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rocksdb/util/hash_test.cc

591 lines
23 KiB

// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
//
// Copyright (c) 2012 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
#include "util/hash.h"
#include <cstring>
#include <vector>
#include "test_util/testharness.h"
#include "util/coding.h"
#include "util/math128.h"
using ROCKSDB_NAMESPACE::EncodeFixed32;
using ROCKSDB_NAMESPACE::GetSliceHash64;
using ROCKSDB_NAMESPACE::Hash;
using ROCKSDB_NAMESPACE::Hash64;
using ROCKSDB_NAMESPACE::Lower32of64;
using ROCKSDB_NAMESPACE::Slice;
using ROCKSDB_NAMESPACE::Upper32of64;
// The hash algorithm is part of the file format, for example for the Bloom
// filters. Test that the hash values are stable for a set of random strings of
// varying lengths.
TEST(HashTest, Values) {
constexpr uint32_t kSeed = 0xbc9f1d34; // Same as BloomHash.
EXPECT_EQ(Hash("", 0, kSeed), 3164544308u);
EXPECT_EQ(Hash("\x08", 1, kSeed), 422599524u);
EXPECT_EQ(Hash("\x17", 1, kSeed), 3168152998u);
EXPECT_EQ(Hash("\x9a", 1, kSeed), 3195034349u);
EXPECT_EQ(Hash("\x1c", 1, kSeed), 2651681383u);
EXPECT_EQ(Hash("\x4d\x76", 2, kSeed), 2447836956u);
EXPECT_EQ(Hash("\x52\xd5", 2, kSeed), 3854228105u);
EXPECT_EQ(Hash("\x91\xf7", 2, kSeed), 31066776u);
EXPECT_EQ(Hash("\xd6\x27", 2, kSeed), 1806091603u);
EXPECT_EQ(Hash("\x30\x46\x0b", 3, kSeed), 3808221797u);
EXPECT_EQ(Hash("\x56\xdc\xd6", 3, kSeed), 2157698265u);
EXPECT_EQ(Hash("\xd4\x52\x33", 3, kSeed), 1721992661u);
EXPECT_EQ(Hash("\x6a\xb5\xf4", 3, kSeed), 2469105222u);
EXPECT_EQ(Hash("\x67\x53\x81\x1c", 4, kSeed), 118283265u);
EXPECT_EQ(Hash("\x69\xb8\xc0\x88", 4, kSeed), 3416318611u);
EXPECT_EQ(Hash("\x1e\x84\xaf\x2d", 4, kSeed), 3315003572u);
EXPECT_EQ(Hash("\x46\xdc\x54\xbe", 4, kSeed), 447346355u);
EXPECT_EQ(Hash("\xd0\x7a\x6e\xea\x56", 5, kSeed), 4255445370u);
EXPECT_EQ(Hash("\x86\x83\xd5\xa4\xd8", 5, kSeed), 2390603402u);
EXPECT_EQ(Hash("\xb7\x46\xbb\x77\xce", 5, kSeed), 2048907743u);
EXPECT_EQ(Hash("\x6c\xa8\xbc\xe5\x99", 5, kSeed), 2177978500u);
EXPECT_EQ(Hash("\x5c\x5e\xe1\xa0\x73\x81", 6, kSeed), 1036846008u);
EXPECT_EQ(Hash("\x08\x5d\x73\x1c\xe5\x2e", 6, kSeed), 229980482u);
EXPECT_EQ(Hash("\x42\xfb\xf2\x52\xb4\x10", 6, kSeed), 3655585422u);
EXPECT_EQ(Hash("\x73\xe1\xff\x56\x9c\xce", 6, kSeed), 3502708029u);
EXPECT_EQ(Hash("\x5c\xbe\x97\x75\x54\x9a\x52", 7, kSeed), 815120748u);
EXPECT_EQ(Hash("\x16\x82\x39\x49\x88\x2b\x36", 7, kSeed), 3056033698u);
EXPECT_EQ(Hash("\x59\x77\xf0\xa7\x24\xf4\x78", 7, kSeed), 587205227u);
EXPECT_EQ(Hash("\xd3\xa5\x7c\x0e\xc0\x02\x07", 7, kSeed), 2030937252u);
EXPECT_EQ(Hash("\x31\x1b\x98\x75\x96\x22\xd3\x9a", 8, kSeed), 469635402u);
EXPECT_EQ(Hash("\x38\xd6\xf7\x28\x20\xb4\x8a\xe9", 8, kSeed), 3530274698u);
EXPECT_EQ(Hash("\xbb\x18\x5d\xf4\x12\x03\xf7\x99", 8, kSeed), 1974545809u);
