// Copyright 2020 The Abseil Authors // // 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 // // https://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 #include #include #include #include #include "gmock/gmock.h" #include "gtest/gtest.h" #include "absl/base/config.h" #include "absl/base/internal/raw_logging.h" #include "absl/base/macros.h" #include "absl/debugging/leak_check.h" #include "absl/strings/internal/cord_internal.h" #include "absl/strings/internal/cord_rep_ring.h" #include "absl/strings/str_cat.h" #include "absl/strings/string_view.h" extern thread_local bool cord_ring; // TOOD(b/177688959): weird things happened with the original test #define ASAN_BUG_177688959_FIXED false namespace absl { ABSL_NAMESPACE_BEGIN namespace { using RandomEngine = std::mt19937_64; using ::absl::cord_internal::CordRep; using ::absl::cord_internal::CordRepConcat; using ::absl::cord_internal::CordRepExternal; using ::absl::cord_internal::CordRepFlat; using ::absl::cord_internal::CordRepRing; using ::absl::cord_internal::CordRepSubstring; using ::absl::cord_internal::CONCAT; using ::absl::cord_internal::EXTERNAL; using ::absl::cord_internal::SUBSTRING; using testing::ElementsAre; using testing::ElementsAreArray; using testing::Eq; using testing::Ge; using testing::Le; using testing::Lt; using testing::Ne; using testing::SizeIs; using index_type = CordRepRing::index_type; enum InputShareMode { kPrivate, kShared, kSharedIndirect }; // TestParam class used by all test fixtures. // Not all fixtures use all possible input combinations struct TestParam { TestParam() = default; explicit TestParam(InputShareMode input_share_mode) : input_share_mode(input_share_mode) {} // Run the test with the 'rep under test' to be privately owned. // Otherwise, the rep has a shared ref count of 2 or higher. bool refcount_is_one = true; // Run the test with the 'rep under test' being allocated with enough capacity // to accommodate any modifications made to it. Otherwise, the rep has zero // extra (reserve) capacity. bool with_capacity = true; // For test providing possibly shared input such as Append(.., CordpRep*), // this field defines if that input is adopted with a refcount of one // (privately owned / donated), or shared. For composite inputs such as // 'substring of flat', we also have the 'shared indirect' value which means // the top level node is not shared, but the contained child node is shared. InputShareMode input_share_mode = kPrivate; std::string ToString() const { return absl::StrCat(refcount_is_one ? "Private" : "Shared", with_capacity ? "" : "_NoCapacity", (input_share_mode == kPrivate) ? "" : (input_share_mode == kShared) ? "_SharedInput" : "_IndirectSharedInput"); } }; using TestParams = std::vector; // Matcher validating when mutable copies are required / performed. MATCHER_P2(EqIfPrivate, param, rep, absl::StrCat("Equal 0x", absl::Hex(rep), " if private")) { return param.refcount_is_one ? arg == rep : arg != rep; } // Matcher validating when mutable copies are required / performed. MATCHER_P2(EqIfPrivateAndCapacity, param, rep, absl::StrCat("Equal 0x", absl::Hex(rep), " if private and capacity")) { return (param.refcount_is_one && param.with_capacity) ? arg == rep : arg != rep; } MATCHER_P2(EqIfInputPrivate, param, rep, "Equal if input is private") { return param.input_share_mode == kPrivate ? arg == rep : arg != rep; } // Matcher validating the core in-variants of the CordRepRing instance. MATCHER(IsValidRingBuffer, "RingBuffer is valid") { std::stringstream ss; if (!arg->IsValid(ss)) { *result_listener << "\nERROR: " << ss.str() << "\nRING = " << *arg; return false; } return true; } // Returns the flats contained in the provided CordRepRing std::vector ToFlats(const CordRepRing* r) { std::vector flats; flats.reserve(r->entries()); index_type pos = r->head(); do { flats.push_back(r->entry_data(pos)); } while ((pos = r->advance(pos)) != r->tail()); return flats; } class not_a_string_view { public: explicit not_a_string_view(absl::string_view s) : data_(s.data()), size_(s.size()) {} explicit not_a_string_view(const void* data, size_t size) : data_(data), size_(size) {} not_a_string_view remove_prefix(size_t n) const { return not_a_string_view(static_cast(data_) + n, size_ - n); } not_a_string_view remove_suffix(size_t n) const { return not_a_string_view(data_, size_ - n); } const void* data() const { return data_; } size_t size() const { return size_; } private: const void* data_; size_t size_; }; bool operator==(not_a_string_view lhs, not_a_string_view rhs) { return lhs.data() == rhs.data() && lhs.size() == rhs.size(); } std::ostream& operator<<(std::ostream& s, not_a_string_view rhs) { return s << "{ data: " << rhs.data() << " size: " << rhs.size() << "}"; } std::vector ToRawFlats(const CordRepRing* r) { std::vector flats; flats.reserve(r->entries()); index_type pos = r->head(); do { flats.emplace_back(r->entry_data(pos)); } while ((pos = r->advance(pos)) != r->tail()); return flats; } // Returns the value contained in the provided CordRepRing std::string ToString(const CordRepRing* r) { std::string value; value.reserve(r->length); index_type pos = r->head(); do { absl::string_view sv = r->entry_data(pos); value.append(sv.data(), sv.size()); } while ((pos = r->advance(pos)) != r->tail()); return value; } // Creates a flat for testing CordRep* MakeFlat(absl::string_view s, size_t extra = 0) { CordRepFlat* flat = CordRepFlat::New(s.length() + extra); memcpy(flat->Data(), s.data(), s.length()); flat->length = s.length(); return flat; } // Creates an external node for testing CordRepExternal* MakeExternal(absl::string_view s) { struct Rep : public CordRepExternal { std::string s; explicit Rep(absl::string_view s) : s(s) { this->tag = EXTERNAL; this->base = s.data(); this->length = s.length(); this->releaser_invoker = [](CordRepExternal* self) { delete static_cast(self); }; } }; return new Rep(s); } CordRepExternal* MakeFakeExternal(size_t