Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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335 lines
11 KiB
335 lines
11 KiB
// Protocol Buffers - Google's data interchange format |
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// Copyright 2008 Google Inc. All rights reserved. |
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// https://developers.google.com/protocol-buffers/ |
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// |
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// Redistribution and use in source and binary forms, with or without |
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// modification, are permitted provided that the following conditions are |
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// met: |
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// |
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// * Redistributions of source code must retain the above copyright |
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// notice, this list of conditions and the following disclaimer. |
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// * Redistributions in binary form must reproduce the above |
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// copyright notice, this list of conditions and the following disclaimer |
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// in the documentation and/or other materials provided with the |
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// distribution. |
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// * Neither the name of Google Inc. nor the names of its |
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// contributors may be used to endorse or promote products derived from |
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// this software without specific prior written permission. |
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// |
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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/** |
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* @fileoverview Test cases for jspb's binary protocol buffer decoder. |
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* |
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* There are two particular magic numbers that need to be pointed out - |
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* 2^64-1025 is the largest number representable as both a double and an |
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* unsigned 64-bit integer, and 2^63-513 is the largest number representable as |
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* both a double and a signed 64-bit integer. |
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* |
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* Test suite is written using Jasmine -- see http://jasmine.github.io/ |
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* |
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* @author aappleby@google.com (Austin Appleby) |
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*/ |
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goog.require('goog.testing.asserts'); |
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goog.require('jspb.BinaryConstants'); |
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goog.require('jspb.BinaryDecoder'); |
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goog.require('jspb.BinaryEncoder'); |
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/** |
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* Tests encoding and decoding of unsigned types. |
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* @param {Function} readValue |
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* @param {Function} writeValue |
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* @param {number} epsilon |
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* @param {number} upperLimit |
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* @param {Function} filter |
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* @suppress {missingProperties|visibility} |
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*/ |
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function doTestUnsignedValue(readValue, |
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writeValue, epsilon, upperLimit, filter) { |
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var encoder = new jspb.BinaryEncoder(); |
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// Encode zero and limits. |
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writeValue.call(encoder, filter(0)); |
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writeValue.call(encoder, filter(epsilon)); |
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writeValue.call(encoder, filter(upperLimit)); |
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// Encode positive values. |
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for (var cursor = epsilon; cursor < upperLimit; cursor *= 1.1) { |
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writeValue.call(encoder, filter(cursor)); |
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} |
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var decoder = jspb.BinaryDecoder.alloc(encoder.end()); |
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// Check zero and limits. |
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assertEquals(filter(0), readValue.call(decoder)); |
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assertEquals(filter(epsilon), readValue.call(decoder)); |
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assertEquals(filter(upperLimit), readValue.call(decoder)); |
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// Check positive values. |
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for (var cursor = epsilon; cursor < upperLimit; cursor *= 1.1) { |
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if (filter(cursor) != readValue.call(decoder)) throw 'fail!'; |
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} |
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// Encoding values outside the valid range should assert. |
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assertThrows(function() {writeValue.call(encoder, -1);}); |
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assertThrows(function() {writeValue.call(encoder, upperLimit * 1.1);}); |
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} |
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/** |
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* Tests encoding and decoding of signed types. |
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* @param {Function} readValue |
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* @param {Function} writeValue |
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* @param {number} epsilon |
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* @param {number} lowerLimit |
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* @param {number} upperLimit |
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* @param {Function} filter |
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* @suppress {missingProperties} |
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*/ |
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function doTestSignedValue(readValue, |
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writeValue, epsilon, lowerLimit, upperLimit, filter) { |
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var encoder = new jspb.BinaryEncoder(); |
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// Encode zero and limits. |
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writeValue.call(encoder, filter(lowerLimit)); |
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writeValue.call(encoder, filter(-epsilon)); |
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writeValue.call(encoder, filter(0)); |
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writeValue.call(encoder, filter(epsilon)); |
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writeValue.call(encoder, filter(upperLimit)); |