EXPECT_EQ(Hash("\x80\xd4\x3b\x3b\xae\x22\xa2\x78", 8, kSeed), 3563570120u);
EXPECT_EQ(Hash("\x1a\xb5\xd0\xfe\xab\xc3\x61\xb2\x99", 9, kSeed),
2706087434u);
EXPECT_EQ(Hash("\x8e\x4a\xc3\x18\x20\x2f\x06\xe6\x3c", 9, kSeed),
1534654151u);
EXPECT_EQ(Hash("\xb6\xc0\xdd\x05\x3f\xc4\x86\x4c\xef", 9, kSeed),
2355554696u);
EXPECT_EQ(Hash("\x9a\x5f\x78\x0d\xaf\x50\xe1\x1f\x55", 9, kSeed),
1400800912u);
EXPECT_EQ(Hash("\x22\x6f\x39\x1f\xf8\xdd\x4f\x52\x17\x94", 10, kSeed),
3420325137u);
EXPECT_EQ(Hash("\x32\x89\x2a\x75\x48\x3a\x4a\x02\x69\xdd", 10, kSeed),
3427803584u);
EXPECT_EQ(Hash("\x06\x92\x5c\xf4\x88\x0e\x7e\x68\x38\x3e", 10, kSeed),
1152407945u);
EXPECT_EQ(Hash("\xbd\x2c\x63\x38\xbf\xe9\x78\xb7\xbf\x15", 10, kSeed),
3382479516u);
}
// The hash algorithm is part of the file format, for example for the Bloom
// filters.
TEST(HashTest, Hash64Misc) {
constexpr uint32_t kSeed = 0; // Same as GetSliceHash64
for (char fill : {'\0', 'a', '1', '\xff'}) {
const size_t max_size = 1000;
const std::string str(max_size, fill);
for (size_t size = 0; size <= max_size; ++size) {
uint64_t here = Hash64(str.data(), size, kSeed);
// Must be same as GetSliceHash64
EXPECT_EQ(here, GetSliceHash64(Slice(str.data(), size)));
// Upper and Lower must reconstruct hash
EXPECT_EQ(here, (uint64_t{Upper32of64(here)} << 32) | Lower32of64(here));
EXPECT_EQ(here, (uint64_t{Upper32of64(here)} << 32) + Lower32of64(here));
EXPECT_EQ(here, (uint64_t{Upper32of64(here)} << 32) ^ Lower32of64(here));
// Seed changes hash value (with high probability)
for (uint64_t var_seed = 1; var_seed != 0; var_seed <<= 1) {
EXPECT_NE(here, Hash64(str.data(), size, var_seed));
}
// Size changes hash value (with high probability)
size_t max_smaller_by = std::min(size_t{30}, size);
for (size_t smaller_by = 1; smaller_by <= max_smaller_by; ++smaller_by) {
EXPECT_NE(here, Hash64(str.data(), size - smaller_by, kSeed));
}
}
}
}
// Test that hash values are "non-trivial" for "trivial" inputs
TEST(HashTest, Hash64Trivial) {
// Thorough test too slow for regression testing
constexpr bool thorough = false;
// For various seeds, make sure hash of empty string is not zero.
constexpr uint64_t max_seed = thorough ? 0x1000000 : 0x10000;
for (uint64_t seed = 0; seed < max_seed; ++seed) {
uint64_t here = Hash64("", 0, seed);
EXPECT_NE(Lower32of64(here), 0u);
EXPECT_NE(Upper32of64(here), 0u);
}
// For standard seed, make sure hash of small strings are not zero
constexpr uint32_t kSeed = 0; // Same as GetSliceHash64
char input[4];
constexpr int max_len = thorough ? 3 : 2;
for (int len = 1; len <= max_len; ++len) {
for (uint32_t i = 0; (i >> (len * 8)) == 0; ++i) {
EncodeFixed32(input, i);
uint64_t here = Hash64(input, len, kSeed);
EXPECT_NE(Lower32of64(here), 0u);
EXPECT_NE(Upper32of64(here), 0u);
}
}
}
// Test that the hash values are stable for a set of random strings of
// varying small lengths.