length) { struct Rep : public CordRepExternal { std::string s; explicit Rep(size_t len) { this->tag = EXTERNAL; this->base = this->storage; this->length = len; this->releaser_invoker = [](CordRepExternal* self) { delete static_cast(self); }; } }; return new Rep(length); } // Creates a flat or an external node for testing depending on the size. CordRep* MakeLeaf(absl::string_view s, size_t extra = 0) { if (s.size() <= absl::cord_internal::kMaxFlatLength) { return MakeFlat(s, extra); } else { return MakeExternal(s); } } // Creates a substring node CordRepSubstring* MakeSubstring(size_t start, size_t len, CordRep* rep) { auto* sub = new CordRepSubstring; sub->tag = SUBSTRING; sub->start = start; sub->length = (len <= 0) ? rep->length - start + len : len; sub->child = rep; return sub; } // Creates a substring node removing the specified prefix CordRepSubstring* RemovePrefix(size_t start, CordRep* rep) { return MakeSubstring(start, rep->length - start, rep); } // Creates a substring node removing the specified suffix CordRepSubstring* RemoveSuffix(size_t length, CordRep* rep) { return MakeSubstring(0, rep->length - length, rep); } CordRepConcat* MakeConcat(CordRep* left, CordRep* right, int depth = 0) { auto* concat = new CordRepConcat; concat->tag = CONCAT; concat->length = left->length + right->length; concat->left = left; concat->right = right; concat->set_depth(depth); return concat; } enum Composition { kMix, kAppend, kPrepend }; Composition RandomComposition() { RandomEngine rng(testing::GTEST_FLAG(random_seed)); return (rng() & 1) ? kMix : ((rng() & 1) ? kAppend : kPrepend); } absl::string_view ToString(Composition composition) { switch (composition) { case kAppend: return "Append"; case kPrepend: return "Prepend"; case kMix: return "Mix"; } assert(false); return "???"; } constexpr const char* kFox = "The quick brown fox jumps over the lazy dog"; constexpr const char* kFoxFlats[] = {"The ", "quick ", "brown ", "fox ", "jumps ", "over ", "the ", "lazy ", "dog"}; constexpr const char* kAlphabet = "abcdefghijklmnopqrstuvwxyz"; CordRepRing* FromFlats(Span flats, Composition composition = kAppend) { if (flats.empty()) return nullptr; CordRepRing* ring = nullptr; switch (composition) { case kAppend: ring = CordRepRing::Create(MakeLeaf(flats.front()), flats.size() - 1); for (int i = 1; i < flats.size(); ++i) { ring = CordRepRing::Append(ring, MakeLeaf(flats[i])); } break; case kPrepend: ring = CordRepRing::Create(MakeLeaf(flats.back()), flats.size() - 1); for (int i = static_cast(flats.size() - 2); i >= 0; --i) { ring = CordRepRing::Prepend(ring, MakeLeaf(flats[i])); } break; case kMix: size_t middle1 = flats.size() / 2, middle2 = middle1; ring = CordRepRing::Create(MakeLeaf(flats[middle1]), flats.size() - 1); if (!flats.empty()) { if ((flats.size() & 1) == 0) { ring = CordRepRing::Prepend(ring, MakeLeaf(flats[--middle1])); } for (int i = 1; i <= middle1; ++i) { ring = CordRepRing::Prepend(ring, MakeLeaf(flats[middle1 - i])); ring = CordRepRing::Append(ring, MakeLeaf(flats[middle2 + i])); } } break; } EXPECT_THAT(ToFlats(ring), ElementsAreArray(flats)); return ring; } std::ostream& operator<<(std::ostream& s, const TestParam& param) { return s << param.ToString(); } std::string TestParamToString(const testing::TestParamInfo& info) { return info.param.ToString(); } class CordRingTest : public testing::Test { public: ~CordRingTest() override { #if ASAN_BUG_177688959_FIXED for (CordRep* rep : unrefs_) { CordRep::Unref(rep); } #endif } template CordRepType* NeedsUnref(CordRepType* rep) { assert(rep); #if ASAN_BUG_177688959_FIXED unrefs_.push_back(rep); #endif return rep; } template CordRepType* Ref(CordRepType* rep) { CordRep::Ref(rep); return NeedsUnref(rep); } void Unref(CordRep* rep) { #if !ASAN_BUG_177688959_FIXED CordRep::Unref(rep); #endif } private: #if ASAN_BUG_177688959_FIXED std::vector unrefs_; #endif }; class CordRingTestWithParam : public testing::TestWithParam { public: ~CordRingTestWithParam() override { #if ASAN_BUG_177688959_FIXED for (CordRep* rep : unrefs_) { CordRep::Unref(rep); } #endif } CordRepRing* CreateWithCapacity(CordRep* child, size_t extra_capacity) { if (!GetParam().with_capacity) extra_capacity = 0; CordRepRing* ring = CordRepRing::Create(child, extra_capacity); ring->SetCapacityForTesting(1 + extra_capacity); return RefIfShared(ring); } bool Shared() const { return !GetParam().refcount_is_one; } bool InputShared() const { return GetParam().input_share_mode == kShared; } bool InputSharedIndirect() const { return GetParam().input_share_mode == kSharedIndirect; } template CordRepType* NeedsUnref(CordRepType* rep) { assert(rep); #if ASAN_BUG_177688959_FIXED unrefs_.push_back(rep); #endif return rep; } template CordRepType* Ref(CordRepType* rep) { CordRep::Ref(rep); return NeedsUnref(rep); } void Unref(CordRep* rep) { #if !ASAN_BUG_177688959_FIXED CordRep::Unref(rep); #endif } template CordRepType* RefIfShared(CordRepType* rep) { return Shared() ? Ref(rep) : rep; } void UnrefIfShared(CordRep* rep) { if (Shared()) Unref(rep); } template CordRepType* RefIfInputShared(CordRepType* rep) { return InputShared() ? Ref(rep) : rep; } void UnrefIfInputShared(CordRep* rep) { if (InputShared()) Unref(rep); } template CordRepType* RefIfInputSharedIndirect(CordRepType* rep) { return InputSharedIndirect() ? Ref(rep) : rep; } void UnrefIfInputSharedIndirect(CordRep* rep) { if (InputSharedIndirect()) Unref(rep); } private: #if ASAN_BUG_177688959_FIXED std::vector unrefs_; #endif }; class CordRingCreateTest : public CordRingTestWithParam { public: static TestParams CreateTestParams() { TestParams params; params.emplace_back(InputShareMode::kPrivate); params.emplace_back(InputShareMode::kShared); return params; } }; class CordRingSubTest : public CordRingTestWithParam { public: static TestParams CreateTestParams() { TestParams params; for (bool refcount_is_one : {true, false}) { TestParam