 new TestAllTypesNano.NestedMessage(); 2070 nestedMsg1.bb = 1; 2071 TestAllTypesNano.NestedMessage nestedMsg2 = 2072 new TestAllTypesNano.NestedMessage(); 2073 nestedMsg2.bb = 2; 2074 2075 msg.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { nestedMsg0 }; 2076 byte [] result1 = MessageNano.toByteArray(msg); 2077 2078 msg.clear().optionalInt32 = 789; 2079 byte [] result2 = MessageNano.toByteArray(msg); 2080 2081 msg.clear().repeatedNestedMessage = 2082 new TestAllTypesNano.NestedMessage[] { nestedMsg1, nestedMsg2 }; 2083 byte [] result3 = MessageNano.toByteArray(msg); 2084 2085 // Concatenate the three serializations and read as one message. 2086 byte [] result = new byte[result1.length + result2.length + result3.length]; 2087 System.arraycopy(result1, 0, result, 0, result1.length); 2088 System.arraycopy(result2, 0, result, result1.length, result2.length); 2089 System.arraycopy(result3, 0, result, result1.length + result2.length, result3.length); 2090 2091 TestAllTypesNano newMsg = TestAllTypesNano.parseFrom(result); 2092 assertEquals(789, newMsg.optionalInt32); 2093 assertEquals(3, newMsg.repeatedNestedMessage.length); 2094 assertEquals(nestedMsg0.bb, newMsg.repeatedNestedMessage[0].bb); 2095 assertEquals(nestedMsg1.bb, newMsg.repeatedNestedMessage[1].bb); 2096 assertEquals(nestedMsg2.bb, newMsg.repeatedNestedMessage[2].bb); 2097 } 2098 2099 /** 2100 * Tests that invalid enum values from the wire are not accepted. 2101 */ testNanoEnumValidity()2102 public void testNanoEnumValidity() throws Exception { 2103 final int invalid = 120; 2104 final int alsoInvalid = 121; 2105 2106 EnumValidity.M m = new EnumValidity.M(); 2107 // Sanity check & baseline of the assertions for the first case below. 2108 assertEquals(EnumValidity.E.default_, m.optionalE); 2109 assertEquals(EnumValidity.E.BAZ, m.defaultE); 2110 2111 m.optionalE = invalid; 2112 m.defaultE = invalid; 2113 // E contains all valid values 2114 m.repeatedE = new int[] {EnumValidity.E.FOO, EnumValidity.E.BAR}; 2115 m.packedE = new int[] {EnumValidity.E.FOO, EnumValidity.E.BAZ}; 2116 // E2 contains some invalid values 2117 m.repeatedE2 = new int[] {invalid, EnumValidity.E.BAR, alsoInvalid}; 2118 m.packedE2 = new int[] {EnumValidity.E.FOO, invalid, alsoInvalid}; 2119 // E3 contains all invalid values 2120 m.repeatedE3 = new int[] {invalid, invalid}; 2121 m.packedE3 = new int[] {alsoInvalid, alsoInvalid}; 2122 byte[] serialized = MessageNano.toByteArray(m); 2123 // Sanity check that we do have all data in the byte array. 2124 assertEquals(31, serialized.length); 2125 2126 // Test 1: tests that invalid values aren't included in the deserialized message. 2127 EnumValidity.M deserialized = MessageNano.mergeFrom(new EnumValidity.M(), serialized); 2128 assertEquals(EnumValidity.E.default_, deserialized.optionalE); 2129 assertEquals(EnumValidity.E.BAZ, deserialized.defaultE); 2130 assertTrue(Arrays.equals( 2131 new int[] {EnumValidity.E.FOO, EnumValidity.E.BAR}, deserialized.repeatedE)); 2132 assertTrue(Arrays.equals( 2133 new int[] {EnumValidity.E.FOO, EnumValidity.E.BAZ}, deserialized.packedE)); 2134 assertTrue(Arrays.equals( 2135 new int[] {EnumValidity.E.BAR}, deserialized.repeatedE2)); 2136 assertTrue(Arrays.equals( 2137 new int[] {EnumValidity.E.FOO}, deserialized.packedE2)); 2138 assertEquals(0, deserialized.repeatedE3.length); 2139 assertEquals(0, deserialized.packedE3.length); 2140 2141 // Test 2: tests that invalid values do not override previous values in the field, including 2142 // arrays, including pre-existing invalid values. 2143 deserialized.optionalE = EnumValidity.E.BAR; 2144 deserialized.defaultE = alsoInvalid; 2145 deserialized.repeatedE = new int[] {EnumValidity.E.BAZ}; 2146 deserialized.packedE = new int[] {EnumValidity.E.BAZ, alsoInvalid}; 2147 deserialized.repeatedE2 = new int[] {invalid, alsoInvalid}; 2148 deserialized.packedE2 = null; 2149 deserialized.repeatedE3 = null; 2150 deserialized.packedE3 = new int[0]; 2151 MessageNano.mergeFrom(deserialized, serialized); 2152 assertEquals(EnumValidity.E.BAR, deserialized.optionalE); 2153 assertEquals(alsoInvalid, deserialized.defaultE); 2154 assertTrue(Arrays.equals( 2155 new int[] {EnumValidity.E.BAZ, /* + */ EnumValidity.E.FOO, EnumValidity.E.BAR}, 2156 deserialized.repeatedE)); 2157 assertTrue(Arrays.equals( 2158 new int[] {EnumValidity.E.BAZ, alsoInvalid, /* + */ EnumValidity.E.FOO, EnumValidity.E.BAZ}, 2159 deserialized.packedE)); 2160 assertTrue(Arrays.equals( 2161 new int[] {invalid, alsoInvalid, /* + */ EnumValidity.E.BAR}, 2162 deserialized.repeatedE2)); 2163 assertTrue(Arrays.equals( 2164 new int[] {/* <null> + */ EnumValidity.E.FOO}, 2165 deserialized.packedE2)); 2166 assertNull(deserialized.repeatedE3); // null + all invalid == null 2167 assertEquals(0, deserialized.packedE3.length); // empty + all invalid == empty 2168 2169 // Test 3: reading by alternative forms 2170 EnumValidity.Alt alt = MessageNano.mergeFrom(new EnumValidity.Alt(), serialized); 2171 assertEquals(EnumValidity.E.BAR, // last valid value in m.repeatedE2 2172 alt.repeatedE2AsOptional); 2173 assertTrue(Arrays.equals(new int[] {EnumValidity.E.FOO}, alt.packedE2AsNonPacked)); 2174 assertEquals(0, alt.nonPackedE3AsPacked.length); 2175 } 2176 2177 /** 2178 * Tests the same as {@link #testNanoEnumValidity()} with accessor style. Repeated fields are 2179 * not re-tested here because they are not affected by the accessor style. 2180 */ testNanoEnumValidityAccessors()2181 public void testNanoEnumValidityAccessors() throws Exception { 2182 final int invalid = 120; 2183 final int alsoInvalid = 121; 2184 2185 EnumValidityAccessors.M m = new EnumValidityAccessors.M(); 2186 // Sanity check & baseline of the assertions for the first case below. 2187 assertEquals(EnumValidityAccessors.default_, m.getOptionalE()); 2188 assertEquals(EnumValidityAccessors.BAZ, m.getDefaultE()); 2189 2190 m.setOptionalE(invalid); 2191 m.setDefaultE(invalid); 2192 // Set repeatedE2 for Alt.repeatedE2AsOptional 2193 m.repeatedE2 = new int[] {invalid, EnumValidityAccessors.BAR, alsoInvalid}; 2194 byte[] serialized = MessageNano.toByteArray(m); 2195 // Sanity check that we do have all data in the byte array. 2196 assertEquals(10, serialized.length); 2197 2198 // Test 1: tests that invalid values aren't included in the deserialized message. 2199 EnumValidityAccessors.M deserialized = 2200 MessageNano.mergeFrom(new EnumValidityAccessors.M(), serialized); 2201 assertEquals(EnumValidityAccessors.default_, deserialized.getOptionalE()); 2202 assertEquals(EnumValidityAccessors.BAZ, deserialized.getDefaultE()); 2203 2204 // Test 2: tests that invalid values do not override previous values in the field, including 2205 // pre-existing invalid values. 2206 deserialized.setOptionalE(EnumValidityAccessors.BAR); 2207 deserialized.setDefaultE(alsoInvalid); 2208 MessageNano.mergeFrom(deserialized, serialized); 2209 assertEquals(EnumValidityAccessors.BAR, deserialized.getOptionalE()); 2210 assertEquals(alsoInvalid, deserialized.getDefaultE()); 2211 2212 // Test 3: reading by alternative forms 2213 EnumValidityAccessors.Alt alt = 2214 MessageNano.mergeFrom(new EnumValidityAccessors.Alt(), serialized); 2215 assertEquals(EnumValidityAccessors.BAR, // last valid value in m.repeatedE2 2216 alt.getRepeatedE2AsOptional()); 2217 } 2218 2219 /** 2220 * Tests that code generation correctly wraps a single message into its outer 2221 * class. The class {@code SingleMessageNano} is imported from the outer 2222 * class {@code UnittestSingleNano}, whose name is implicit. Any error would 2223 * cause this method to fail compilation. 2224 */ testNanoSingle()2225 public void testNanoSingle() throws Exception { 2226 SingleMessageNano msg = new SingleMessageNano(); 2227 assertNotNull(msg); 2228 } 2229 2230 /** 2231 * Tests that code generation correctly skips generating the outer class if 2232 * unnecessary, letting a file-scope entity have the same name. The class 2233 * {@code MultipleNameClashNano} shares the same name with the file's outer 2234 * class defined explicitly, but the file contains no other entities and has 2235 * java_multiple_files set. Any error would cause this method to fail 2236 * compilation. 2237 */ testNanoMultipleNameClash()2238 public void testNanoMultipleNameClash() throws Exception { 2239 MultipleNameClashNano msg = new MultipleNameClashNano(); 2240 msg.field = 0; 2241 } 2242 2243 /** 2244 * Tests that code generation correctly handles enums in different scopes in 2245 * a source file with the option java_multiple_files set to true. Any error 2246 * would cause this method to fail compilation. 2247 */ testNanoMultipleEnumScoping()2248 public void testNanoMultipleEnumScoping() throws Exception { 2249 FileScopeEnumRefNano msg1 = new FileScopeEnumRefNano(); 2250 msg1.enumField = UnittestMultipleNano.ONE; 2251 MessageScopeEnumRefNano msg2 = new MessageScopeEnumRefNano(); 2252 msg2.enumField = MessageScopeEnumRefNano.TWO; 2253 } 2254 2255 /** 2256 * Tests that code generation with mixed values of the java_multiple_files 2257 * options between the main source file and the imported source files would 2258 * generate correct references. Any error would cause this method to fail 2259 * compilation. 2260 */ testNanoMultipleImportingNonMultiple()2261 public void testNanoMultipleImportingNonMultiple() throws Exception { 2262 UnittestImportNano.ImportMessageNano importMsg = new UnittestImportNano.ImportMessageNano(); 2263 MultipleImportingNonMultipleNano1 nano1 = new MultipleImportingNonMultipleNano1(); 2264 nano1.field = importMsg; 2265 MultipleImportingNonMultipleNano2 nano2 = new MultipleImportingNonMultipleNano2(); 2266 nano2.nano1 = nano1; 2267 } 2268 testNanoDefaults()2269 public void testNanoDefaults() throws Exception { 2270 TestAllTypesNano msg = new TestAllTypesNano(); 2271 for (int i = 0; i < 2; i++) { 2272 assertEquals(41, msg.defaultInt32); 2273 assertEquals(42, msg.defaultInt64); 2274 assertEquals(43, msg.defaultUint32); 2275 assertEquals(44, msg.defaultUint64); 2276 assertEquals(-45, msg.defaultSint32); 2277 assertEquals(46, msg.defaultSint64); 2278 assertEquals(47, msg.defaultFixed32); 2279 assertEquals(48, msg.defaultFixed64); 2280 assertEquals(49, msg.defaultSfixed32); 2281 assertEquals(-50, msg.defaultSfixed64); 2282 assertTrue(51.5f == msg.defaultFloat); 2283 assertTrue(52.0e3 == msg.defaultDouble); 2284 assertEquals(true, msg.defaultBool); 2285 assertEquals("hello", msg.defaultString); 2286 assertEquals("world", new String(msg.defaultBytes, InternalNano.UTF_8)); 2287 assertEquals("dünya", msg.defaultStringNonascii); 2288 assertEquals("dünyab", new String(msg.defaultBytesNonascii, InternalNano.UTF_8)); 2289 assertEquals(TestAllTypesNano.BAR, msg.defaultNestedEnum); 2290 assertEquals(NanoOuterClass.FOREIGN_NANO_BAR, msg.defaultForeignEnum); 2291 assertEquals(UnittestImportNano.IMPORT_NANO_BAR, msg.defaultImportEnum); 2292 assertEquals(Float.POSITIVE_INFINITY, msg.defaultFloatInf); 2293 assertEquals(Float.NEGATIVE_INFINITY, msg.defaultFloatNegInf); 2294 assertEquals(Float.NaN, msg.defaultFloatNan); 2295 assertEquals(Double.POSITIVE_INFINITY, msg.defaultDoubleInf); 2296 assertEquals(Double.NEGATIVE_INFINITY, msg.defaultDoubleNegInf); 2297 assertEquals(Double.NaN, msg.defaultDoubleNan); 2298 2299 // Default values are not output, except for required fields. 2300 byte [] result = MessageNano.toByteArray(msg); 2301 int msgSerializedSize = msg.getSerializedSize(); 2302 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 2303 assertTrue(msgSerializedSize == 3); 2304 assertEquals(result.length, msgSerializedSize); 2305 msg.clear(); 2306 } 2307 } 2308 testDifferentStringLengthsNano()2309 public void testDifferentStringLengthsNano() throws Exception { 2310 // Test string serialization roundtrip using strings of the following lengths, 2311 // with ASCII and Unicode characters requiring different UTF-8 byte counts per 2312 // char, hence causing the length delimiter varint to sometimes require more 2313 // bytes for the Unicode strings than the ASCII string of the same length. 2314 int[] lengths = new int[] { 2315 0, 2316 1, 2317 (1 << 4) - 1, // 1 byte for ASCII and Unicode 2318 (1 << 7) - 1, // 1 byte for ASCII, 2 bytes for Unicode 2319 (1 << 11) - 1, // 2 bytes for ASCII and Unicode 2320 (1 << 14) - 1, // 2 bytes for ASCII, 3 bytes for Unicode 2321 (1 << 17) - 1, // 3 bytes for ASCII and Unicode 2322 }; 2323 for (int i : lengths) { 2324 testEncodingOfString('q', i); // 1 byte per char 2325 testEncodingOfString('\u07FF', i); // 2 bytes per char 2326 testEncodingOfString('\u0981', i); // 3 bytes per char 2327 } 2328 } 2329 2330 /** Regression test for https://github.com/google/protobuf/issues/292 */ testCorrectExceptionThrowWhenEncodingStringsWithoutEnoughSpace()2331 public void testCorrectExceptionThrowWhenEncodingStringsWithoutEnoughSpace() throws Exception { 2332 String testCase = "Foooooooo"; 2333 assertEquals(CodedOutputByteBufferNano.computeRawVarint32Size(testCase.length()), 2334 CodedOutputByteBufferNano.computeRawVarint32Size(testCase.length() * 3)); 2335 assertEquals(11, CodedOutputByteBufferNano.computeStringSize(1, testCase)); 2336 // Tag is one byte, varint describing string length is 1 byte, string length is 9 bytes. 2337 // An array of size 1 will cause a failure when trying to write the varint. 2338 for (int i = 0; i < 11; i++) { 2339 CodedOutputByteBufferNano bufferNano = CodedOutputByteBufferNano.newInstance(new byte[i]); 2340 try { 2341 bufferNano.writeString(1, testCase); 2342 fail("Should have thrown an out of space exception"); 2343 } catch (CodedOutputByteBufferNano.OutOfSpaceException expected) {} 2344 } 2345 } 2346 testEncodingOfString(char c, int length)2347 private void testEncodingOfString(char c, int length) throws InvalidProtocolBufferNanoException { 2348 TestAllTypesNano testAllTypesNano = new TestAllTypesNano(); 2349 final String fullString = fullString(c, length); 2350 testAllTypesNano.optionalString = fullString; 2351 final TestAllTypesNano resultNano = new TestAllTypesNano(); 2352 MessageNano.mergeFrom(resultNano, MessageNano.toByteArray(testAllTypesNano)); 2353 assertEquals(fullString, resultNano.optionalString); 2354 } 2355 fullString(char c, int length)2356 private String fullString(char c, int length) { 2357 char[] result = new char[length]; 2358 Arrays.fill(result, c); 2359 return new String(result); 2360 } 2361 testNanoWithHasParseFrom()2362 public void testNanoWithHasParseFrom() throws Exception { 2363 TestAllTypesNanoHas msg = null; 2364 // Test false on creation, after clear and upon empty parse. 