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chromium / chromium / src.git / ee6cf5ee2c5c989c34d0a4ca16e1ba314c6596b4 / . / components / zucchini / equivalence_map_unittest.cc
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// Copyright 2017 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "components/zucchini/equivalence_map.h"
#include <cstring>
#include <deque>
#include <map>
#include <string>
#include <utility>
#include <vector>
#include "components/zucchini/encoded_view.h"
#include "components/zucchini/image_index.h"
#include "components/zucchini/suffix_array.h"
#include "components/zucchini/targets_affinity.h"
#include "components/zucchini/test_disassembler.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace zucchini {
namespace {
using OffsetVector = std::vector<offset_t>;
// Make all references 2 bytes long.
constexpr offset_t kReferenceSize = 2;
// Creates and initialize an ImageIndex from |a| and with 2 types of references.
// The result is populated with |refs0| and |refs1|. |a| is expected to be a
// string literal valid for the lifetime of the object.
ImageIndex MakeImageIndexForTesting(const char* a,
std::vector<Reference>&& refs0,
std::vector<Reference>&& refs1) {
TestDisassembler disasm(
{kReferenceSize, TypeTag(0), PoolTag(0)}, std::move(refs0),
{kReferenceSize, TypeTag(1), PoolTag(0)}, std::move(refs1),
{kReferenceSize, TypeTag(2), PoolTag(1)}, {});
ImageIndex image_index(
ConstBufferView(reinterpret_cast<const uint8_t*>(a), std::strlen(a)));
EXPECT_TRUE(image_index.Initialize(&disasm));
return image_index;
}
std::vector<TargetsAffinity> MakeTargetsAffinitiesForTesting(
const ImageIndex& old_image_index,
const ImageIndex& new_image_index,
const EquivalenceMap& equivalence_map) {
std::vector<TargetsAffinity> target_affinities(old_image_index.PoolCount());
for (const auto& old_pool_tag_and_targets : old_image_index.target_pools()) {
PoolTag pool_tag = old_pool_tag_and_targets.first;
target_affinities[pool_tag.value()].InferFromSimilarities(
equivalence_map, old_pool_tag_and_targets.second.targets(),
new_image_index.pool(pool_tag).targets());
}
return target_affinities;
}
} // namespace
TEST(EquivalenceMapTest, GetTokenSimilarity) {
ImageIndex old_index = MakeImageIndexForTesting(
"ab1122334455", {{2, 0}, {4, 1}, {6, 2}, {8, 2}}, {{10, 3}});
// Note: {4, 1} -> {6, 3} and {6, 2} -> {4, 1}, then result is sorted.
ImageIndex new_index = MakeImageIndexForTesting(
"a11b33224455", {{1, 0}, {4, 1}, {6, 3}, {8, 1}}, {{10, 2}});
std::vector<TargetsAffinity> affinities = MakeTargetsAffinitiesForTesting(
old_index, new_index,
EquivalenceMap({{{0, 0, 1}, 1.0}, {{1, 3, 1}, 1.0}}));
// Raw match.
EXPECT_LT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 0, 0));
// Raw mismatch.
EXPECT_GT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 0, 1));
EXPECT_GT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 1, 0));
// Type mismatch.
EXPECT_EQ(kMismatchFatal,
GetTokenSimilarity(old_index, new_index, affinities, 0, 1));
EXPECT_EQ(kMismatchFatal,
GetTokenSimilarity(old_index, new_index, affinities, 2, 0));
EXPECT_EQ(kMismatchFatal,
GetTokenSimilarity(old_index, new_index, affinities, 2, 10));
EXPECT_EQ(kMismatchFatal,
GetTokenSimilarity(old_index, new_index, affinities, 10, 1));
// Reference strong match.
EXPECT_LT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 2, 1));
EXPECT_LT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 4, 6));
// Reference weak match.
EXPECT_LT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 6, 4));
EXPECT_LT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 6, 8));
EXPECT_LT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 8, 4));
// Weak match is not greater than strong match.
EXPECT_LE(GetTokenSimilarity(old_index, new_index, affinities, 6, 4),
GetTokenSimilarity(old_index, new_index, affinities, 2, 1));
// Reference mismatch.
