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Example of reading and writing parquet metadata outside the file
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| // 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. | ||
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| use arrow_array::{ArrayRef, Int32Array, RecordBatch, StringArray}; | ||
| use arrow_cast::pretty::pretty_format_batches; | ||
| use futures::TryStreamExt; | ||
| use parquet::arrow::arrow_reader::{ArrowReaderMetadata, ArrowReaderOptions}; | ||
| use parquet::arrow::{ArrowWriter, ParquetRecordBatchStreamBuilder}; | ||
| use parquet::file::metadata::{ParquetMetaData, ParquetMetaDataReader, ParquetMetaDataWriter}; | ||
| use parquet::file::properties::{EnabledStatistics, WriterProperties}; | ||
| use std::fs::File; | ||
| use std::path::{Path, PathBuf}; | ||
| use std::sync::Arc; | ||
| use tempfile::TempDir; | ||
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| /// This example demonstrates advanced usage of the Parquet metadata APIs. | ||
| /// | ||
| /// It is sometimes desired to copy the metadata for parquet files stored on | ||
| /// remote object storage (e.g. S3) to a local file or an in-memory cache, use a | ||
| /// query engine like DataFusion to analyze the metadata to determine which file | ||
| /// to read, and then read any matching files with a single subsequent object | ||
| /// store request. | ||
| /// | ||
| /// # Example Overview | ||
| /// | ||
| /// 1. Reads the metadata of a Parquet file using [`ParquetMetaDataReader`] | ||
| /// | ||
| /// 2. Removes column statistics from the metadata (to make it smaller) | ||
| /// | ||
| /// 3. Stores the metadata in a separate file using [`ParquetMetaDataWriter`] | ||
| /// | ||
| /// 4. Reads the metadata from the separate file and uses that to read the | ||
| /// Parquet file, thus avoiding a second IO to read metadata or reparsing | ||
| /// the footer. | ||
| /// | ||
| #[tokio::main(flavor = "current_thread")] | ||
| async fn main() -> parquet::errors::Result<()> { | ||
| let tempdir = TempDir::new().unwrap(); | ||
| let parquet_path = create_parquet_file(&tempdir); | ||
| let metadata_path = tempdir.path().join("thrift_metadata.dat"); | ||
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| // In this example, we use a tokio file to mimic an async remote data source | ||
| let mut remote_parquet_file = tokio::fs::File::open(&parquet_path).await?; | ||
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| let metadata = get_metadata_from_remote_parquet_file(&mut remote_parquet_file).await; | ||
| println!( | ||
| "Metadata from 'remote' Parquet file into memory: {} bytes", | ||
| metadata.memory_size() | ||
| ); | ||
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| // now slim down the metadata and write it to a "local" file | ||
| let metadata = prepare_metadata(metadata); | ||
| write_metadata_to_local_file(metadata, &metadata_path); | ||
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| // now read the metadata from the local file and use it to read the "remote" Parquet file | ||
| let metadata = read_metadata_from_local_file(&metadata_path); | ||
| println!("Read metadata from file"); | ||
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| let batches = read_remote_parquet_file_with_metadata(remote_parquet_file, metadata).await; | ||
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| // display the results | ||
| let batches_string = pretty_format_batches(&batches).unwrap().to_string(); | ||
| let batches_lines: Vec<_> = batches_string.split('\n').collect(); | ||
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| assert_eq!( | ||
| batches_lines, | ||
| [ | ||
| "+-----+-------------+", | ||
| "| id | description |", | ||
| "+-----+-------------+", | ||
| "| 100 | oranges |", | ||
| "| 200 | apples |", | ||
| "| 201 | grapefruit |", | ||
| "| 300 | bannanas |", | ||
| "| 102 | grapes |", | ||
| "| 33 | pears |", | ||
| "+-----+-------------+", | ||
| ], | ||
| "actual output:\n\n{batches_lines:#?}" | ||
| ); | ||
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| Ok(()) | ||
| } | ||
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| /// Reads the metadata from a "remote" parquet file | ||
| /// | ||
| /// Note that this function models reading from a remote file source using a | ||
| /// tokio file. In a real application, you would implement [`MetadataFetch`] for | ||
| /// your own remote source. | ||
| /// | ||
| /// [`MetadataFetch`]: parquet::arrow::async_reader::MetadataFetch | ||
| async fn get_metadata_from_remote_parquet_file( | ||
| remote_file: &mut tokio::fs::File, | ||
| ) -> ParquetMetaData { | ||
| // the remote source must know the total file size (e.g. from an object store LIST operation) | ||
| let file_size = remote_file.metadata().await.unwrap().len(); | ||
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| // tell the reader to read the page index | ||
| ParquetMetaDataReader::new() | ||
| .with_page_indexes(true) | ||
| .load_and_finish(remote_file, file_size as usize) | ||
| .await | ||
| .unwrap() | ||
| } | ||
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| /// modifies the metadata to reduce its size | ||