2365 for (int i = 0; i < 3; i++) { 2366 if (i == 0) { 2367 msg = new TestAllTypesNanoHas(); 2368 } else if (i == 1) { 2369 msg.clear(); 2370 } else if (i == 2) { 2371 msg = TestAllTypesNanoHas.parseFrom(new byte[0]); 2372 } 2373 assertFalse(msg.hasOptionalInt32); 2374 assertFalse(msg.hasOptionalString); 2375 assertFalse(msg.hasOptionalBytes); 2376 assertFalse(msg.hasOptionalNestedEnum); 2377 assertFalse(msg.hasDefaultInt32); 2378 assertFalse(msg.hasDefaultString); 2379 assertFalse(msg.hasDefaultBytes); 2380 assertFalse(msg.hasDefaultFloatNan); 2381 assertFalse(msg.hasDefaultNestedEnum); 2382 assertFalse(msg.hasId); 2383 assertFalse(msg.hasRequiredEnum); 2384 msg.optionalInt32 = 123; 2385 msg.optionalNestedMessage = new TestAllTypesNanoHas.NestedMessage(); 2386 msg.optionalNestedMessage.bb = 2; 2387 msg.optionalNestedEnum = TestAllTypesNano.BAZ; 2388 } 2389 2390 byte [] result = MessageNano.toByteArray(msg); 2391 int msgSerializedSize = msg.getSerializedSize(); 2392 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 2393 assertTrue(msgSerializedSize == 10); 2394 assertEquals(result.length, msgSerializedSize); 2395 2396 // Has fields true upon parse. 2397 TestAllTypesNanoHas newMsg = TestAllTypesNanoHas.parseFrom(result); 2398 assertEquals(123, newMsg.optionalInt32); 2399 assertTrue(newMsg.hasOptionalInt32); 2400 assertEquals(2, newMsg.optionalNestedMessage.bb); 2401 assertTrue(newMsg.optionalNestedMessage.hasBb); 2402 assertEquals(TestAllTypesNanoHas.BAZ, newMsg.optionalNestedEnum); 2403 assertTrue(newMsg.hasOptionalNestedEnum); 2404 } 2405 testNanoWithHasSerialize()2406 public void testNanoWithHasSerialize() throws Exception { 2407 TestAllTypesNanoHas msg = new TestAllTypesNanoHas(); 2408 msg.hasOptionalInt32 = true; 2409 msg.hasOptionalString = true; 2410 msg.hasOptionalBytes = true; 2411 msg.optionalNestedMessage = new TestAllTypesNanoHas.NestedMessage(); 2412 msg.optionalNestedMessage.hasBb = true; 2413 msg.hasOptionalNestedEnum = true; 2414 msg.hasDefaultInt32 = true; 2415 msg.hasDefaultString = true; 2416 msg.hasDefaultBytes = true; 2417 msg.hasDefaultFloatNan = true; 2418 msg.hasDefaultNestedEnum = true; 2419 msg.hasId = true; 2420 msg.hasRequiredEnum = true; 2421 2422 byte [] result = MessageNano.toByteArray(msg); 2423 int msgSerializedSize = msg.getSerializedSize(); 2424 assertEquals(result.length, msgSerializedSize); 2425 2426 // Now deserialize and find that all fields are set and equal to their defaults. 2427 TestAllTypesNanoHas newMsg = TestAllTypesNanoHas.parseFrom(result); 2428 assertTrue(newMsg.hasOptionalInt32); 2429 assertTrue(newMsg.hasOptionalString); 2430 assertTrue(newMsg.hasOptionalBytes); 2431 assertTrue(newMsg.optionalNestedMessage.hasBb); 2432 assertTrue(newMsg.hasOptionalNestedEnum); 2433 assertTrue(newMsg.hasDefaultInt32); 2434 assertTrue(newMsg.hasDefaultString); 2435 assertTrue(newMsg.hasDefaultBytes); 2436 assertTrue(newMsg.hasDefaultFloatNan); 2437 assertTrue(newMsg.hasDefaultNestedEnum); 2438 assertTrue(newMsg.hasId); 2439 assertTrue(newMsg.hasRequiredEnum); 2440 assertEquals(0, newMsg.optionalInt32); 2441 assertEquals(0, newMsg.optionalString.length()); 2442 assertEquals(0, newMsg.optionalBytes.length); 2443 assertEquals(0, newMsg.optionalNestedMessage.bb); 2444 assertEquals(TestAllTypesNanoHas.FOO, newMsg.optionalNestedEnum); 2445 assertEquals(41, newMsg.defaultInt32); 2446 assertEquals("hello", newMsg.defaultString); 2447 assertEquals("world", new String(newMsg.defaultBytes, InternalNano.UTF_8)); 2448 assertEquals(TestAllTypesNanoHas.BAR, newMsg.defaultNestedEnum); 2449 assertEquals(Float.NaN, newMsg.defaultFloatNan); 2450 assertEquals(0, newMsg.id); 2451 assertEquals(TestAllTypesNanoHas.FOO, newMsg.requiredEnum); 2452 } 2453 testNanoWithAccessorsBasic()2454 public void testNanoWithAccessorsBasic() throws Exception { 2455 TestNanoAccessors msg = new TestNanoAccessors(); 2456 2457 // Makes sure required, repeated, and message fields are still public 2458 msg.id = 3; 2459 msg.repeatedBytes = new byte[2][3]; 2460 msg.optionalNestedMessage = null; 2461 2462 // Test accessors 2463 assertEquals(0, msg.getOptionalInt32()); 2464 assertFalse(msg.hasOptionalInt32()); 2465 msg.setOptionalInt32(135); 2466 assertEquals(135, msg.getOptionalInt32()); 2467 assertTrue(msg.hasOptionalInt32()); 2468 msg.clearOptionalInt32(); 2469 assertFalse(msg.hasOptionalInt32()); 2470 msg.setOptionalInt32(0); // default value 2471 assertTrue(msg.hasOptionalInt32()); 2472 2473 // Test NPE 2474 try { 2475 msg.setOptionalBytes(null); 2476 fail(); 2477 } catch (NullPointerException expected) {} 2478 try { 2479 msg.setOptionalString(null); 2480 fail(); 2481 } catch (NullPointerException expected) {} 2482 2483 // Test has bit on bytes field with defaults and clear() re-clones the default array 2484 assertFalse(msg.hasDefaultBytes()); 2485 byte[] defaultBytes = msg.getDefaultBytes(); 2486 msg.setDefaultBytes(defaultBytes); 2487 assertTrue(msg.hasDefaultBytes()); 2488 msg.clearDefaultBytes(); 2489 assertFalse(msg.hasDefaultBytes()); 2490 defaultBytes[0]++; // modify original array 2491 assertFalse(Arrays.equals(defaultBytes, msg.getDefaultBytes())); 2492 2493 // Test has bits that require additional bit fields 2494 assertFalse(msg.hasBitFieldCheck()); 2495 msg.setBitFieldCheck(0); 2496 assertTrue(msg.hasBitFieldCheck()); 2497 assertFalse(msg.hasBeforeBitFieldCheck()); // checks bit field does not leak 2498 assertFalse(msg.hasAfterBitFieldCheck()); 2499 2500 // Test clear() clears has bits 2501 msg.setOptionalString("hi"); 2502 msg.setDefaultString("there"); 2503 msg.clear(); 2504 assertFalse(msg.hasOptionalString()); 2505 assertFalse(msg.hasDefaultString()); 2506 assertFalse(msg.hasBitFieldCheck()); 2507 2508 // Test set() and clear() returns itself (compiles = success) 2509 msg.clear() 2510 .setOptionalInt32(3) 2511 .clearDefaultBytes() 2512 .setOptionalString("4"); 2513 } 2514 testNanoWithAccessorsParseFrom()2515 public void testNanoWithAccessorsParseFrom() throws Exception { 2516 TestNanoAccessors msg = null; 2517 // Test false on creation, after clear and upon empty parse. 2518 for (int i = 0; i < 3; i++) { 2519 if (i == 0) { 2520 msg = new TestNanoAccessors(); 2521 } else if (i == 1) { 2522 msg.clear(); 2523 } else if (i == 2) { 2524 msg = TestNanoAccessors.parseFrom(new byte[0]); 2525 } 2526 assertFalse(msg.hasOptionalInt32()); 2527 assertFalse(msg.hasOptionalString()); 2528 assertFalse(msg.hasOptionalBytes()); 2529 assertFalse(msg.hasOptionalNestedEnum()); 2530 assertFalse(msg.hasDefaultInt32()); 2531 assertFalse(msg.hasDefaultString()); 2532 assertFalse(msg.hasDefaultBytes()); 2533 assertFalse(msg.hasDefaultFloatNan()); 2534 assertFalse(msg.hasDefaultNestedEnum()); 2535 msg.optionalNestedMessage = new TestNanoAccessors.NestedMessage(); 2536 msg.optionalNestedMessage.setBb(2); 2537 msg.setOptionalNestedEnum(TestNanoAccessors.BAZ); 2538 msg.setDefaultInt32(msg.getDefaultInt32()); 2539 } 2540 2541 byte [] result = MessageNano.toByteArray(msg); 2542 int msgSerializedSize = msg.getSerializedSize(); 2543 //System.out.printf("mss=%d result.length=%d\n", msgSerializedSize, result.length); 2544 assertTrue(msgSerializedSize == 14); 2545 assertEquals(result.length, msgSerializedSize); 2546 2547 // Has fields true upon parse. 2548 TestNanoAccessors newMsg = TestNanoAccessors.parseFrom(result); 2549 assertEquals(2, newMsg.optionalNestedMessage.getBb()); 2550 assertTrue(newMsg.optionalNestedMessage.hasBb()); 2551 assertEquals(TestNanoAccessors.BAZ, newMsg.getOptionalNestedEnum()); 2552 assertTrue(newMsg.hasOptionalNestedEnum()); 2553 2554 // Has field true on fields with explicit default values from wire. 2555 assertTrue(newMsg.hasDefaultInt32()); 2556 assertEquals(41, newMsg.getDefaultInt32()); 2557 } 2558 testNanoWithAccessorsPublicFieldTypes()2559 public void testNanoWithAccessorsPublicFieldTypes() throws Exception { 2560 TestNanoAccessors msg = new TestNanoAccessors(); 2561 assertNull(msg.optionalNestedMessage); 2562 assertEquals(0, msg.id); 2563 assertEquals(0, msg.repeatedNestedEnum.length); 2564 2565 TestNanoAccessors newMsg = TestNanoAccessors.parseFrom(MessageNano.toByteArray(msg)); 2566 assertNull(newMsg.optionalNestedMessage); 2567 assertEquals(0, newMsg.id); 2568 assertEquals(0, newMsg.repeatedNestedEnum.length); 2569 2570 TestNanoAccessors.NestedMessage nestedMessage = new TestNanoAccessors.NestedMessage(); 2571 nestedMessage.setBb(5); 2572 newMsg.optionalNestedMessage = nestedMessage; 2573 newMsg.id = -1; 2574 newMsg.repeatedNestedEnum = new int[] { TestAllTypesNano.FOO }; 2575 2576 TestNanoAccessors newMsg2 = TestNanoAccessors.parseFrom(MessageNano.toByteArray(newMsg)); 2577 assertEquals(nestedMessage.getBb(), newMsg2.optionalNestedMessage.getBb()); 2578 assertEquals(-1, newMsg2.id); 2579 assertEquals(TestAllTypesNano.FOO, newMsg2.repeatedNestedEnum[0]); 2580 2581 newMsg2.optionalNestedMessage = null; 2582 newMsg2.id = 0; 2583 newMsg2.repeatedNestedEnum = null; 2584 2585 TestNanoAccessors newMsg3 = TestNanoAccessors.parseFrom(MessageNano.toByteArray(newMsg2)); 2586 assertNull(newMsg3.optionalNestedMessage); 2587 assertEquals(0, newMsg3.id); 2588 assertEquals(0, newMsg3.repeatedNestedEnum.length); 2589 } 2590 testNanoWithAccessorsSerialize()2591 public void testNanoWithAccessorsSerialize() throws Exception { 2592 TestNanoAccessors msg = new TestNanoAccessors(); 2593 msg.setOptionalInt32(msg.getOptionalInt32()); 2594 msg.setOptionalString(msg.getOptionalString()); 2595 msg.setOptionalBytes(msg.getOptionalBytes()); 2596 TestNanoAccessors.NestedMessage nestedMessage = new TestNanoAccessors.NestedMessage(); 2597 nestedMessage.setBb(nestedMessage.getBb()); 2598 msg.optionalNestedMessage = nestedMessage; 2599 msg.setOptionalNestedEnum(msg.getOptionalNestedEnum()); 2600 msg.setDefaultInt32(msg.getDefaultInt32()); 2601 msg.setDefaultString(msg.getDefaultString()); 2602 msg.setDefaultBytes(msg.getDefaultBytes()); 2603 msg.setDefaultFloatNan(msg.getDefaultFloatNan()); 2604 msg.setDefaultNestedEnum(msg.getDefaultNestedEnum()); 2605 2606 byte [] result = MessageNano.toByteArray(msg); 2607 int msgSerializedSize = msg.getSerializedSize(); 2608 assertEquals(result.length, msgSerializedSize); 2609 2610 // Now deserialize and find that all fields are set and equal to their defaults. 2611 TestNanoAccessors newMsg = TestNanoAccessors.parseFrom(result); 2612 assertTrue(newMsg.hasOptionalInt32()); 2613 assertTrue(newMsg.hasOptionalString()); 2614 assertTrue(newMsg.hasOptionalBytes()); 2615 assertTrue(newMsg.optionalNestedMessage.hasBb()); 2616 assertTrue(newMsg.hasOptionalNestedEnum()); 2617 assertTrue(newMsg.hasDefaultInt32()); 2618 assertTrue(newMsg.hasDefaultString()); 2619 assertTrue(newMsg.hasDefaultBytes()); 2620 assertTrue(newMsg.hasDefaultFloatNan()); 2621 assertTrue(newMsg.hasDefaultNestedEnum()); 2622 assertEquals(0, newMsg.getOptionalInt32()); 2623 assertEquals(0, newMsg.getOptionalString().length()); 2624 assertEquals(0, newMsg.getOptionalBytes().length); 2625 assertEquals(0, newMsg.optionalNestedMessage.getBb()); 2626 assertEquals(TestNanoAccessors.FOO, newMsg.getOptionalNestedEnum()); 2627 assertEquals(41, newMsg.getDefaultInt32()); 2628 assertEquals("hello", newMsg.getDefaultString()); 2629 assertEquals("world", new String(newMsg.getDefaultBytes(), InternalNano.UTF_8)); 2630 assertEquals(TestNanoAccessors.BAR, newMsg.getDefaultNestedEnum()); 2631 assertEquals(Float.NaN, newMsg.getDefaultFloatNan()); 2632 assertEquals(0, newMsg.id); 2633 } 2634 testNanoJavaEnumStyle()2635 public void testNanoJavaEnumStyle() throws Exception { 2636 EnumClassNanos.EnumClassNano msg = new EnumClassNanos.EnumClassNano(); 2637 assertEquals(EnumClassNanos.FileScopeEnum.ONE, msg.one); 2638 assertEquals(EnumClassNanos.EnumClassNano.MessageScopeEnum.TWO, msg.two); 2639 2640 EnumClassNanoMultiple msg2 = new EnumClassNanoMultiple(); 2641 assertEquals(FileScopeEnumMultiple.THREE, msg2.three); 2642 assertEquals(EnumClassNanoMultiple.MessageScopeEnumMultiple.FOUR, msg2.four); 2643 } 2644 2645 /** 2646 * Tests that fields with a default value of NaN are not serialized when 2647 * set to NaN. This is a special case as NaN != NaN, so normal equality 2648 * checks don't work. 2649 */ testNanoNotANumberDefaults()2650 public void testNanoNotANumberDefaults() throws Exception { 2651 TestAllTypesNano msg = new TestAllTypesNano(); 2652 msg.defaultDoubleNan = 0; 2653 msg.defaultFloatNan = 0; 2654 byte[] result = MessageNano.toByteArray(msg); 2655 int msgSerializedSize = msg.getSerializedSize(); 2656 assertTrue(result.length == msgSerializedSize); 2657 assertTrue(msgSerializedSize > 3); 2658 2659 msg.defaultDoubleNan = Double.NaN; 2660 msg.defaultFloatNan = Float.NaN; 2661 result = MessageNano.toByteArray(msg); 2662 msgSerializedSize = msg.getSerializedSize(); 2663 assertEquals(3, result.length); 2664 assertEquals(3, msgSerializedSize); 2665 } 2666 2667 /** 2668 * Test that a bug in skipRawBytes() has been fixed: if the skip skips 2669 * exactly up to a limit, this should not break things. 2670 */ testSkipRawBytesBug()2671 public void testSkipRawBytesBug() throws Exception { 2672 byte[] rawBytes = new byte[] { 1, 2 }; 2673 CodedInputByteBufferNano input = CodedInputByteBufferNano.newInstance(rawBytes); 2674 2675 int limit = input.pushLimit(1); 2676 input.skipRawBytes(1); 2677 input.popLimit(limit); 2678 assertEquals(2, input.readRawByte()); 2679 } 2680 2681 /** 2682 * Test that a bug in skipRawBytes() has been fixed: if the skip skips 2683 * past the end of a buffer with a limit that has been set past the end of 2684 * that buffer, this should not break things. 2685 */ testSkipRawBytesPastEndOfBufferWithLimit()2686 public void testSkipRawBytesPastEndOfBufferWithLimit() throws Exception { 2687 byte[] rawBytes = new byte[] { 1, 2, 3, 4, 5 }; 2688 CodedInputByteBufferNano input = CodedInputByteBufferNano.newInstance(rawBytes); 2689 2690 int limit = input.pushLimit(4); 2691 // In order to expose the bug we need to read at least one byte to prime the 2692 // buffer inside the CodedInputStream. 2693 assertEquals(1, input.readRawByte()); 2694 // Skip to the end of the limit. 2695 input.skipRawBytes(3); 2696 assertTrue(input.isAtEnd()); 2697 input.popLimit(limit); 2698 assertEquals(5, input.readRawByte()); 2699 } 2700 2701 // Test a smattering of various proto types for printing testMessageNanoPrinter()2702 public void testMessageNanoPrinter() { 2703 TestAllTypesNano msg = new TestAllTypesNano(); 2704 msg.optionalInt32 = 14; 2705 msg.optionalFloat = 42.3f; 2706 msg.optionalString = "String \"with' both quotes"; 2707 msg.optionalBytes = new byte[] {'"', '\0', 1, 8}; 2708 msg.optionalGroup = new TestAllTypesNano.OptionalGroup(); 2709 msg.optionalGroup.a = 15; 2710 msg.repeatedInt64 = new long[2]; 2711 msg.repeatedInt64[0] = 1L; 2712 msg.repeatedInt64[1] = -1L; 2713 msg.repeatedBytes = new byte[2][]; 2714 msg.repeatedBytes[1] = new byte[] {'h', 'e', 'l', 'l', 'o'}; 2715 msg.repeatedGroup = new TestAllTypesNano.RepeatedGroup[2]; 2716 msg.repeatedGroup[0] = new TestAllTypesNano.RepeatedGroup(); 2717 msg.repeatedGroup[0].a = -27; 2718 msg.repeatedGroup[1] = new TestAllTypesNano.RepeatedGroup(); 2719 msg.repeatedGroup[1].a = -72; 2720 msg.optionalNestedMessage = new TestAllTypesNano.NestedMessage(); 2721 msg.optionalNestedMessage.bb = 7; 2722 msg.