EXPECT_GT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 2, 4));
EXPECT_GT(0.0, GetTokenSimilarity(old_index, new_index, affinities, 2, 6));
}
TEST(EquivalenceMapTest, GetEquivalenceSimilarity) {
ImageIndex image_index =
MakeImageIndexForTesting("abcdef1122", {{6, 0}}, {{8, 1}});
std::vector<TargetsAffinity> affinities =
MakeTargetsAffinitiesForTesting(image_index, image_index, {});
// Sanity check. These are no-op with length-0 equivalences.
EXPECT_EQ(0.0, GetEquivalenceSimilarity(image_index, image_index, affinities,
{0, 0, 0}));
EXPECT_EQ(0.0, GetEquivalenceSimilarity(image_index, image_index, affinities,
{0, 3, 0}));
EXPECT_EQ(0.0, GetEquivalenceSimilarity(image_index, image_index, affinities,
{3, 0, 0}));
// Now examine larger equivalences.
EXPECT_LT(0.0, GetEquivalenceSimilarity(image_index, image_index, affinities,
{0, 0, 3}));
EXPECT_GE(0.0, GetEquivalenceSimilarity(image_index, image_index, affinities,
{0, 3, 3}));
EXPECT_GE(0.0, GetEquivalenceSimilarity(image_index, image_index, affinities,
{3, 0, 3}));
EXPECT_LT(0.0, GetEquivalenceSimilarity(image_index, image_index, affinities,
{6, 6, 4}));
}
TEST(EquivalenceMapTest, ExtendEquivalenceForward) {
auto test_extend_forward =
[](const ImageIndex old_index, const ImageIndex new_index,
const EquivalenceCandidate& equivalence, double base_similarity) {
return ExtendEquivalenceForward(
old_index, new_index,
MakeTargetsAffinitiesForTesting(old_index, new_index, {}),
equivalence, base_similarity)
.eq;
};
EXPECT_EQ(Equivalence({0, 0, 0}),
test_extend_forward(MakeImageIndexForTesting("", {}, {}),
MakeImageIndexForTesting("", {}, {}),
{{0, 0, 0}, 0.0}, 8.0));
EXPECT_EQ(Equivalence({0, 0, 0}),
test_extend_forward(MakeImageIndexForTesting("banana", {}, {}),
MakeImageIndexForTesting("zzzz", {}, {}),
{{0, 0, 0}, 0.0}, 8.0));
EXPECT_EQ(Equivalence({0, 0, 6}),
test_extend_forward(MakeImageIndexForTesting("banana", {}, {}),
MakeImageIndexForTesting("banana", {}, {}),
{{0, 0, 0}, 0.0}, 8.0));
EXPECT_EQ(Equivalence({2, 2, 4}),
test_extend_forward(MakeImageIndexForTesting("banana", {}, {}),
MakeImageIndexForTesting("banana", {}, {}),
{{2, 2, 0}, 0.0}, 8.0));
EXPECT_EQ(Equivalence({0, 0, 6}),
test_extend_forward(MakeImageIndexForTesting("bananaxx", {}, {}),
MakeImageIndexForTesting("bananayy", {}, {}),
{{0, 0, 0}, 0.0}, 8.0));
EXPECT_EQ(
Equivalence({0, 0, 8}),
test_extend_forward(MakeImageIndexForTesting("banana11", {{6, 0}}, {}),
MakeImageIndexForTesting("banana11", {{6, 0}}, {}),
{{0, 0, 0}, 0.0}, 8.0));
EXPECT_EQ(
Equivalence({0, 0, 6}),
test_extend_forward(MakeImageIndexForTesting("banana11", {{6, 0}}, {}),
MakeImageIndexForTesting("banana22", {}, {{6, 0}}),
{{0, 0, 0}, 0.0}, 8.0));
EXPECT_EQ(
Equivalence({0, 0, 17}),
test_extend_forward(MakeImageIndexForTesting("bananaxxpineapple", {}, {}),
MakeImageIndexForTesting("bananayypineapple", {}, {}),
{{0, 0, 0}, 0.0}, 8.0));
EXPECT_EQ(
Equivalence({3, 0, 19}),
test_extend_forward(
MakeImageIndexForTesting("foobanana11xxpineapplexx", {{9, 0}}, {}),
MakeImageIndexForTesting("banana11yypineappleyy", {{6, 0}}, {}),
{{3, 0, 0}, 0.0}, 8.0));
}
TEST(EquivalenceMapTest, ExtendEquivalenceBackward) {