TEST(HashTest, Hash64SmallValueSchema) {
constexpr uint32_t kSeed = 0; // Same as GetSliceHash64
EXPECT_EQ(Hash64("", 0, kSeed), uint64_t{5999572062939766020u});
EXPECT_EQ(Hash64("\x08", 1, kSeed), uint64_t{583283813901344696u});
EXPECT_EQ(Hash64("\x17", 1, kSeed), uint64_t{16175549975585474943u});
EXPECT_EQ(Hash64("\x9a", 1, kSeed), uint64_t{16322991629225003903u});
EXPECT_EQ(Hash64("\x1c", 1, kSeed), uint64_t{13269285487706833447u});
EXPECT_EQ(Hash64("\x4d\x76", 2, kSeed), uint64_t{6859542833406258115u});
EXPECT_EQ(Hash64("\x52\xd5", 2, kSeed), uint64_t{4919611532550636959u});
EXPECT_EQ(Hash64("\x91\xf7", 2, kSeed), uint64_t{14199427467559720719u});
EXPECT_EQ(Hash64("\xd6\x27", 2, kSeed), uint64_t{12292689282614532691u});
EXPECT_EQ(Hash64("\x30\x46\x0b", 3, kSeed), uint64_t{11404699285340020889u});
EXPECT_EQ(Hash64("\x56\xdc\xd6", 3, kSeed), uint64_t{12404347133785524237u});
EXPECT_EQ(Hash64("\xd4\x52\x33", 3, kSeed), uint64_t{15853805298481534034u});
EXPECT_EQ(Hash64("\x6a\xb5\xf4", 3, kSeed), uint64_t{16863488758399383382u});
EXPECT_EQ(Hash64("\x67\x53\x81\x1c", 4, kSeed),
uint64_t{9010661983527562386u});
EXPECT_EQ(Hash64("\x69\xb8\xc0\x88", 4, kSeed),
uint64_t{6611781377647041447u});
EXPECT_EQ(Hash64("\x1e\x84\xaf\x2d", 4, kSeed),
uint64_t{15290969111616346501u});
EXPECT_EQ(Hash64("\x46\xdc\x54\xbe", 4, kSeed),
uint64_t{7063754590279313623u});
EXPECT_EQ(Hash64("\xd0\x7a\x6e\xea\x56", 5, kSeed),
uint64_t{6384167718754869899u});
EXPECT_EQ(Hash64("\x86\x83\xd5\xa4\xd8", 5, kSeed),
uint64_t{16874407254108011067u});
EXPECT_EQ(Hash64("\xb7\x46\xbb\x77\xce", 5, kSeed),
uint64_t{16809880630149135206u});
EXPECT_EQ(Hash64("\x6c\xa8\xbc\xe5\x99", 5, kSeed),
uint64_t{1249038833153141148u});
EXPECT_EQ(Hash64("\x5c\x5e\xe1\xa0\x73\x81", 6, kSeed),
uint64_t{17358142495308219330u});
EXPECT_EQ(Hash64("\x08\x5d\x73\x1c\xe5\x2e", 6, kSeed),
uint64_t{4237646583134806322u});
EXPECT_EQ(Hash64("\x42\xfb\xf2\x52\xb4\x10", 6, kSeed),
uint64_t{4373664924115234051u});
EXPECT_EQ(Hash64("\x73\xe1\xff\x56\x9c\xce", 6, kSeed),
uint64_t{12012981210634596029u});
EXPECT_EQ(Hash64("\x5c\xbe\x97\x75\x54\x9a\x52", 7, kSeed),
uint64_t{5716522398211028826u});
EXPECT_EQ(Hash64("\x16\x82\x39\x49\x88\x2b\x36", 7, kSeed),
uint64_t{15604531309862565013u});
