// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under the BSD-style license found in the // LICENSE file in the root directory of this source tree. An additional grant // of patent rights can be found in the PATENTS file in the same directory. // #ifndef ROCKSDB_LITE #include #include "util/testharness.h" #include "util/testutil.h" #include "utilities/col_buf_decoder.h" #include "utilities/col_buf_encoder.h" namespace rocksdb { class ColumnAwareEncodingTest : public testing::Test { public: ColumnAwareEncodingTest() {} ~ColumnAwareEncodingTest() {} }; class ColumnAwareEncodingTestWithSize : public ColumnAwareEncodingTest, public testing::WithParamInterface { public: ColumnAwareEncodingTestWithSize() {} ~ColumnAwareEncodingTestWithSize() {} static std::vector GetValues() { return {4, 8}; } }; INSTANTIATE_TEST_CASE_P( ColumnAwareEncodingTestWithSize, ColumnAwareEncodingTestWithSize, ::testing::ValuesIn(ColumnAwareEncodingTestWithSize::GetValues())); TEST_P(ColumnAwareEncodingTestWithSize, NoCompressionEncodeDecode) { size_t col_size = GetParam(); std::unique_ptr col_buf_encoder( new FixedLengthColBufEncoder(col_size, kColNoCompression, false, true)); std::string str_buf; uint64_t base_val = 0x0102030405060708; uint64_t val = 0; memcpy(&val, &base_val, col_size); const int row_count = 4; for (int i = 0; i < row_count; ++i) { str_buf.append(reinterpret_cast(&val), col_size); } const char* str_buf_ptr = str_buf.c_str(); for (int i = 0; i < row_count; ++i) { col_buf_encoder->Append(str_buf_ptr); } col_buf_encoder->Finish(); const std::string& encoded_data = col_buf_encoder->GetData(); // Check correctness of encoded string length ASSERT_EQ(row_count * col_size, encoded_data.size()); const char* encoded_data_ptr = encoded_data.c_str(); uint64_t expected_encoded_val; if (col_size == 8) { expected_encoded_val = 0x0807060504030201; } else if (col_size == 4) { expected_encoded_val = 0x08070605; } uint64_t encoded_val = 0; for (int i = 0; i < row_count; ++i) { memcpy(&encoded_val, encoded_data_ptr, col_size); // Check correctness of encoded value ASSERT_EQ(expected_encoded_val, encoded_val); encoded_data_ptr += col_size; } std::unique_ptr col_buf_decoder( new FixedLengthColBufDecoder(col_size, kColNoCompression, false, true)); encoded_data_ptr = encoded_data.c_str(); encoded_data_ptr += col_buf_decoder->Init(encoded_data_ptr); char* decoded_data = new char[100]; char* decoded_data_base = decoded_data; for (int i = 0; i < row_count; ++i) { encoded_data_ptr += col_buf_decoder->Decode(encoded_data_ptr, &decoded_data); } // Check correctness of decoded string length ASSERT_EQ(row_count * col_size, decoded_data - decoded_data_base); decoded_data = decoded_data_base; for (int i = 0; i < row_count; ++i) { uint64_t decoded_val; decoded_val = 0; memcpy(&decoded_val, decoded_data, col_size); // Check correctness of decoded value ASSERT_EQ(val, decoded_val); decoded_data += col_size; } delete[] decoded_data_base; } TEST_P(ColumnAwareEncodingTestWithSize, RleEncodeDecode) { size_t col_size = GetParam(); std::unique_ptr col_buf_encoder( new FixedLengthColBufEncoder(col_size, kColRle, false, true)); std::string str_buf; uint64_t base_val = 0x0102030405060708; uint64_t val = 0; memcpy(&val, &base_val, col_size); const int row_count = 4; for (int i = 0; i < row_count; ++i) { str_buf.append(reinterpret_cast(&val), col_size); } const char* str_buf_ptr = str_buf.c_str(); for (int i = 0; i < row_count; ++i) { str_buf_ptr += col_buf_encoder->Append(str_buf_ptr); } col_buf_encoder->Finish(); const std::string& encoded_data = col_buf_encoder->GetData(); // Check correctness of encoded string length ASSERT_EQ(col_size + 1, encoded_data.size()); const char* encoded_data_ptr = encoded_data.c_str(); uint64_t encoded_val = 0; memcpy(&encoded_val, encoded_data_ptr, col_size); uint64_t expected_encoded_val; if (col_size == 8) { expected_encoded_val = 