| fn prepare_metadata(metadata: ParquetMetaData) -> ParquetMetaData { | ||
| let orig_size = metadata.memory_size(); | ||
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| let mut builder = metadata.into_builder(); | ||
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| // remove column statistics to reduce the size of the metadata by converting | ||
| // the various structures into their respective builders and modifying them | ||
| // as needed. | ||
| for row_group in builder.take_row_groups() { | ||
| let mut row_group_builder = row_group.into_builder(); | ||
| for column in row_group_builder.take_columns() { | ||
| let column = column.into_builder().clear_statistics().build().unwrap(); | ||
| row_group_builder = row_group_builder.add_column_metadata(column); | ||
| } | ||
| let row_group = row_group_builder.build().unwrap(); | ||
| builder = builder.add_row_group(row_group); | ||
| } | ||
| let metadata = builder.build(); | ||
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| // verifiy that the size has indeed been reduced | ||
| let new_size = metadata.memory_size(); | ||
| assert!(new_size < orig_size, "metadata size did not decrease"); | ||
| println!("Reduced metadata size from {} to {}", orig_size, new_size); | ||
| metadata | ||
| } | ||
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| /// writes the metadata to a file | ||
| /// | ||
| /// The data is stored using the same thrift format as the Parquet file metadata | ||
| fn write_metadata_to_local_file(metadata: ParquetMetaData, file: impl AsRef<Path>) { | ||
| let file = File::create(file).unwrap(); | ||
| ParquetMetaDataWriter::new(file, &metadata) | ||
| .finish() | ||
| .unwrap() | ||
| } | ||
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| /// Reads the metadata from a file | ||
| /// | ||
| /// This function reads the format written by `write_metadata_to_file` | ||
| fn read_metadata_from_local_file(file: impl AsRef<Path>) -> ParquetMetaData { | ||
| let file = File::open(file).unwrap(); | ||
| ParquetMetaDataReader::new() | ||
| .with_column_indexes(true) | ||
| .with_offset_indexes(true) | ||
| .parse_and_finish(&file) | ||
| .unwrap() | ||
| } | ||
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| /// Reads the "remote" Parquet file using the metadata | ||
| /// | ||
| /// This shows how to read the Parquet file using previously read metadata | ||
| /// instead of the metadata in the Parquet file itself. This avoids an IO / | ||
| /// having to fetch and decode the metadata from the Parquet file before | ||
| /// beginning to read it. | ||
| /// | ||
| /// Note that this function models reading from a remote file source using a | ||
| /// tokio file. In a real application, you would implement [`AsyncFileReader`] | ||
| /// for your own remote source. | ||
| /// | ||
| /// In this example, we simply buffer the results in memory as Arrow record | ||
| /// batches but a real application would likely process the batches as they are | ||
| /// read. | ||
| /// | ||
| /// [`AsyncFileReader`]: parquet::arrow::async_reader::AsyncFileReader | ||
| async fn read_remote_parquet_file_with_metadata( | ||
| remote_file: tokio::fs::File, | ||
| metadata: ParquetMetaData, | ||
| ) -> Vec<RecordBatch> { | ||
| let options = ArrowReaderOptions::new() | ||
| // tell the reader to read the page index | ||
| .with_page_index(true); | ||
| // create a reader with pre-existing metadata | ||
| let arrow_reader_metadata = ArrowReaderMetadata::try_new(metadata.into(), options).unwrap(); | ||
| let reader = | ||
| ParquetRecordBatchStreamBuilder::new_with_metadata(remote_file, arrow_reader_metadata) | ||
| .build() | ||
| .unwrap(); | ||
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| reader.try_collect::<Vec<_>>().await.unwrap() | ||
| } | ||
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| /// Make a new parquet file in the temporary directory, and returns the path | ||
| fn create_parquet_file(tmpdir: &TempDir) -> PathBuf { | ||
| let path = tmpdir.path().join("example.parquet"); | ||
| let new_file = File::create(&path).unwrap(); | ||
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| let batch = RecordBatch::try_from_iter(vec![ | ||
| ( | ||
| "id", | ||
| Arc::new(Int32Array::from(vec![100, 200, 201, 300, 102, 33])) as ArrayRef, | ||
| ), | ||
| ( | ||
| "description", | ||
| Arc::new(StringArray::from(vec![ | ||
| "oranges", | ||
| "apples", | ||
| "grapefruit", | ||
| "bannanas", | ||
| "grapes", | ||
| "pears", | ||
| ])), | ||
| ), | ||
| ]) | ||
| .unwrap(); | ||
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| let props = WriterProperties::builder() | ||
| // ensure we write the page index level statistics | ||
| .set_statistics_enabled(EnabledStatistics::Page) | ||
| .build(); | ||
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| let mut writer = ArrowWriter::try_new(new_file, batch.schema(), Some(props)).unwrap(); | ||
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| writer.write(&batch).unwrap(); | ||
| writer.finish().unwrap(); | ||
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| path | ||
| } |
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