EXPECT_EQ(Hash64("\x59\x77\xf0\xa7\x24\xf4\x78", 7, kSeed),
uint64_t{8601330687345614172u});
EXPECT_EQ(Hash64("\xd3\xa5\x7c\x0e\xc0\x02\x07", 7, kSeed),
uint64_t{8088079329364056942u});
EXPECT_EQ(Hash64("\x31\x1b\x98\x75\x96\x22\xd3\x9a", 8, kSeed),
uint64_t{9844314944338447628u});
EXPECT_EQ(Hash64("\x38\xd6\xf7\x28\x20\xb4\x8a\xe9", 8, kSeed),
uint64_t{10973293517982163143u});
EXPECT_EQ(Hash64("\xbb\x18\x5d\xf4\x12\x03\xf7\x99", 8, kSeed),
uint64_t{9986007080564743219u});
EXPECT_EQ(Hash64("\x80\xd4\x3b\x3b\xae\x22\xa2\x78", 8, kSeed),
uint64_t{1729303145008254458u});
EXPECT_EQ(Hash64("\x1a\xb5\xd0\xfe\xab\xc3\x61\xb2\x99", 9, kSeed),
uint64_t{13253403748084181481u});
EXPECT_EQ(Hash64("\x8e\x4a\xc3\x18\x20\x2f\x06\xe6\x3c", 9, kSeed),
uint64_t{7768754303876232188u});
EXPECT_EQ(Hash64("\xb6\xc0\xdd\x05\x3f\xc4\x86\x4c\xef", 9, kSeed),
uint64_t{12439346786701492u});
EXPECT_EQ(Hash64("\x9a\x5f\x78\x0d\xaf\x50\xe1\x1f\x55", 9, kSeed),
uint64_t{10841838338450144690u});
EXPECT_EQ(Hash64("\x22\x6f\x39\x1f\xf8\xdd\x4f\x52\x17\x94", 10, kSeed),
uint64_t{12883919702069153152u});
EXPECT_EQ(Hash64("\x32\x89\x2a\x75\x48\x3a\x4a\x02\x69\xdd", 10, kSeed),
uint64_t{12692903507676842188u});
EXPECT_EQ(Hash64("\x06\x92\x5c\xf4\x88\x0e\x7e\x68\x38\x3e", 10, kSeed),
uint64_t{6540985900674032620u});
EXPECT_EQ(Hash64("\xbd\x2c\x63\x38\xbf\xe9\x78\xb7\xbf\x15", 10, kSeed),
uint64_t{10551812464348219044u});
}
std::string Hash64TestDescriptor(const char *repeat, size_t limit) {
const char *mod61_encode =
"abcdefghijklmnopqrstuvwxyz123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";
std::string input;
while (input.size() < limit) {
input.append(repeat);
}
std::string rv;
for (size_t i = 0; i < limit; ++i) {
uint64_t h = GetSliceHash64(Slice(input.data(), i));
rv.append(1, mod61_encode[static_cast<size_t>(h % 61)]);
}
return rv;
}
// XXH3p changes its algorithm for various sizes up through 250 bytes, so
// we need to check the stability of larger sizes also.
TEST(HashTest, Hash64LargeValueSchema) {
// Each of these derives a "descriptor" from the hash values for all
// lengths up to 430.
// Note that "c" is common for the zero-length string.
EXPECT_EQ(
Hash64TestDescriptor("foo", 430),
"cRhyWsY67B6klRA1udmOuiYuX7IthyGBKqbeosz2hzVglWCmQx8nEdnpkvPfYX56Up2OWOTV"