auto test_extend_backward =
[](const ImageIndex old_index, const ImageIndex new_index,
const EquivalenceCandidate& equivalence, double base_similarity) {
return ExtendEquivalenceBackward(
old_index, new_index,
MakeTargetsAffinitiesForTesting(old_index, new_index, {}),
equivalence, base_similarity)
.eq;
};
EXPECT_EQ(Equivalence({0, 0, 0}),
test_extend_backward(MakeImageIndexForTesting("", {}, {}),
MakeImageIndexForTesting("", {}, {}),
{{0, 0, 0}, 0.0}, 8.0));
EXPECT_EQ(Equivalence({6, 4, 0}),
test_extend_backward(MakeImageIndexForTesting("banana", {}, {}),
MakeImageIndexForTesting("zzzz", {}, {}),
{{6, 4, 0}, 0.0}, 8.0));
EXPECT_EQ(Equivalence({0, 0, 6}),
test_extend_backward(MakeImageIndexForTesting("banana", {}, {}),
MakeImageIndexForTesting("banana", {}, {}),
{{6, 6, 0}, 0.0}, 8.0));
EXPECT_EQ(Equivalence({2, 2, 6}),
test_extend_backward(MakeImageIndexForTesting("xxbanana", {}, {}),
MakeImageIndexForTesting("yybanana", {}, {}),
{{8, 8, 0}, 0.0}, 8.0));
EXPECT_EQ(
Equivalence({0, 0, 8}),
test_extend_backward(MakeImageIndexForTesting("11banana", {{0, 0}}, {}),
MakeImageIndexForTesting("11banana", {{0, 0}}, {}),
{{8, 8, 0}, 0.0}, 8.0));
EXPECT_EQ(
Equivalence({2, 2, 6}),
test_extend_backward(MakeImageIndexForTesting("11banana", {{0, 0}}, {}),
MakeImageIndexForTesting("22banana", {}, {{0, 0}}),
{{8, 8, 0}, 0.0}, 8.0));
EXPECT_EQ(Equivalence({0, 0, 17}),
test_extend_backward(
MakeImageIndexForTesting("bananaxxpineapple", {}, {}),
MakeImageIndexForTesting("bananayypineapple", {}, {}),
{{8, 8, 9}, 9.0}, 8.0));
EXPECT_EQ(
Equivalence({3, 0, 19}),
test_extend_backward(
MakeImageIndexForTesting("foobanana11xxpineapplexx", {{9, 0}}, {}),
MakeImageIndexForTesting("banana11yypineappleyy", {{6, 0}}, {}),
{{22, 19, 0}, 0.0}, 8.0));
}
TEST(EquivalenceMapTest, PruneEquivalencesAndSortBySource) {
auto PruneEquivalencesAndSortBySourceTest =
[](std::vector<Equivalence>&& equivalences) {
OffsetMapper::PruneEquivalencesAndSortBySource(&equivalences);
return std::move(equivalences);
};
EXPECT_EQ(std::vector<Equivalence>(),
PruneEquivalencesAndSortBySourceTest({}));
EXPECT_EQ(std::vector<Equivalence>({{0, 10, 1}}),
PruneEquivalencesAndSortBySourceTest({{0, 10, 1}}));
EXPECT_EQ(std::vector<Equivalence>(),
PruneEquivalencesAndSortBySourceTest({{0, 10, 0}}));
EXPECT_EQ(std::vector<Equivalence>({{0, 10, 1}, {1, 11, 1}}),
PruneEquivalencesAndSortBySourceTest({{0, 10, 1}, {1, 11, 1}}));
EXPECT_EQ(std::vector<Equivalence>({{0, 10, 2}, {2, 13, 1}}),
PruneEquivalencesAndSortBySourceTest({{0, 10, 2}, {1, 12, 2}}));
EXPECT_EQ(std::vector<Equivalence>({{0, 10, 2}}),
PruneEquivalencesAndSortBySourceTest({{0, 10, 2}, {1, 12, 1}}));
EXPECT_EQ(std::vector<Equivalence>({{0, 10, 2}, {2, 14, 1}}),
PruneEquivalencesAndSortBySourceTest({{0, 10, 2}, {1, 13, 2}}));
EXPECT_EQ(std::vector<Equivalence>({{0, 10, 1}, {1, 12, 3}}),
PruneEquivalencesAndSortBySourceTest({{0, 10, 2}, {1, 12, 3}}));
EXPECT_EQ(std::vector<Equivalence>({{0, 10, 3}, {3, 16, 2}}),
PruneEquivalencesAndSortBySourceTest(
{{0, 10, 3}, {1, 13, 3}, {3, 16, 2}})); // Pruning is greedy
// Consider following pattern that may cause O(n^2) behavior if not handled
// properly.