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[2]; 2723 msg.repeatedNestedMessage[0] = new TestAllTypesNano.NestedMessage(); 2724 msg.repeatedNestedMessage[0].bb = 77; 2725 msg.repeatedNestedMessage[1] = new TestAllTypesNano.NestedMessage(); 2726 msg.repeatedNestedMessage[1].bb = 88; 2727 msg.optionalNestedEnum = TestAllTypesNano.BAZ; 2728 msg.repeatedNestedEnum = new int[2]; 2729 msg.repeatedNestedEnum[0] = TestAllTypesNano.BAR; 2730 msg.repeatedNestedEnum[1] = TestAllTypesNano.FOO; 2731 msg.repeatedStringPiece = new String[] {null, "world"}; 2732 msg.setOneofString("hello"); 2733 2734 String protoPrint = msg.toString(); 2735 assertTrue(protoPrint.contains("optional_int32: 14")); 2736 assertTrue(protoPrint.contains("optional_float: 42.3")); 2737 assertTrue(protoPrint.contains("optional_double: 0.0")); 2738 assertTrue(protoPrint.contains("optional_string: \"String \\u0022with\\u0027 both quotes\"")); 2739 assertTrue(protoPrint.contains("optional_bytes: \"\\\"\\000\\001\\010\"")); 2740 assertTrue(protoPrint.contains("optional_group <\n a: 15\n>")); 2741 2742 assertTrue(protoPrint.contains("repeated_int64: 1\nrepeated_int64: -1")); 2743 assertFalse(protoPrint.contains("repeated_bytes: \"\"")); // null should be dropped 2744 assertTrue(protoPrint.contains("repeated_bytes: \"hello\"")); 2745 assertTrue(protoPrint.contains("repeated_group <\n a: -27\n>\n" 2746 + "repeated_group <\n a: -72\n>")); 2747 assertTrue(protoPrint.contains("optional_nested_message <\n bb: 7\n>")); 2748 assertTrue(protoPrint.contains("repeated_nested_message <\n bb: 77\n>\n" 2749 + "repeated_nested_message <\n bb: 88\n>")); 2750 assertTrue(protoPrint.contains("optional_nested_enum: 3")); 2751 assertTrue(protoPrint.contains("repeated_nested_enum: 2\nrepeated_nested_enum: 1")); 2752 assertTrue(protoPrint.contains("default_int32: 41")); 2753 assertTrue(protoPrint.contains("default_string: \"hello\"")); 2754 assertFalse(protoPrint.contains("repeated_string_piece: \"\"")); // null should be dropped 2755 assertTrue(protoPrint.contains("repeated_string_piece: \"world\"")); 2756 assertTrue(protoPrint.contains("oneof_string: \"hello\"")); 2757 } 2758 testMessageNanoPrinterAccessors()2759 public void testMessageNanoPrinterAccessors() throws Exception { 2760 TestNanoAccessors msg = new TestNanoAccessors(); 2761 msg.setOptionalInt32(13); 2762 msg.setOptionalString("foo"); 2763 msg.setOptionalBytes(new byte[] {'"', '\0', 1, 8}); 2764 msg.optionalNestedMessage = new TestNanoAccessors.NestedMessage(); 2765 msg.optionalNestedMessage.setBb(7); 2766 msg.setOptionalNestedEnum(TestNanoAccessors.BAZ); 2767 msg.repeatedInt32 = new int[] { 1, -1 }; 2768 msg.repeatedString = new String[] { "Hello", "world" }; 2769 msg.repeatedBytes = new byte[2][]; 2770 msg.repeatedBytes[1] = new byte[] {'h', 'e', 'l', 'l', 'o'}; 2771 msg.repeatedNestedMessage = new TestNanoAccessors.NestedMessage[2]; 2772 msg.repeatedNestedMessage[0] = new TestNanoAccessors.NestedMessage(); 2773 msg.repeatedNestedMessage[0].setBb(5); 2774 msg.repeatedNestedMessage[1] = new TestNanoAccessors.NestedMessage(); 2775 msg.repeatedNestedMessage[1].setBb(6); 2776 msg.repeatedNestedEnum = new int[] { TestNanoAccessors.FOO, TestNanoAccessors.BAR }; 2777 msg.id = 33; 2778 2779 String protoPrint = msg.toString(); 2780 assertTrue(protoPrint.contains("optional_int32: 13")); 2781 assertTrue(protoPrint.contains("optional_string: \"foo\"")); 2782 assertTrue(protoPrint.contains("optional_bytes: \"\\\"\\000\\001\\010\"")); 2783 assertTrue(protoPrint.contains("optional_nested_message <\n bb: 7\n>")); 2784 assertTrue(protoPrint.contains("optional_nested_enum: 3")); 2785 assertTrue(protoPrint.contains("repeated_int32: 1\nrepeated_int32: -1")); 2786 assertTrue(protoPrint.contains("repeated_string: \"Hello\"\nrepeated_string: \"world\"")); 2787 assertFalse(protoPrint.contains("repeated_bytes: \"\"")); // null should be dropped 2788 assertTrue(protoPrint.contains("repeated_bytes: \"hello\"")); 2789 assertTrue(protoPrint.contains("repeated_nested_message <\n bb: 5\n>\n" 2790 + "repeated_nested_message <\n bb: 6\n>")); 2791 assertTrue(protoPrint.contains("repeated_nested_enum: 1\nrepeated_nested_enum: 2")); 2792 assertTrue(protoPrint.contains("id: 33")); 2793 } 2794 testMessageNanoPrinterForMaps()2795 public void testMessageNanoPrinterForMaps() throws Exception { 2796 TestMap msg = new TestMap(); 2797 MessageValue msgValues[] = new MessageValue[] { 2798 new MessageValue(), new MessageValue() 2799 }; 2800 msgValues[0].value = 1; 2801 msgValues[1].value = 2; 2802 msg.int32ToBytesField = new HashMap<Integer, byte[]>(); 2803 msg.int32ToBytesField.put(1, new byte[] {'"', '\0'}); 2804 msg.int32ToBytesField.put(2, new byte[] {1, 8}); 2805 msg.stringToInt32Field = new HashMap<String, Integer>(); 2806 msg.stringToInt32Field.put("hello", 1); 2807 msg.stringToInt32Field.put("world", 2); 2808 msg.int32ToMessageField = new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 2809 msg.int32ToMessageField.put(0, msgValues[0]); 2810 msg.int32ToMessageField.put(1, msgValues[1]); 2811 msg.int32ToEnumField = new HashMap<Integer, Integer>(); 2812 msg.int32ToEnumField.put(1, 2); 2813 msg.int32ToEnumField.put(2, 3); 2814 String protoPrint = msg.toString(); 2815 2816 assertTrue(protoPrint.contains( 2817 "int32_to_bytes_field <\n key: 1\n value: \"\\\"\\000\"\n>")); 2818 assertTrue(protoPrint.contains( 2819 "int32_to_bytes_field <\n key: 2\n value: \"\\001\\010\"\n>")); 2820 assertTrue(protoPrint.contains( 2821 "string_to_int32_field <\n key: \"hello\"\n value: 1\n>")); 2822 assertTrue(protoPrint.contains( 2823 "string_to_int32_field <\n key: \"world\"\n value: 2\n>")); 2824 assertTrue(protoPrint.contains( 2825 "int32_to_message_field <\n key: 0\n value <\n value: 1\n")); 2826 assertTrue(protoPrint.contains( 2827 "int32_to_message_field <\n key: 1\n value <\n value: 2\n")); 2828 assertTrue(protoPrint.contains( 2829 "int32_to_enum_field <\n key: 1\n value: 2\n>")); 2830 assertTrue(protoPrint.contains( 2831 "int32_to_enum_field <\n key: 2\n value: 3\n>")); 2832 } 2833 testExtensions()2834 public void testExtensions() throws Exception { 2835 Extensions.ExtendableMessage message = new Extensions.ExtendableMessage(); 2836 message.field = 5; 2837 int[] int32s = {1, 2}; 2838 int[] uint32s = {3, 4}; 2839 int[] sint32s = {-5, -6}; 2840 long[] int64s = {7, 8}; 2841 long[] uint64s = {9, 10}; 2842 long[] sint64s = {-11, -12}; 2843 int[] fixed32s = {13, 14}; 2844 int[] sfixed32s = {-15, -16}; 2845 long[] fixed64s = {17, 18}; 2846 long[] sfixed64s = {-19, -20}; 2847 boolean[] bools = {true, false}; 2848 float[] floats = {2.1f, 2.2f}; 2849 double[] doubles = {2.3, 2.4}; 2850 int[] enums = {Extensions.SECOND_VALUE, Extensions.FIRST_VALUE}; 2851 String[] strings = {"vijfentwintig", "twenty-six"}; 2852 byte[][] bytess = {{2, 7}, {2, 8}}; 2853 AnotherMessage another1 = new AnotherMessage(); 2854 another1.string = "er shi jiu"; 2855 another1.value = false; 2856 AnotherMessage another2 = new AnotherMessage(); 2857 another2.string = "trente"; 2858 another2.value = true; 2859 AnotherMessage[] messages = {another1, another2}; 2860 RepeatedExtensions.RepeatedGroup group1 = new RepeatedExtensions.RepeatedGroup(); 2861 group1.a = 31; 2862 RepeatedExtensions.RepeatedGroup group2 = new RepeatedExtensions.RepeatedGroup(); 2863 group2.a = 32; 2864 RepeatedExtensions.RepeatedGroup[] groups = {group1, group2}; 2865 assertFalse(message.hasExtension(RepeatedExtensions.repeatedInt32)); 2866 message.setExtension(RepeatedExtensions.repeatedInt32, int32s); 2867 assertTrue(message.hasExtension(RepeatedExtensions.repeatedInt32)); 2868 assertFalse(message.hasExtension(RepeatedExtensions.repeatedUint32)); 2869 message.setExtension(RepeatedExtensions.repeatedUint32, uint32s); 2870 assertTrue(message.hasExtension(RepeatedExtensions.repeatedUint32)); 2871 message.setExtension(RepeatedExtensions.repeatedSint32, sint32s); 2872 assertFalse(message.hasExtension(RepeatedExtensions.repeatedInt64)); 2873 message.setExtension(RepeatedExtensions.repeatedInt64, int64s); 2874 assertTrue(message.hasExtension(RepeatedExtensions.repeatedInt64)); 2875 assertFalse(message.hasExtension(RepeatedExtensions.repeatedUint64)); 2876 message.setExtension(RepeatedExtensions.repeatedUint64, uint64s); 2877 assertTrue(message.hasExtension(RepeatedExtensions.repeatedUint64)); 2878 assertFalse(message.hasExtension(RepeatedExtensions.repeatedSint64)); 2879 message.setExtension(RepeatedExtensions.repeatedSint64, sint64s); 2880 assertTrue(message.hasExtension(RepeatedExtensions.repeatedSint64)); 2881 assertFalse(message.hasExtension(RepeatedExtensions.repeatedFixed32)); 2882 message.setExtension(RepeatedExtensions.repeatedFixed32, fixed32s); 2883 assertTrue(message.hasExtension(RepeatedExtensions.repeatedFixed32)); 2884 assertFalse(message.hasExtension(RepeatedExtensions.repeatedSfixed32)); 2885 message.setExtension(RepeatedExtensions.repeatedSfixed32, sfixed32s); 2886 assertTrue(message.hasExtension(RepeatedExtensions.repeatedSfixed32)); 2887 assertFalse(message.hasExtension(RepeatedExtensions.repeatedFixed64)); 2888 message.setExtension(RepeatedExtensions.repeatedFixed64, fixed64s); 2889 assertTrue(message.hasExtension(RepeatedExtensions.repeatedFixed64)); 2890 assertFalse(message.hasExtension(RepeatedExtensions.repeatedSfixed64)); 2891 message.setExtension(RepeatedExtensions.repeatedSfixed64, sfixed64s); 2892 assertTrue(message.hasExtension(RepeatedExtensions.repeatedSfixed64)); 2893 assertFalse(message.hasExtension(RepeatedExtensions.repeatedBool)); 2894 message.setExtension(RepeatedExtensions.repeatedBool, bools); 2895 assertTrue(message.hasExtension(RepeatedExtensions.repeatedBool)); 2896 assertFalse(message.hasExtension(RepeatedExtensions.repeatedFloat)); 2897 message.setExtension(RepeatedExtensions.repeatedFloat, floats); 2898 assertTrue(message.hasExtension(RepeatedExtensions.repeatedFloat)); 2899 assertFalse(message.hasExtension(RepeatedExtensions.repeatedDouble)); 2900 message.setExtension(RepeatedExtensions.repeatedDouble, doubles); 2901 assertTrue(message.hasExtension(RepeatedExtensions.repeatedDouble)); 2902 assertFalse(message.hasExtension(RepeatedExtensions.repeatedEnum)); 2903 message.setExtension(RepeatedExtensions.repeatedEnum, enums); 2904 assertTrue(message.hasExtension(RepeatedExtensions.repeatedEnum)); 2905 assertFalse(message.hasExtension(RepeatedExtensions.repeatedString)); 2906 message.setExtension(RepeatedExtensions.repeatedString, strings); 2907 assertTrue(message.hasExtension(RepeatedExtensions.repeatedString)); 2908 assertFalse(message.hasExtension(RepeatedExtensions.repeatedBytes)); 2909 message.setExtension(RepeatedExtensions.repeatedBytes, bytess); 2910 assertTrue(message.hasExtension(RepeatedExtensions.repeatedBytes)); 2911 assertFalse(message.hasExtension(RepeatedExtensions.repeatedMessage)); 2912 message.setExtension(RepeatedExtensions.repeatedMessage, messages); 2913 assertTrue(message.hasExtension(RepeatedExtensions.repeatedMessage)); 2914 assertFalse(message.hasExtension(RepeatedExtensions.repeatedGroup)); 2915 message.setExtension(RepeatedExtensions.repeatedGroup, groups); 2916 assertTrue(message.hasExtension(RepeatedExtensions.repeatedGroup)); 2917 2918 byte[] data = MessageNano.toByteArray(message); 2919 message = Extensions.ExtendableMessage.parseFrom(data); 2920 assertEquals(5, message.field); 2921 2922 // Test reading back using SingularExtensions: the retrieved value should equal the last 2923 // in each array. 2924 assertEquals(int32s[1], (int) message.getExtension(SingularExtensions.someInt32)); 2925 assertEquals(uint32s[1], (int) message.getExtension(SingularExtensions.someUint32)); 2926 assertEquals(sint32s[1], (int) message.getExtension(SingularExtensions.someSint32)); 2927 assertEquals(int64s[1], (long) message.getExtension(SingularExtensions.someInt64)); 2928 assertEquals(uint64s[1], (long) message.getExtension(SingularExtensions.someUint64)); 2929 assertEquals(sint64s[1], (long) message.getExtension(SingularExtensions.someSint64)); 2930 assertEquals(fixed32s[1], (int) message.getExtension(SingularExtensions.someFixed32)); 2931 assertEquals(sfixed32s[1], (int) message.getExtension(SingularExtensions.someSfixed32)); 2932 assertEquals(fixed64s[1], (long) message.getExtension(SingularExtensions.someFixed64)); 2933 assertEquals(sfixed64s[1], (long) message.getExtension(SingularExtensions.someSfixed64)); 2934 assertEquals(bools[1], (boolean) message.getExtension(SingularExtensions.someBool)); 2935 assertEquals(floats[1], (float) message.getExtension(SingularExtensions.someFloat)); 2936 assertEquals(doubles[1], (double) message.getExtension(SingularExtensions.someDouble)); 2937 assertEquals(enums[1], (int) message.getExtension(SingularExtensions.someEnum)); 2938 assertEquals(strings[1], message.getExtension(SingularExtensions.someString)); 2939 assertTrue(Arrays.equals(bytess[1], message.getExtension(SingularExtensions.someBytes))); 2940 AnotherMessage deserializedMessage = message.getExtension(SingularExtensions.someMessage); 2941 assertEquals(another2.string, deserializedMessage.string); 2942 assertEquals(another2.value, deserializedMessage.value); 2943 assertEquals(group2.a, message.getExtension(SingularExtensions.someGroup).a); 2944 2945 // Test reading back using RepeatedExtensions: the arrays should be equal. 