"lTzfAoYwvtqKzjD8E9xttR2unelbXbIV67NUe6bOO23BxaSFRcA3njGu5cUWfgwOqNoTsszp"
"uPvKRP6qaUR5VdoBkJUCFIefd7edlNK5mv6JYWaGdwxehg65hTkTmjZoPKxTZo4PLyzbL9U4"
"xt12ITSfeP2MfBHuLI2z2pDlBb44UQKVMx27LEoAHsdLp3WfWfgH3sdRBRCHm33UxCM4QmE2"
"xJ7gqSvNwTeH7v9GlC8zWbGroyD3UVNeShMLx29O7tH1biemLULwAHyIw8zdtLMDpEJ8m2ic"
"l6Lb4fDuuFNAs1GCVUthjK8CV8SWI8Rsz5THSwn5CGhpqUwSZcFknjwWIl5rNCvDxXJqYr");
// Note that "1EeRk" is common for "Rocks"
EXPECT_EQ(
Hash64TestDescriptor("Rocks", 430),
"c1EeRkrzgOYWLA8PuhJrwTePJewoB44WdXYDfhbk3ZxTqqg25WlPExDl7IKIQLJvnA6gJxxn"
"9TCSLkFGfJeXehaSS1GBqWSzfhEH4VXiXIUCuxJXxtKXcSC6FrNIQGTZbYDiUOLD6Y5inzrF"
"9etwQhXUBanw55xAUdNMFQAm2GjJ6UDWp2mISLiMMkLjANWMKLaZMqaFLX37qB4MRO1ooVRv"
"zSvaNRSCLxlggQCasQq8icWjzf3HjBlZtU6pd4rkaUxSzHqmo9oM5MghbU5Rtxg8wEfO7lVN"
"5wdMONYecslQTwjZUpO1K3LDf3K3XK6sUXM6ShQQ3RHmMn2acB4YtTZ3QQcHYJSOHn2DuWpa"
"Q8RqzX5lab92YmOLaCdOHq1BPsM7SIBzMdLgePNsJ1vvMALxAaoDUHPxoFLO2wx18IXnyX");
EXPECT_EQ(
Hash64TestDescriptor("RocksDB", 430),
"c1EeRkukbkb28wLTahwD2sfUhZzaBEnF8SVrxnPVB6A7b8CaAl3UKsDZISF92GSq2wDCukOq"
"Jgrsp7A3KZhDiLW8dFXp8UPqPxMCRlMdZeVeJ2dJxrmA6cyt99zkQFj7ELbut6jAeVqARFnw"
"fnWVXOsaLrq7bDCbMcns2DKvTaaqTCLMYxI7nhtLpFN1jR755FRQFcOzrrDbh7QhypjdvlYw"
"cdAMSZgp9JMHxbM23wPSuH6BOFgxejz35PScZfhDPvTOxIy1jc3MZsWrMC3P324zNolO7JdW"
"CX2I5UDKjjaEJfxbgVgJIXxtQGlmj2xkO5sPpjULQV4X2HlY7FQleJ4QRaJIB4buhCA4vUTF"
"eMFlxCIYUpTCsal2qsmnGOWa8WCcefrohMjDj1fjzSvSaQwlpyR1GZHF2uPOoQagiCpHpm");
}
TEST(FastRange32Test, Values) {
using ROCKSDB_NAMESPACE::FastRange32;
// Zero range
EXPECT_EQ(FastRange32(0, 0), 0U);
EXPECT_EQ(FastRange32(123, 0), 0U);
EXPECT_EQ(FastRange32(0xffffffff, 0), 0U);
// One range
EXPECT_EQ(FastRange32(0, 1), 0U);
EXPECT_EQ(FastRange32(123, 1), 0U);
EXPECT_EQ(FastRange32(0xffffffff, 1), 0U);
// Two range
EXPECT_EQ(FastRange32(0, 2), 0U);
EXPECT_EQ(FastRange32(123, 2), 0U);
EXPECT_EQ(FastRange32(0x7fffffff, 2), 0U);
EXPECT_EQ(FastRange32(0x80000000, 2), 1U);
EXPECT_EQ(FastRange32(0xffffffff, 2), 1U);
// Seven range
EXPECT_EQ(FastRange32(0, 7), 0U);
EXPECT_EQ(FastRange32(123, 7), 0U);
EXPECT_EQ(FastRange32(613566756, 7), 0U);
EXPECT_EQ(FastRange32(613566757, 7), 1U);
EXPECT_EQ(FastRange32(1227133513, 7), 1U);
EXPECT_EQ(FastRange32(1227133514, 7), 2U);
// etc.