// ***************
// **********
// ********
// ******
// ****
// **
// ***************
// This test case makes sure the function does not stall on a large instance
// of this pattern.
EXPECT_EQ(std::vector<Equivalence>({{0, 10, +300000}, {300000, 30, +300000}}),
PruneEquivalencesAndSortBySourceTest([] {
std::vector<Equivalence> equivalenses;
equivalenses.push_back({0, 10, +300000});
for (offset_t i = 0; i < 100000; ++i)
equivalenses.push_back({200000 + i, 20, +200000 - 2 * i});
equivalenses.push_back({300000, 30, +300000});
return equivalenses;
}()));
}
TEST(EquivalenceMapTest, NaiveExtendedForwardProject) {
constexpr size_t kOldImageSize = 1000U;
constexpr size_t kNewImageSize = 1000U;
OffsetMapper offset_mapper(std::vector<Equivalence>(), kOldImageSize,
kNewImageSize);
// Convenience function to declutter.
auto project = [&offset_mapper](const Equivalence& eq, offset_t offset) {
return offset_mapper.NaiveExtendedForwardProject(eq, offset);
};
// Equivalence with delta = 0.
Equivalence eq_stay = {10, 10, +5}; // [10,15) -> [10,15).
for (offset_t offset = 0U; offset < 1000U; ++offset) {
EXPECT_EQ(offset, project(eq_stay, offset));
}
// Saturate since result would overflow "new".
EXPECT_EQ(999U, project(eq_stay, 1000U));
EXPECT_EQ(999U, project(eq_stay, 2000U));
EXPECT_EQ(999U, project(eq_stay, kOffsetBound - 1));
// Equivalence with delta = -10.
Equivalence eq_dec = {20, 10, +12}; // [20,32) --> [10,22).
// Offsets in "old" block.
EXPECT_EQ(10U, project(eq_dec, 20U));
EXPECT_EQ(11U, project(eq_dec, 21U));
EXPECT_EQ(21U, project(eq_dec, 31U));
// Offsets before "old" block, no underflow
EXPECT_EQ(9U, project(eq_dec, 19U));
EXPECT_EQ(1U, project(eq_dec, 11U));
EXPECT_EQ(0U, project(eq_dec, 10U));
// Offsets before "old" block, underflow (possible since delta < 0).
EXPECT_EQ(0U, project(eq_dec, 9U));
EXPECT_EQ(0U, project(eq_dec, 5U));
EXPECT_EQ(0U, project(eq_dec, 0U));
// Offsets after "old" block, no overflow.
EXPECT_EQ(20U, project(eq_dec, 30U));
EXPECT_EQ(64U, project(eq_dec, 74U));
EXPECT_EQ(90U, project(eq_dec, 100U));
EXPECT_EQ(490U, project(eq_dec, 500U));
EXPECT_EQ(999U, project(eq_dec, 1009U));
// Offsets after "old" block, overflow.
EXPECT_EQ(999U, project(eq_dec, 1010U));
EXPECT_EQ(999U, project(eq_dec, 2000U));
EXPECT_EQ(999U, project(eq_dec, kOffsetBound - 1));
// Equivalence with delta = +10.
