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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
#include "mozilla/ArrayUtils.h"
#include "RiceDeltaDecoder.h"
#include "Common.h"
namespace {
struct TestingData {
std::vector<uint32_t> mExpectedDecoded;
std::vector<uint8_t> mEncoded;
uint32_t mRiceParameter;
};
} // namespace
static bool runOneTest(TestingData& aData) {
RiceDeltaDecoder decoder(&aData.mEncoded[0], aData.mEncoded.size());
std::vector<uint32_t> decoded(aData.mExpectedDecoded.size());
uint32_t firstValue = aData.mExpectedDecoded[0];
bool rv = decoder.Decode(
aData.mRiceParameter, firstValue,
decoded.size() - 1, // # of entries (first value not included).
&decoded[0]);
return rv && decoded == aData.mExpectedDecoded;
}
TEST(UrlClassifierRiceDeltaDecoder, SingleEncodedValue)
{
TestingData td = {{99}, {99}, 0};
ASSERT_TRUE(runOneTest(td));
}
// In this batch of tests, the encoded data would be like
// what we originally receive from the network. See comment
// in |runOneTest| for more detail.
TEST(UrlClassifierRiceDeltaDecoder, Empty)
{
// The following structure and testing data is copied from Chromium source
// code:
//
//
// and will be translated to our own testing format.
struct RiceDecodingTestInfo {
uint32_t mRiceParameter;
std::vector<uint32_t> mDeltas;
std::string mEncoded;
RiceDecodingTestInfo(uint32_t aRiceParameter,
const std::vector<uint32_t>& aDeltas,
const std::string& aEncoded)
: mRiceParameter(aRiceParameter),
mDeltas(aDeltas),
mEncoded(aEncoded) {}
};
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the media/webrtc/trunk/webrtc/LICENSE.
// ----- Start of Chromium test code ----
const std::vector<RiceDecodingTestInfo> TESTING_DATA_CHROMIUM = {
RiceDecodingTestInfo(2, {15, 9}, "\xf7\x2"),
RiceDecodingTestInfo(
28, {1777762129, 2093280223, 924369848},
"\xbf\xa8\x3f\xfb\xfc\xfb\x5e\x27\xe6\xc3\x1d\xc6\x38"),
RiceDecodingTestInfo(
28, {62763050, 1046523781, 192522171, 1800511020, 4442775, 582142548},
"\x54\x60\x7b\xe7\x0a\x5f\xc1\xdc\xee\x69\xde"
"\xfe\x58\x3c\xa3\xd6\xa5\xf2\x10\x8c\x4a\x59"
"\x56\x00"),
RiceDecodingTestInfo(
28,
{26067715, 344823336, 8420095, 399843890, 95029378, 731622412,
35811335, 1047558127, 1117722715, 78698892},
"\x06\x86\x1b\x23\x14\xcb\x46\xf2\xaf\x07\x08\xc9\x88\x54\x1f\x41\x04"
"\xd5\x1a\x03\xeb\xe6\x3a\x80\x13\x91\x7b\xbf\x83\xf3\xb7\x85\xf1\x29"
"\x18\xb3\x61\x09"),
RiceDecodingTestInfo(
27,
{225846818, 328287420, 166748623, 29117720, 552397365, 350353215,
558267528, 4738273, 567093445, 28563065, 55077698, 73091685,
339246010, 98242620, 38060941, 63917830, 206319759, 137700744},
"\x89\x98\xd8\x75\xbc\x44\x91\xeb\x39\x0c\x3e\x30\x9a\x78\xf3\x6a\xd4"
"\xd9\xb1\x9f\xfb\x70\x3e\x44\x3e\xa3\x08\x67\x42\xc2\x2b\x46\x69\x8e"
"\x3c\xeb\xd9\x10\x5a\x43\x9a\x32\xa5\x2d\x4e\x77\x0f\x87\x78\x20\xb6"
"\xab\x71\x98\x48\x0c\x9e\x9e\xd7\x23\x0c\x13\x43\x2c\xa9\x01"),
RiceDecodingTestInfo(
28,
{339784008, 263128563, 63871877, 69723256, 826001074, 797300228,