EXPECT_EQ(FastRange32(0xffffffff, 7), 6U);
// Big
EXPECT_EQ(FastRange32(1, 0x80000000), 0U);
EXPECT_EQ(FastRange32(2, 0x80000000), 1U);
EXPECT_EQ(FastRange32(4, 0x7fffffff), 1U);
EXPECT_EQ(FastRange32(4, 0x80000000), 2U);
EXPECT_EQ(FastRange32(0xffffffff, 0x7fffffff), 0x7ffffffeU);
EXPECT_EQ(FastRange32(0xffffffff, 0x80000000), 0x7fffffffU);
}
TEST(FastRange64Test, Values) {
using ROCKSDB_NAMESPACE::FastRange64;
// Zero range
EXPECT_EQ(FastRange64(0, 0), 0U);
EXPECT_EQ(FastRange64(123, 0), 0U);
EXPECT_EQ(FastRange64(0xffffFFFF, 0), 0U);
EXPECT_EQ(FastRange64(0xffffFFFFffffFFFF, 0), 0U);
// One range
EXPECT_EQ(FastRange64(0, 1), 0U);
EXPECT_EQ(FastRange64(123, 1), 0U);
EXPECT_EQ(FastRange64(0xffffFFFF, 1), 0U);
EXPECT_EQ(FastRange64(0xffffFFFFffffFFFF, 1), 0U);
// Two range
EXPECT_EQ(FastRange64(0, 2), 0U);
EXPECT_EQ(FastRange64(123, 2), 0U);
EXPECT_EQ(FastRange64(0xffffFFFF, 2), 0U);
EXPECT_EQ(FastRange64(0x7fffFFFFffffFFFF, 2), 0U);
EXPECT_EQ(FastRange64(0x8000000000000000, 2), 1U);
EXPECT_EQ(FastRange64(0xffffFFFFffffFFFF, 2), 1U);
// Seven range
EXPECT_EQ(FastRange64(0, 7), 0U);
EXPECT_EQ(FastRange64(123, 7), 0U);
EXPECT_EQ(FastRange64(0xffffFFFF, 7), 0U);
EXPECT_EQ(FastRange64(2635249153387078802, 7), 0U);
EXPECT_EQ(FastRange64(2635249153387078803, 7), 1U);
EXPECT_EQ(FastRange64(5270498306774157604, 7), 1U);
EXPECT_EQ(FastRange64(5270498306774157605, 7), 2U);
EXPECT_EQ(FastRange64(0x7fffFFFFffffFFFF, 7), 3U);
EXPECT_EQ(FastRange64(0x8000000000000000, 7), 3U);
EXPECT_EQ(FastRange64(0xffffFFFFffffFFFF, 7), 6U);
// Big but 32-bit range
EXPECT_EQ(FastRange64(0x100000000, 0x80000000), 0U);
EXPECT_EQ(FastRange64(0x200000000, 0x80000000), 1U);
EXPECT_EQ(FastRange64(0x400000000, 0x7fffFFFF), 1U);
EXPECT_EQ(FastRange64(0x400000000, 0x80000000), 2U);
EXPECT_EQ(FastRange64(0xffffFFFFffffFFFF, 0x7fffFFFF), 0x7fffFFFEU);
EXPECT_EQ(FastRange64(0xffffFFFFffffFFFF, 0x80000000), 0x7fffFFFFU);
// Big, > 32-bit range
#if SIZE_MAX == UINT64_MAX
EXPECT_EQ(FastRange64(0x7fffFFFFffffFFFF, 0x4200000002), 0x2100000000U);
EXPECT_EQ(FastRange64(0x8000000000000000, 0x4200000002), 0x2100000001U);
EXPECT_EQ(FastRange64(0x0000000000000000, 420000000002), 0U);
EXPECT_EQ(FastRange64(0x7fffFFFFffffFFFF, 420000000002), 210000000000U);
EXPECT_EQ(FastRange64(0x8000000000000000, 420000000002), 210000000001U);
EXPECT_EQ(FastRange64(0xffffFFFFffffFFFF, 420000000002), 420000000001U);
EXPECT_EQ(FastRange64(0xffffFFFFffffFFFF, 0xffffFFFFffffFFFF),
0xffffFFFFffffFFFEU);
#endif
}
TEST(FastRangeGenericTest, Values) {
using ROCKSDB_NAMESPACE::FastRangeGeneric;
// Generic (including big and small)
// Note that FastRangeGeneric is also tested indirectly above via
// FastRange32 and FastRange64.