param; param.refcount_is_one = refcount_is_one; params.push_back(param); } return params; } }; class CordRingBuildTest : public CordRingTestWithParam { public: static TestParams CreateTestParams() { TestParams params; for (bool refcount_is_one : {true, false}) { for (bool with_capacity : {true, false}) { TestParam param; param.refcount_is_one = refcount_is_one; param.with_capacity = with_capacity; params.push_back(param); } } return params; } }; class CordRingCreateFromTreeTest : public CordRingTestWithParam { public: static TestParams CreateTestParams() { TestParams params; params.emplace_back(InputShareMode::kPrivate); params.emplace_back(InputShareMode::kShared); params.emplace_back(InputShareMode::kSharedIndirect); return params; } }; class CordRingBuildInputTest : public CordRingTestWithParam { public: static TestParams CreateTestParams() { TestParams params; for (bool refcount_is_one : {true, false}) { for (bool with_capacity : {true, false}) { for (InputShareMode share_mode : {kPrivate, kShared, kSharedIndirect}) { TestParam param; param.refcount_is_one = refcount_is_one; param.with_capacity = with_capacity; param.input_share_mode = share_mode; params.push_back(param); } } } return params; } }; INSTANTIATE_TEST_CASE_P(WithParam, CordRingSubTest, testing::ValuesIn(CordRingSubTest::CreateTestParams()), TestParamToString); INSTANTIATE_TEST_CASE_P( WithParam, CordRingCreateTest, testing::ValuesIn(CordRingCreateTest::CreateTestParams()), TestParamToString); INSTANTIATE_TEST_CASE_P( WithParam, CordRingCreateFromTreeTest, testing::ValuesIn(CordRingCreateFromTreeTest::CreateTestParams()), TestParamToString); INSTANTIATE_TEST_CASE_P( WithParam, CordRingBuildTest, testing::ValuesIn(CordRingBuildTest::CreateTestParams()), TestParamToString); INSTANTIATE_TEST_CASE_P( WithParam, CordRingBuildInputTest, testing::ValuesIn(CordRingBuildInputTest::CreateTestParams()), TestParamToString); TEST_P(CordRingCreateTest, CreateFromFlat) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; CordRepRing* result = NeedsUnref(CordRepRing::Create(MakeFlat(str1))); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(str1.size())); EXPECT_THAT(ToFlats(result), ElementsAre(str1)); Unref(result); } TEST_P(CordRingCreateTest, CreateFromRing) { CordRepRing* ring = RefIfShared(FromFlats(kFoxFlats)); CordRepRing* result = NeedsUnref(CordRepRing::Create(ring)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivate(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAreArray(kFoxFlats)); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingCreateFromTreeTest, CreateFromSubstringRing) { CordRepRing* ring = RefIfInputSharedIndirect(FromFlats(kFoxFlats)); CordRep* sub = RefIfInputShared(MakeSubstring(2, 11, ring)); CordRepRing* result = NeedsUnref(CordRepRing::Create(sub)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfInputPrivate(GetParam(), ring)); EXPECT_THAT(ToString(result), string_view(kFox).substr(2, 11)); UnrefIfInputSharedIndirect(ring); UnrefIfInputShared(sub); Unref(result); } TEST_F(CordRingTest, CreateWithIllegalExtraCapacity) { CordRep* flat = NeedsUnref(MakeFlat("Hello world")); #if defined(ABSL_HAVE_EXCEPTIONS) try { CordRepRing::Create(flat, CordRepRing::kMaxCapacity); GTEST_FAIL() << "expected std::length_error exception"; } catch (const std::length_error&) { } #elif defined(GTEST_HAS_DEATH_TEST) EXPECT_DEATH(CordRepRing::Create(flat, CordRepRing::kMaxCapacity), ".*"); #endif Unref(flat); } TEST_P(CordRingCreateFromTreeTest, CreateFromSubstringOfFlat) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; auto* flat = RefIfInputShared(MakeFlat(str1)); auto* child = RefIfInputSharedIndirect(MakeSubstring(4, 20, flat)); CordRepRing* result = NeedsUnref(CordRepRing::Create(child)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(20)); EXPECT_THAT(ToFlats(result), ElementsAre(str1.substr(4, 20))); Unref(result); UnrefIfInputShared(flat); UnrefIfInputSharedIndirect(child); } TEST_P(CordRingCreateTest, CreateFromExternal) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; auto* child = RefIfInputShared(MakeExternal(str1)); CordRepRing* result = NeedsUnref(CordRepRing::Create(child)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(str1.size())); EXPECT_THAT(ToFlats(result), ElementsAre(str1)); Unref(result); UnrefIfInputShared(child); } TEST_P(CordRingCreateFromTreeTest, CreateFromSubstringOfExternal) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; auto* external = RefIfInputShared(MakeExternal(str1)); auto* child = RefIfInputSharedIndirect(MakeSubstring(1, 24, external)); CordRepRing* result = NeedsUnref(CordRepRing::Create(child)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(24)); EXPECT_THAT(ToFlats(result), ElementsAre(str1.substr(1, 24))); Unref(result); UnrefIfInputShared(external); UnrefIfInputSharedIndirect(child); } TEST_P(CordRingCreateFromTreeTest, CreateFromSubstringOfLargeExternal) { auto* external = RefIfInputShared(MakeFakeExternal(1 << 20)); auto str = not_a_string_view(external->base, 1 << 20) .remove_prefix(1 << 19) .remove_suffix(6); auto* child = RefIfInputSharedIndirect(MakeSubstring(1 << 19, (1 << 19) - 6, external)); CordRepRing* result = NeedsUnref(CordRepRing::Create(child)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(str.size())); EXPECT_THAT(ToRawFlats(result), ElementsAre(str)); Unref(result); UnrefIfInputShared(external); UnrefIfInputSharedIndirect(child); } TEST_P(CordRingBuildInputTest, CreateFromConcat) { CordRep* flats[] = {MakeFlat("abcdefgh"), MakeFlat("ijklm"), MakeFlat("nopqrstuv"), MakeFlat("wxyz")}; auto* left = MakeConcat(RefIfInputSharedIndirect(flats[0]), flats[1]); auto* right = MakeConcat(flats[2], RefIfInputSharedIndirect(flats[3])); auto* concat = RefIfInputShared(MakeConcat(left, right)); CordRepRing* result = NeedsUnref(CordRepRing::Create(concat)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(26)); EXPECT_THAT(ToString(result), Eq(kAlphabet)); UnrefIfInputSharedIndirect(flats[0]); UnrefIfInputSharedIndirect(flats[3]); UnrefIfInputShared(concat); Unref(result); } TEST_P(CordRingBuildInputTest, CreateFromSubstringConcat) { for (size_t off = 0; off < 26; ++off) { for (size_t len = 1; len < 26 - off; ++len) { CordRep* flats[] = {MakeFlat("abcdefgh"), MakeFlat("ijklm"), MakeFlat("nopqrstuv"), MakeFlat("wxyz")}; auto* left = MakeConcat(RefIfInputSharedIndirect(flats[0]), flats[1]); auto* right = MakeConcat(flats[2], RefIfInputSharedIndirect(flats[3])); auto* concat = MakeConcat(left, right); auto* child = RefIfInputShared(MakeSubstring(off, len, concat)); CordRepRing* result = NeedsUnref(CordRepRing::Create(child)); ASSERT_THAT(result, IsValidRingBuffer()); ASSERT_THAT(result->length, Eq(len)); ASSERT_THAT(ToString(result), string_view(kAlphabet).substr(off, len)); UnrefIfInputSharedIndirect(flats[0]); UnrefIfInputSharedIndirect(flats[3]); UnrefIfInputShared(child); Unref(result); } } } TEST_P(CordRingCreateTest, Properties) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; CordRepRing* result = NeedsUnref(CordRepRing::Create(MakeFlat(str1), 120)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->head(), Eq(0)); EXPECT_THAT(result->tail(), Eq(1)); EXPECT_THAT(result->capacity(), Ge(120 + 1)); EXPECT_THAT(result->capacity(), Le(2 * 120 + 1)); EXPECT_THAT(result->entries(), Eq(1)); EXPECT_THAT(result->begin_pos(), Eq(0)); Unref(result); } TEST_P(CordRingCreateTest, EntryForNewFlat) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; CordRep* child = MakeFlat(str1); CordRepRing* result = NeedsUnref(CordRepRing::Create(child, 120)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->entry_child(0), Eq(child)); EXPECT_THAT(result->entry_end_pos(0), Eq(str1.length())); EXPECT_THAT(result->entry_data_offset(0), Eq(0)); Unref(result); } TEST_P(CordRingCreateTest, EntryForNewFlatSubstring) { absl::string_view str1 = "1234567890abcdefghijklmnopqrstuvwxyz"; CordRep* child = MakeFlat(str1); CordRep* substring = MakeSubstring(10, 26, child); CordRepRing* result = NeedsUnref(CordRepRing::Create(substring, 1)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->entry_child(0), Eq(child)); EXPECT_THAT(result->entry_end_pos(0), Eq(26)); EXPECT_THAT(result->entry_data_offset(0), Eq(10)); Unref(result); } TEST_P(CordRingBuildTest, AppendFlat) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; CordRepRing* ring = CreateWithCapacity(MakeExternal(str1), 1); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, MakeFlat(str2))); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(result->length, Eq(str1.size() + str2.size())); EXPECT_THAT(ToFlats(result), ElementsAre(str1, str2)); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, PrependFlat) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; CordRepRing* ring = CreateWithCapacity(MakeExternal(str1), 1); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, MakeFlat(str2))); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(result->length, Eq(str1.size() + str2.size())); EXPECT_THAT(ToFlats(result), ElementsAre(str2, str1)); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendString) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; CordRepRing* ring = CreateWithCapacity(MakeExternal(str1), 1); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, str2)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(result->length, Eq(str1.size() + str2.size())); EXPECT_THAT(ToFlats(result), ElementsAre(str1, str2)); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendStringHavingExtra) { absl::string_view str1 = "1234"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; CordRepRing* ring = CreateWithCapacity(MakeFlat(str1, 26), 0); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, str2)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(str1.size() + str2.size())); EXPECT_THAT(result, EqIfPrivate(GetParam(), ring)); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendStringHavingPartialExtra) { absl::string_view str1 = "1234"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; // Create flat with at least one extra byte. We don't expect to have sized // alloc and capacity rounding to grant us enough to not make it partial. auto* flat = MakeFlat(str1, 1); size_t avail = flat->flat()->Capacity() - flat->length; ASSERT_THAT(avail, Lt(str2.size())) << " adjust test for larger flats!"; // Construct the flats we do expect using all of `avail`. absl::string_view str1a = str2.substr(0, avail); absl::string_view str2a = str2.substr(avail); CordRepRing* ring = CreateWithCapacity(flat, 1); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, str2)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(str1.size() + str2.size())); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); if (GetParam().refcount_is_one) { EXPECT_THAT(ToFlats(result), ElementsAre(StrCat(str1, str1a), str2a)); } else { EXPECT_THAT(ToFlats(result), ElementsAre(str1, str2)); } UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendStringHavingExtraInSubstring) { absl::string_view str1 = "123456789_1234"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; CordRep* flat = RemovePrefix(10, MakeFlat(str1, 26)); CordRepRing* ring = CreateWithCapacity(flat, 0); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, str2)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivate(GetParam(), ring)); EXPECT_THAT(result->length, Eq(4 + str2.size())); if (GetParam().refcount_is_one) { EXPECT_THAT(ToFlats(result), ElementsAre(StrCat("1234", str2))); } else { EXPECT_THAT(ToFlats(result), ElementsAre("1234", str2)); } UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendStringHavingSharedExtra) { absl::string_view str1 = "123456789_1234"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; for (int shared_type = 0; shared_type < 2; ++shared_type) { SCOPED_TRACE(absl::StrCat("Shared extra type ", shared_type)); // Create a