// Copyright 2024 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 "absl/debugging/internal/bounded_utf8_length_sequence.h" #include #include "gtest/gtest.h" #include "absl/base/config.h" namespace absl { ABSL_NAMESPACE_BEGIN namespace debugging_internal { namespace { TEST(BoundedUtf8LengthSequenceTest, RemembersAValueOfOneCorrectly) { BoundedUtf8LengthSequence<32> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 1), 0); EXPECT_EQ(seq.InsertAndReturnSumOfPredecessors(1, 1), 1); } TEST(BoundedUtf8LengthSequenceTest, RemembersAValueOfTwoCorrectly) { BoundedUtf8LengthSequence<32> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 2), 0); EXPECT_EQ(seq.InsertAndReturnSumOfPredecessors(1, 1), 2); } TEST(BoundedUtf8LengthSequenceTest, RemembersAValueOfThreeCorrectly) { BoundedUtf8LengthSequence<32> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 3), 0); EXPECT_EQ(seq.InsertAndReturnSumOfPredecessors(1, 1), 3); } TEST(BoundedUtf8LengthSequenceTest, RemembersAValueOfFourCorrectly) { BoundedUtf8LengthSequence<32> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 4), 0); EXPECT_EQ(seq.InsertAndReturnSumOfPredecessors(1, 1), 4); } TEST(BoundedUtf8LengthSequenceTest, RemembersSeveralAppendedValues) { BoundedUtf8LengthSequence<32> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 1), 0); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(1, 4), 1); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(2, 2), 5); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(3, 3), 7); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(4, 1), 10); } TEST(BoundedUtf8LengthSequenceTest, RemembersSeveralPrependedValues) { BoundedUtf8LengthSequence<32> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 4), 0); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 3), 0); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 2), 0); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 1), 0); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(4, 1), 10); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(3, 1), 6); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(2, 1), 3); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(1, 1), 1); } TEST(BoundedUtf8LengthSequenceTest, RepeatedInsertsShiftValuesOutTheRightEnd) { BoundedUtf8LengthSequence<32> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 2), 0); for (uint32_t i = 1; i < 31; ++i) { ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 1), 0) << "while moving the 2 into position " << i; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(31, 1), 32) << "after moving the 2 into position " << i; } ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 1), 0) << "while moving the 2 into position 31"; EXPECT_EQ(seq.InsertAndReturnSumOfPredecessors(31, 1), 31) << "after moving the 2 into position 31"; } TEST(BoundedUtf8LengthSequenceTest, InsertsIntoWord1LeaveWord0Untouched) { BoundedUtf8LengthSequence<64> seq; for (uint32_t i = 0; i < 32; ++i) { ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(i, 2), 2 * i) << "at index " << i; } EXPECT_EQ(seq.InsertAndReturnSumOfPredecessors(32, 1), 64); EXPECT_EQ(seq.InsertAndReturnSumOfPredecessors(32, 1), 64); } TEST(BoundedUtf8LengthSequenceTest, InsertsIntoWord0ShiftValuesIntoWord1) { BoundedUtf8LengthSequence<64> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(29, 2), 29); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(30, 3), 31); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(31, 4), 34); // Pushing two 1's on the front moves the 3 and 4 into the high word. ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 1), 0); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 1), 0); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(34, 1), 31 + 2 + 3 + 4); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(32, 1), 31 + 2); } TEST(BoundedUtf8LengthSequenceTest, ValuesAreShiftedCorrectlyAmongThreeWords) { BoundedUtf8LengthSequence<96> seq; ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(31, 3), 31); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(63, 4), 62 + 3); // This insertion moves both the 3 and the 4 up a word. ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(0, 1), 0); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(65, 1), 63 + 3 + 4); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(64, 1), 63 + 3); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(33, 1), 32 + 3); ASSERT_EQ(seq.InsertAndReturnSumOfPredecessors(32, 1), 32); } } // namespace } // namespace debugging_internal ABSL_NAMESPACE_END } // namespace absl