267 lines
10 KiB
JavaScript
267 lines
10 KiB
JavaScript
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/**
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* @fileoverview Tests to make sure Kernel can read data in a backward
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* compatible way even when protobuf schema changes according to the rules
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* defined in
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* https://developers.google.com/protocol-buffers/docs/proto#updating and
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* https://developers.google.com/protocol-buffers/docs/proto3#updating.
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*
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* third_party/protobuf/conformance/binary_json_conformance_suite.cc already
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* covers many compatibility tests, this file covers only the tests not covered
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* by binary_json_conformance_suite. Ultimately all of the tests in this file
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* should be moved to binary_json_conformance_suite.
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*/
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goog.module('protobuf.runtime.KernelCompatibilityTest');
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goog.setTestOnly();
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const ByteString = goog.require('protobuf.ByteString');
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const Int64 = goog.require('protobuf.Int64');
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const Kernel = goog.require('protobuf.runtime.Kernel');
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const TestMessage = goog.require('protobuf.testing.binary.TestMessage');
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const {CHECK_CRITICAL_STATE} = goog.require('protobuf.internal.checks');
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/**
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* @param {...number} bytes
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* @return {!ArrayBuffer}
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*/
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function createArrayBuffer(...bytes) {
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return new Uint8Array(bytes).buffer;
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}
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/**
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* Returns the Unicode character codes of a string.
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* @param {string} str
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* @return {!Array<number>}
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*/
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function getCharacterCodes(str) {
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return Array.from(str, (c) => c.charCodeAt(0));
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}
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describe('optional -> repeated compatibility', () => {
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it('is maintained for scalars', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setInt32(1, 1);
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const serializedData = oldAccessor.serialize();
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expect(serializedData).toEqual(createArrayBuffer(0x8, 0x1));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getRepeatedInt32Size(1)).toEqual(1);
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expect(newAccessor.getRepeatedInt32Element(1, 0)).toEqual(1);
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});
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it('is maintained for messages', () => {
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const message = new TestMessage(Kernel.createEmpty());
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message.setInt32(1, 1);
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setMessage(1, message);
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const serializedData = oldAccessor.serialize();
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expect(serializedData).toEqual(createArrayBuffer(0xA, 0x2, 0x8, 0x1));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getRepeatedMessageSize(1, TestMessage.instanceCreator))
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.toEqual(1);
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expect(
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newAccessor.getRepeatedMessageElement(1, TestMessage.instanceCreator, 0)
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.serialize())
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.toEqual(message.serialize());
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});
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it('is maintained for bytes', () => {
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const message = new TestMessage(Kernel.createEmpty());
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message.setInt32(1, 1);
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setBytes(
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1, ByteString.fromArrayBuffer(createArrayBuffer(0xA, 0xB)));
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const serializedData = oldAccessor.serialize();
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expect(serializedData).toEqual(createArrayBuffer(0xA, 0x2, 0xA, 0xB));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getRepeatedBytesSize(1)).toEqual(1);
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expect(newAccessor.getRepeatedBoolElement(1, 0))
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.toEqual(ByteString.fromArrayBuffer(createArrayBuffer(0xA, 0xB)));
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});
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it('is maintained for strings', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setString(1, 'hello');
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const serializedData = oldAccessor.serialize();
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expect(serializedData)
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.toEqual(createArrayBuffer(0xA, 0x5, 0x68, 0x65, 0x6C, 0x6C, 0x6F));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getRepeatedStringSize(1)).toEqual(1);
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expect(newAccessor.getRepeatedStringElement(1, 0)).toEqual('hello');
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});
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});
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describe('Kernel repeated -> optional compatibility', () => {
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it('is maintained for unpacked scalars', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.addUnpackedInt32Element(1, 0);
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oldAccessor.addUnpackedInt32Element(1, 1);
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const serializedData = oldAccessor.serialize();
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expect(serializedData).toEqual(createArrayBuffer(0x8, 0x0, 0x8, 0x1));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getInt32WithDefault(1)).toEqual(1);
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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// repeated -> optional transformation is not supported for packed fields yet:
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// go/proto-schema-repeated
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it('is not maintained for packed scalars', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.addPackedInt32Element(1, 0);
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oldAccessor.addPackedInt32Element(1, 1);
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const serializedData = oldAccessor.serialize();
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expect(serializedData).toEqual(createArrayBuffer(0xA, 0x2, 0x0, 0x1));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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if (CHECK_CRITICAL_STATE) {
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expect(() => newAccessor.getInt32WithDefault(1)).toThrow();
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}
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});
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it('is maintained for messages', () => {
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const message1 = new TestMessage(Kernel.createEmpty());
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message1.setInt32(1, 1);