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var inputValues = []; |
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// Encode negative values. |
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for (var cursor = lowerLimit; cursor < -epsilon; cursor /= 1.1) { |
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var val = filter(cursor); |
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writeValue.call(encoder, val); |
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inputValues.push(val); |
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} |
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// Encode positive values. |
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for (var cursor = epsilon; cursor < upperLimit; cursor *= 1.1) { |
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var val = filter(cursor); |
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writeValue.call(encoder, val); |
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inputValues.push(val); |
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} |
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var decoder = jspb.BinaryDecoder.alloc(encoder.end()); |
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// Check zero and limits. |
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assertEquals(filter(lowerLimit), readValue.call(decoder)); |
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assertEquals(filter(-epsilon), readValue.call(decoder)); |
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assertEquals(filter(0), readValue.call(decoder)); |
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assertEquals(filter(epsilon), readValue.call(decoder)); |
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assertEquals(filter(upperLimit), readValue.call(decoder)); |
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// Verify decoded values. |
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for (var i = 0; i < inputValues.length; i++) { |
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assertEquals(inputValues[i], readValue.call(decoder)); |
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} |
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// Encoding values outside the valid range should assert. |
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assertThrows(function() {writeValue.call(encoder, lowerLimit * 1.1);}); |
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assertThrows(function() {writeValue.call(encoder, upperLimit * 1.1);}); |
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} |
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describe('binaryDecoderTest', function() { |
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/** |
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* Tests the decoder instance cache. |
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* @suppress {visibility} |
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*/ |
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it('testInstanceCache', function() { |
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// Empty the instance caches. |
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jspb.BinaryDecoder.instanceCache_ = []; |
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// Allocating and then freeing a decoder should put it in the instance |
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// cache. |
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jspb.BinaryDecoder.alloc().free(); |
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assertEquals(1, jspb.BinaryDecoder.instanceCache_.length); |
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// Allocating and then freeing three decoders should leave us with three in |
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// the cache. |
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var decoder1 = jspb.BinaryDecoder.alloc(); |
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var decoder2 = jspb.BinaryDecoder.alloc(); |
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var decoder3 = jspb.BinaryDecoder.alloc(); |
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decoder1.free(); |
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decoder2.free(); |
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decoder3.free(); |
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assertEquals(3, jspb.BinaryDecoder.instanceCache_.length); |
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}); |
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/** |
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* Tests reading 64-bit integers as hash strings. |
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*/ |
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it('testHashStrings', function() { |
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var encoder = new jspb.BinaryEncoder(); |
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var hashA = String.fromCharCode(0x00, 0x00, 0x00, 0x00, |
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0x00, 0x00, 0x00, 0x00); |
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var hashB = String.fromCharCode(0x12, 0x34, 0x00, 0x00, |
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0x00, 0x00, 0x00, 0x00); |
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var hashC = String.fromCharCode(0x12, 0x34, 0x56, 0x78, |
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0x87, 0x65, 0x43, 0x21); |
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var hashD = String.fromCharCode(0xFF, 0xFF, 0xFF, 0xFF, |
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0xFF, 0xFF, 0xFF, 0xFF); |
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encoder.writeVarintHash64(hashA); |
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encoder.writeVarintHash64(hashB); |
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encoder.writeVarintHash64(hashC); |
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encoder.writeVarintHash64(hashD); |
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encoder.writeFixedHash64(hashA); |
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encoder.writeFixedHash64(hashB); |
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encoder.writeFixedHash64(hashC); |
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encoder.writeFixedHash64(hashD); |
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var decoder = jspb.BinaryDecoder.alloc(encoder.end()); |
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assertEquals(hashA, decoder.readVarintHash64()); |
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assertEquals(hashB, decoder.readVarintHash64()); |
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assertEquals(hashC, decoder.readVarintHash64()); |
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assertEquals(hashD, decoder.readVarintHash64()); |
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assertEquals(hashA, decoder.readFixedHash64()); |
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assertEquals(hashB, decoder.readFixedHash64()); |
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assertEquals(hashC, decoder.readFixedHash64()); |
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assertEquals(hashD, decoder.readFixedHash64()); |
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}); |
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/** |
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* Verifies that misuse of the decoder class triggers assertions. |
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* @suppress {checkTypes|visibility} |
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*/ |
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it('testDecodeErrors', function() { |
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// Reading a value past the end of the stream should trigger an assertion. |
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var decoder = jspb.BinaryDecoder.alloc([0, 1, 2]); |
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assertThrows(function() {decoder.readUint64()}); |
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// Overlong varints should trigger assertions. |