Equivalence eq_inc = {7, 17, +80}; // [7,87) --> [17,97).
// Offsets in "old" block.
EXPECT_EQ(17U, project(eq_inc, 7U));
EXPECT_EQ(60U, project(eq_inc, 50U));
EXPECT_EQ(96U, project(eq_inc, 86U));
// Offsets before "old" block, underflow impossible since delta >= 0.
EXPECT_EQ(16U, project(eq_inc, 6U));
EXPECT_EQ(10U, project(eq_inc, 0U));
// Offsets after "old" block, no overflow.
EXPECT_EQ(97U, project(eq_inc, 87U));
EXPECT_EQ(510U, project(eq_inc, 500U));
EXPECT_EQ(999U, project(eq_inc, 989U));
// Offsets after "old" block, overflow.
EXPECT_EQ(999U, project(eq_inc, 990U));
EXPECT_EQ(999U, project(eq_inc, 2000U));
EXPECT_EQ(999U, project(eq_inc, kOffsetBound - 1));
}
TEST(EquivalenceMapTest, ExtendedForwardProject) {
// EquivalenceMaps provided must be sorted by "old" offset, and pruned.
// [0,2) --> [10,12), [2,3) --> [13,14), [4,6) --> [16,18).
OffsetMapper offset_mapper1({{0, 10, +2}, {2, 13, +1}, {4, 16, +2}}, 20U,
25U);
EXPECT_EQ(10U, offset_mapper1.ExtendedForwardProject(0U));
EXPECT_EQ(11U, offset_mapper1.ExtendedForwardProject(1U));
EXPECT_EQ(13U, offset_mapper1.ExtendedForwardProject(2U));
EXPECT_EQ(14U, offset_mapper1.ExtendedForwardProject(3U)); // Previous equiv.
EXPECT_EQ(16U, offset_mapper1.ExtendedForwardProject(4U));
EXPECT_EQ(17U, offset_mapper1.ExtendedForwardProject(5U));
EXPECT_EQ(18U, offset_mapper1.ExtendedForwardProject(6U)); // Previous equiv.
// Fake offsets.
EXPECT_EQ(25U, offset_mapper1.ExtendedForwardProject(20U));
EXPECT_EQ(26U, offset_mapper1.ExtendedForwardProject(21U));
EXPECT_EQ(1005U, offset_mapper1.ExtendedForwardProject(1000U));
EXPECT_EQ(kOffsetBound - 1,
offset_mapper1.ExtendedForwardProject(kOffsetBound - 1));
// [0,2) --> [10,12), [13,14) --> [2,3), [16,18) --> [4,6).
OffsetMapper offset_mapper2({{0, 10, +2}, {13, 2, +1}, {16, 4, +2}}, 25U,
20U);
EXPECT_EQ(10U, offset_mapper2.ExtendedForwardProject(0U));
EXPECT_EQ(11U, offset_mapper2.ExtendedForwardProject(1U));
EXPECT_EQ(2U, offset_mapper2.ExtendedForwardProject(13U));
EXPECT_EQ(3U, offset_mapper2.ExtendedForwardProject(14U)); // Previous equiv.
EXPECT_EQ(4U, offset_mapper2.ExtendedForwardProject(16U));
EXPECT_EQ(5U, offset_mapper2.ExtendedForwardProject(17U));
EXPECT_EQ(6U, offset_mapper2.ExtendedForwardProject(18U)); // Previous equiv.
// Fake offsets.
EXPECT_EQ(20U, offset_mapper2.ExtendedForwardProject(25U));
EXPECT_EQ(21U, offset_mapper2.ExtendedForwardProject(26U));
EXPECT_EQ(995U, offset_mapper2.ExtendedForwardProject(1000U));
EXPECT_EQ(kOffsetBound - 1 - 5,
offset_mapper2.ExtendedForwardProject(kOffsetBound - 1));
}
TEST(EquivalenceMapTest, ExtendedForwardProjectEncoding) {
// Tests OffsetMapper::ExtendedForwardProject(), which maps every "old" offset
// to a "new" offset, with possible overlap (even though blocks don't
// overlap). Not testing real offsets only (no fake offsets).
