// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you 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 #include "parquet/column_reader.h" #include "parquet/column_writer.h" #include "parquet/file_reader.h" #include "parquet/file_writer.h" #include "parquet/test-specialization.h" #include "parquet/test-util.h" #include "parquet/types.h" #include "parquet/util/memory.h" namespace parquet { using schema::GroupNode; using schema::NodePtr; using schema::PrimitiveNode; namespace test { template class TestSerialize : public PrimitiveTypedTest { public: typedef typename TestType::c_type T; void SetUp() { num_columns_ = 4; num_rowgroups_ = 2; rows_per_rowgroup_ = 50; this->SetUpSchema(Repetition::OPTIONAL, num_columns_); } protected: int num_columns_; int num_rowgroups_; int rows_per_rowgroup_; void FileSerializeTest(Compression::type codec_type) { std::shared_ptr sink(new InMemoryOutputStream()); auto gnode = std::static_pointer_cast(this->node_); WriterProperties::Builder prop_builder; for (int i = 0; i < num_columns_; ++i) { prop_builder.compression(this->schema_.Column(i)->name(), codec_type); } std::shared_ptr writer_properties = prop_builder.build(); auto file_writer = ParquetFileWriter::Open(sink, gnode, writer_properties); for (int rg = 0; rg < num_rowgroups_; ++rg) { RowGroupWriter* row_group_writer; row_group_writer = file_writer->AppendRowGroup(); this->GenerateData(rows_per_rowgroup_); for (int col = 0; col < num_columns_; ++col) { auto column_writer = static_cast*>(row_group_writer->NextColumn()); column_writer->WriteBatch(rows_per_rowgroup_, this->def_levels_.data(), nullptr, this->values_ptr_); column_writer->Close(); } row_group_writer->Close(); } file_writer->Close(); auto buffer = sink->GetBuffer(); int num_rows_ = num_rowgroups_ * rows_per_rowgroup_; auto source = std::make_shared<::arrow::io::BufferReader>(buffer); auto file_reader = ParquetFileReader::Open(source); ASSERT_EQ(num_columns_, file_reader->metadata()->num_columns()); ASSERT_EQ(num_rowgroups_, file_reader->metadata()->num_row_groups()); ASSERT_EQ(num_rows_, file_reader->metadata()->num_rows()); for (int rg = 0; rg < num_rowgroups_; ++rg) { auto rg_reader = file_reader->RowGroup(rg); ASSERT_EQ(num_columns_, rg_reader->metadata()->num_columns()); ASSERT_EQ(rows_per_rowgroup_, rg_reader->metadata()->num_rows()); // Check that the specified compression was actually used. ASSERT_EQ(codec_type, rg_reader->metadata()->ColumnChunk(0)->compression()); int64_t values_read; for (int i = 0; i < num_columns_; ++i) { std::vector def_levels_out(rows_per_rowgroup_); std::vector rep_levels_out(rows_per_rowgroup_); auto col_reader = std::static_pointer_cast>(rg_reader->Column(i)); this->SetupValuesOut(rows_per_rowgroup_); col_reader->ReadBatch(rows_per_rowgroup_, def_levels_out.data(), rep_levels_out.data(), this->values_out_ptr_, &values_read); this->SyncValuesOut(); ASSERT_EQ(rows_per_rowgroup_, values_read); ASSERT_EQ(this->values_, this->values_out_); ASSERT_EQ(this->def_levels_, def_levels_out); } } } void UnequalNumRows(int64_t max_rows, const std::vector rows_per_column) { std::shared_ptr sink(new InMemoryOutputStream()); auto gnode = std::static_pointer_cast(this->node_); std::shared_ptr props = WriterProperties::Builder().build(); auto file_writer = ParquetFileWriter::Open(sink, gnode, props); RowGroupWriter* row_group_writer; row_group_writer = file_writer->AppendRowGroup(); this->GenerateData(max_rows); for (int col = 0; col < num_columns_; ++col) { auto column_writer = static_cast*>(row_group_writer->NextColumn()); column_writer->WriteBatch(rows_per_column[col], this->def_levels_.data(), nullptr, this->values_ptr_); column_writer->Close(); } row_group_writer->Close(); file_writer->Close(); } void RepeatedUnequalRows() { // Optional and repeated, so definition and repetition levels this->SetUpSchema(Repetition::REPEATED); const int kNumRows = 100; this->GenerateData(kNumRows); std::shared_ptr sink(new InMemoryOutputStream()); auto gnode = std::static_pointer_cast(this->node_); std::shared_ptr props = WriterProperties::Builder().build(); auto file_writer = ParquetFileWriter::Open(sink, gnode, props); RowGroupWriter* row_group_writer; row_group_writer = file_writer->AppendRowGroup(); this->GenerateData(kNumRows); std::vector definition_levels(kNumRows, 1); std::vector repetition_levels(kNumRows, 0); { auto column_writer = static_cast*>(row_group_writer->NextColumn()); column_writer->WriteBatch(kNumRows, definition_levels.data(), repetition_levels.data(), this->values_ptr_); column_writer->Close(); } definition_levels[1] = 0; repetition_levels[3] = 1; { auto column_writer = static_cast*>(row_group_writer->NextColumn()); column_writer->WriteBatch(kNumRows, definition_levels.data(), repetition_levels.data(), this->values_ptr_); column_writer->Close(); } } }; typedef ::testing::Types TestTypes; TYPED_TEST_CASE(TestSerialize, TestTypes); TYPED_TEST(TestSerialize, SmallFileUncompressed) { this->FileSerializeTest(Compression::UNCOMPRESSED); } TYPED_TEST(TestSerialize, TooFewRows) { std::vector num_rows = {100, 100, 100, 99}; ASSERT_THROW(this->UnequalNumRows(100, num_rows), ParquetException); } TYPED_TEST(TestSerialize, TooManyRows) { std::vector num_rows = {100, 100, 100, 101}; ASSERT_THROW(this->UnequalNumRows(101, num_rows), ParquetException); } TYPED_TEST(TestSerialize, RepeatedTooFewRows) { ASSERT_THROW(this->RepeatedUnequalRows(), ParquetException); } TYPED_TEST(TestSerialize, SmallFileSnappy) { this->FileSerializeTest(Compression::SNAPPY); } TYPED_TEST(TestSerialize, SmallFileBrotli) { this->FileSerializeTest(Compression::BROTLI); } TYPED_TEST(TestSerialize, SmallFileGzip) { this->FileSerializeTest(Compression::GZIP); } TYPED_TEST(TestSerialize, SmallFileLz4) { this->FileSerializeTest(Compression::LZ4); } TYPED_TEST(TestSerialize, SmallFileZstd) { this->FileSerializeTest(Compression::ZSTD); } } // namespace test } // namespace parquet