third_party_spirv-tools/test/move_to_front_test.cpp
dan sinclair 5fc011b453
Move bit_stream, move_to_front and huffman_codec. (#1833)
bit_stream, move_to_front and huffman_codec are only used by
source/tools. Move into that directory to make the usage clearer.
2018-08-14 09:52:05 -04:00

829 lines
20 KiB
C++

// Copyright (c) 2017 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <algorithm>
#include <iostream>
#include <set>
#include <string>
#include <vector>
#include "gmock/gmock.h"
#include "source/comp/move_to_front.h"
namespace spvtools {
namespace comp {
namespace {
// Class used to test the inner workings of MoveToFront.
class MoveToFrontTester : public MoveToFront {
public:
// Inserts the value in the internal tree data structure. For testing only.
void TestInsert(uint32_t val) { InsertNode(CreateNode(val, val)); }
// Removes the value from the internal tree data structure. For testing only.
void TestRemove(uint32_t val) {
const auto it = value_to_node_.find(val);
assert(it != value_to_node_.end());
RemoveNode(it->second);
}
// Prints the internal tree data structure to |out|. For testing only.
void PrintTree(std::ostream& out, bool print_timestamp = false) const {
if (root_) PrintTreeInternal(out, root_, 1, print_timestamp);
}
// Returns node handle corresponding to the value. The value may not be in the
// tree.
uint32_t GetNodeHandle(uint32_t value) const {
const auto it = value_to_node_.find(value);
if (it == value_to_node_.end()) return 0;
return it->second;
}
// Returns total node count (both those in the tree and removed,
// but not the NIL singleton).
size_t GetTotalNodeCount() const {
assert(nodes_.size());
return nodes_.size() - 1;
}
uint32_t GetLastAccessedValue() const { return last_accessed_value_; }
private:
// Prints the internal tree data structure for debug purposes in the following
// format:
// 10H3S4----5H1S1-----D2
// 15H2S2----12H1S1----D3
// Right links are horizontal, left links step down one line.
// 5H1S1 is read as value 5, height 1, size 1. Optionally node label can also
// contain timestamp (5H1S1T15). D3 stands for depth 3.
void PrintTreeInternal(std::ostream& out, uint32_t node, size_t depth,
bool print_timestamp) const;
};
void MoveToFrontTester::PrintTreeInternal(std::ostream& out, uint32_t node,
size_t depth,
bool print_timestamp) const {
if (!node) {
out << "D" << depth - 1 << std::endl;
return;
}
const size_t kTextFieldWvaluethWithoutTimestamp = 10;
const size_t kTextFieldWvaluethWithTimestamp = 14;
const size_t text_field_wvalueth = print_timestamp
? kTextFieldWvaluethWithTimestamp
: kTextFieldWvaluethWithoutTimestamp;
std::stringstream label;
label << ValueOf(node) << "H" << HeightOf(node) << "S" << SizeOf(node);
if (print_timestamp) label << "T" << TimestampOf(node);