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decoder.setBlock([255, 255, 255, 255, 255, 255, |
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255, 255, 255, 255, 255, 0]); |
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assertThrows(function() {decoder.readUnsignedVarint64()}); |
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decoder.reset(); |
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assertThrows(function() {decoder.readSignedVarint64()}); |
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decoder.reset(); |
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assertThrows(function() {decoder.readZigzagVarint64()}); |
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// Positive 32-bit varints encoded with 1 bits in positions 33 through 35 |
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// should trigger assertions. |
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decoder.setBlock([255, 255, 255, 255, 0x1F]); |
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assertThrows(function() {decoder.readUnsignedVarint32()}); |
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decoder.setBlock([255, 255, 255, 255, 0x2F]); |
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assertThrows(function() {decoder.readUnsignedVarint32()}); |
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decoder.setBlock([255, 255, 255, 255, 0x4F]); |
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assertThrows(function() {decoder.readUnsignedVarint32()}); |
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// Negative 32-bit varints encoded with non-1 bits in the high dword should |
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// trigger assertions. |
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decoder.setBlock([255, 255, 255, 255, 255, 255, 0, 255, 255, 1]); |
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assertThrows(function() {decoder.readUnsignedVarint32()}); |
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decoder.setBlock([255, 255, 255, 255, 255, 255, 255, 255, 255, 0]); |
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assertThrows(function() {decoder.readUnsignedVarint32()}); |
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}); |
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/** |
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* Tests encoding and decoding of unsigned integers. |
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*/ |
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it('testUnsignedIntegers', function() { |
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doTestUnsignedValue( |
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jspb.BinaryDecoder.prototype.readUint8, |
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jspb.BinaryEncoder.prototype.writeUint8, |
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1, 0xFF, Math.round); |
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doTestUnsignedValue( |
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jspb.BinaryDecoder.prototype.readUint16, |
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jspb.BinaryEncoder.prototype.writeUint16, |
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1, 0xFFFF, Math.round); |
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doTestUnsignedValue( |
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jspb.BinaryDecoder.prototype.readUint32, |
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jspb.BinaryEncoder.prototype.writeUint32, |
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1, 0xFFFFFFFF, Math.round); |
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doTestUnsignedValue( |
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jspb.BinaryDecoder.prototype.readUint64, |
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jspb.BinaryEncoder.prototype.writeUint64, |
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1, Math.pow(2, 64) - 1025, Math.round); |
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}); |
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/** |
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* Tests encoding and decoding of signed integers. |
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*/ |
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it('testSignedIntegers', function() { |
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doTestSignedValue( |
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jspb.BinaryDecoder.prototype.readInt8, |
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jspb.BinaryEncoder.prototype.writeInt8, |
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1, -0x80, 0x7F, Math.round); |
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doTestSignedValue( |
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jspb.BinaryDecoder.prototype.readInt16, |
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jspb.BinaryEncoder.prototype.writeInt16, |
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1, -0x8000, 0x7FFF, Math.round); |
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doTestSignedValue( |
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jspb.BinaryDecoder.prototype.readInt32, |
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jspb.BinaryEncoder.prototype.writeInt32, |
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1, -0x80000000, 0x7FFFFFFF, Math.round); |
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doTestSignedValue( |
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jspb.BinaryDecoder.prototype.readInt64, |
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jspb.BinaryEncoder.prototype.writeInt64, |
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1, -Math.pow(2, 63), Math.pow(2, 63) - 513, Math.round); |
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}); |
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/** |
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* Tests encoding and decoding of floats. |
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*/ |
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it('testFloats', function() { |
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/** |
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* @param {number} x |
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* @return {number} |
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*/ |
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function truncate(x) { |
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var temp = new Float32Array(1); |
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temp[0] = x; |
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return temp[0]; |
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} |
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doTestSignedValue( |
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jspb.BinaryDecoder.prototype.readFloat, |
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jspb.BinaryEncoder.prototype.writeFloat, |
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jspb.BinaryConstants.FLOAT32_EPS, |
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-jspb.BinaryConstants.FLOAT32_MAX, |
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jspb.BinaryConstants.FLOAT32_MAX, |
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truncate); |
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doTestSignedValue( |
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jspb.BinaryDecoder.prototype.readDouble, |
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jspb.BinaryEncoder.prototype.writeDouble, |
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jspb.BinaryConstants.FLOAT64_EPS * 10, |
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-jspb.BinaryConstants.FLOAT64_MAX, |
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jspb.BinaryConstants.FLOAT64_MAX, |
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function(x) { return x; }); |
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}); |
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});
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