flat that is shared in some way. CordRep* flat = nullptr; CordRep* flat1 = nullptr; if (shared_type == 0) { // Shared flat flat = CordRep::Ref(MakeFlat(str1.substr(10), 100)); } else if (shared_type == 1) { // Shared flat inside private substring flat1 = CordRep::Ref(MakeFlat(str1)); flat = RemovePrefix(10, flat1); } else { // Private flat inside shared substring flat = CordRep::Ref(RemovePrefix(10, MakeFlat(str1, 100))); } CordRepRing* ring = CreateWithCapacity(flat, 1); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, str2)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(result->length, Eq(4 + str2.size())); EXPECT_THAT(ToFlats(result), ElementsAre("1234", str2)); UnrefIfShared(ring); Unref(result); CordRep::Unref(shared_type == 1 ? flat1 : flat); } } TEST_P(CordRingBuildTest, AppendStringWithExtra) { absl::string_view str1 = "1234"; absl::string_view str2 = "1234567890"; absl::string_view str3 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; CordRepRing* ring = CreateWithCapacity(MakeExternal(str1), 1); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, str2, 26)); result = CordRepRing::Append(result, str3); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(str1.size() + str2.size() + str3.size())); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre(str1, StrCat(str2, str3))); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, PrependString) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; // Use external rep to avoid appending to first flat CordRepRing* ring = CreateWithCapacity(MakeExternal(str1), 1); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, str2)); ASSERT_THAT(result, IsValidRingBuffer()); if (GetParam().with_capacity && GetParam().refcount_is_one) { EXPECT_THAT(result, Eq(ring)); } else { EXPECT_THAT(result, Ne(ring)); } EXPECT_THAT(result->length, Eq(str1.size() + str2.size())); EXPECT_THAT(ToFlats(result), ElementsAre(str2, str1)); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, PrependStringHavingExtra) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz1234"; absl::string_view str2 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; CordRep* flat = RemovePrefix(26, MakeFlat(str1)); CordRepRing* ring = CreateWithCapacity(flat, 0); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, str2)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivate(GetParam(), ring)); EXPECT_THAT(result->length, Eq(4 + str2.size())); if (GetParam().refcount_is_one) { EXPECT_THAT(ToFlats(result), ElementsAre(StrCat(str2, "1234"))); } else { EXPECT_THAT(ToFlats(result), ElementsAre(str2, "1234")); } UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, PrependStringHavingSharedExtra) { absl::string_view str1 = "123456789_ABCDEFGHIJKLMNOPQRSTUVWXYZ"; absl::string_view str2 = "abcdefghij"; absl::string_view str1a = str1.substr(10); for (int shared_type = 1; shared_type < 2; ++shared_type) { SCOPED_TRACE(absl::StrCat("Shared extra type ", shared_type)); // Create a flat that is shared in some way. CordRep* flat = nullptr; CordRep* flat1 = nullptr; if (shared_type == 1) { // Shared flat inside private substring flat = RemovePrefix(10, flat1 = CordRep::Ref(MakeFlat(str1))); } else { // Private flat inside shared substring flat = CordRep::Ref(RemovePrefix(10, MakeFlat(str1, 100))); } CordRepRing* ring = CreateWithCapacity(flat, 1); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, str2)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result->length, Eq(str1a.size() + str2.size())); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre(str2, str1a)); UnrefIfShared(ring); Unref(result); CordRep::Unref(shared_type == 1 ? flat1 : flat); } } TEST_P(CordRingBuildTest, PrependStringWithExtra) { absl::string_view str1 = "1234"; absl::string_view str2 = "1234567890"; absl::string_view str3 = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; CordRepRing* ring = CreateWithCapacity(MakeExternal(str1), 1); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, str2, 26)); ASSERT_THAT(result, IsValidRingBuffer()); result = CordRepRing::Prepend(result, str3); EXPECT_THAT(result->length, Eq(str1.size() + str2.size() + str3.size())); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre(StrCat(str3, str2), str1)); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendPrependStringMix) { const auto& flats = kFoxFlats; CordRepRing* ring = CreateWithCapacity(MakeFlat(flats[4]), 8); CordRepRing* result = ring; for (int i = 1; i <= 4; ++i) { result = CordRepRing::Prepend(result, flats[4 - i]); result = CordRepRing::Append(result, flats[4 + i]); } UnrefIfShared(ring); NeedsUnref(result); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToString(result), kFox); Unref(result); } TEST_P(CordRingBuildTest, AppendPrependStringMixWithExtra) { const auto& flats = kFoxFlats; CordRepRing* ring = CreateWithCapacity(MakeFlat(flats[4], 100), 8); CordRepRing* result = ring; for (int i = 1; i <= 4; ++i) { result = CordRepRing::Prepend(result, flats[4 - i], 100); result = CordRepRing::Append(result, flats[4 + i], 100); } NeedsUnref(result); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); if (GetParam().refcount_is_one) { EXPECT_THAT(ToFlats(result), ElementsAre("The quick brown fox ", "jumps over the lazy dog")); } else { EXPECT_THAT(ToFlats(result), ElementsAre("The quick brown fox ", "jumps ", "over the lazy dog")); } UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendPrependStringMixWithPrependedExtra) { const auto& flats = kFoxFlats; CordRep* flat = MakeFlat(StrCat(std::string(50, '.'), flats[4]), 50); CordRepRing* ring = CreateWithCapacity(RemovePrefix(50, flat), 0); CordRepRing* result = ring; for (int i = 1; i <= 4; ++i) { result = CordRepRing::Prepend(result, flats[4 - i], 100); result = CordRepRing::Append(result, flats[4 + i], 100); } result = NeedsUnref(result); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivate(GetParam(), ring)); if (GetParam().refcount_is_one) { EXPECT_THAT(ToFlats(result), ElementsAre(kFox)); } else { EXPECT_THAT(ToFlats(result), ElementsAre("The quick brown fox ", "jumps ", "over the lazy dog")); } UnrefIfShared(ring); Unref(result); } TEST_P(CordRingSubTest, SubRing) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); string_view all = kFox; for (size_t offset = 0; offset < all.size() - 1; ++offset) { CordRepRing* ring = RefIfShared(FromFlats(flats, composition)); CordRepRing* result = CordRepRing::SubRing(ring, offset, 0); EXPECT_THAT(result, nullptr); UnrefIfShared(ring); for (size_t len = 1; len < all.size() - offset; ++len) { ring = RefIfShared(FromFlats(flats, composition)); result = NeedsUnref(CordRepRing::SubRing(ring, offset, len)); ASSERT_THAT(result, IsValidRingBuffer()); ASSERT_THAT(result, EqIfPrivate(GetParam(), ring)); ASSERT_THAT(ToString(result), Eq(all.substr(offset, len))); UnrefIfShared(ring); Unref(result); } } } TEST_P(CordRingSubTest, SubRingFromLargeExternal) { auto composition = RandomComposition(); std::string large_string(1 << 20, '.'); const char* flats[] = { "abcdefghijklmnopqrstuvwxyz", large_string.c_str(), "ABCDEFGHIJKLMNOPQRSTUVWXYZ", }; std::string buffer = absl::StrCat(flats[0], flats[1], flats[2]); absl::string_view all = buffer; for (size_t offset = 0; offset < 30; ++offset) { CordRepRing* ring = RefIfShared(FromFlats(flats, composition)); CordRepRing* result = CordRepRing::SubRing(ring, offset, 0); EXPECT_THAT(result, nullptr); UnrefIfShared(ring); for (size_t len = all.size() - 30; len < all.size() - offset; ++len) { ring = RefIfShared(FromFlats(flats, composition)); result = NeedsUnref(CordRepRing::SubRing(ring, offset, len)); ASSERT_THAT(result, IsValidRingBuffer()); ASSERT_THAT(result, EqIfPrivate(GetParam(), ring)); auto str = ToString(result); ASSERT_THAT(str, SizeIs(len)); ASSERT_THAT(str, Eq(all.substr(offset, len))); UnrefIfShared(ring); Unref(result); } } } TEST_P(CordRingSubTest, RemovePrefix) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); string_view all = kFox; CordRepRing* ring = RefIfShared(FromFlats(flats, composition)); CordRepRing* result = CordRepRing::RemovePrefix(ring, all.size()); EXPECT_THAT(result, nullptr); UnrefIfShared(ring); for (size_t len = 1; len < all.size(); ++len) { ring = RefIfShared(FromFlats(flats, composition)); result = NeedsUnref(CordRepRing::RemovePrefix(ring, len)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivate(GetParam(), ring)); EXPECT_THAT(ToString(result), Eq(all.substr(len))); UnrefIfShared(ring); Unref(result); } } TEST_P(CordRingSubTest, RemovePrefixFromLargeExternal) { CordRepExternal* external1 = MakeFakeExternal(1 << 20); CordRepExternal* external2 = MakeFakeExternal(1 << 20); CordRepRing* ring = CordRepRing::Create(external1, 1); ring = CordRepRing::Append(ring, external2); CordRepRing* result = NeedsUnref(CordRepRing::RemovePrefix(ring, 1 << 16)); EXPECT_THAT( ToRawFlats(result), ElementsAre( not_a_string_view(external1->base, 1 << 20).remove_prefix(1 << 16), not_a_string_view(external2->base, 1 << 20))); Unref(result); } TEST_P(CordRingSubTest, RemoveSuffix) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); string_view all = kFox; CordRepRing* ring = RefIfShared(FromFlats(flats, composition)); CordRepRing* result = CordRepRing::RemoveSuffix(ring, all.size()); EXPECT_THAT(result, nullptr); UnrefIfShared(ring); for (size_t len = 1; len < all.size(); ++len) { ring = RefIfShared(FromFlats(flats, composition)); result = NeedsUnref(CordRepRing::RemoveSuffix(ring, len)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivate(GetParam(), ring)); EXPECT_THAT(ToString(result), Eq(all.substr(0, all.size() - len))); UnrefIfShared(ring); Unref(result); } } TEST_P(CordRingSubTest, AppendRing) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats).subspan(1); CordRepRing* ring = CreateWithCapacity(MakeFlat(kFoxFlats[0]), flats.size()); CordRepRing* child = FromFlats(flats, composition); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, child)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivate(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAreArray(kFoxFlats)); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, AppendRingWithFlatOffset) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Head"), flats.size()); CordRep* child = RefIfInputSharedIndirect(FromFlats(flats, composition)); CordRep* stripped = RemovePrefix(10, child); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("Head", "brown ", "fox ", "jumps ", "over ", "the ", "lazy ", "dog")); UnrefIfInputSharedIndirect(child); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, AppendRingWithBrokenOffset) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Head"), flats.size()); CordRep* child = RefIfInputSharedIndirect(FromFlats(flats, composition)); CordRep* stripped = RemovePrefix(21, child); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("Head", "umps ", "over ", "the ", "lazy ", "dog")); UnrefIfInputSharedIndirect(child); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, AppendRingWithFlatLength) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Head"), flats.size()); CordRep* child = RefIfInputSharedIndirect(FromFlats(flats, composition)); CordRep* stripped = RemoveSuffix(8, child); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("Head", "The ", "quick ", "brown ", "fox ", "jumps ", "over ", "the ")); UnrefIfInputSharedIndirect(child); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendRingWithBrokenFlatLength) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Head"), flats.size()); CordRep* child = RefIfInputSharedIndirect(FromFlats(flats, composition)); CordRep* stripped = RemoveSuffix(15, child); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("Head", "The ", "quick ", "brown ", "fox ", "jumps ", "ov")); UnrefIfInputSharedIndirect(child); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendRingMiddlePiece) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Head"), flats.size()); CordRep* child = RefIfInputSharedIndirect(FromFlats(flats, composition)); CordRep* stripped = MakeSubstring(7, child->length - 27, child); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("Head", "ck ", "brown ", "fox ", "jum")); UnrefIfInputSharedIndirect(child); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildTest, AppendRingSinglePiece) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Head"), flats.size()); CordRep* child = RefIfInputSharedIndirect(FromFlats(flats, composition)); CordRep* stripped = RefIfInputShared(MakeSubstring(11, 3, child)); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("Head", "row")); UnrefIfInputSharedIndirect(child); UnrefIfInputShared(stripped); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, AppendRingSinglePieceWithPrefix) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); size_t extra_capacity = 1 + (GetParam().with_capacity ? flats.size() : 0); CordRepRing* ring = CordRepRing::Create(MakeFlat("Head"), extra_capacity); ring->SetCapacityForTesting(1 + extra_capacity); ring = RefIfShared(CordRepRing::Prepend(ring, MakeFlat("Prepend"))); assert(ring->IsValid(std::cout)); CordRepRing* child = RefIfInputSharedIndirect(FromFlats(flats, composition)); CordRep* stripped = RefIfInputShared(MakeSubstring(11, 3, child)); CordRepRing* result = NeedsUnref(CordRepRing::Append(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("Prepend", "Head", "row")); UnrefIfInputSharedIndirect(child); UnrefIfInputShared(stripped); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, PrependRing) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto fox = MakeSpan(kFoxFlats); auto flats = MakeSpan(fox).subspan(0, fox.size() - 1); CordRepRing* ring = CreateWithCapacity(MakeFlat(fox.back()), flats.size()); CordRepRing* child = RefIfInputShared(FromFlats(flats, composition)); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, child)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAreArray(kFoxFlats)); UnrefIfInputShared(child); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, PrependRingWithFlatOffset) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Tail"), flats.size()); CordRep* child = RefIfInputShared(FromFlats(flats, composition)); CordRep* stripped = RefIfInputSharedIndirect(RemovePrefix(10, child)); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("brown ", "fox ", "jumps ", "over ", "the ", "lazy ", "dog", "Tail")); UnrefIfInputShared(child); UnrefIfInputSharedIndirect(stripped); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, PrependRingWithBrokenOffset) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Tail"), flats.size()); CordRep* child = RefIfInputShared(FromFlats(flats, composition)); CordRep* stripped = RefIfInputSharedIndirect(RemovePrefix(21, child)); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, stripped)); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("umps ", "over ", "the ", "lazy ", "dog", "Tail")); UnrefIfInputShared(child); UnrefIfInputSharedIndirect(stripped); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, PrependRingWithFlatLength) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Tail"), flats.size()); CordRep* child = RefIfInputShared(FromFlats(flats, composition)); CordRep* stripped = RefIfInputSharedIndirect(RemoveSuffix(8, child)); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("The ", "quick ", "brown ", "fox ", "jumps ", "over ", "the ", "Tail")); UnrefIfShared(ring); UnrefIfInputShared(child); UnrefIfInputSharedIndirect(stripped); Unref(result); } TEST_P(CordRingBuildInputTest, PrependRingWithBrokenFlatLength) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Tail"), flats.size()); CordRep* child = RefIfInputShared(FromFlats(flats, composition)); CordRep* stripped = RefIfInputSharedIndirect(RemoveSuffix(15, child)); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("The ", "quick ", "brown ", "fox ", "jumps ", "ov", "Tail")); UnrefIfInputShared(child); UnrefIfInputSharedIndirect(stripped); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, PrependRingMiddlePiece) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Tail"), flats.size()); CordRep* child = RefIfInputShared(FromFlats(flats, composition)); CordRep* stripped = RefIfInputSharedIndirect(MakeSubstring(7, child->length - 27, child)); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("ck ", "brown ", "fox ", "jum", "Tail")); UnrefIfInputShared(child); UnrefIfInputSharedIndirect(stripped); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, PrependRingSinglePiece) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CreateWithCapacity(MakeFlat("Tail"), flats.size()); CordRep* child = RefIfInputShared(FromFlats(flats, composition)); CordRep* stripped = RefIfInputSharedIndirect(MakeSubstring(11, 3, child)); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("row", "Tail")); UnrefIfInputShared(child); UnrefIfInputSharedIndirect(stripped); UnrefIfShared(ring); Unref(result); } TEST_P(CordRingBuildInputTest, PrependRingSinglePieceWithPrefix) { auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); auto flats = MakeSpan(kFoxFlats); size_t extra_capacity = 1 + (GetParam().with_capacity ? flats.size() : 0); CordRepRing* ring = CordRepRing::Create(MakeFlat("Tail"), extra_capacity); ring->SetCapacityForTesting(1 + extra_capacity); ring = RefIfShared(CordRepRing::Prepend(ring, MakeFlat("Prepend"))); CordRep* child = RefIfInputShared(FromFlats(flats, composition)); CordRep* stripped = RefIfInputSharedIndirect(MakeSubstring(11, 3, child)); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, stripped)); ASSERT_THAT(result, IsValidRingBuffer()); EXPECT_THAT(result, EqIfPrivateAndCapacity(GetParam(), ring)); EXPECT_THAT(ToFlats(result), ElementsAre("row", "Prepend", "Tail")); UnrefIfInputShared(child); UnrefIfInputSharedIndirect(stripped); UnrefIfShared(ring); Unref(result); } TEST_F(CordRingTest, Find) { constexpr const char* flats[] = { "abcdefghij", "klmnopqrst", "uvwxyz", "ABCDEFGHIJ", "KLMNOPQRST", "UVWXYZ", "1234567890", "~!