const size_t label_length = label.str().length();
if (label_length < text_field_wvalueth)
label << std::string(text_field_wvalueth - label_length, '-');
out << label.str();
PrintTreeInternal(out, RightOf(node), depth + 1, print_timestamp);
if (LeftOf(node)) {
out << std::string(depth * text_field_wvalueth, ' ');
PrintTreeInternal(out, LeftOf(node), depth + 1, print_timestamp);
}
}
void CheckTree(const MoveToFrontTester& mtf, const std::string& expected,
bool print_timestamp = false) {
std::stringstream ss;
mtf.PrintTree(ss, print_timestamp);
EXPECT_EQ(expected, ss.str());
}
TEST(MoveToFront, EmptyTree) {
MoveToFrontTester mtf;
CheckTree(mtf, std::string());
}
TEST(MoveToFront, InsertLeftRotation) {
MoveToFrontTester mtf;
mtf.TestInsert(30);
mtf.TestInsert(20);
CheckTree(mtf, std::string(R"(
30H2S2----20H1S1----D2
)")
.substr(1));
mtf.TestInsert(10);
CheckTree(mtf, std::string(R"(
20H2S3----10H1S1----D2
30H1S1----D2
)")
.substr(1));
}
TEST(MoveToFront, InsertRightRotation) {
MoveToFrontTester mtf;
mtf.TestInsert(10);
mtf.TestInsert(20);
CheckTree(mtf, std::string(R"(
10H2S2----D1
20H1S1----D2
)")
.substr(1));
mtf.TestInsert(30);
CheckTree(mtf, std::string(R"(
20H2S3----10H1S1----D2
30H1S1----D2
)")
.substr(1));
}
TEST(MoveToFront, InsertRightLeftRotation) {
MoveToFrontTester mtf;
mtf.TestInsert(30);
mtf.TestInsert(20);
CheckTree(mtf, std::string(R"(
30H2S2----20H1S1----D2
)")
.substr(1));
mtf.TestInsert(25);
CheckTree(mtf, std::string(R"(
25H2S3----20H1S1----D2
30H1S1----D2
)")
.substr(1));
}
TEST(MoveToFront, InsertLeftRightRotation) {
MoveToFrontTester mtf;
mtf.TestInsert(10);
mtf.TestInsert(20);
CheckTree(mtf, std::string(R"(
10H2S2----D1
20H1S1----D2
)")
.substr(1));
mtf.TestInsert(15);
CheckTree(mtf, std::string(R"(
15H2S3----10H1S1----D2
20H1S1----D2
)")
.substr(1));
}
TEST(MoveToFront, RemoveSingleton) {
MoveToFrontTester mtf;
mtf.TestInsert(10);
CheckTree(mtf, std::string(R"(
10H1S1----D1
)")
.substr(1));
mtf.TestRemove(10);
CheckTree(mtf, "");
}
TEST(MoveToFront, RemoveRootWithScapegoat) {
MoveToFrontTester mtf;
mtf.TestInsert(10);
mtf.TestInsert(5);
mtf.TestInsert(15);
CheckTree(mtf, std::string(R"(
10H2S3----5H1S1-----D2
15H1S1----D2
)")
.substr(1));
mtf.TestRemove(10);
CheckTree(mtf, std::string(R"(
15H2S2----5H1S1-----D2
)")
.substr(1));
}
TEST(MoveToFront, RemoveRightRotation) {
MoveToFrontTester mtf;
mtf.TestInsert(10);
mtf.TestInsert(5);
mtf.TestInsert(15);
mtf.TestInsert(20);
CheckTree(mtf, std::string(R"(
10H3S4----5H1S1-----D2
15H2S2----D2
20H1S1----D3
)")
.substr(1));
mtf.TestRemove(5);
CheckTree(mtf, std::string(R"(
15H2S3----10H1S1----D2
20H1S1----D2
)")
.substr(1));
}
TEST(MoveToFront, RemoveLeftRotation) {
MoveToFrontTester mtf;
mtf.TestInsert(10);
mtf.TestInsert(15);
mtf.TestInsert(5);
mtf.TestInsert(1);