EXPECT_EQ(
FastRangeGeneric(uint64_t{0x8000000000000000}, uint64_t{420000000002}),
uint64_t{210000000001});
EXPECT_EQ(FastRangeGeneric(uint64_t{0x8000000000000000}, uint16_t{12468}),
uint16_t{6234});
EXPECT_EQ(FastRangeGeneric(uint32_t{0x80000000}, uint16_t{12468}),
uint16_t{6234});
// Not recommended for typical use because for example this could fail on
// some platforms and pass on others:
//EXPECT_EQ(FastRangeGeneric(static_cast<unsigned long>(0x80000000),
// uint16_t{12468}),
// uint16_t{6234});
}
// for inspection of disassembly
uint32_t FastRange32(uint32_t hash, uint32_t range) {
return ROCKSDB_NAMESPACE::FastRange32(hash, range);
}
// for inspection of disassembly
size_t FastRange64(uint64_t hash, size_t range) {
return ROCKSDB_NAMESPACE::FastRange64(hash, range);
}
// Tests for math.h / math128.h (not worth a separate test binary)
using ROCKSDB_NAMESPACE::BitParity;
using ROCKSDB_NAMESPACE::BitsSetToOne;
using ROCKSDB_NAMESPACE::CountTrailingZeroBits;
using ROCKSDB_NAMESPACE::DecodeFixed128;
using ROCKSDB_NAMESPACE::DecodeFixedGeneric;
using ROCKSDB_NAMESPACE::EncodeFixed128;
using ROCKSDB_NAMESPACE::EncodeFixedGeneric;
using ROCKSDB_NAMESPACE::FloorLog2;
using ROCKSDB_NAMESPACE::Lower64of128;
using ROCKSDB_NAMESPACE::Multiply64to128;
using ROCKSDB_NAMESPACE::Unsigned128;
using ROCKSDB_NAMESPACE::Upper64of128;
template <typename T>
static void test_BitOps() {
// This complex code is to generalize to 128-bit values. Otherwise
// we could just use = static_cast<T>(0x5555555555555555ULL);
T everyOtherBit = 0;
for (unsigned i = 0; i < sizeof(T); ++i) {
everyOtherBit = (everyOtherBit << 8) | T{0x55};
}
// This one built using bit operations, as our 128-bit layer
// might not implement arithmetic such as subtraction.
T vm1 = 0; // "v minus one"
for (int i = 0; i < int{8 * sizeof(T)}; ++i) {
T v = T{1} << i;
// If we could directly use arithmetic:
// T vm1 = static_cast<T>(v - 1);
// FloorLog2
if (v > 0) {
EXPECT_EQ(FloorLog2(v), i);
}
if (vm1 > 0) {
EXPECT_EQ(FloorLog2(vm1), i - 1);
EXPECT_EQ(FloorLog2(everyOtherBit & vm1), (i - 1) & ~1);
}
// CountTrailingZeroBits
if (v != 0) {
EXPECT_EQ(CountTrailingZeroBits(v), i);
}
if (vm1 != 0) {
EXPECT_EQ(CountTrailingZeroBits(vm1), 0);
}
if (i < int{8 * sizeof(T)} - 1) {
EXPECT_EQ(CountTrailingZeroBits(~vm1 & everyOtherBit), (i + 1) & ~1);
}
// BitsSetToOne
EXPECT_EQ(BitsSetToOne(v), 1);
EXPECT_EQ(BitsSetToOne(vm1), i);
EXPECT_EQ(BitsSetToOne(vm1 & everyOtherBit), (i + 1) / 2);
// BitParity
EXPECT_EQ(BitParity(v), 1);
EXPECT_EQ(BitParity(vm1), i & 1);
EXPECT_EQ(BitParity(vm1 & everyOtherBit), ((i + 1) / 2) & 1);
vm1 = (vm1 << 1) | 1;
}
}
TEST(MathTest, BitOps) {
test_BitOps<uint32_t>();
test_BitOps<uint64_t>();
test_BitOps<uint16_t>();
test_BitOps<uint8_t>();
test_BitOps<unsigned char>();
test_BitOps<unsigned short>();
test_BitOps<unsigned int>();
test_BitOps<unsigned long>();
test_BitOps<unsigned long long>();
test_BitOps<char>();
test_BitOps<size_t>();
test_BitOps<int32_t>();
test_BitOps<int64_t>();
test_BitOps<int16_t>();
test_BitOps<int8_t>();
test_BitOps<signed char>();
test_BitOps<short>();
test_BitOps<int>();
test_BitOps<long>();
test_BitOps<long long>();
test_BitOps<ptrdiff_t>();
}
TEST(MathTest, BitOps128) { test_BitOps<Unsigned128>(); }
TEST(MathTest, Math128) {