2946 message = Extensions.ExtendableMessage.parseFrom(data); 2947 assertEquals(5, message.field); 2948 assertTrue(Arrays.equals(int32s, message.getExtension(RepeatedExtensions.repeatedInt32))); 2949 assertTrue(Arrays.equals(uint32s, message.getExtension(RepeatedExtensions.repeatedUint32))); 2950 assertTrue(Arrays.equals(sint32s, message.getExtension(RepeatedExtensions.repeatedSint32))); 2951 assertTrue(Arrays.equals(int64s, message.getExtension(RepeatedExtensions.repeatedInt64))); 2952 assertTrue(Arrays.equals(uint64s, message.getExtension(RepeatedExtensions.repeatedUint64))); 2953 assertTrue(Arrays.equals(sint64s, message.getExtension(RepeatedExtensions.repeatedSint64))); 2954 assertTrue(Arrays.equals(fixed32s, message.getExtension(RepeatedExtensions.repeatedFixed32))); 2955 assertTrue(Arrays.equals(sfixed32s, message.getExtension(RepeatedExtensions.repeatedSfixed32))); 2956 assertTrue(Arrays.equals(fixed64s, message.getExtension(RepeatedExtensions.repeatedFixed64))); 2957 assertTrue(Arrays.equals(sfixed64s, message.getExtension(RepeatedExtensions.repeatedSfixed64))); 2958 assertTrue(Arrays.equals(bools, message.getExtension(RepeatedExtensions.repeatedBool))); 2959 assertTrue(Arrays.equals(floats, message.getExtension(RepeatedExtensions.repeatedFloat))); 2960 assertTrue(Arrays.equals(doubles, message.getExtension(RepeatedExtensions.repeatedDouble))); 2961 assertTrue(Arrays.equals(enums, message.getExtension(RepeatedExtensions.repeatedEnum))); 2962 assertTrue(Arrays.equals(strings, message.getExtension(RepeatedExtensions.repeatedString))); 2963 byte[][] deserializedRepeatedBytes = message.getExtension(RepeatedExtensions.repeatedBytes); 2964 assertEquals(2, deserializedRepeatedBytes.length); 2965 assertTrue(Arrays.equals(bytess[0], deserializedRepeatedBytes[0])); 2966 assertTrue(Arrays.equals(bytess[1], deserializedRepeatedBytes[1])); 2967 AnotherMessage[] deserializedRepeatedMessage = 2968 message.getExtension(RepeatedExtensions.repeatedMessage); 2969 assertEquals(2, deserializedRepeatedMessage.length); 2970 assertEquals(another1.string, deserializedRepeatedMessage[0].string); 2971 assertEquals(another1.value, deserializedRepeatedMessage[0].value); 2972 assertEquals(another2.string, deserializedRepeatedMessage[1].string); 2973 assertEquals(another2.value, deserializedRepeatedMessage[1].value); 2974 RepeatedExtensions.RepeatedGroup[] deserializedRepeatedGroup = 2975 message.getExtension(RepeatedExtensions.repeatedGroup); 2976 assertEquals(2, deserializedRepeatedGroup.length); 2977 assertEquals(group1.a, deserializedRepeatedGroup[0].a); 2978 assertEquals(group2.a, deserializedRepeatedGroup[1].a); 2979 2980 message = Extensions.ExtendableMessage.parseFrom(data); 2981 assertEquals(5, message.field); 2982 // Test hasExtension using PackedExtensions. 2983 assertTrue(message.hasExtension(PackedExtensions.packedInt32)); 2984 assertTrue(message.hasExtension(PackedExtensions.packedUint32)); 2985 assertTrue(message.hasExtension(PackedExtensions.packedSint32)); 2986 assertTrue(message.hasExtension(PackedExtensions.packedInt64)); 2987 assertTrue(message.hasExtension(PackedExtensions.packedUint64)); 2988 assertTrue(message.hasExtension(PackedExtensions.packedSint64)); 2989 assertTrue(message.hasExtension(PackedExtensions.packedFixed32)); 2990 assertTrue(message.hasExtension(PackedExtensions.packedSfixed32)); 2991 assertTrue(message.hasExtension(PackedExtensions.packedFixed64)); 2992 assertTrue(message.hasExtension(PackedExtensions.packedSfixed64)); 2993 assertTrue(message.hasExtension(PackedExtensions.packedBool)); 2994 assertTrue(message.hasExtension(PackedExtensions.packedFloat)); 2995 assertTrue(message.hasExtension(PackedExtensions.packedDouble)); 2996 assertTrue(message.hasExtension(PackedExtensions.packedEnum)); 2997 2998 // Test reading back using PackedExtensions: the arrays should be equal, even the fields 2999 // are non-packed. 3000 assertTrue(Arrays.equals(int32s, message.getExtension(PackedExtensions.packedInt32))); 3001 assertTrue(Arrays.equals(uint32s, message.getExtension(PackedExtensions.packedUint32))); 3002 assertTrue(Arrays.equals(sint32s, message.getExtension(PackedExtensions.packedSint32))); 3003 assertTrue(Arrays.equals(int64s, message.getExtension(PackedExtensions.packedInt64))); 3004 assertTrue(Arrays.equals(uint64s, message.getExtension(PackedExtensions.packedUint64))); 3005 assertTrue(Arrays.equals(sint64s, message.getExtension(PackedExtensions.packedSint64))); 3006 assertTrue(Arrays.equals(fixed32s, message.getExtension(PackedExtensions.packedFixed32))); 3007 assertTrue(Arrays.equals(sfixed32s, message.getExtension(PackedExtensions.packedSfixed32))); 3008 assertTrue(Arrays.equals(fixed64s, message.getExtension(PackedExtensions.packedFixed64))); 3009 assertTrue(Arrays.equals(sfixed64s, message.getExtension(PackedExtensions.packedSfixed64))); 3010 assertTrue(Arrays.equals(bools, message.getExtension(PackedExtensions.packedBool))); 3011 assertTrue(Arrays.equals(floats, message.getExtension(PackedExtensions.packedFloat))); 3012 assertTrue(Arrays.equals(doubles, message.getExtension(PackedExtensions.packedDouble))); 3013 assertTrue(Arrays.equals(enums, message.getExtension(PackedExtensions.packedEnum))); 3014 3015 // Now set the packable extension values using PackedExtensions so they're serialized packed. 3016 message.setExtension(PackedExtensions.packedInt32, int32s); 3017 message.setExtension(PackedExtensions.packedUint32, uint32s); 3018 message.setExtension(PackedExtensions.packedSint32, sint32s); 3019 message.setExtension(PackedExtensions.packedInt64, int64s); 3020 message.setExtension(PackedExtensions.packedUint64, uint64s); 3021 message.setExtension(PackedExtensions.packedSint64, sint64s); 3022 message.setExtension(PackedExtensions.packedFixed32, fixed32s); 3023 message.setExtension(PackedExtensions.packedSfixed32, sfixed32s); 3024 message.setExtension(PackedExtensions.packedFixed64, fixed64s); 3025 message.setExtension(PackedExtensions.packedSfixed64, sfixed64s); 3026 message.setExtension(PackedExtensions.packedBool, bools); 3027 message.setExtension(PackedExtensions.packedFloat, floats); 3028 message.setExtension(PackedExtensions.packedDouble, doubles); 3029 message.setExtension(PackedExtensions.packedEnum, enums); 3030 3031 // And read back using non-packed RepeatedExtensions. 3032 byte[] data2 = MessageNano.toByteArray(message); 3033 message = MessageNano.mergeFrom(new Extensions.ExtendableMessage(), data2); 3034 assertTrue(Arrays.equals(int32s, message.getExtension(RepeatedExtensions.repeatedInt32))); 3035 assertTrue(Arrays.equals(uint32s, message.getExtension(RepeatedExtensions.repeatedUint32))); 3036 assertTrue(Arrays.equals(sint32s, message.getExtension(RepeatedExtensions.repeatedSint32))); 3037 assertTrue(Arrays.equals(int64s, message.getExtension(RepeatedExtensions.repeatedInt64))); 3038 assertTrue(Arrays.equals(uint64s, message.getExtension(RepeatedExtensions.repeatedUint64))); 3039 assertTrue(Arrays.equals(sint64s, message.getExtension(RepeatedExtensions.repeatedSint64))); 3040 assertTrue(Arrays.equals(fixed32s, message.getExtension(RepeatedExtensions.repeatedFixed32))); 3041 assertTrue(Arrays.equals(sfixed32s, message.getExtension(RepeatedExtensions.repeatedSfixed32))); 3042 assertTrue(Arrays.equals(fixed64s, message.getExtension(RepeatedExtensions.repeatedFixed64))); 3043 assertTrue(Arrays.equals(sfixed64s, message.getExtension(RepeatedExtensions.repeatedSfixed64))); 3044 assertTrue(Arrays.equals(bools, message.getExtension(RepeatedExtensions.repeatedBool))); 3045 assertTrue(Arrays.equals(floats, message.getExtension(RepeatedExtensions.repeatedFloat))); 3046 assertTrue(Arrays.equals(doubles, message.getExtension(RepeatedExtensions.repeatedDouble))); 3047 assertTrue(Arrays.equals(enums, message.getExtension(RepeatedExtensions.repeatedEnum))); 3048 3049 // Clone the message and ensure it's still equal. 3050 Extensions.ExtendableMessage clone = message.clone(); 3051 assertEquals(clone, message); 3052 } 3053 testNullExtensions()3054 public void testNullExtensions() throws Exception { 3055 // Check that clearing the extension on an empty message is a no-op. 3056 Extensions.ExtendableMessage message = new Extensions.ExtendableMessage(); 3057 assertFalse(message.hasExtension(SingularExtensions.someMessage)); 3058 message.setExtension(SingularExtensions.someMessage, null); 3059 assertFalse(message.hasExtension(SingularExtensions.someMessage)); 3060 assertEquals(0, MessageNano.toByteArray(message).length); 3061 3062 // Check that the message is empty after setting and clearing an extension. 3063 AnotherMessage another = new AnotherMessage(); 3064 assertFalse(message.hasExtension(SingularExtensions.someMessage)); 3065 message.setExtension(SingularExtensions.someMessage, another); 3066 assertTrue(message.hasExtension(SingularExtensions.someMessage)); 3067 assertTrue(MessageNano.toByteArray(message).length > 0); 3068 message.setExtension(SingularExtensions.someMessage, null); 3069 assertFalse(message.hasExtension(SingularExtensions.someMessage)); 3070 assertEquals(0, MessageNano.toByteArray(message).length); 3071 } 3072 testExtensionsMutation()3073 public void testExtensionsMutation() { 3074 Extensions.ExtendableMessage extendableMessage = new Extensions.ExtendableMessage(); 3075 extendableMessage.setExtension(SingularExtensions.someMessage, 3076 new Extensions.AnotherMessage()); 3077 3078 extendableMessage.getExtension(SingularExtensions.someMessage).string = "not empty"; 3079 3080 assertEquals("not empty", 3081 extendableMessage.getExtension(SingularExtensions.someMessage).string); 3082 } 3083 testExtensionsMutation_Equals()3084 public void testExtensionsMutation_Equals() throws InvalidProtocolBufferNanoException { 3085 Extensions.ExtendableMessage extendableMessage = new Extensions.ExtendableMessage(); 3086 extendableMessage.field = 5; 3087 int int32 = 42; 3088 int[] uint32s = {3, 4}; 3089 int[] sint32s = {-5, -6}; 3090 long[] int64s = {7, 8}; 3091 long[] uint64s = {9, 10}; 3092 long[] sint64s = {-11, -12}; 3093 int[] fixed32s = {13, 14}; 3094 int[] sfixed32s = {-15, -16}; 3095 long[] fixed64s = {17, 18}; 3096 long[] sfixed64s = {-19, -20}; 3097 boolean[] bools = {true, false}; 3098 float[] floats = {2.1f, 2.2f}; 3099 double[] doubles = {2.3, 2.4}; 3100 int[] enums = {Extensions.SECOND_VALUE, Extensions.FIRST_VALUE}; 3101 String[] strings = {"vijfentwintig", "twenty-six"}; 3102 byte[][] bytess = {{2, 7}, {2, 8}}; 3103 AnotherMessage another1 = new AnotherMessage(); 3104 another1.string = "er shi jiu"; 3105 another1.value = false; 3106 AnotherMessage another2 = new AnotherMessage(); 3107 another2.string = "trente"; 3108 another2.value = true; 3109 AnotherMessage[] messages = {another1, another2}; 3110 RepeatedExtensions.RepeatedGroup group1 = new RepeatedExtensions.RepeatedGroup(); 3111 group1.a = 31; 3112 RepeatedExtensions.RepeatedGroup group2 = new RepeatedExtensions.RepeatedGroup(); 3113 group2.a = 32; 3114 RepeatedExtensions.RepeatedGroup[] groups = {group1, group2}; 3115 extendableMessage.setExtension(SingularExtensions.someInt32, int32); 3116 extendableMessage.setExtension(RepeatedExtensions.repeatedUint32, uint32s); 3117 extendableMessage.setExtension(RepeatedExtensions.repeatedSint32, sint32s); 3118 extendableMessage.setExtension(RepeatedExtensions.repeatedInt64, int64s); 3119 extendableMessage.setExtension(RepeatedExtensions.repeatedUint64, uint64s); 3120 extendableMessage.setExtension(RepeatedExtensions.repeatedSint64, sint64s); 3121 extendableMessage.setExtension(RepeatedExtensions.repeatedFixed32, fixed32s); 3122 extendableMessage.setExtension(RepeatedExtensions.repeatedSfixed32, sfixed32s); 3123 extendableMessage.setExtension(RepeatedExtensions.repeatedFixed64, fixed64s); 3124 extendableMessage.setExtension(RepeatedExtensions.repeatedSfixed64, sfixed64s); 3125 extendableMessage.setExtension(RepeatedExtensions.repeatedBool, bools); 3126 extendableMessage.setExtension(RepeatedExtensions.repeatedFloat, floats); 3127 extendableMessage.setExtension(RepeatedExtensions.repeatedDouble, doubles); 3128 extendableMessage.setExtension(RepeatedExtensions.repeatedEnum, enums); 3129 extendableMessage.setExtension(RepeatedExtensions.repeatedString, strings); 3130 extendableMessage.setExtension(RepeatedExtensions.repeatedBytes, bytess); 3131 extendableMessage.setExtension(RepeatedExtensions.repeatedMessage, messages); 3132 extendableMessage.setExtension(RepeatedExtensions.repeatedGroup, groups); 3133 3134 byte[] data = MessageNano.toByteArray(extendableMessage); 3135 3136 extendableMessage = Extensions.ExtendableMessage.parseFrom(data); 3137 Extensions.ExtendableMessage messageCopy = Extensions.ExtendableMessage.parseFrom(data); 3138 3139 // Without deserialising. 3140 assertEquals(extendableMessage, messageCopy); 3141 assertEquals(extendableMessage.hashCode(), messageCopy.hashCode()); 3142 3143 // Only one deserialized. 3144 extendableMessage.getExtension(SingularExtensions.someInt32); 3145 extendableMessage.getExtension(RepeatedExtensions.repeatedUint32); 3146 extendableMessage.getExtension(RepeatedExtensions.repeatedSint32); 3147 extendableMessage.getExtension(RepeatedExtensions.repeatedInt64); 3148 extendableMessage.getExtension(RepeatedExtensions.repeatedUint64); 3149 extendableMessage.getExtension(RepeatedExtensions.repeatedSint64); 3150 extendableMessage.getExtension(RepeatedExtensions.repeatedFixed32); 3151 extendableMessage.getExtension(RepeatedExtensions.repeatedSfixed32); 3152 extendableMessage.getExtension(RepeatedExtensions.repeatedFixed64); 3153 extendableMessage.getExtension(RepeatedExtensions.repeatedSfixed64); 3154 extendableMessage.getExtension(RepeatedExtensions.repeatedBool); 3155 extendableMessage.getExtension(RepeatedExtensions.repeatedFloat); 3156 extendableMessage.getExtension(RepeatedExtensions.repeatedDouble); 3157 extendableMessage.getExtension(RepeatedExtensions.repeatedEnum); 3158 extendableMessage.getExtension(RepeatedExtensions.repeatedString); 3159 extendableMessage.getExtension(RepeatedExtensions.repeatedBytes); 3160 extendableMessage.getExtension(RepeatedExtensions.repeatedMessage); 3161 extendableMessage.getExtension(RepeatedExtensions.repeatedGroup); 3162 assertEquals(extendableMessage, messageCopy); 3163 assertEquals(extendableMessage.hashCode(), messageCopy.hashCode()); 3164 3165 // Both deserialized. 3166 messageCopy.getExtension(SingularExtensions.someInt32); 3167 messageCopy.getExtension(RepeatedExtensions.repeatedUint32); 3168 messageCopy.getExtension(RepeatedExtensions.repeatedSint32); 3169 messageCopy.getExtension(RepeatedExtensions.repeatedInt64); 3170 messageCopy.getExtension(RepeatedExtensions.repeatedUint64); 3171 messageCopy.getExtension(RepeatedExtensions.repeatedSint64); 3172 messageCopy.getExtension(RepeatedExtensions.repeatedFixed32); 3173 messageCopy.getExtension(RepeatedExtensions.repeatedSfixed32); 3174 messageCopy.getExtension(RepeatedExtensions.repeatedFixed64); 3175 messageCopy.getExtension(RepeatedExtensions.repeatedSfixed64); 3176 messageCopy.getExtension(RepeatedExtensions.repeatedBool); 3177 messageCopy.getExtension(RepeatedExtensions.repeatedFloat); 3178 messageCopy.getExtension(RepeatedExtensions.repeatedDouble); 3179 messageCopy.getExtension(RepeatedExtensions.repeatedEnum); 3180 messageCopy.getExtension(RepeatedExtensions.repeatedString); 3181 messageCopy.getExtension(RepeatedExtensions.repeatedBytes); 3182 messageCopy.getExtension(RepeatedExtensions.repeatedMessage); 3183 messageCopy.getExtension(RepeatedExtensions.repeatedGroup); 3184 assertEquals(extendableMessage, messageCopy); 3185 assertEquals(extendableMessage.hashCode(), messageCopy.hashCode()); 3186 3187 // Change one, make sure they are still different. 3188 messageCopy.getExtension(RepeatedExtensions.repeatedMessage)[0].string = "not empty"; 3189 assertFalse(extendableMessage.equals(messageCopy)); 3190 3191 // Even if the extension hasn't been deserialized. 