// |old_spec| is a string like "<<aaAAaabbBBbcCCc>>":
// - Upper case letters are covered "old" offsets.
// - Lower case letters are non-covered offsets that are properly mapped using
// nearest "old" block.
// - '<' denotes underflow (clamped to 0).
// - '>' denotes overflow (clampled to "new" size - 1).
// |new_spec| is a string like "aaAA(ab)(ab)BBb..cCCc":
// - Upper and lower case letters are mapped "new" targets, occurring in the
// order that they appear in |old_spec|.
// - '.' are "new" offsets that appear as output.
// - '(' and ')' surround a single "new" location that are repeated as output.
int case_no = 0;
auto run_test = [&case_no](std::vector<Equivalence>&& equivalences,
const std::string& old_spec,
const std::string& new_spec) {
const size_t old_size = old_spec.length();
// Build expected "new" offsets, queue up for each letter.
std::map<char, std::deque<offset_t>> expected;
offset_t cur_new_offset = 0;
char state = ')'; // ')' = increase offset, '(' = stay.
for (char ch : new_spec) {
if (ch == '(' || ch == ')')
state = ch;
else
expected[ch].push_back(cur_new_offset);
cur_new_offset += (state == ')') ? 1 : 0;
}
const size_t new_size = cur_new_offset;
// Forward-project for each "old" index, pull from queue from matching
// letter, and compare.
OffsetMapper offset_mapper(std::move(equivalences), old_size, new_size);
for (offset_t old_offset = 0; old_offset < old_size; ++old_offset) {
offset_t new_offset = offset_mapper.ExtendedForwardProject(old_offset);
char ch = old_spec[old_offset];
if (ch == '<') { // Special case: Underflow.
EXPECT_EQ(0U, new_offset) << "in case " << case_no;
} else if (ch == '>') { // Special case: Overflow.
EXPECT_EQ(static_cast<offset_t>(new_size - 1), new_offset)
<< "in case " << case_no;
} else {
std::deque<offset_t>& q = expected[ch];
ASSERT_FALSE(q.empty());
EXPECT_EQ(q.front(), new_offset) << "in case " << case_no;
q.pop_front();
if (q.empty())
expected.erase(ch);
}
}
// Clear useless '.', and ensure everything is consumed.
expected.erase('.');
EXPECT_TRUE(expected.empty()) << "in case " << case_no;
++case_no;
};
// Trivial: [5,9) --> [5,9).
run_test({{5, 5, +4}}, "aaaaaAAAAaaaaa", "aaaaaAAAAaaaaa");
// Swap: [0,4) --> [6,10), [4,10) --> [0,6).
run_test({{0, 6, +4}, {4, 0, +6}}, "AAAABBBBBB", "BBBBBBAAAA");
// Overlap: [0,4) --> [2,6), [4,10) --> [3,9).
run_test({{0, 2, +4}, {4, 3, +6}}, "AAAABBBBBB", "..A(AB)(AB)(AB)BBB.");
// Converge: [1,3) --> [2,4), [7,8) --> [6,7).
run_test({{1, 2, +2}, {7, 6, +1}}, "aAAaabbBbb", ".aAA(ab)(ab)Bbb.");
// Converge with tie-breaker: [1,3) --> [2,4), [8,9) --> [7,8).
run_test({{1, 2, +2}, {8, 7, +1}}, "aAAaaabbBb", ".aAAa(ab)(ab)Bb.");
// Shift left: [6,8) --> [2,4): Underflow occurs.
run_test({{6, 2, +2}}, "<<<<aaAAaa", "aaAAaa....");
// Shift right: [2,5) --> [6,9): Overflow occurs.
run_test({{2, 6, +3}}, "aaAAAa>>>>", "....aaAAAa");
// Diverge: [3,5) --> [1,3], [7,9) --> [9,11).
run_test({{3, 1, +2}, {7, 9, +2}}, "<<aAAabBBb>>", "aAAa....bBBb");
// Pile-up: [0,2) --> [7,9), [9,11) --> [9,11), [18,20) --> [11,13).