CheckTree(mtf, std::string(R"(
10H3S4----5H2S2-----1H1S1-----D3
15H1S1----D2
)")
.substr(1));
mtf.TestRemove(15);
CheckTree(mtf, std::string(R"(
5H2S3-----1H1S1-----D2
10H1S1----D2
)")
.substr(1));
}
TEST(MoveToFront, RemoveLeftRightRotation) {
MoveToFrontTester mtf;
mtf.TestInsert(10);
mtf.TestInsert(15);
mtf.TestInsert(5);
mtf.TestInsert(12);
CheckTree(mtf, std::string(R"(
10H3S4----5H1S1-----D2
15H2S2----12H1S1----D3
)")
.substr(1));
mtf.TestRemove(5);
CheckTree(mtf, std::string(R"(
12H2S3----10H1S1----D2
15H1S1----D2
)")
.substr(1));
}
TEST(MoveToFront, RemoveRightLeftRotation) {
MoveToFrontTester mtf;
mtf.TestInsert(10);
mtf.TestInsert(15);
mtf.TestInsert(5);
mtf.TestInsert(8);
CheckTree(mtf, std::string(R"(
10H3S4----5H2S2-----D2
8H1S1-----D3
15H1S1----D2
)")
.substr(1));
mtf.TestRemove(15);
CheckTree(mtf, std::string(R"(
8H2S3-----5H1S1-----D2
10H1S1----D2
)")
.substr(1));
}
TEST(MoveToFront, MultipleOperations) {
MoveToFrontTester mtf;
std::vector<uint32_t> vals = {5, 11, 12, 16, 15, 6, 14, 2,
7, 10, 4, 8, 9, 3, 1, 13};
for (uint32_t i : vals) {
mtf.TestInsert(i);
}
CheckTree(mtf, std::string(R"(
11H5S16---5H4S10----3H3S4-----2H2S2-----1H1S1-----D5
4H1S1-----D4
7H3S5-----6H1S1-----D4
9H2S3-----8H1S1-----D5
10H1S1----D5
15H3S5----13H2S3----12H1S1----D4
14H1S1----D4
16H1S1----D3
)")
.substr(1));
mtf.TestRemove(11);
CheckTree(mtf, std::string(R"(
10H5S15---5H4S9-----3H3S4-----2H2S2-----1H1S1-----D5
4H1S1-----D4
7H3S4-----6H1S1-----D4
9H2S2-----8H1S1-----D5
15H3S5----13H2S3----12H1S1----D4
14H1S1----D4
16H1S1----D3
)")
.substr(1));
mtf.TestInsert(11);
CheckTree(mtf, std::string(R"(
10H5S16---5H4S9-----3H3S4-----2H2S2-----1H1S1-----D5
4H1S1-----D4
7H3S4-----6H1S1-----D4
9H2S2-----8H1S1-----D5
13H3S6----12H2S2----11H1S1----D4
15H2S3----14H1S1----D4
16H1S1----D4
)")
.substr(1));
mtf.TestRemove(5);
CheckTree(mtf, std::string(R"(
10H5S15---6H4S8-----3H3S4-----2H2S2-----1H1S1-----D5
4H1S1-----D4
8H2S3-----7H1S1-----D4
9H1S1-----D4
13H3S6----12H2S2----11H1S1----D4
15H2S3----14H1S1----D4
16H1S1----D4
)")
.substr(1));
mtf.TestInsert(5);
CheckTree(mtf, std::string(R"(
10H5S16---6H4S9-----3H3S5-----2H2S2-----1H1S1-----D5
4H2S2-----D4
5H1S1-----D5
8H2S3-----7H1S1-----D4
9H1S1-----D4
13H3S6----12H2S2----11H1S1----D4
15H2S3----14H1S1----D4
16H1S1----D4
)")
.substr(1));
mtf.TestRemove(2);
mtf.TestRemove(1);
mtf.TestRemove(4);
mtf.TestRemove(3);
mtf.TestRemove(6);
mtf.TestRemove(5);
mtf.TestRemove(7);
mtf.TestRemove(9);
CheckTree(mtf, std::string(R"(
13H4S8----10H3S4----8H1S1-----D3
12H2S2----11H1S1----D4
15H2S3----14H1S1----D3
16H1S1----D3
)")
.substr(1));
}
TEST(MoveToFront, BiggerScaleTreeTest) {
MoveToFrontTester mtf;
std::set<uint32_t> all_vals;
const uint32_t kMagic1 = 2654435761;
const uint32_t kMagic2 = 10000;