3192 extendableMessage = Extensions.ExtendableMessage.parseFrom(data); 3193 assertFalse(extendableMessage.equals(messageCopy)); 3194 } 3195 testExtensionsCaching()3196 public void testExtensionsCaching() { 3197 Extensions.ExtendableMessage extendableMessage = new Extensions.ExtendableMessage(); 3198 extendableMessage.setExtension(SingularExtensions.someMessage, 3199 new Extensions.AnotherMessage()); 3200 assertSame("Consecutive calls to getExtensions should return the same object", 3201 extendableMessage.getExtension(SingularExtensions.someMessage), 3202 extendableMessage.getExtension(SingularExtensions.someMessage)); 3203 } 3204 testUnknownFields()3205 public void testUnknownFields() throws Exception { 3206 // Check that we roundtrip (serialize and deserialize) unrecognized fields. 3207 AnotherMessage message = new AnotherMessage(); 3208 message.string = "Hello World"; 3209 message.value = false; 3210 3211 byte[] bytes = MessageNano.toByteArray(message); 3212 int extraFieldSize = CodedOutputByteBufferNano.computeStringSize( 3213 1001, "This is an unknown field"); 3214 byte[] newBytes = new byte[bytes.length + extraFieldSize]; 3215 System.arraycopy(bytes, 0, newBytes, 0, bytes.length); 3216 CodedOutputByteBufferNano.newInstance(newBytes, bytes.length, extraFieldSize) 3217 .writeString(1001, "This is an unknown field"); 3218 3219 // Deserialize with an unknown field. 3220 AnotherMessage deserialized = AnotherMessage.parseFrom(newBytes); 3221 byte[] serialized = MessageNano.toByteArray(deserialized); 3222 3223 assertEquals(newBytes.length, serialized.length); 3224 3225 // Clear, and make sure it clears everything. 3226 deserialized.clear(); 3227 assertEquals(0, MessageNano.toByteArray(deserialized).length); 3228 } 3229 testMergeFrom()3230 public void testMergeFrom() throws Exception { 3231 SimpleMessageNano message = new SimpleMessageNano(); 3232 message.d = 123; 3233 byte[] bytes = MessageNano.toByteArray(message); 3234 3235 SimpleMessageNano newMessage = MessageNano.mergeFrom(new SimpleMessageNano(), bytes); 3236 assertEquals(message.d, newMessage.d); 3237 } 3238 testJavaKeyword()3239 public void testJavaKeyword() throws Exception { 3240 TestAllTypesNano msg = new TestAllTypesNano(); 3241 msg.synchronized_ = 123; 3242 assertEquals(123, msg.synchronized_); 3243 } 3244 testReferenceTypesForPrimitives()3245 public void testReferenceTypesForPrimitives() throws Exception { 3246 NanoReferenceTypes.TestAllTypesNano message = new NanoReferenceTypes.TestAllTypesNano(); 3247 3248 // Base check - when nothing is set, we serialize nothing. 3249 assertHasWireData(message, false); 3250 3251 message.defaultBool = true; 3252 assertHasWireData(message, true); 3253 3254 message.defaultBool = false; 3255 assertHasWireData(message, true); 3256 3257 message.defaultBool = null; 3258 assertHasWireData(message, false); 3259 3260 message.defaultInt32 = 5; 3261 assertHasWireData(message, true); 3262 3263 message.defaultInt32 = null; 3264 assertHasWireData(message, false); 3265 3266 message.defaultInt64 = 123456L; 3267 assertHasWireData(message, true); 3268 3269 message.defaultInt64 = null; 3270 assertHasWireData(message, false); 3271 3272 message.defaultFloat = 1f; 3273 assertHasWireData(message, true); 3274 3275 message.defaultFloat = null; 3276 assertHasWireData(message, false); 3277 3278 message.defaultDouble = 2.1; 3279 assertHasWireData(message, true); 3280 3281 message.defaultDouble = null; 3282 assertHasWireData(message, false); 3283 3284 message.defaultString = "hello"; 3285 assertHasWireData(message, true); 3286 3287 message.defaultString = null; 3288 assertHasWireData(message, false); 3289 3290 message.defaultBytes = new byte[] { 1, 2, 3 }; 3291 assertHasWireData(message, true); 3292 3293 message.defaultBytes = null; 3294 assertHasWireData(message, false); 3295 } 3296 testHashCodeEquals()3297 public void testHashCodeEquals() throws Exception { 3298 // Complete equality: 3299 TestAllTypesNano a = createMessageForHashCodeEqualsTest(); 3300 TestAllTypesNano aEquivalent = createMessageForHashCodeEqualsTest(); 3301 3302 assertTrue(MessageNano.messageNanoEquals(a, aEquivalent)); 3303 assertFalse(MessageNano.messageNanoEquals(a, new TestAllTypesNano())); 3304 3305 // Null and empty array for repeated fields equality: 3306 TestAllTypesNano b = createMessageForHashCodeEqualsTest(); 3307 b.repeatedBool = null; 3308 b.repeatedFloat = new float[0]; 3309 TestAllTypesNano bEquivalent = createMessageForHashCodeEqualsTest(); 3310 bEquivalent.repeatedBool = new boolean[0]; 3311 bEquivalent.repeatedFloat = null; 3312 3313 // Ref-element-type repeated fields use non-null subsequence equality: 3314 TestAllTypesNano c = createMessageForHashCodeEqualsTest(); 3315 c.repeatedString = null; 3316 c.repeatedStringPiece = new String[] {null, "one", null, "two"}; 3317 c.repeatedBytes = new byte[][] {{3, 4}, null}; 3318 TestAllTypesNano cEquivalent = createMessageForHashCodeEqualsTest(); 3319 cEquivalent.repeatedString = new String[3]; 3320 cEquivalent.repeatedStringPiece = new String[] {"one", "two", null}; 3321 cEquivalent.repeatedBytes = new byte[][] {{3, 4}}; 3322 3323 // Complete equality for messages with has fields: 3324 TestAllTypesNanoHas d = createMessageWithHasForHashCodeEqualsTest(); 3325 TestAllTypesNanoHas dEquivalent = createMessageWithHasForHashCodeEqualsTest(); 3326 3327 // If has-fields exist, fields with the same default values but 3328 // different has-field values are different. 3329 TestAllTypesNanoHas e = createMessageWithHasForHashCodeEqualsTest(); 3330 e.optionalInt32++; // make different from d 3331 e.hasDefaultString = false; 3332 TestAllTypesNanoHas eDifferent = createMessageWithHasForHashCodeEqualsTest(); 3333 eDifferent.optionalInt32 = e.optionalInt32; 3334 eDifferent.hasDefaultString = true; 3335 3336 // Complete equality for messages with accessors: 3337 TestNanoAccessors f = createMessageWithAccessorsForHashCodeEqualsTest(); 3338 TestNanoAccessors fEquivalent = createMessageWithAccessorsForHashCodeEqualsTest(); 3339 3340 // If using accessors, explicitly setting a field to its default value 3341 // should make the message different. 3342 TestNanoAccessors g = createMessageWithAccessorsForHashCodeEqualsTest(); 3343 g.setOptionalInt32(g.getOptionalInt32() + 1); // make different from f 3344 g.clearDefaultString(); 3345 TestNanoAccessors gDifferent = createMessageWithAccessorsForHashCodeEqualsTest(); 3346 gDifferent.setOptionalInt32(g.getOptionalInt32()); 3347 gDifferent.setDefaultString(g.getDefaultString()); 3348 3349 // Complete equality for reference typed messages: 3350 NanoReferenceTypes.TestAllTypesNano h = createRefTypedMessageForHashCodeEqualsTest(); 3351 NanoReferenceTypes.TestAllTypesNano hEquivalent = createRefTypedMessageForHashCodeEqualsTest(); 3352 3353 // Inequality of null and default value for reference typed messages: 3354 NanoReferenceTypes.TestAllTypesNano i = createRefTypedMessageForHashCodeEqualsTest(); 3355 i.optionalInt32 = 1; // make different from h 3356 i.optionalFloat = null; 3357 NanoReferenceTypes.TestAllTypesNano iDifferent = createRefTypedMessageForHashCodeEqualsTest(); 3358 iDifferent.optionalInt32 = i.optionalInt32; 3359 iDifferent.optionalFloat = 0.0f; 3360 3361 HashMap<MessageNano, String> hashMap = new HashMap<MessageNano, String>(); 3362 hashMap.put(a, "a"); 3363 hashMap.put(b, "b"); 3364 hashMap.put(c, "c"); 3365 hashMap.put(d, "d"); 3366 hashMap.put(e, "e"); 3367 hashMap.put(f, "f"); 3368 hashMap.put(g, "g"); 3369 hashMap.put(h, "h"); 3370 hashMap.put(i, "i"); 3371 3372 assertEquals(9, hashMap.size()); // a-i should be different from each other. 3373 3374 assertEquals("a", hashMap.get(a)); 3375 assertEquals("a", hashMap.get(aEquivalent)); 3376 3377 assertEquals("b", hashMap.get(b)); 3378 assertEquals("b", hashMap.get(bEquivalent)); 3379 3380 assertEquals("c", hashMap.get(c)); 3381 assertEquals("c", hashMap.get(cEquivalent)); 3382 3383 assertEquals("d", hashMap.get(d)); 3384 assertEquals("d", hashMap.get(dEquivalent)); 3385 3386 assertEquals("e", hashMap.get(e)); 3387 assertNull(hashMap.get(eDifferent)); 3388 3389 assertEquals("f", hashMap.get(f)); 3390 assertEquals("f", hashMap.get(fEquivalent)); 3391 3392 assertEquals("g", hashMap.get(g)); 3393 assertNull(hashMap.get(gDifferent)); 3394 3395 assertEquals("h", hashMap.get(h)); 3396 assertEquals("h", hashMap.get(hEquivalent)); 3397 3398 assertEquals("i", hashMap.get(i)); 3399 assertNull(hashMap.get(iDifferent)); 3400 } 3401 createMessageForHashCodeEqualsTest()3402 private TestAllTypesNano createMessageForHashCodeEqualsTest() { 3403 TestAllTypesNano message = new TestAllTypesNano(); 3404 message.optionalInt32 = 5; 3405 message.optionalInt64 = 777; 3406 message.optionalFloat = 1.0f; 3407 message.optionalDouble = 2.0; 3408 message.optionalBool = true; 3409 message.optionalString = "Hello"; 3410 message.optionalBytes = new byte[] { 1, 2, 3 }; 3411 message.optionalNestedMessage = new TestAllTypesNano.NestedMessage(); 3412 message.optionalNestedMessage.bb = 27; 3413 message.optionalNestedEnum = TestAllTypesNano.BAR; 3414 message.repeatedInt32 = new int[] { 5, 6, 7, 8 }; 3415 message.repeatedInt64 = new long[] { 27L, 28L, 29L }; 3416 message.repeatedFloat = new float[] { 5.0f, 6.0f }; 3417 message.repeatedDouble = new double[] { 99.1, 22.5 }; 3418 message.repeatedBool = new boolean[] { true, false, true }; 3419 message.repeatedString = new String[] { "One", "Two" }; 3420 message.repeatedBytes = new byte[][] { { 2, 7 }, { 2, 7 } }; 3421 message.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { 3422 message.optionalNestedMessage, 3423 message.optionalNestedMessage 3424 }; 3425 message.repeatedNestedEnum = new int[] { 3426 TestAllTypesNano.BAR, 3427 TestAllTypesNano.BAZ 3428 }; 3429 message.setOneofUint32(3); 3430 return message; 3431 } 3432 createMessageWithHasForHashCodeEqualsTest()3433 private TestAllTypesNanoHas createMessageWithHasForHashCodeEqualsTest() { 3434 TestAllTypesNanoHas message = new TestAllTypesNanoHas(); 3435 message.optionalInt32 = 5; 3436 message.optionalString = "Hello"; 3437 message.optionalBytes = new byte[] { 1, 2, 3 }; 3438 message.optionalNestedMessage = new TestAllTypesNanoHas.NestedMessage(); 3439 message.optionalNestedMessage.bb = 27; 3440 message.optionalNestedEnum = TestAllTypesNano.BAR; 3441 message.repeatedInt32 = new int[] { 5, 6, 7, 8 }; 3442 message.repeatedString = new String[] { "One", "Two" }; 3443 message.repeatedBytes = new byte[][] { { 2, 7 }, { 2, 7 } }; 3444 message.repeatedNestedMessage = new TestAllTypesNanoHas.NestedMessage[] { 3445 message.optionalNestedMessage, 3446 message.optionalNestedMessage 3447 }; 3448 message.repeatedNestedEnum = new int[] { 3449 TestAllTypesNano.BAR, 3450 TestAllTypesNano.BAZ 3451 }; 3452 return message; 3453 } 3454 createMessageWithAccessorsForHashCodeEqualsTest()3455 private TestNanoAccessors createMessageWithAccessorsForHashCodeEqualsTest() { 3456 TestNanoAccessors message = new TestNanoAccessors() 3457 .setOptionalInt32(5) 3458 .setOptionalString("Hello") 3459 .setOptionalBytes(new byte[] {1, 2, 3}) 3460 .setOptionalNestedEnum(TestNanoAccessors.BAR); 3461 message.optionalNestedMessage = new TestNanoAccessors.NestedMessage().setBb(27); 3462 message.repeatedInt32 = new int[] { 5, 6, 7, 8 }; 3463 message.repeatedString = new String[] { "One", "Two" }; 3464 message.repeatedBytes = new byte[][] { { 2, 7 }, { 2, 7 } }; 3465 message.repeatedNestedMessage = new TestNanoAccessors.NestedMessage[] { 3466 message.optionalNestedMessage, 3467 message.optionalNestedMessage 3468 }; 3469 message.repeatedNestedEnum = new int[] { 3470 TestAllTypesNano.BAR, 3471 TestAllTypesNano.BAZ 3472 }; 3473 return message; 3474 } 3475 createRefTypedMessageForHashCodeEqualsTest()3476 private NanoReferenceTypes.TestAllTypesNano createRefTypedMessageForHashCodeEqualsTest() { 3477 NanoReferenceTypes.TestAllTypesNano message = new NanoReferenceTypes.TestAllTypesNano(); 3478 message.optionalInt32 = 5; 3479 message.optionalInt64 = 777L; 3480 message.optionalFloat = 1.0f; 3481 message.optionalDouble = 2.0; 3482 message.optionalBool = true; 3483 message.optionalString = "Hello"; 3484 message.optionalBytes = new byte[] { 1, 2, 3 }; 3485 message.optionalNestedMessage = 3486 new NanoReferenceTypes.TestAllTypesNano.NestedMessage(); 3487 message.optionalNestedMessage.foo = 27; 3488 message.optionalNestedEnum = NanoReferenceTypes.TestAllTypesNano.BAR; 3489 message.repeatedInt32 = new int[] { 5, 6, 7, 8 }; 3490 message.repeatedInt64 = new long[] { 27L, 28L, 29L }; 3491 message.repeatedFloat = new float[] { 5.0f, 6.0f }; 3492 message.repeatedDouble = new double[] { 99.1, 22.5 }; 3493 message.repeatedBool = new boolean[] { true, false, true }; 3494 message.repeatedString = new String[] { "One", "Two" }; 3495 message.repeatedBytes = new byte[][] { { 2, 7 }, { 2, 7 } }; 3496 message.repeatedNestedMessage = 3497 new NanoReferenceTypes.TestAllTypesNano.NestedMessage[] { 3498 message.optionalNestedMessage, 3499 message.optionalNestedMessage 3500 }; 3501 message.repeatedNestedEnum = new int[] { 3502 NanoReferenceTypes.TestAllTypesNano.BAR, 3503 NanoReferenceTypes.TestAllTypesNano.BAZ 3504 }; 3505 return message; 3506 } 3507 testEqualsWithSpecialFloatingPointValues()3508 public void testEqualsWithSpecialFloatingPointValues() throws Exception { 3509 // Checks that the nano implementation complies with Object.equals() when treating 3510 // floating point numbers, i.e. NaN == NaN and +0.0 != -0.0. 3511 // This test assumes that the generated equals() implementations are symmetric, so 3512 // there will only be one direction for each equality check. 3513 3514 TestAllTypesNano m1 = new TestAllTypesNano(); 3515 m1.optionalFloat = Float.NaN; 3516 m1.optionalDouble = Double.NaN; 3517 TestAllTypesNano m2 = new TestAllTypesNano(); 3518 m2.optionalFloat = Float.NaN; 3519 m2.optionalDouble = Double.NaN; 3520 assertTrue(m1.equals(m2)); 3521 assertTrue(m1.equals( 3522 MessageNano.mergeFrom(new TestAllTypesNano(), MessageNano.toByteArray(m1)))); 3523 3524 m1.optionalFloat = +0f; 3525 m2.optionalFloat = -0f; 3526 assertFalse(m1.equals(m2)); 3527 3528 m1.optionalFloat = -0f; 3529 m1.optionalDouble = +0d; 3530 m2.optionalDouble = -0d; 3531 assertFalse(m1.equals(m2)); 3532 3533 m1.optionalDouble = -0d; 3534 assertTrue(m1.equals(m2)); 3535 assertFalse(m1.equals(new TestAllTypesNano())); // -0 does not equals() the default +0 3536 assertTrue(m1.equals( 3537 MessageNano.mergeFrom(new TestAllTypesNano(), MessageNano.toByteArray(m1)))); 3538 3539 // ------- 3540 3541 TestAllTypesNanoHas m3 = new TestAllTypesNanoHas(); 3542 m3.optionalFloat = Float.NaN; 3543 m3.hasOptionalFloat = true; 3544 m3.optionalDouble = Double.NaN; 3545 m3.hasOptionalDouble = true; 3546 TestAllTypesNanoHas m4 = new TestAllTypesNanoHas(); 3547 m4.optionalFloat = Float.NaN; 3548 m4.hasOptionalFloat = true; 3549 m4.optionalDouble = Double.NaN; 3550 m4.hasOptionalDouble = true; 3551 assertTrue(m3.equals(m4)); 3552 assertTrue(m3.equals( 3553 MessageNano.mergeFrom(new TestAllTypesNanoHas(), MessageNano.toByteArray(m3)))); 3554 3555 m3.optionalFloat = +0f; 3556 m4.optionalFloat = -0f; 3557 assertFalse(m3.equals(m4)); 3558 3559 m3.optionalFloat = -0f; 3560 m3.optionalDouble = +0d; 3561 m4.optionalDouble = -0d; 3562 assertFalse(m3.equals(m4)); 3563 3564 m3.optionalDouble = -0d; 3565 m3.hasOptionalFloat = false; // -0 does not equals() the default +0, 3566 m3.hasOptionalDouble = false; // so these incorrect 'has' flags should be disregarded. 