run_test({{0, 7, +2}, {9, 9, +2}, {18, 11, +2}}, "AAaaaabbbBBbbbbcccCC",
"......b(Ab)(Abc)(Bac)(Bac)(Cab)(Cab)bb.....");
// Inverse pile-up: [7,9) --> [0,2), [9,11) --> [9,11), [13,15) --> [18,20).
run_test({{7, 0, +2}, {9, 9, +2}, {11, 18, +2}}, "<<<<<<<AABBCC>>>>>>>",
"AA.......BB.......CC");
// Sparse rotate: [3,4) -> [10,11), [10,11) --> [17,18), [17,18) --> [3,4).
run_test({{3, 10, +1}, {10, 17, +1}, {17, 3, +1}}, "aaaAaaabbbBbbbcccCccc",
"cccCcccaaaAaaabbbBbbb");
// Messy swap: [2,4) --> [10,12), [12,16) --> [3,7).
run_test({{2, 10, +2}, {12, 3, +4}}, "aaAAaa>><bbbBBBBbb",
"bbbBBBBb(ab)aAAaa");
// Messy expand: [6,8) --> [3,5), [10,11) -> [11,12), [14,17) --> [16,19).
run_test({{6, 3, +2}, {10, 11, +1}, {14, 16, +3}}, "<<<aaaAAabBbbcCCCc>>>>>",
"aaaAAa....bBbb.cCCCc");
// Interleave: [1,2) --> [0,1), [5,6) --> [10,11), [6,8) --> [3,5),
// [11,13) --> [12,14), [14,16) --> [6,8), [17,18) --> [17,18).
run_test({{1, 0, +1},
{5, 10, +1},
{6, 3, +2},
{11, 12, +2},
{14, 6, +2},
{17, 17, +1}},
"<AaabBCCccdDDdEEeFf>", "AaaCCc(Ec)EebBdDDd..Ff");
}
TEST(EquivalenceMapTest, ForwardProjectAll) {
auto ForwardProjectAllTest = [](const OffsetMapper& offset_mapper,
std::initializer_list<offset_t> offsets) {
OffsetVector offsets_vec(offsets);
offset_mapper.ForwardProjectAll(&offsets_vec);
return offsets_vec;
};
// [0,2) --> [10,12), [2,3) --> [13,14), [4,6) --> [16,18).
OffsetMapper offset_mapper1({{0, 10, +2}, {2, 13, +1}, {4, 16, +2}}, 100U,
100U);
EXPECT_EQ(OffsetVector({10}), ForwardProjectAllTest(offset_mapper1, {0}));
EXPECT_EQ(OffsetVector({13}), ForwardProjectAllTest(offset_mapper1, {2}));
EXPECT_EQ(OffsetVector({}), ForwardProjectAllTest(offset_mapper1, {3}));
EXPECT_EQ(OffsetVector({10, 13}),
ForwardProjectAllTest(offset_mapper1, {0, 2}));
EXPECT_EQ(OffsetVector({11, 13, 17}),
ForwardProjectAllTest(offset_mapper1, {1, 2, 5}));
EXPECT_EQ(OffsetVector({11, 17}),
ForwardProjectAllTest(offset_mapper1, {1, 3, 5}));
EXPECT_EQ(OffsetVector({10, 11, 13, 16, 17}),
ForwardProjectAllTest(offset_mapper1, {0, 1, 2, 3, 4, 5, 6}));
// [0,2) --> [10,12), [13,14) --> [2,3), [16,18) --> [4,6).