for (uint32_t i = 1; i < 1000; ++i) {
const uint32_t val = (i * kMagic1) % kMagic2;
if (!all_vals.count(val)) {
mtf.TestInsert(val);
all_vals.insert(val);
}
}
for (uint32_t i = 1; i < 1000; ++i) {
const uint32_t val = (i * kMagic1) % kMagic2;
if (val % 2 == 0) {
mtf.TestRemove(val);
all_vals.erase(val);
}
}
for (uint32_t i = 1000; i < 2000; ++i) {
const uint32_t val = (i * kMagic1) % kMagic2;
if (!all_vals.count(val)) {
mtf.TestInsert(val);
all_vals.insert(val);
}
}
for (uint32_t i = 1; i < 2000; ++i) {
const uint32_t val = (i * kMagic1) % kMagic2;
if (val > 50) {
mtf.TestRemove(val);
all_vals.erase(val);
}
}
EXPECT_EQ(all_vals, std::set<uint32_t>({2, 4, 11, 13, 24, 33, 35, 37, 46}));
CheckTree(mtf, std::string(R"(
33H4S9----11H3S5----2H2S2-----D3
4H1S1-----D4
13H2S2----D3
24H1S1----D4
37H2S3----35H1S1----D3
46H1S1----D3
)")
.substr(1));
}
TEST(MoveToFront, RankFromValue) {
MoveToFrontTester mtf;
uint32_t rank = 0;
EXPECT_FALSE(mtf.RankFromValue(1, &rank));
EXPECT_TRUE(mtf.Insert(1));
EXPECT_TRUE(mtf.Insert(2));
EXPECT_TRUE(mtf.Insert(3));
EXPECT_FALSE(mtf.Insert(2));
CheckTree(mtf,
std::string(R"(
2H2S3T2-------1H1S1T1-------D2
3H1S1T3-------D2
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_FALSE(mtf.RankFromValue(4, &rank));
EXPECT_TRUE(mtf.RankFromValue(1, &rank));
EXPECT_EQ(3u, rank);
CheckTree(mtf,
std::string(R"(
3H2S3T3-------2H1S1T2-------D2
1H1S1T4-------D2
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_TRUE(mtf.RankFromValue(1, &rank));
EXPECT_EQ(1u, rank);
EXPECT_TRUE(mtf.RankFromValue(3, &rank));
EXPECT_EQ(2u, rank);
EXPECT_TRUE(mtf.RankFromValue(2, &rank));
EXPECT_EQ(3u, rank);
EXPECT_TRUE(mtf.Insert(40));
EXPECT_TRUE(mtf.RankFromValue(1, &rank));
EXPECT_EQ(4u, rank);
EXPECT_TRUE(mtf.Insert(50));
EXPECT_TRUE(mtf.RankFromValue(1, &rank));
EXPECT_EQ(2u, rank);
CheckTree(mtf,
std::string(R"(
2H3S5T6-------3H1S1T5-------D2
50H2S3T9------40H1S1T7------D3
1H1S1T10------D3
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_TRUE(mtf.RankFromValue(50, &rank));
EXPECT_EQ(2u, rank);
EXPECT_EQ(5u, mtf.GetSize());
CheckTree(mtf,
std::string(R"(
2H3S5T6-------3H1S1T5-------D2
1H2S3T10------40H1S1T7------D3
50H1S1T11-----D3
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_FALSE(mtf.RankFromValue(0, &rank));
EXPECT_FALSE(mtf.RankFromValue(20, &rank));
}
TEST(MoveToFront, ValueFromRank) {
MoveToFrontTester mtf;
uint32_t value = 0;
EXPECT_FALSE(mtf.ValueFromRank(0, &value));
EXPECT_FALSE(mtf.ValueFromRank(1, &value));
EXPECT_TRUE(mtf.Insert(1));
EXPECT_EQ(1u, mtf.GetLastAccessedValue());
EXPECT_TRUE(mtf.Insert(2));
EXPECT_EQ(2u, mtf.GetLastAccessedValue());
EXPECT_TRUE(mtf.Insert(3));
EXPECT_EQ(3u, mtf.GetLastAccessedValue());
EXPECT_TRUE(mtf.ValueFromRank(3, &value));
EXPECT_EQ(1u, value);
EXPECT_EQ(1u, mtf.GetLastAccessedValue());