3567 assertTrue(m3.equals(m4)); // note: m4 has the 'has' flags set. 3568 assertFalse(m3.equals(new TestAllTypesNanoHas())); // note: the new message has +0 defaults 3569 assertTrue(m3.equals( 3570 MessageNano.mergeFrom(new TestAllTypesNanoHas(), MessageNano.toByteArray(m3)))); 3571 // note: the deserialized message has the 'has' flags set. 3572 3573 // ------- 3574 3575 TestNanoAccessors m5 = new TestNanoAccessors(); 3576 m5.setOptionalFloat(Float.NaN); 3577 m5.setOptionalDouble(Double.NaN); 3578 TestNanoAccessors m6 = new TestNanoAccessors(); 3579 m6.setOptionalFloat(Float.NaN); 3580 m6.setOptionalDouble(Double.NaN); 3581 assertTrue(m5.equals(m6)); 3582 assertTrue(m5.equals( 3583 MessageNano.mergeFrom(new TestNanoAccessors(), MessageNano.toByteArray(m6)))); 3584 3585 m5.setOptionalFloat(+0f); 3586 m6.setOptionalFloat(-0f); 3587 assertFalse(m5.equals(m6)); 3588 3589 m5.setOptionalFloat(-0f); 3590 m5.setOptionalDouble(+0d); 3591 m6.setOptionalDouble(-0d); 3592 assertFalse(m5.equals(m6)); 3593 3594 m5.setOptionalDouble(-0d); 3595 assertTrue(m5.equals(m6)); 3596 assertFalse(m5.equals(new TestNanoAccessors())); 3597 assertTrue(m5.equals( 3598 MessageNano.mergeFrom(new TestNanoAccessors(), MessageNano.toByteArray(m6)))); 3599 3600 // ------- 3601 3602 NanoReferenceTypes.TestAllTypesNano m7 = new NanoReferenceTypes.TestAllTypesNano(); 3603 m7.optionalFloat = Float.NaN; 3604 m7.optionalDouble = Double.NaN; 3605 NanoReferenceTypes.TestAllTypesNano m8 = new NanoReferenceTypes.TestAllTypesNano(); 3606 m8.optionalFloat = Float.NaN; 3607 m8.optionalDouble = Double.NaN; 3608 assertTrue(m7.equals(m8)); 3609 assertTrue(m7.equals(MessageNano.mergeFrom( 3610 new NanoReferenceTypes.TestAllTypesNano(), MessageNano.toByteArray(m7)))); 3611 3612 m7.optionalFloat = +0f; 3613 m8.optionalFloat = -0f; 3614 assertFalse(m7.equals(m8)); 3615 3616 m7.optionalFloat = -0f; 3617 m7.optionalDouble = +0d; 3618 m8.optionalDouble = -0d; 3619 assertFalse(m7.equals(m8)); 3620 3621 m7.optionalDouble = -0d; 3622 assertTrue(m7.equals(m8)); 3623 assertFalse(m7.equals(new NanoReferenceTypes.TestAllTypesNano())); 3624 assertTrue(m7.equals(MessageNano.mergeFrom( 3625 new NanoReferenceTypes.TestAllTypesNano(), MessageNano.toByteArray(m7)))); 3626 } 3627 generateMessageForOneof(int caseNumber)3628 private static TestAllTypesNano generateMessageForOneof(int caseNumber) { 3629 TestAllTypesNano result = new TestAllTypesNano(); 3630 TestAllTypesNano.NestedMessage nested = 3631 new TestAllTypesNano.NestedMessage(); 3632 nested.bb = 2; 3633 switch (caseNumber) { 3634 case TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER: 3635 result.setOneofUint32(1); 3636 break; 3637 case TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER: 3638 result.setOneofEnum(TestAllTypesNano.BAR); 3639 break; 3640 case TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER: 3641 result.setOneofNestedMessage(nested); 3642 break; 3643 case TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER: 3644 result.setOneofBytes(new byte[] {1, 2}); 3645 break; 3646 case TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER: 3647 result.setOneofString("hello"); 3648 break; 3649 case TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER: 3650 result.setOneofFixed64(-1L); 3651 break; 3652 default: 3653 throw new RuntimeException("unexpected case number: " + caseNumber); 3654 } 3655 return result; 3656 } 3657 testOneofHashCodeEquals()3658 public void testOneofHashCodeEquals() throws Exception { 3659 TestAllTypesNano m1 = generateMessageForOneof( 3660 TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER); 3661 assertEquals(m1, generateMessageForOneof( 3662 TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER)); 3663 assertFalse(m1.equals(new TestAllTypesNano())); 3664 3665 TestAllTypesNano m2 = generateMessageForOneof( 3666 TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER); 3667 assertEquals(m2, generateMessageForOneof( 3668 TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER)); 3669 assertFalse(m2.equals(new TestAllTypesNano())); 3670 3671 TestAllTypesNano m3 = generateMessageForOneof( 3672 TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER); 3673 assertEquals(m3, generateMessageForOneof( 3674 TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER)); 3675 assertFalse(m3.equals(new TestAllTypesNano())); 3676 3677 TestAllTypesNano m4 = generateMessageForOneof( 3678 TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER); 3679 assertEquals(m4, generateMessageForOneof( 3680 TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER)); 3681 assertFalse(m4.equals(new TestAllTypesNano())); 3682 3683 TestAllTypesNano m5 = generateMessageForOneof( 3684 TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER); 3685 assertEquals(m5, generateMessageForOneof( 3686 TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER)); 3687 assertFalse(m5.equals(new TestAllTypesNano())); 3688 3689 TestAllTypesNano m6 = generateMessageForOneof( 3690 TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER); 3691 assertEquals(m6, generateMessageForOneof( 3692 TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER)); 3693 assertFalse(m6.equals(new TestAllTypesNano())); 3694 3695 Map<TestAllTypesNano, Integer> map = 3696 new HashMap<TestAllTypesNano, Integer>(); 3697 map.put(m1, 1); 3698 map.put(m2, 2); 3699 map.put(m3, 3); 3700 map.put(m4, 4); 3701 map.put(m5, 5); 3702 map.put(m6, 6); 3703 3704 assertEquals(6, map.size()); 3705 } 3706 checkOneofCase(TestAllTypesNano nano, int field)3707 private void checkOneofCase(TestAllTypesNano nano, int field) 3708 throws Exception { 3709 assertEquals(field, nano.getOneofFieldCase()); 3710 assertEquals( 3711 field == TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER, 3712 nano.hasOneofBytes()); 3713 assertEquals( 3714 field == TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER, 3715 nano.hasOneofEnum()); 3716 assertEquals( 3717 field == TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER, 3718 nano.hasOneofFixed64()); 3719 assertEquals( 3720 field == TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER, 3721 nano.hasOneofNestedMessage()); 3722 assertEquals( 3723 field == TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER, 3724 nano.hasOneofString()); 3725 assertEquals( 3726 field == TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER, 3727 nano.hasOneofUint32()); 3728 3729 } 3730 testOneofDefault()3731 public void testOneofDefault() throws Exception { 3732 TestAllTypesNano m1 = new TestAllTypesNano(); 3733 checkOneofCase(m1, 0); 3734 assertEquals(WireFormatNano.EMPTY_BYTES, m1.getOneofBytes()); 3735 assertEquals(TestAllTypesNano.FOO, m1.getOneofEnum()); 3736 assertEquals(0L, m1.getOneofFixed64()); 3737 assertEquals(null, m1.getOneofNestedMessage()); 3738 assertEquals("", m1.getOneofString()); 3739 assertEquals(0, m1.getOneofUint32()); 3740 } 3741 testOneofExclusiveness()3742 public void testOneofExclusiveness() throws Exception { 3743 TestAllTypesNano m = new TestAllTypesNano(); 3744 checkOneofCase(m, 0); 3745 3746 m.setOneofBytes(new byte[]{0, 1}); 3747 checkOneofCase(m, TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER); 3748 assertTrue(Arrays.equals(new byte[]{0, 1}, m.getOneofBytes())); 3749 3750 m.setOneofEnum(TestAllTypesNano.BAZ); 3751 checkOneofCase(m, TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER); 3752 assertEquals(TestAllTypesNano.BAZ, m.getOneofEnum()); 3753 assertEquals(WireFormatNano.EMPTY_BYTES, m.getOneofBytes()); 3754 3755 m.setOneofFixed64(-1L); 3756 checkOneofCase(m, TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER); 3757 assertEquals(-1L, m.getOneofFixed64()); 3758 assertEquals(TestAllTypesNano.FOO, m.getOneofEnum()); 3759 3760 m.setOneofNestedMessage(new TestAllTypesNano.NestedMessage()); 3761 checkOneofCase(m, TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER); 3762 assertEquals( 3763 new TestAllTypesNano.NestedMessage(), m.getOneofNestedMessage()); 3764 assertEquals(0L, m.getOneofFixed64()); 3765 3766 m.setOneofString("hello"); 3767 checkOneofCase(m, TestAllTypesNano.ONEOF_STRING_FIELD_NUMBER); 3768 assertEquals("hello", m.getOneofString()); 3769 assertNull(m.getOneofNestedMessage()); 3770 3771 m.setOneofUint32(10); 3772 checkOneofCase(m, TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER); 3773 assertEquals(10, m.getOneofUint32()); 3774 assertEquals("", m.getOneofString()); 3775 3776 m.setOneofBytes(new byte[]{0, 1}); 3777 checkOneofCase(m, TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER); 3778 assertTrue(Arrays.equals(new byte[]{0, 1}, m.getOneofBytes())); 3779 assertEquals(0, m.getOneofUint32()); 3780 } 3781 testOneofClear()3782 public void testOneofClear() throws Exception { 3783 TestAllTypesNano m = new TestAllTypesNano(); 3784 m.setOneofBytes(new byte[]{0, 1}); 3785 m.clearOneofField(); 3786 checkOneofCase(m, 0); 3787 3788 m.setOneofEnum(TestAllTypesNano.BAZ); 3789 m.clearOneofField(); 3790 checkOneofCase(m, 0); 3791 3792 m.setOneofFixed64(-1L); 3793 m.clearOneofField(); 3794 checkOneofCase(m, 0); 3795 3796 m.setOneofNestedMessage(new TestAllTypesNano.NestedMessage()); 3797 m.clearOneofField(); 3798 checkOneofCase(m, 0); 3799 3800 m.setOneofString("hello"); 3801 m.clearOneofField(); 3802 checkOneofCase(m, 0); 3803 3804 m.setOneofUint32(10); 3805 m.clearOneofField(); 3806 checkOneofCase(m, 0); 3807 } 3808 testOneofMarshaling()3809 public void testOneofMarshaling() throws Exception { 3810 TestAllTypesNano m = new TestAllTypesNano(); 3811 TestAllTypesNano parsed = new TestAllTypesNano(); 3812 { 3813 m.setOneofBytes(new byte[]{0, 1}); 3814 byte[] serialized = MessageNano.toByteArray(m); 3815 MessageNano.mergeFrom(parsed, serialized); 3816 checkOneofCase(parsed, TestAllTypesNano.ONEOF_BYTES_FIELD_NUMBER); 3817 assertTrue(Arrays.equals(new byte[]{0, 1}, parsed.getOneofBytes())); 3818 } 3819 { 3820 m.setOneofEnum(TestAllTypesNano.BAZ); 3821 byte[] serialized = MessageNano.toByteArray(m); 3822 MessageNano.mergeFrom(parsed, serialized); 3823 checkOneofCase(m, TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER); 3824 assertEquals(TestAllTypesNano.BAZ, m.getOneofEnum()); 3825 } 3826 { 3827 m.setOneofEnum(TestAllTypesNano.BAZ); 3828 byte[] serialized = MessageNano.toByteArray(m); 3829 MessageNano.mergeFrom(parsed, serialized); 3830 checkOneofCase(m, TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER); 3831 assertEquals(TestAllTypesNano.BAZ, m.getOneofEnum()); 3832 } 3833 { 3834 m.setOneofFixed64(-1L); 3835 byte[] serialized = MessageNano.toByteArray(m); 3836 MessageNano.mergeFrom(parsed, serialized); 3837 checkOneofCase(m, TestAllTypesNano.ONEOF_FIXED64_FIELD_NUMBER); 3838 assertEquals(-1L, m.getOneofFixed64()); 3839 } 3840 { 3841 m.setOneofNestedMessage(new TestAllTypesNano.NestedMessage()); 3842 byte[] serialized = MessageNano.toByteArray(m); 3843 MessageNano.mergeFrom(parsed, serialized); 3844 checkOneofCase(m, TestAllTypesNano.ONEOF_NESTED_MESSAGE_FIELD_NUMBER); 3845 assertEquals( 3846 new TestAllTypesNano.NestedMessage(), m.getOneofNestedMessage()); 3847 } 3848 { 3849 m.setOneofString("hello"); 3850 byte[] serialized = MessageNano.toByteArray(m); 3851 MessageNano.mergeFrom(parsed, serialized); 3852 assertEquals("hello", m.getOneofString()); 3853 assertNull(m.getOneofNestedMessage()); 3854 } 3855 { 3856 m.setOneofUint32(10); 3857 byte[] serialized = MessageNano.toByteArray(m); 3858 MessageNano.mergeFrom(parsed, serialized); 3859 checkOneofCase(m, TestAllTypesNano.ONEOF_UINT32_FIELD_NUMBER); 3860 assertEquals(10, m.getOneofUint32()); 3861 } 3862 } 3863 testOneofSerializedConcat()3864 public void testOneofSerializedConcat() throws Exception { 3865 TestAllTypesNano m1 = new TestAllTypesNano(); 3866 m1.setOneofBytes(new byte[] {0, 1}); 3867 byte[] b1 = MessageNano.toByteArray(m1); 3868 TestAllTypesNano m2 = new TestAllTypesNano(); 3869 m2.setOneofEnum(TestAllTypesNano.BAZ); 3870 byte[] b2 = MessageNano.toByteArray(m2); 3871 byte[] b3 = new byte[b1.length + b2.length]; 3872 System.arraycopy(b1, 0, b3, 0, b1.length); 3873 System.arraycopy(b2, 0, b3, b1.length, b2.length); 3874 TestAllTypesNano parsed = new TestAllTypesNano(); 3875 MessageNano.mergeFrom(parsed, b3); 3876 // the last on the wire wins. 3877 checkOneofCase(parsed, TestAllTypesNano.ONEOF_ENUM_FIELD_NUMBER); 3878 assertEquals(TestAllTypesNano.BAZ, parsed.getOneofEnum()); 3879 } 3880 testNullRepeatedFields()3881 public void testNullRepeatedFields() throws Exception { 3882 // Check that serialization after explicitly setting a repeated field 3883 // to null doesn't NPE. 3884 TestAllTypesNano message = new TestAllTypesNano(); 3885 message.repeatedInt32 = null; 3886 MessageNano.toByteArray(message); // should not NPE 3887 message.toString(); // should not NPE 3888 3889 message.repeatedNestedEnum = null; 3890 MessageNano.toByteArray(message); // should not NPE 3891 message.toString(); // should not NPE 3892 3893 message.repeatedBytes = null; 3894 MessageNano.toByteArray(message); // should not NPE 3895 message.toString(); // should not NPE 3896 3897 message.repeatedNestedMessage = null; 3898 MessageNano.toByteArray(message); // should not NPE 3899 message.toString(); // should not NPE 3900 3901 message.repeatedPackedInt32 = null; 3902 MessageNano.toByteArray(message); // should not NPE 3903 message.toString(); // should not NPE 3904 3905 message.repeatedPackedNestedEnum = null; 3906 MessageNano.toByteArray(message); // should not NPE 3907 message.toString(); // should not NPE 3908 3909 // Create a second message to merge into message. 