0x0807060504030201; } else if (col_size == 4) { expected_encoded_val = 0x08070605; } // Check correctness of encoded value ASSERT_EQ(expected_encoded_val, encoded_val); std::unique_ptr col_buf_decoder( new FixedLengthColBufDecoder(col_size, kColRle, false, true)); char* decoded_data = new char[100]; char* decoded_data_base = decoded_data; encoded_data_ptr += col_buf_decoder->Init(encoded_data_ptr); for (int i = 0; i < row_count; ++i) { encoded_data_ptr += col_buf_decoder->Decode(encoded_data_ptr, &decoded_data); } // Check correctness of decoded string length ASSERT_EQ(decoded_data - decoded_data_base, row_count * col_size); decoded_data = decoded_data_base; for (int i = 0; i < row_count; ++i) { uint64_t decoded_val; decoded_val = 0; memcpy(&decoded_val, decoded_data, col_size); // Check correctness of decoded value ASSERT_EQ(val, decoded_val); decoded_data += col_size; } delete[] decoded_data_base; } TEST_P(ColumnAwareEncodingTestWithSize, DeltaEncodeDecode) { size_t col_size = GetParam(); int row_count = 4; std::unique_ptr col_buf_encoder( new FixedLengthColBufEncoder(col_size, kColDeltaVarint, false, true)); std::string str_buf; uint64_t base_val1 = 0x0102030405060708; uint64_t base_val2 = 0x0202030405060708; uint64_t val1 = 0, val2 = 0; memcpy(&val1, &base_val1, col_size); memcpy(&val2, &base_val2, col_size); const char* str_buf_ptr; for (int i = 0; i < row_count / 2; ++i) { str_buf = std::string(reinterpret_cast(&val1), col_size); str_buf_ptr = str_buf.c_str(); col_buf_encoder->Append(str_buf_ptr); str_buf = std::string(reinterpret_cast(&val2), col_size); str_buf_ptr = str_buf.c_str(); col_buf_encoder->Append(str_buf_ptr); } col_buf_encoder->Finish(); const std::string& encoded_data = col_buf_encoder->GetData(); // Check encoded string length int varint_len = 0; if (col_size == 8) { varint_len = 9; } else if (col_size == 4) { varint_len = 5; } // Check encoded string length: first value is original one (val - 0), the // coming three are encoded as 1, -1, 1, so they should take 1 byte in varint. ASSERT_EQ(varint_len + 3 * 1, encoded_data.size()); std::unique_ptr col_buf_decoder( new FixedLengthColBufDecoder(col_size, kColDeltaVarint, false, true)); char* decoded_data = new char[100]; char* decoded_data_base = decoded_data; const char* encoded_data_ptr = encoded_data.c_str(); encoded_data_ptr += col_buf_decoder->Init(encoded_data_ptr); for (int i = 0; i < row_count; ++i) { encoded_data_ptr += col_buf_decoder->Decode(encoded_data_ptr, &decoded_data); } // Check correctness of decoded string length ASSERT_EQ(row_count * col_size, decoded_data - decoded_data_base); decoded_data = decoded_data_base; // Check correctness of decoded data for (int i = 0; i < row_count / 2; ++i) { uint64_t decoded_val = 0; memcpy(&decoded_val, decoded_data, col_size); ASSERT_EQ(val1, decoded_val); decoded_data += col_size; memcpy(&decoded_val, decoded_data, col_size); ASSERT_EQ(val2, decoded_val); decoded_data += col_size; } delete[] decoded_data_base; } TEST_F(ColumnAwareEncodingTest, ChunkBufEncodeDecode) { std::unique_ptr col_buf_encoder( new VariableChunkColBufEncoder(kColDict)); std::string buf("12345678\377\1\0\0\0\0\0\0\0\376", 18); col_buf_encoder->Append(buf.c_str()); col_buf_encoder->Finish(); const std::string& encoded_data = col_buf_encoder->GetData(); const char* str_ptr = encoded_data.c_str(); std::unique_ptr col_buf_decoder( new VariableChunkColBufDecoder(kColDict)); str_ptr += col_buf_decoder->Init(str_ptr); char* decoded_data = new char[100]; char* decoded_data_base = decoded_data; col_buf_decoder->Decode(str_ptr, &decoded_data); for (size_t i = 0; i < buf.size(); ++i) { ASSERT_EQ(buf[i], decoded_data_base[i]); } delete[] decoded_data_base; } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main() { fprintf(stderr, "SKIPPED as column aware encoding experiment is not enabled in " "ROCKSDB_LITE\n"); } #endif // ROCKSDB_LITE