EXPECT_TRUE(mtf.ValueFromRank(1, &value));
EXPECT_EQ(1u, value);
EXPECT_EQ(1u, mtf.GetLastAccessedValue());
CheckTree(mtf,
std::string(R"(
3H2S3T3-------2H1S1T2-------D2
1H1S1T4-------D2
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_TRUE(mtf.ValueFromRank(2, &value));
EXPECT_EQ(3u, value);
EXPECT_EQ(3u, mtf.GetSize());
CheckTree(mtf,
std::string(R"(
1H2S3T4-------2H1S1T2-------D2
3H1S1T5-------D2
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_TRUE(mtf.ValueFromRank(3, &value));
EXPECT_EQ(2u, value);
CheckTree(mtf,
std::string(R"(
3H2S3T5-------1H1S1T4-------D2
2H1S1T6-------D2
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_TRUE(mtf.Insert(10));
CheckTree(mtf,
std::string(R"(
3H3S4T5-------1H1S1T4-------D2
2H2S2T6-------D2
10H1S1T7------D3
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_TRUE(mtf.ValueFromRank(1, &value));
EXPECT_EQ(10u, value);
}
TEST(MoveToFront, Remove) {
MoveToFrontTester mtf;
EXPECT_FALSE(mtf.Remove(1));
EXPECT_EQ(0u, mtf.GetTotalNodeCount());
EXPECT_TRUE(mtf.Insert(1));
EXPECT_TRUE(mtf.Insert(2));
EXPECT_TRUE(mtf.Insert(3));
CheckTree(mtf,
std::string(R"(
2H2S3T2-------1H1S1T1-------D2
3H1S1T3-------D2
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_EQ(1u, mtf.GetNodeHandle(1));
EXPECT_EQ(3u, mtf.GetTotalNodeCount());
EXPECT_TRUE(mtf.Remove(1));
EXPECT_EQ(3u, mtf.GetTotalNodeCount());
CheckTree(mtf,
std::string(R"(
2H2S2T2-------D1
3H1S1T3-------D2
)")
.substr(1),
/* print_timestamp = */ true);
uint32_t value = 0;
EXPECT_TRUE(mtf.ValueFromRank(2, &value));
EXPECT_EQ(2u, value);
CheckTree(mtf,
std::string(R"(
3H2S2T3-------D1
2H1S1T4-------D2
)")
.substr(1),
/* print_timestamp = */ true);
EXPECT_TRUE(mtf.Insert(1));
EXPECT_EQ(1u, mtf.GetNodeHandle(1));
EXPECT_EQ(3u, mtf.GetTotalNodeCount());
}
TEST(MoveToFront, LargerScale) {
MoveToFrontTester mtf;
uint32_t value = 0;
uint32_t rank = 0;
for (uint32_t i = 1; i < 1000; ++i) {
ASSERT_TRUE(mtf.Insert(i));
ASSERT_EQ(i, mtf.GetSize());
ASSERT_TRUE(mtf.RankFromValue(i, &rank));
ASSERT_EQ(1u, rank);
ASSERT_TRUE(mtf.ValueFromRank(1, &value));
ASSERT_EQ(i, value);
}
ASSERT_TRUE(mtf.ValueFromRank(999, &value));
ASSERT_EQ(1u, value);
ASSERT_TRUE(mtf.ValueFromRank(999, &value));
ASSERT_EQ(2u, value);
ASSERT_TRUE(mtf.ValueFromRank(999, &value));
ASSERT_EQ(3u, value);
ASSERT_TRUE(mtf.ValueFromRank(999, &value));
ASSERT_EQ(4u, value);
ASSERT_TRUE(mtf.ValueFromRank(999, &value));
ASSERT_EQ(5u, value);
ASSERT_TRUE(mtf.ValueFromRank(999, &value));
ASSERT_EQ(6u, value);
ASSERT_TRUE(mtf.ValueFromRank(101, &value));
ASSERT_EQ(905u, value);
ASSERT_TRUE(mtf.ValueFromRank(101, &value));
ASSERT_EQ(906u, value);
ASSERT_TRUE(mtf.ValueFromRank(101, &value));
ASSERT_EQ(907u, value);
ASSERT_TRUE(mtf.ValueFromRank(201, &value));