3910 TestAllTypesNano secondMessage = new TestAllTypesNano(); 3911 secondMessage.repeatedInt32 = new int[] {1, 2, 3}; 3912 secondMessage.repeatedNestedEnum = new int[] { 3913 TestAllTypesNano.FOO, TestAllTypesNano.BAR 3914 }; 3915 secondMessage.repeatedBytes = new byte[][] {{1, 2}, {3, 4}}; 3916 TestAllTypesNano.NestedMessage nested = 3917 new TestAllTypesNano.NestedMessage(); 3918 nested.bb = 55; 3919 secondMessage.repeatedNestedMessage = 3920 new TestAllTypesNano.NestedMessage[] {nested}; 3921 secondMessage.repeatedPackedInt32 = new int[] {1, 2, 3}; 3922 secondMessage.repeatedPackedNestedEnum = new int[] { 3923 TestAllTypesNano.FOO, TestAllTypesNano.BAR 3924 }; 3925 3926 // Should not NPE 3927 message.mergeFrom(CodedInputByteBufferNano.newInstance( 3928 MessageNano.toByteArray(secondMessage))); 3929 assertEquals(3, message.repeatedInt32.length); 3930 assertEquals(3, message.repeatedInt32[2]); 3931 assertEquals(2, message.repeatedNestedEnum.length); 3932 assertEquals(TestAllTypesNano.FOO, message.repeatedNestedEnum[0]); 3933 assertEquals(2, message.repeatedBytes.length); 3934 assertEquals(4, message.repeatedBytes[1][1]); 3935 assertEquals(1, message.repeatedNestedMessage.length); 3936 assertEquals(55, message.repeatedNestedMessage[0].bb); 3937 assertEquals(3, message.repeatedPackedInt32.length); 3938 assertEquals(2, message.repeatedPackedInt32[1]); 3939 assertEquals(2, message.repeatedPackedNestedEnum.length); 3940 assertEquals(TestAllTypesNano.BAR, message.repeatedPackedNestedEnum[1]); 3941 } 3942 testNullRepeatedFieldElements()3943 public void testNullRepeatedFieldElements() throws Exception { 3944 // Check that serialization with null array elements doesn't NPE. 3945 String string1 = "1"; 3946 String string2 = "2"; 3947 byte[] bytes1 = {3, 4}; 3948 byte[] bytes2 = {5, 6}; 3949 TestAllTypesNano.NestedMessage msg1 = new TestAllTypesNano.NestedMessage(); 3950 msg1.bb = 7; 3951 TestAllTypesNano.NestedMessage msg2 = new TestAllTypesNano.NestedMessage(); 3952 msg2.bb = 8; 3953 3954 TestAllTypesNano message = new TestAllTypesNano(); 3955 message.repeatedString = new String[] {null, string1, string2}; 3956 message.repeatedBytes = new byte[][] {bytes1, null, bytes2}; 3957 message.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] {msg1, msg2, null}; 3958 message.repeatedGroup = new TestAllTypesNano.RepeatedGroup[] {null, null, null}; 3959 3960 byte[] serialized = MessageNano.toByteArray(message); // should not NPE 3961 TestAllTypesNano deserialized = MessageNano.mergeFrom(new TestAllTypesNano(), serialized); 3962 assertEquals(2, deserialized.repeatedString.length); 3963 assertEquals(string1, deserialized.repeatedString[0]); 3964 assertEquals(string2, deserialized.repeatedString[1]); 3965 assertEquals(2, deserialized.repeatedBytes.length); 3966 assertTrue(Arrays.equals(bytes1, deserialized.repeatedBytes[0])); 3967 assertTrue(Arrays.equals(bytes2, deserialized.repeatedBytes[1])); 3968 assertEquals(2, deserialized.repeatedNestedMessage.length); 3969 assertEquals(msg1.bb, deserialized.repeatedNestedMessage[0].bb); 3970 assertEquals(msg2.bb, deserialized.repeatedNestedMessage[1].bb); 3971 assertEquals(0, deserialized.repeatedGroup.length); 3972 } 3973 testRepeatedMerge()3974 public void testRepeatedMerge() throws Exception { 3975 // Check that merging repeated fields cause the arrays to expand with 3976 // new data. 3977 TestAllTypesNano first = new TestAllTypesNano(); 3978 first.repeatedInt32 = new int[] {1, 2, 3}; 3979 TestAllTypesNano second = new TestAllTypesNano(); 3980 second.repeatedInt32 = new int[] {4, 5}; 3981 MessageNano.mergeFrom(first, MessageNano.toByteArray(second)); 3982 assertEquals(5, first.repeatedInt32.length); 3983 assertEquals(1, first.repeatedInt32[0]); 3984 assertEquals(4, first.repeatedInt32[3]); 3985 3986 first = new TestAllTypesNano(); 3987 first.repeatedNestedEnum = new int[] {TestAllTypesNano.BAR}; 3988 second = new TestAllTypesNano(); 3989 second.repeatedNestedEnum = new int[] {TestAllTypesNano.FOO}; 3990 MessageNano.mergeFrom(first, MessageNano.toByteArray(second)); 3991 assertEquals(2, first.repeatedNestedEnum.length); 3992 assertEquals(TestAllTypesNano.BAR, first.repeatedNestedEnum[0]); 3993 assertEquals(TestAllTypesNano.FOO, first.repeatedNestedEnum[1]); 3994 3995 first = new TestAllTypesNano(); 3996 first.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { 3997 new TestAllTypesNano.NestedMessage() 3998 }; 3999 first.repeatedNestedMessage[0].bb = 3; 4000 second = new TestAllTypesNano(); 4001 second.repeatedNestedMessage = new TestAllTypesNano.NestedMessage[] { 4002 new TestAllTypesNano.NestedMessage() 4003 }; 4004 second.repeatedNestedMessage[0].bb = 5; 4005 MessageNano.mergeFrom(first, MessageNano.toByteArray(second)); 4006 assertEquals(2, first.repeatedNestedMessage.length); 4007 assertEquals(3, first.repeatedNestedMessage[0].bb); 4008 assertEquals(5, first.repeatedNestedMessage[1].bb); 4009 4010 first = new TestAllTypesNano(); 4011 first.repeatedPackedSfixed64 = new long[] {-1, -2, -3}; 4012 second = new TestAllTypesNano(); 4013 second.repeatedPackedSfixed64 = new long[] {-4, -5}; 4014 MessageNano.mergeFrom(first, MessageNano.toByteArray(second)); 4015 assertEquals(5, first.repeatedPackedSfixed64.length); 4016 assertEquals(-1, first.repeatedPackedSfixed64[0]); 4017 assertEquals(-4, first.repeatedPackedSfixed64[3]); 4018 4019 first = new TestAllTypesNano(); 4020 first.repeatedPackedNestedEnum = new int[] {TestAllTypesNano.BAR}; 4021 second = new TestAllTypesNano(); 4022 second.repeatedPackedNestedEnum = new int[] {TestAllTypesNano.FOO}; 4023 MessageNano.mergeFrom(first, MessageNano.toByteArray(second)); 4024 assertEquals(2, first.repeatedPackedNestedEnum.length); 4025 assertEquals(TestAllTypesNano.BAR, first.repeatedPackedNestedEnum[0]); 4026 assertEquals(TestAllTypesNano.FOO, first.repeatedPackedNestedEnum[1]); 4027 4028 // Now test repeated merging in a nested scope 4029 TestRepeatedMergeNano firstContainer = new TestRepeatedMergeNano(); 4030 firstContainer.contained = new TestAllTypesNano(); 4031 firstContainer.contained.repeatedInt32 = new int[] {10, 20}; 4032 TestRepeatedMergeNano secondContainer = new TestRepeatedMergeNano(); 4033 secondContainer.contained = new TestAllTypesNano(); 4034 secondContainer.contained.repeatedInt32 = new int[] {30}; 4035 MessageNano.mergeFrom(firstContainer, MessageNano.toByteArray(secondContainer)); 4036 assertEquals(3, firstContainer.contained.repeatedInt32.length); 4037 assertEquals(20, firstContainer.contained.repeatedInt32[1]); 4038 assertEquals(30, firstContainer.contained.repeatedInt32[2]); 4039 } 4040 testRepeatedPackables()4041 public void testRepeatedPackables() throws Exception { 4042 // Check that repeated fields with packable types can accept both packed and unpacked 4043 // serialized forms. 4044 NanoRepeatedPackables.NonPacked nonPacked = new NanoRepeatedPackables.NonPacked(); 4045 // Exaggerates the first values of varint-typed arrays. This is to test that the parsing code 4046 // of packed fields handles non-packed data correctly. If the code incorrectly thinks it is 4047 // reading from a packed tag, it will read the first value as the byte length of the field, 4048 // and the large number will cause the input to go out of bounds, thus capturing the error. 4049 nonPacked.int32S = new int[] {1000, 2, 3}; 4050 nonPacked.int64S = new long[] {4000, 5, 6}; 4051 nonPacked.uint32S = new int[] {7000, 8, 9}; 4052 nonPacked.uint64S = new long[] {10000, 11, 12}; 4053 nonPacked.sint32S = new int[] {13000, 14, 15}; 4054 nonPacked.sint64S = new long[] {16000, 17, 18}; 4055 nonPacked.fixed32S = new int[] {19, 20, 21}; 4056 nonPacked.fixed64S = new long[] {22, 23, 24}; 4057 nonPacked.sfixed32S = new int[] {25, 26, 27}; 4058 nonPacked.sfixed64S = new long[] {28, 29, 30}; 4059 nonPacked.floats = new float[] {31, 32, 33}; 4060 nonPacked.doubles = new double[] {34, 35, 36}; 4061 nonPacked.bools = new boolean[] {false, true}; 4062 nonPacked.enums = new int[] { 4063 NanoRepeatedPackables.Enum.OPTION_ONE, 4064 NanoRepeatedPackables.Enum.OPTION_TWO, 4065 }; 4066 nonPacked.noise = 13579; 4067 4068 byte[] nonPackedSerialized = MessageNano.toByteArray(nonPacked); 4069 4070 NanoRepeatedPackables.Packed packed = 4071 MessageNano.mergeFrom(new NanoRepeatedPackables.Packed(), nonPackedSerialized); 4072 assertRepeatedPackablesEqual(nonPacked, packed); 4073 4074 byte[] packedSerialized = MessageNano.toByteArray(packed); 4075 // Just a cautious check that the two serialized forms are different, 4076 // to make sure the remaining of this test is useful: 4077 assertFalse(Arrays.equals(nonPackedSerialized, packedSerialized)); 4078 4079 nonPacked = MessageNano.mergeFrom(new NanoRepeatedPackables.NonPacked(), packedSerialized); 4080 assertRepeatedPackablesEqual(nonPacked, packed); 4081 4082 // Test mixed serialized form. 4083 byte[] mixedSerialized = new byte[nonPackedSerialized.length + packedSerialized.length]; 4084 System.arraycopy(nonPackedSerialized, 0, mixedSerialized, 0, nonPackedSerialized.length); 4085 System.arraycopy(packedSerialized, 0, 4086 mixedSerialized, nonPackedSerialized.length, packedSerialized.length); 4087 4088 nonPacked = MessageNano.mergeFrom(new NanoRepeatedPackables.NonPacked(), mixedSerialized); 4089 packed = MessageNano.mergeFrom(new NanoRepeatedPackables.Packed(), mixedSerialized); 4090 assertRepeatedPackablesEqual(nonPacked, packed); 4091 assertTrue(Arrays.equals(new int[] {1000, 2, 3, 1000, 2, 3}, nonPacked.int32S)); 4092 assertTrue(Arrays.equals(new int[] {13000, 14, 15, 13000, 14, 15}, nonPacked.sint32S)); 4093 assertTrue(Arrays.equals(new int[] {25, 26, 27, 25, 26, 27}, nonPacked.sfixed32S)); 4094 assertTrue(Arrays.equals(new boolean[] {false, true, false, true}, nonPacked.bools)); 4095 } 4096 testMapsSerializeAndParse()4097 public void testMapsSerializeAndParse() throws Exception { 4098 TestMap origin = new TestMap(); 4099 setMapMessage(origin); 4100 assertMapMessageSet(origin); 4101 4102 byte[] output = MessageNano.toByteArray(origin); 4103 TestMap parsed = new TestMap(); 4104 MessageNano.mergeFrom(parsed, output); 4105 } 4106 testMapSerializeRejectNull()4107 public void testMapSerializeRejectNull() throws Exception { 4108 TestMap primitiveMap = new TestMap(); 4109 primitiveMap.int32ToInt32Field = new HashMap<Integer, Integer>(); 4110 primitiveMap.int32ToInt32Field.put(null, 1); 4111 try { 4112 MessageNano.toByteArray(primitiveMap); 4113 fail("should reject null keys"); 4114 } catch (IllegalStateException e) { 4115 // pass. 4116 } 4117 4118 TestMap messageMap = new TestMap(); 4119 messageMap.int32ToMessageField = 4120 new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 4121 messageMap.int32ToMessageField.put(0, null); 4122 try { 4123 MessageNano.toByteArray(messageMap); 4124 fail("should reject null values"); 4125 } catch (IllegalStateException e) { 4126 // pass. 4127 } 4128 } 4129 4130 /** 4131 * Tests that merging bytes containing conflicting keys with override the 4132 * message value instead of merging the message value into the existing entry. 4133 */ testMapMergeOverrideMessageValues()4134 public void testMapMergeOverrideMessageValues() throws Exception { 4135 TestMap.MessageValue origValue = new TestMap.MessageValue(); 4136 origValue.value = 1; 4137 origValue.value2 = 2; 4138 TestMap.MessageValue newValue = new TestMap.MessageValue(); 4139 newValue.value = 3; 4140 4141 TestMap origMessage = new TestMap(); 4142 origMessage.int32ToMessageField = 4143 new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 4144 origMessage.int32ToMessageField.put(1, origValue); 4145 4146 TestMap newMessage = new TestMap(); 4147 newMessage.int32ToMessageField = 4148 new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 4149 newMessage.int32ToMessageField.put(1, newValue); 4150 MessageNano.mergeFrom(origMessage, 4151 MessageNano.toByteArray(newMessage)); 4152 TestMap.MessageValue mergedValue = origMessage.int32ToMessageField.get(1); 4153 assertEquals(3, mergedValue.value); 4154 assertEquals(0, mergedValue.value2); 4155 } 4156 4157 /** 4158 * Tests that when merging with empty entries, 4159 * we will use default for the key and value, instead of null. 4160 */ testMapMergeEmptyEntry()4161 public void testMapMergeEmptyEntry() throws Exception { 4162 TestMap testMap = new TestMap(); 4163 byte[] buffer = new byte[1024]; 4164 CodedOutputByteBufferNano output = 4165 CodedOutputByteBufferNano.newInstance(buffer); 4166 // An empty entry for int32_to_int32 map. 4167 output.writeTag(1, WireFormatNano.WIRETYPE_LENGTH_DELIMITED); 4168 output.writeRawVarint32(0); 4169 // An empty entry for int32_to_message map. 4170 output.writeTag(5, WireFormatNano.WIRETYPE_LENGTH_DELIMITED); 4171 output.writeRawVarint32(0); 4172 4173 CodedInputByteBufferNano input = CodedInputByteBufferNano.newInstance( 4174 buffer, 0, buffer.length - output.spaceLeft()); 4175 testMap.mergeFrom(input); 4176 assertNotNull(testMap.int32ToInt32Field);; 4177 assertEquals(1, testMap.int32ToInt32Field.size()); 4178 assertEquals(Integer.valueOf(0), testMap.int32ToInt32Field.get(0)); 4179 assertNotNull(testMap.int32ToMessageField); 4180 assertEquals(1, testMap.int32ToMessageField.size()); 4181 TestMap.MessageValue messageValue = testMap.int32ToMessageField.get(0); 4182 assertNotNull(messageValue); 4183 assertEquals(0, messageValue.value); 4184 assertEquals(0, messageValue.value2); 4185 } 4186 testMapEquals()4187 public void testMapEquals() throws Exception { 4188 TestMap a = new TestMap(); 4189 TestMap b = new TestMap(); 4190 4191 // empty and null map fields are equal. 4192 assertTestMapEqual(a, b); 4193 a.int32ToBytesField = new HashMap<Integer, byte[]>(); 4194 assertTestMapEqual(a, b); 4195 4196 a.int32ToInt32Field = new HashMap<Integer, Integer>(); 4197 b.int32ToInt32Field = new HashMap<Integer, Integer>(); 4198 setMap(a.int32ToInt32Field, deepCopy(int32Values), deepCopy(int32Values)); 4199 setMap(b.int32ToInt32Field, deepCopy(int32Values), deepCopy(int32Values)); 4200 assertTestMapEqual(a, b); 4201 4202 a.int32ToMessageField = 4203 new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 4204 b.int32ToMessageField = 4205 new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 4206 setMap(a.int32ToMessageField, 4207 deepCopy(int32Values), deepCopy(messageValues)); 4208 setMap(b.int32ToMessageField, 4209 deepCopy(int32Values), deepCopy(messageValues)); 4210 assertTestMapEqual(a, b); 4211 4212 a.stringToInt32Field = new HashMap<String, Integer>(); 4213 b.stringToInt32Field = new HashMap<String, Integer>(); 4214 setMap(a.stringToInt32Field, deepCopy(stringValues), deepCopy(int32Values)); 4215 setMap(b.stringToInt32Field, deepCopy(stringValues), deepCopy(int32Values)); 4216 assertTestMapEqual(a, b); 4217 4218 a.int32ToBytesField = new HashMap<Integer, byte[]>(); 4219 b.int32ToBytesField = new HashMap<Integer, byte[]>(); 4220 setMap(a.int32ToBytesField, deepCopy(int32Values), deepCopy(bytesValues)); 4221 setMap(b.int32ToBytesField, deepCopy(int32Values), deepCopy(bytesValues)); 4222 assertTestMapEqual(a, b); 4223 4224 // Make sure the map implementation does not matter. 4225 a.int32ToStringField = new TreeMap<Integer, String>(); 4226 b.int32ToStringField = new HashMap<Integer, String>(); 4227 setMap(a.int32ToStringField, deepCopy(int32Values), deepCopy(stringValues)); 4228 setMap(b.int32ToStringField, deepCopy(int32Values), deepCopy(stringValues)); 4229 assertTestMapEqual(a, b); 4230 4231 a.clear(); 4232 b.clear(); 4233 4234 // unequal cases: different value 4235 a.int32ToInt32Field = new HashMap<Integer, Integer>(); 4236 b.int32ToInt32Field = new HashMap<Integer, Integer>(); 4237 a.int32ToInt32Field.put(1, 1); 4238 b.int32ToInt32Field.put(1, 2); 4239 assertTestMapUnequal(a, b); 4240 // unequal case: additional entry 4241 b.int32ToInt32Field.put(1, 1); 4242 b.int32ToInt32Field.put(2, 1); 4243 assertTestMapUnequal(a, b); 4244 a.int32ToInt32Field.put(2, 1); 4245 assertTestMapEqual(a, b); 4246 4247 // unequal case: different message value. 