671166008, 207712688},
std::string("\x21\xc5\x02\x91\xf9\x82\xd7\x57\xb8\xe9\x3c\xf0\xc8\x4f"
"\xe8\x64\x8d\x77\x62\x04\xd6\x85\x3f\x1c\x97\x00\x04\x1b"
"\x17\xc6",
30)),
RiceDecodingTestInfo(
28,
{471820069, 196333855, 855579133, 122737976, 203433838, 85354544,
1307949392, 165938578, 195134475, 553930435, 49231136},
"\x95\x9c\x7d\xb0\x8f\xe8\xd9\xbd\xfe\x8c\x7f\x81\x53\x0d\x75\xdc\x4e"
"\x40\x18\x0c\x9a\x45\x3d\xa8\xdc\xfa\x26\x59\x40\x9e\x16\x08\x43\x77"
"\xc3\x4e\x04\x01\xa4\xe6\x5d\x00"),
RiceDecodingTestInfo(
27,
{87336845, 129291033, 30906211, 433549264, 30899891, 53207875,
11959529, 354827862, 82919275, 489637251, 53561020, 336722992,
408117728, 204506246, 188216092, 9047110, 479817359, 230317256},
"\x1a\x4f\x69\x2a\x63\x9a\xf6\xc6\x2e\xaf\x73\xd0\x6f\xd7\x31\xeb\x77"
"\x1d\x43\xe3\x2b\x93\xce\x67\x8b\x59\xf9\x98\xd4\xda\x4f\x3c\x6f\xb0"
"\xe8\xa5\x78\x8d\x62\x36\x18\xfe\x08\x1e\x78\xd8\x14\x32\x24\x84\x61"
"\x1c\xf3\x37\x63\xc4\xa0\x88\x7b\x74\xcb\x64\xc8\x5c\xba\x05"),
RiceDecodingTestInfo(
28,
{297968956, 19709657, 259702329, 76998112, 1023176123, 29296013,
1602741145, 393745181, 177326295, 55225536, 75194472},
"\xf1\x94\x0a\x87\x6c\x5f\x96\x90\xe3\xab\xf7\xc0\xcb\x2d\xe9\x76\xdb"
"\xf8\x59\x63\xc1\x6f\x7c\x99\xe3\x87\x5f\xc7\x04\xde\xb9\x46\x8e\x54"
"\xc0\xac\x4a\x03\x0d\x6c\x8f\x00"),
RiceDecodingTestInfo(
28,
{532220688, 780594691, 436816483, 163436269, 573044456, 1069604,
39629436, 211410997, 227714491, 381562898, 75610008, 196754597,
40310339, 15204118, 99010842},
"\x41\x2c\xe4\xfe\x06\xdc\x0d\xbd\x31\xa5\x04\xd5\x6e\xdd\x9b\x43\xb7"
"\x3f\x11\x24\x52\x10\x80\x4f\x96\x4b\xd4\x80\x67\xb2\xdd\x52\xc9\x4e"
"\x02\xc6\xd7\x60\xde\x06\x92\x52\x1e\xdd\x35\x64\x71\x26\x2c\xfe\xcf"
"\x81\x46\xb2\x79\x01"),
RiceDecodingTestInfo(
28,
{219354713, 389598618, 750263679, 554684211, 87381124, 4523497,
287633354, 801308671, 424169435, 372520475, 277287849},
"\xb2\x2c\x26\x3a\xcd\x66\x9c\xdb\x5f\x07\x2e\x6f\xe6\xf9\x21\x10\x52"
"\xd5\x94\xf4\x82\x22\x48\xf9\x9d\x24\xf6\xff\x2f\xfc\x6d\x3f\x21\x65"
"\x1b\x36\x34\x56\xea\xc4\x21\x00"),
};
// ----- End of Chromium test code ----
for (auto tdc : TESTING_DATA_CHROMIUM) {
// Populate chromium testing data to our native testing data struct.
TestingData d;
d.mRiceParameter = tdc.mRiceParameter; // Populate rice parameter.
// Populate encoded data from std::string to vector<uint8>.
d.mEncoded.resize(tdc.mEncoded.size());
memcpy(&d.mEncoded[0], tdc.mEncoded.c_str(), tdc.mEncoded.size());
// Populate deltas to expected decoded data. The first value would be just
// set to an arbitrary value, say 7, to avoid any assumption to the
// first value in the implementation.
d.mExpectedDecoded.resize(tdc.mDeltas.size() + 1);
for (size_t i = 0; i < d.mExpectedDecoded.size(); i++) {
if (0 == i) {
d.mExpectedDecoded[i] = 7; // "7" is an arbitrary starting value
} else {
d.mExpectedDecoded[i] = d.mExpectedDecoded[i - 1] + tdc.mDeltas[i - 1];
}
}
ASSERT_TRUE(runOneTest(d));
}
}