@#$%^&*()_", "+-=", "[]\\{}|;':", ",/<>?", "."}; auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); CordRepRing* ring = NeedsUnref(FromFlats(flats, composition)); std::string value = ToString(ring); for (int i = 0; i < value.length(); ++i) { CordRepRing::Position found = ring->Find(i); auto data = ring->entry_data(found.index); ASSERT_THAT(found.offset, Lt(data.length())); ASSERT_THAT(data[found.offset], Eq(value[i])); } Unref(ring); } TEST_F(CordRingTest, FindWithHint) { constexpr const char* flats[] = { "abcdefghij", "klmnopqrst", "uvwxyz", "ABCDEFGHIJ", "KLMNOPQRST", "UVWXYZ", "1234567890", "~!@#$%^&*()_", "+-=", "[]\\{}|;':", ",/<>?", "."}; auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); CordRepRing* ring = NeedsUnref(FromFlats(flats, composition)); std::string value = ToString(ring); #if defined(GTEST_HAS_DEATH_TEST) // Test hint beyond valid position index_type head = ring->head(); EXPECT_DEBUG_DEATH(ring->Find(ring->advance(head), 0), ".*"); EXPECT_DEBUG_DEATH(ring->Find(ring->advance(head), 9), ".*"); EXPECT_DEBUG_DEATH(ring->Find(ring->advance(head, 3), 24), ".*"); #endif int flat_pos = 0; size_t flat_offset = 0; for (auto sflat : flats) { string_view flat(sflat); for (int offset = 0; offset < flat.length(); ++offset) { for (int start = 0; start <= flat_pos; ++start) { index_type hint = ring->advance(ring->head(), start); CordRepRing::Position found = ring->Find(hint, flat_offset + offset); ASSERT_THAT(found.index, Eq(ring->advance(ring->head(), flat_pos))); ASSERT_THAT(found.offset, Eq(offset)); } } ++flat_pos; flat_offset += flat.length(); } Unref(ring); } TEST_F(CordRingTest, FindInLargeRing) { constexpr const char* flats[] = { "abcdefghij", "klmnopqrst", "uvwxyz", "ABCDEFGHIJ", "KLMNOPQRST", "UVWXYZ", "1234567890", "~!@#$%^&*()_", "+-=", "[]\\{}|;':", ",/<>?", "."}; auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); CordRepRing* ring = FromFlats(flats, composition); for (int i = 0; i < 13; ++i) { ring = CordRepRing::Append(ring, FromFlats(flats, composition)); } NeedsUnref(ring); std::string value = ToString(ring); for (int i = 0; i < value.length(); ++i) { CordRepRing::Position pos = ring->Find(i); auto data = ring->entry_data(pos.index); ASSERT_THAT(pos.offset, Lt(data.length())); ASSERT_THAT(data[pos.offset], Eq(value[i])); } Unref(ring); } TEST_F(CordRingTest, FindTail) { constexpr const char* flats[] = { "abcdefghij", "klmnopqrst", "uvwxyz", "ABCDEFGHIJ", "KLMNOPQRST", "UVWXYZ", "1234567890", "~!@#$%^&*()_", "+-=", "[]\\{}|;':", ",/<>?", "."}; auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); CordRepRing* ring = NeedsUnref(FromFlats(flats, composition)); std::string value = ToString(ring); for (int i = 0; i < value.length(); ++i) { CordRepRing::Position pos = ring->FindTail(i + 1); auto data = ring->entry_data(ring->retreat(pos.index)); ASSERT_THAT(pos.offset, Lt(data.length())); ASSERT_THAT(data[data.length() - pos.offset - 1], Eq(value[i])); } Unref(ring); } TEST_F(CordRingTest, FindTailWithHint) { constexpr const char* flats[] = { "abcdefghij", "klmnopqrst", "uvwxyz", "ABCDEFGHIJ", "KLMNOPQRST", "UVWXYZ", "1234567890", "~!@#$%^&*()_", "+-=", "[]\\{}|;':", ",/<>?", "."}; auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); CordRepRing* ring = NeedsUnref(FromFlats(flats, composition)); std::string value = ToString(ring); // Test hint beyond valid position #if defined(GTEST_HAS_DEATH_TEST) index_type head = ring->head(); EXPECT_DEBUG_DEATH(ring->FindTail(ring->advance(head), 1), ".*"); EXPECT_DEBUG_DEATH(ring->FindTail(ring->advance(head), 10), ".*"); EXPECT_DEBUG_DEATH(ring->FindTail(ring->advance(head, 3), 26), ".*"); #endif for (int i = 0; i < value.length(); ++i) { CordRepRing::Position pos = ring->FindTail(i + 1); auto data = ring->entry_data(ring->retreat(pos.index)); ASSERT_THAT(pos.offset, Lt(data.length())); ASSERT_THAT(data[data.length() - pos.offset - 1], Eq(value[i])); } Unref(ring); } TEST_F(CordRingTest, FindTailInLargeRing) { constexpr const char* flats[] = { "abcdefghij", "klmnopqrst", "uvwxyz", "ABCDEFGHIJ", "KLMNOPQRST", "UVWXYZ", "1234567890", "~!@#$%^&*()_", "+-=", "[]\\{}|;':", ",/<>?", "."}; auto composition = RandomComposition(); SCOPED_TRACE(ToString(composition)); CordRepRing* ring = FromFlats(flats, composition); for (int i = 0; i < 13; ++i) { ring = CordRepRing::Append(ring, FromFlats(flats, composition)); } NeedsUnref(ring); std::string value = ToString(ring); for (int i = 0; i < value.length(); ++i) { CordRepRing::Position pos = ring->FindTail(i + 1); auto data = ring->entry_data(ring->retreat(pos.index)); ASSERT_THAT(pos.offset, Lt(data.length())); ASSERT_THAT(data[data.length() - pos.offset - 1], Eq(value[i])); } Unref(ring); } TEST_F(CordRingTest, GetCharacter) { auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = CordRepRing::Create(MakeFlat("Tail"), flats.size()); CordRep* child = FromFlats(flats, kAppend); CordRepRing* result = NeedsUnref(CordRepRing::Prepend(ring, child)); std::string value = ToString(result); for (int i = 0; i < value.length(); ++i) { ASSERT_THAT(result->GetCharacter(i), Eq(value[i])); } Unref(result); } TEST_F(CordRingTest, GetCharacterWithSubstring) { absl::string_view str1 = "abcdefghijklmnopqrstuvwxyz"; auto* child = MakeSubstring(4, 20, MakeFlat(str1)); CordRepRing* result = NeedsUnref(CordRepRing::Create(child)); ASSERT_THAT(result, IsValidRingBuffer()); std::string value = ToString(result); for (int i = 0; i < value.length(); ++i) { ASSERT_THAT(result->GetCharacter(i), Eq(value[i])); } Unref(result); } TEST_F(CordRingTest, Dump) { std::stringstream ss; auto flats = MakeSpan(kFoxFlats); CordRepRing* ring = NeedsUnref(FromFlats(flats, kPrepend)); ss << *ring; Unref(ring); } } // namespace ABSL_NAMESPACE_END } // namespace absl