ASSERT_EQ(805u, value);
ASSERT_TRUE(mtf.ValueFromRank(201, &value));
ASSERT_EQ(806u, value);
ASSERT_TRUE(mtf.ValueFromRank(201, &value));
ASSERT_EQ(807u, value);
ASSERT_TRUE(mtf.ValueFromRank(301, &value));
ASSERT_EQ(705u, value);
ASSERT_TRUE(mtf.ValueFromRank(301, &value));
ASSERT_EQ(706u, value);
ASSERT_TRUE(mtf.ValueFromRank(301, &value));
ASSERT_EQ(707u, value);
ASSERT_TRUE(mtf.RankFromValue(605, &rank));
ASSERT_EQ(401u, rank);
ASSERT_TRUE(mtf.RankFromValue(606, &rank));
ASSERT_EQ(401u, rank);
ASSERT_TRUE(mtf.RankFromValue(607, &rank));
ASSERT_EQ(401u, rank);
ASSERT_TRUE(mtf.ValueFromRank(1, &value));
ASSERT_EQ(607u, value);
ASSERT_TRUE(mtf.ValueFromRank(2, &value));
ASSERT_EQ(606u, value);
ASSERT_TRUE(mtf.ValueFromRank(3, &value));
ASSERT_EQ(605u, value);
ASSERT_TRUE(mtf.ValueFromRank(4, &value));
ASSERT_EQ(707u, value);
ASSERT_TRUE(mtf.ValueFromRank(5, &value));
ASSERT_EQ(706u, value);
ASSERT_TRUE(mtf.ValueFromRank(6, &value));
ASSERT_EQ(705u, value);
ASSERT_TRUE(mtf.ValueFromRank(7, &value));
ASSERT_EQ(807u, value);
ASSERT_TRUE(mtf.ValueFromRank(8, &value));
ASSERT_EQ(806u, value);
ASSERT_TRUE(mtf.ValueFromRank(9, &value));
ASSERT_EQ(805u, value);
ASSERT_TRUE(mtf.ValueFromRank(10, &value));
ASSERT_EQ(907u, value);
ASSERT_TRUE(mtf.ValueFromRank(11, &value));
ASSERT_EQ(906u, value);
ASSERT_TRUE(mtf.ValueFromRank(12, &value));
ASSERT_EQ(905u, value);
ASSERT_TRUE(mtf.ValueFromRank(13, &value));
ASSERT_EQ(6u, value);
ASSERT_TRUE(mtf.ValueFromRank(14, &value));
ASSERT_EQ(5u, value);
ASSERT_TRUE(mtf.ValueFromRank(15, &value));
ASSERT_EQ(4u, value);
ASSERT_TRUE(mtf.ValueFromRank(16, &value));
ASSERT_EQ(3u, value);
ASSERT_TRUE(mtf.ValueFromRank(17, &value));
ASSERT_EQ(2u, value);
ASSERT_TRUE(mtf.ValueFromRank(18, &value));
ASSERT_EQ(1u, value);
ASSERT_TRUE(mtf.ValueFromRank(19, &value));
ASSERT_EQ(999u, value);
ASSERT_TRUE(mtf.ValueFromRank(20, &value));
ASSERT_EQ(998u, value);
ASSERT_TRUE(mtf.ValueFromRank(21, &value));
ASSERT_EQ(997u, value);
ASSERT_TRUE(mtf.RankFromValue(997, &rank));
ASSERT_EQ(1u, rank);
ASSERT_TRUE(mtf.RankFromValue(998, &rank));
ASSERT_EQ(2u, rank);
ASSERT_TRUE(mtf.RankFromValue(996, &rank));
ASSERT_EQ(22u, rank);
ASSERT_TRUE(mtf.Remove(995));
ASSERT_TRUE(mtf.RankFromValue(994, &rank));
ASSERT_EQ(23u, rank);
for (uint32_t i = 10; i < 1000; ++i) {
if (i != 995) {
ASSERT_TRUE(mtf.Remove(i));
} else {
ASSERT_FALSE(mtf.Remove(i));
}
}
CheckTree(mtf,
std::string(R"(
6H4S9T1029----8H2S3T8-------7H1S1T7-------D3
9H1S1T9-------D3
2H3S5T1033----4H2S3T1031----5H1S1T1030----D4
3H1S1T1032----D4
1H1S1T1034----D3
)")
.substr(1),
/* print_timestamp = */ true);
ASSERT_TRUE(mtf.Insert(1000));
ASSERT_TRUE(mtf.ValueFromRank(1, &value));
ASSERT_EQ(1000u, value);
}
} // namespace
} // namespace comp
} // namespace spvtools