4248 a.int32ToMessageField = 4249 new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 4250 b.int32ToMessageField = 4251 new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 4252 MessageValue va = new MessageValue(); 4253 va.value = 1; 4254 MessageValue vb = new MessageValue(); 4255 vb.value = 1; 4256 a.int32ToMessageField.put(1, va); 4257 b.int32ToMessageField.put(1, vb); 4258 assertTestMapEqual(a, b); 4259 vb.value = 2; 4260 assertTestMapUnequal(a, b); 4261 } 4262 assertTestMapEqual(TestMap a, TestMap b)4263 private static void assertTestMapEqual(TestMap a, TestMap b) 4264 throws Exception { 4265 assertEquals(a.hashCode(), b.hashCode()); 4266 assertTrue(a.equals(b)); 4267 assertTrue(b.equals(a)); 4268 } 4269 assertTestMapUnequal(TestMap a, TestMap b)4270 private static void assertTestMapUnequal(TestMap a, TestMap b) 4271 throws Exception { 4272 assertFalse(a.equals(b)); 4273 assertFalse(b.equals(a)); 4274 } 4275 4276 private static final Integer[] int32Values = new Integer[] { 4277 0, 1, -1, Integer.MAX_VALUE, Integer.MIN_VALUE, 4278 }; 4279 4280 private static final Long[] int64Values = new Long[] { 4281 0L, 1L, -1L, Long.MAX_VALUE, Long.MIN_VALUE, 4282 }; 4283 4284 private static final String[] stringValues = new String[] { 4285 "", "hello", "world", "foo", "bar", 4286 }; 4287 4288 private static final byte[][] bytesValues = new byte[][] { 4289 new byte[] {}, 4290 new byte[] {0}, 4291 new byte[] {1, -1}, 4292 new byte[] {127, -128}, 4293 new byte[] {'a', 'b', '0', '1'}, 4294 }; 4295 4296 private static final Boolean[] boolValues = new Boolean[] { 4297 false, true, 4298 }; 4299 4300 private static final Integer[] enumValues = new Integer[] { 4301 TestMap.FOO, TestMap.BAR, TestMap.BAZ, TestMap.QUX, 4302 Integer.MAX_VALUE /* unknown */, 4303 }; 4304 4305 private static final TestMap.MessageValue[] messageValues = 4306 new TestMap.MessageValue[] { 4307 newMapValueMessage(0), 4308 newMapValueMessage(1), 4309 newMapValueMessage(-1), 4310 newMapValueMessage(Integer.MAX_VALUE), 4311 newMapValueMessage(Integer.MIN_VALUE), 4312 }; 4313 newMapValueMessage(int value)4314 private static TestMap.MessageValue newMapValueMessage(int value) { 4315 TestMap.MessageValue result = new TestMap.MessageValue(); 4316 result.value = value; 4317 return result; 4318 } 4319 4320 @SuppressWarnings("unchecked") deepCopy(T[] orig)4321 private static <T> T[] deepCopy(T[] orig) throws Exception { 4322 if (orig instanceof MessageValue[]) { 4323 MessageValue[] result = new MessageValue[orig.length]; 4324 for (int i = 0; i < orig.length; i++) { 4325 result[i] = new MessageValue(); 4326 MessageNano.mergeFrom( 4327 result[i], MessageNano.toByteArray((MessageValue) orig[i])); 4328 } 4329 return (T[]) result; 4330 } 4331 if (orig instanceof byte[][]) { 4332 byte[][] result = new byte[orig.length][]; 4333 for (int i = 0; i < orig.length; i++) { 4334 byte[] origBytes = (byte[]) orig[i]; 4335 result[i] = Arrays.copyOf(origBytes, origBytes.length); 4336 } 4337 } 4338 return Arrays.copyOf(orig, orig.length); 4339 } 4340 setMap(Map<K, V> map, K[] keys, V[] values)4341 private <K, V> void setMap(Map<K, V> map, K[] keys, V[] values) { 4342 assert(keys.length == values.length); 4343 for (int i = 0; i < keys.length; i++) { 4344 map.put(keys[i], values[i]); 4345 } 4346 } 4347 assertMapSet( Map<K, V> map, K[] keys, V[] values)4348 private <K, V> void assertMapSet( 4349 Map<K, V> map, K[] keys, V[] values) throws Exception { 4350 assert(keys.length == values.length); 4351 for (int i = 0; i < values.length; i++) { 4352 assertEquals(values[i], map.get(keys[i])); 4353 } 4354 assertEquals(keys.length, map.size()); 4355 } 4356 setMapMessage(TestMap testMap)4357 private void setMapMessage(TestMap testMap) { 4358 testMap.int32ToInt32Field = new HashMap<Integer, Integer>(); 4359 testMap.int32ToBytesField = new HashMap<Integer, byte[]>(); 4360 testMap.int32ToEnumField = new HashMap<Integer, Integer>(); 4361 testMap.int32ToMessageField = 4362 new HashMap<Integer, MapTestProto.TestMap.MessageValue>(); 4363 testMap.int32ToStringField = new HashMap<Integer, String>(); 4364 testMap.stringToInt32Field = new HashMap<String, Integer>(); 4365 testMap.boolToBoolField = new HashMap<Boolean, Boolean>(); 4366 testMap.uint32ToUint32Field = new HashMap<Integer, Integer>(); 4367 testMap.sint32ToSint32Field = new HashMap<Integer, Integer>(); 4368 testMap.fixed32ToFixed32Field = new HashMap<Integer, Integer>(); 4369 testMap.sfixed32ToSfixed32Field = new HashMap<Integer, Integer>(); 4370 testMap.int64ToInt64Field = new HashMap<Long, Long>(); 4371 testMap.uint64ToUint64Field = new HashMap<Long, Long>(); 4372 testMap.sint64ToSint64Field = new HashMap<Long, Long>(); 4373 testMap.fixed64ToFixed64Field = new HashMap<Long, Long>(); 4374 testMap.sfixed64ToSfixed64Field = new HashMap<Long, Long>(); 4375 setMap(testMap.int32ToInt32Field, int32Values, int32Values); 4376 setMap(testMap.int32ToBytesField, int32Values, bytesValues); 4377 setMap(testMap.int32ToEnumField, int32Values, enumValues); 4378 setMap(testMap.int32ToMessageField, int32Values, messageValues); 4379 setMap(testMap.int32ToStringField, int32Values, stringValues); 4380 setMap(testMap.stringToInt32Field, stringValues, int32Values); 4381 setMap(testMap.boolToBoolField, boolValues, boolValues); 4382 setMap(testMap.uint32ToUint32Field, int32Values, int32Values); 4383 setMap(testMap.sint32ToSint32Field, int32Values, int32Values); 4384 setMap(testMap.fixed32ToFixed32Field, int32Values, int32Values); 4385 setMap(testMap.sfixed32ToSfixed32Field, int32Values, int32Values); 4386 setMap(testMap.int64ToInt64Field, int64Values, int64Values); 4387 setMap(testMap.uint64ToUint64Field, int64Values, int64Values); 4388 setMap(testMap.sint64ToSint64Field, int64Values, int64Values); 4389 setMap(testMap.fixed64ToFixed64Field, int64Values, int64Values); 4390 setMap(testMap.sfixed64ToSfixed64Field, int64Values, int64Values); 4391 } assertMapMessageSet(TestMap testMap)4392 private void assertMapMessageSet(TestMap testMap) throws Exception { 4393 assertMapSet(testMap.int32ToInt32Field, int32Values, int32Values); 4394 assertMapSet(testMap.int32ToBytesField, int32Values, bytesValues); 4395 assertMapSet(testMap.int32ToEnumField, int32Values, enumValues); 4396 assertMapSet(testMap.int32ToMessageField, int32Values, messageValues); 4397 assertMapSet(testMap.int32ToStringField, int32Values, stringValues); 4398 assertMapSet(testMap.stringToInt32Field, stringValues, int32Values); 4399 assertMapSet(testMap.boolToBoolField, boolValues, boolValues); 4400 assertMapSet(testMap.uint32ToUint32Field, int32Values, int32Values); 4401 assertMapSet(testMap.sint32ToSint32Field, int32Values, int32Values); 4402 assertMapSet(testMap.fixed32ToFixed32Field, int32Values, int32Values); 4403 assertMapSet(testMap.sfixed32ToSfixed32Field, int32Values, int32Values); 4404 assertMapSet(testMap.int64ToInt64Field, int64Values, int64Values); 4405 assertMapSet(testMap.uint64ToUint64Field, int64Values, int64Values); 4406 assertMapSet(testMap.sint64ToSint64Field, int64Values, int64Values); 4407 assertMapSet(testMap.fixed64ToFixed64Field, int64Values, int64Values); 4408 assertMapSet(testMap.sfixed64ToSfixed64Field, int64Values, int64Values); 4409 } 4410 testRepeatedFieldInitializedInReftypesCompatMode()4411 public void testRepeatedFieldInitializedInReftypesCompatMode() { 4412 NanoReferenceTypesCompat.TestAllTypesNano proto = new NanoReferenceTypesCompat.TestAllTypesNano(); 4413 assertNotNull(proto.repeatedString); 4414 } 4415 assertRepeatedPackablesEqual( NanoRepeatedPackables.NonPacked nonPacked, NanoRepeatedPackables.Packed packed)4416 private void assertRepeatedPackablesEqual( 4417 NanoRepeatedPackables.NonPacked nonPacked, NanoRepeatedPackables.Packed packed) { 4418 // Not using MessageNano.equals() -- that belongs to a separate test. 4419 assertTrue(Arrays.equals(nonPacked.int32S, packed.int32S)); 4420 assertTrue(Arrays.equals(nonPacked.int64S, packed.int64S)); 4421 assertTrue(Arrays.equals(nonPacked.uint32S, packed.uint32S)); 4422 assertTrue(Arrays.equals(nonPacked.uint64S, packed.uint64S)); 4423 assertTrue(Arrays.equals(nonPacked.sint32S, packed.sint32S)); 4424 assertTrue(Arrays.equals(nonPacked.sint64S, packed.sint64S)); 4425 assertTrue(Arrays.equals(nonPacked.fixed32S, packed.fixed32S)); 4426 assertTrue(Arrays.equals(nonPacked.fixed64S, packed.fixed64S)); 4427 assertTrue(Arrays.equals(nonPacked.sfixed32S, packed.sfixed32S)); 4428 assertTrue(Arrays.equals(nonPacked.sfixed64S, packed.sfixed64S)); 4429 assertTrue(Arrays.equals(nonPacked.floats, packed.floats)); 4430 assertTrue(Arrays.equals(nonPacked.doubles, packed.doubles)); 4431 assertTrue(Arrays.equals(nonPacked.bools, packed.bools)); 4432 assertTrue(Arrays.equals(nonPacked.enums, packed.enums)); 4433 } 4434 testClone()4435 public void testClone() throws Exception { 4436 // A simple message. 4437 AnotherMessage anotherMessage = new AnotherMessage(); 4438 anotherMessage.string = "Hello"; 4439 anotherMessage.value = true; 4440 anotherMessage.integers = new int[] { 1, 2, 3 }; 4441 4442 AnotherMessage clone = anotherMessage.clone(); 4443 assertEquals(clone, anotherMessage); 4444 4445 // Verify it was a deep clone - changes to the clone shouldn't affect the 4446 // original. 4447 clone.integers[1] = 100; 4448 assertFalse(clone.equals(anotherMessage)); 4449 } 4450 testBytesOffsetLength()4451 public void testBytesOffsetLength() throws Exception { 4452 BytesOffsetLengthTestNano msg = new BytesOffsetLengthTestNano(); 4453 msg.fooBuffer = new byte[] { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 }; 4454 msg.fooOffset = 2; 4455 msg.fooLength = 3; 4456 msg.barBuffer = msg.fooBuffer; 4457 msg.barOffset = 7; 4458 msg.barLength = 1; 4459 4460 byte[] bytes = MessageNano.toByteArray(msg); 4461 // Two tags + two lengths + the arrays 4462 assertEquals("Unexpected size of encoded proto", 8, bytes.length); 4463 4464 msg = BytesOffsetLengthTestNano.parseFrom(bytes); 4465 byte[] foo = new byte[msg.fooLength]; 4466 System.arraycopy(msg.fooBuffer, msg.fooOffset, foo, 0, msg.fooLength); 4467 assertTrue("foo was not deserialized correctly", Arrays.equals(new byte[] { 2, 3, 4 }, foo)); 4468 byte[] bar = new byte[msg.barLength]; 4469 System.arraycopy(msg.barBuffer, msg.barOffset, bar, 0, msg.barLength); 4470 assertTrue("bar was not deserialized correctly", Arrays.equals(new byte[] { 7 }, bar)); 4471 } 4472 testUnknownOptionalEnumValue()4473 public void testUnknownOptionalEnumValue() throws Exception { 4474 StandardVersion standardMsg = new StandardVersion(); 4475 standardMsg.optionalField = StandardVersion.VAL_3; 4476 byte[] standardMsgBytes = MessageNano.toByteArray(standardMsg); 4477 4478 // When parsing and reading, the unknown value appears as UNKNOWN. 4479 VersionWithoutVal3 withoutVal3Msg = new VersionWithoutVal3(); 4480 MessageNano.mergeFrom(withoutVal3Msg, standardMsgBytes); 4481 assertEquals(VersionWithoutVal3.UNKNOWN, withoutVal3Msg.optionalField); 4482 4483 // When serializing and reparsing as the standard version, the old, unknown value wins out (even 4484 // if a new one is set). 4485 withoutVal3Msg.optionalField = VersionWithoutVal3.VAL_2; 4486 byte[] withoutVal3MsgBytes = MessageNano.toByteArray(withoutVal3Msg); 4487 StandardVersion standardMsgFromWithoutVal3Msg = new StandardVersion(); 4488 MessageNano.mergeFrom(standardMsgFromWithoutVal3Msg, withoutVal3MsgBytes); 4489 assertEquals(StandardVersion.VAL_3, standardMsgFromWithoutVal3Msg.optionalField); 4490 } 4491 testUnknownRepeatedEnumValue()4492 public void testUnknownRepeatedEnumValue() throws Exception { 4493 StandardVersion standardMsg = new StandardVersion(); 4494 standardMsg.repeatedField = new int[] { StandardVersion.VAL_3, StandardVersion.VAL_2 }; 4495 byte[] standardMsgBytes = MessageNano.toByteArray(standardMsg); 4496 4497 // When parsing and reading, the unknown value is stripped out. 4498 VersionWithoutVal3 withoutVal3Msg = new VersionWithoutVal3(); 4499 MessageNano.mergeFrom(withoutVal3Msg, standardMsgBytes); 4500 assertTrue(Arrays.equals(new int[] { VersionWithoutVal3.VAL_2 }, withoutVal3Msg.repeatedField)); 4501 4502 // When serializing and reparsing as the standard version, the old, unknown value reappears, but 4503 // at the end of all entries (including any newly added ones). 4504 withoutVal3Msg.repeatedField = new int[] { VersionWithoutVal3.VAL_2, VersionWithoutVal3.VAL_1 }; 4505 byte[] withoutVal3MsgBytes = MessageNano.toByteArray(withoutVal3Msg); 4506 StandardVersion standardMsgFromWithoutVal3Msg = new StandardVersion(); 4507 MessageNano.mergeFrom(standardMsgFromWithoutVal3Msg, withoutVal3MsgBytes); 4508 assertTrue(Arrays.equals( 4509 new int[] { StandardVersion.VAL_2, StandardVersion.VAL_1, StandardVersion.VAL_3 }, 4510 standardMsgFromWithoutVal3Msg.repeatedField)); 4511 } 4512 testUnknownRepeatedPackedEnumValue()4513 public void testUnknownRepeatedPackedEnumValue() throws Exception { 4514 StandardVersion standardMsg = new StandardVersion(); 4515 standardMsg.packedField = new int[] { StandardVersion.VAL_3, StandardVersion.VAL_2 }; 4516 byte[] standardMsgBytes = MessageNano.toByteArray(standardMsg); 4517 4518 // When parsing and reading, the unknown value is stripped out. 4519 VersionWithoutVal3 withoutVal3Msg = new VersionWithoutVal3(); 4520 MessageNano.mergeFrom(withoutVal3Msg, standardMsgBytes); 4521 assertTrue(Arrays.equals(new int[] { VersionWithoutVal3.VAL_2 }, withoutVal3Msg.packedField)); 4522 4523 // When serializing and reparsing as the standard version, the old, unknown value reappears, but 4524 // at the end of all entries (including any newly added ones). 4525 withoutVal3Msg.packedField = new int[] { VersionWithoutVal3.VAL_2, VersionWithoutVal3.VAL_1 }; 4526 byte[] withoutVal3MsgBytes = MessageNano.toByteArray(withoutVal3Msg); 4527 StandardVersion standardMsgFromWithoutVal3Msg = new StandardVersion(); 4528 MessageNano.mergeFrom(standardMsgFromWithoutVal3Msg, withoutVal3MsgBytes); 4529 assertTrue(Arrays.equals( 4530 new int[] { StandardVersion.VAL_2, StandardVersion.VAL_1, StandardVersion.VAL_3 }, 4531 standardMsgFromWithoutVal3Msg.packedField)); 4532 } 4533 assertHasWireData(MessageNano message, boolean expected)4534 private void assertHasWireData(MessageNano message, boolean expected) { 4535 byte[] bytes = MessageNano.toByteArray(message); 4536 int wireLength = bytes.length; 4537 if (expected) { 4538 assertFalse(wireLength == 0); 4539 } else { 4540 if (wireLength != 0) { 4541 fail("Expected no wire data for message \n" + message 4542 + "\nBut got:\n" 4543 + hexDump(bytes)); 4544 } 4545 } 4546 } 4547 hexDump(byte[] bytes)4548 private static String hexDump(byte[] bytes) { 4549 StringBuilder sb = new StringBuilder(); 4550 for (byte b : bytes) { 4551 sb.append(String.format("%02x ", b)); 4552 } 4553 return sb.toString(); 4554 } 4555 } 4556