const Unsigned128 sixteenHexOnes = 0x1111111111111111U;
const Unsigned128 thirtyHexOnes = (sixteenHexOnes << 56) | sixteenHexOnes;
const Unsigned128 sixteenHexTwos = 0x2222222222222222U;
const Unsigned128 thirtyHexTwos = (sixteenHexTwos << 56) | sixteenHexTwos;
// v will slide from all hex ones to all hex twos
Unsigned128 v = thirtyHexOnes;
for (int i = 0; i <= 30; ++i) {
// Test bitwise operations
EXPECT_EQ(BitsSetToOne(v), 30);
EXPECT_EQ(BitsSetToOne(~v), 128 - 30);
EXPECT_EQ(BitsSetToOne(v & thirtyHexOnes), 30 - i);
EXPECT_EQ(BitsSetToOne(v | thirtyHexOnes), 30 + i);
EXPECT_EQ(BitsSetToOne(v ^ thirtyHexOnes), 2 * i);
EXPECT_EQ(BitsSetToOne(v & thirtyHexTwos), i);
EXPECT_EQ(BitsSetToOne(v | thirtyHexTwos), 60 - i);
EXPECT_EQ(BitsSetToOne(v ^ thirtyHexTwos), 60 - 2 * i);
// Test comparisons
EXPECT_EQ(v == thirtyHexOnes, i == 0);
EXPECT_EQ(v == thirtyHexTwos, i == 30);
EXPECT_EQ(v > thirtyHexOnes, i > 0);
EXPECT_EQ(v > thirtyHexTwos, false);
EXPECT_EQ(v >= thirtyHexOnes, true);
EXPECT_EQ(v >= thirtyHexTwos, i == 30);
EXPECT_EQ(v < thirtyHexOnes, false);
EXPECT_EQ(v < thirtyHexTwos, i < 30);
EXPECT_EQ(v <= thirtyHexOnes, i == 0);
EXPECT_EQ(v <= thirtyHexTwos, true);
// Update v, clearing upper-most byte
v = ((v << 12) >> 8) | 0x2;
}
for (int i = 0; i < 128; ++i) {
// Test shifts
Unsigned128 sl = thirtyHexOnes << i;
Unsigned128 sr = thirtyHexOnes >> i;
EXPECT_EQ(BitsSetToOne(sl), std::min(30, 32 - i / 4));
EXPECT_EQ(BitsSetToOne(sr), std::max(0, 30 - (i + 3) / 4));
EXPECT_EQ(BitsSetToOne(sl & sr), i % 2 ? 0 : std::max(0, 30 - i / 2));
}
// Test 64x64->128 multiply
Unsigned128 product =
Multiply64to128(0x1111111111111111U, 0x2222222222222222U);
EXPECT_EQ(Lower64of128(product), 2295594818061633090U);
EXPECT_EQ(Upper64of128(product), 163971058432973792U);
}
TEST(MathTest, Coding128) {
const char *in = "_1234567890123456";
// Note: in + 1 is likely unaligned
Unsigned128 decoded = DecodeFixed128(in + 1);
EXPECT_EQ(Lower64of128(decoded), 0x3837363534333231U);
EXPECT_EQ(Upper64of128(decoded), 0x3635343332313039U);
char out[18];
out[0] = '_';
EncodeFixed128(out + 1, decoded);
out[17] = '\0';
EXPECT_EQ(std::string(in), std::string(out));
}
TEST(MathTest, CodingGeneric) {
const char *in = "_1234567890123456";
// Decode
// Note: in + 1 is likely unaligned
Unsigned128 decoded128 = DecodeFixedGeneric<Unsigned128>(in + 1);
EXPECT_EQ(Lower64of128(decoded128), 0x3837363534333231U);
EXPECT_EQ(Upper64of128(decoded128), 0x3635343332313039U);
uint64_t decoded64 = DecodeFixedGeneric<uint64_t>(in + 1);
EXPECT_EQ(decoded64, 0x3837363534333231U);
uint32_t decoded32 = DecodeFixedGeneric<uint32_t>(in + 1);
EXPECT_EQ(decoded32, 0x34333231U);
uint16_t decoded16 = DecodeFixedGeneric<uint16_t>(in + 1);
EXPECT_EQ(decoded16, 0x3231U);
// Encode
char out[18];
out[0] = '_';
memset(out + 1, '\0', 17);
EncodeFixedGeneric(out + 1, decoded128);
EXPECT_EQ(std::string(in), std::string(out));
memset(out + 1, '\0', 9);
EncodeFixedGeneric(out + 1, decoded64);
EXPECT_EQ(std::string("_12345678"), std::string(out));
memset(out + 1, '\0', 5);
EncodeFixedGeneric(out + 1, decoded32);
EXPECT_EQ(std::string("_1234"), std::string(out));
memset(out + 1, '\0', 3);
EncodeFixedGeneric(out + 1, decoded16);
EXPECT_EQ(std::string("_12"), std::string(out));
}
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}