OffsetMapper offset_mapper2({{0, 10, +2}, {13, 2, +1}, {16, 4, +2}}, 100U,
100U);
EXPECT_EQ(OffsetVector({2}), ForwardProjectAllTest(offset_mapper2, {13}));
EXPECT_EQ(OffsetVector({10, 2}),
ForwardProjectAllTest(offset_mapper2, {0, 13}));
EXPECT_EQ(OffsetVector({11, 2, 5}),
ForwardProjectAllTest(offset_mapper2, {1, 13, 17}));
EXPECT_EQ(OffsetVector({11, 5}),
ForwardProjectAllTest(offset_mapper2, {1, 14, 17}));
EXPECT_EQ(OffsetVector({10, 11, 2, 4, 5}),
ForwardProjectAllTest(offset_mapper2, {0, 1, 13, 14, 16, 17, 18}));
}
TEST(EquivalenceMapTest, Build) {
auto test_build_equivalence = [](const ImageIndex old_index,
const ImageIndex new_index,
double minimum_similarity) {
auto affinities = MakeTargetsAffinitiesForTesting(old_index, new_index, {});
EncodedView old_view(old_index);
EncodedView new_view(new_index);
for (const auto& old_pool_tag_and_targets : old_index.target_pools()) {
PoolTag pool_tag = old_pool_tag_and_targets.first;
std::vector<uint32_t> old_labels;
std::vector<uint32_t> new_labels;
size_t label_bound = affinities[pool_tag.value()].AssignLabels(
1.0, &old_labels, &new_labels);
old_view.SetLabels(pool_tag, std::move(old_labels), label_bound);
new_view.SetLabels(pool_tag, std::move(new_labels), label_bound);
}
std::vector<offset_t> old_sa =
MakeSuffixArray<InducedSuffixSort>(old_view, old_view.Cardinality());
EquivalenceMap equivalence_map;
equivalence_map.Build(old_sa, old_view, new_view, affinities,
minimum_similarity);
offset_t current_dst_offset = 0;
offset_t coverage = 0;
for (const auto& candidate : equivalence_map) {
EXPECT_GE(candidate.eq.dst_offset, current_dst_offset);
EXPECT_GT(candidate.eq.length, offset_t(0));
EXPECT_LE(candidate.eq.src_offset + candidate.eq.length,
old_index.size());
EXPECT_LE(candidate.eq.dst_offset + candidate.eq.length,
new_index.size());
EXPECT_GE(candidate.similarity, minimum_similarity);
current_dst_offset = candidate.eq.dst_offset;
coverage += candidate.eq.length;
}
return coverage;
};
EXPECT_EQ(0U,
test_build_equivalence(MakeImageIndexForTesting("", {}, {}),
MakeImageIndexForTesting("", {}, {}), 4.0));
EXPECT_EQ(0U, test_build_equivalence(
MakeImageIndexForTesting("", {}, {}),
MakeImageIndexForTesting("banana", {}, {}), 4.0));
EXPECT_EQ(0U,
test_build_equivalence(MakeImageIndexForTesting("banana", {}, {}),
MakeImageIndexForTesting("", {}, {}), 4.0));
EXPECT_EQ(0U, test_build_equivalence(
MakeImageIndexForTesting("banana", {}, {}),
MakeImageIndexForTesting("zzzz", {}, {}), 4.0));
EXPECT_EQ(6U, test_build_equivalence(
MakeImageIndexForTesting("banana", {}, {}),
MakeImageIndexForTesting("banana", {}, {}), 4.0));
EXPECT_EQ(6U, test_build_equivalence(
MakeImageIndexForTesting("bananaxx", {}, {}),
MakeImageIndexForTesting("bananayy", {}, {}), 4.0));
EXPECT_EQ(8U, test_build_equivalence(
MakeImageIndexForTesting("banana11", {{6, 0}}, {}),
MakeImageIndexForTesting("banana11", {{6, 0}}, {}), 4.0));
EXPECT_EQ(6U, test_build_equivalence(
MakeImageIndexForTesting("banana11", {{6, 0}}, {}),
MakeImageIndexForTesting("banana22", {}, {{6, 0}}), 4.0));
EXPECT_EQ(
15U,
test_build_equivalence(
MakeImageIndexForTesting("banana11pineapple", {{6, 0}}, {}),
MakeImageIndexForTesting("banana22pineapple", {}, {{6, 0}}), 4.0));
EXPECT_EQ(
15U,
test_build_equivalence(
MakeImageIndexForTesting("bananaxxxxxxxxpineapple", {}, {}),
MakeImageIndexForTesting("bananayyyyyyyypineapple", {}, {}), 4.0));
EXPECT_EQ(
19U,
test_build_equivalence(
MakeImageIndexForTesting("foobanana11xxpineapplexx", {{9, 0}}, {}),
MakeImageIndexForTesting("banana11yypineappleyy", {{6, 0}}, {}),
4.0));
}
} // namespace zucchini