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const message2 = new TestMessage(Kernel.createEmpty());
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message2.setInt32(1, 2);
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message2.setInt32(2, 3);
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.addRepeatedMessageElement(
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1, message1, TestMessage.instanceCreator);
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oldAccessor.addRepeatedMessageElement(
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1, message2, TestMessage.instanceCreator);
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const serializedData = oldAccessor.serialize();
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expect(serializedData)
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.toEqual(createArrayBuffer(
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0xA, 0x2, 0x8, 0x1, 0xA, 0x4, 0x8, 0x2, 0x10, 0x3));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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// Values from message1 and message2 have been merged
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const newMessage = newAccessor.getMessage(1, TestMessage.instanceCreator);
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expect(newMessage.getRepeatedInt32Size(1)).toEqual(2);
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expect(newMessage.getRepeatedInt32Element(1, 0)).toEqual(1);
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expect(newMessage.getRepeatedInt32Element(1, 1)).toEqual(2);
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expect(newMessage.getInt32WithDefault(2)).toEqual(3);
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expect(newMessage.serialize())
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.toEqual(createArrayBuffer(0x8, 0x1, 0x8, 0x2, 0x10, 0x3));
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});
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it('is maintained for bytes', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.addRepeatedBytesElement(
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1, ByteString.fromArrayBuffer(createArrayBuffer(0xA, 0xB)));
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oldAccessor.addRepeatedBytesElement(
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1, ByteString.fromArrayBuffer(createArrayBuffer(0xC, 0xD)));
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const serializedData = oldAccessor.serialize();
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expect(serializedData)
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.toEqual(createArrayBuffer(0xA, 0x2, 0xA, 0xB, 0xA, 0x2, 0xC, 0xD));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getBytesWithDefault(1))
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.toEqual(ByteString.fromArrayBuffer(createArrayBuffer(0xC, 0xD)));
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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it('is maintained for strings', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.addRepeatedStringElement(1, 'hello');
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oldAccessor.addRepeatedStringElement(1, 'world');
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const serializedData = oldAccessor.serialize();
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expect(serializedData)
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.toEqual(createArrayBuffer(
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0xA, 0x5, ...getCharacterCodes('hello'), 0xA, 0x5,
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...getCharacterCodes('world')));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getStringWithDefault(1)).toEqual('world');
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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});
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describe('Type change', () => {
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it('is supported for fixed32 -> sfixed32', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setFixed32(1, 4294967295);
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const serializedData = oldAccessor.serialize();
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expect(serializedData)
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.toEqual(createArrayBuffer(0xD, 0xFF, 0xFF, 0xFF, 0xFF));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getSfixed32WithDefault(1)).toEqual(-1);
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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it('is supported for sfixed32 -> fixed32', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setSfixed32(1, -1);
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const serializedData = oldAccessor.serialize();
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expect(serializedData)
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.toEqual(createArrayBuffer(0xD, 0xFF, 0xFF, 0xFF, 0xFF));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getFixed32WithDefault(1)).toEqual(4294967295);
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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it('is supported for fixed64 -> sfixed64', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setFixed64(1, Int64.fromHexString('0xFFFFFFFFFFFFFFFF'));
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const serializedData = oldAccessor.serialize();
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expect(serializedData)
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.toEqual(createArrayBuffer(
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0x9, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getSfixed64WithDefault(1)).toEqual(Int64.fromInt(-1));
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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it('is supported for sfixed64 -> fixed64', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setSfixed64(1, Int64.fromInt(-1));
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const serializedData = oldAccessor.serialize();
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expect(serializedData)
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.toEqual(createArrayBuffer(
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0x9, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getFixed64WithDefault(1))
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.toEqual(Int64.fromHexString('0xFFFFFFFFFFFFFFFF'));
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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it('is supported for bytes -> message', () => {
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const oldAccessor = Kernel.createEmpty();
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oldAccessor.setBytes(
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1, ByteString.fromArrayBuffer(createArrayBuffer(0x8, 0x1)));
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const serializedData = oldAccessor.serialize();
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expect(serializedData).toEqual(createArrayBuffer(0xA, 0x2, 0x8, 0x1));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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const message = newAccessor.getMessage(1, TestMessage.instanceCreator);
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expect(message.getInt32WithDefault(1)).toEqual(1);
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expect(message.serialize()).toEqual(createArrayBuffer(0x8, 0x1));
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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it('is supported for message -> bytes', () => {
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const oldAccessor = Kernel.createEmpty();
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const message = new TestMessage(Kernel.createEmpty());
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message.setInt32(1, 1);
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oldAccessor.setMessage(1, message);
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const serializedData = oldAccessor.serialize();
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expect(serializedData).toEqual(createArrayBuffer(0xA, 0x2, 0x8, 0x1));
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const newAccessor = Kernel.fromArrayBuffer(serializedData);
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expect(newAccessor.getBytesWithDefault(1))
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.toEqual(ByteString.fromArrayBuffer(createArrayBuffer(0x8, 0x1)));
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expect(newAccessor.serialize()).toEqual(serializedData);
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});
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});
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