// Copyright (c) 2023 Harry [Majored] [hello@majored.pw] // MIT License (https://github.com/Majored/rs-async-zip/blob/main/LICENSE) #![allow(dead_code)] use async_zip::base::read::mem; use async_zip::base::read::seek; use async_zip::base::write::ZipFileWriter; use async_zip::Compression; use async_zip::ZipEntryBuilder; use futures_lite::io::AsyncWriteExt; use tokio::fs::File; use tokio::io::BufReader; use tokio_util::compat::TokioAsyncReadCompatExt; const FOLDER_PREFIX: &str = "tests/test_inputs"; const FILE_LIST: &[&str] = &[ "sample_data/alpha/back_to_front.txt", "sample_data/alpha/front_to_back.txt", "sample_data/numeric/forward.txt", "sample_data/numeric/reverse.txt", ]; pub async fn compress_to_mem(compress: Compression) -> Vec { let mut bytes = Vec::with_capacity(10_000); let mut writer = ZipFileWriter::new(&mut bytes); for fname in FILE_LIST { let content = tokio::fs::read(format!("{FOLDER_PREFIX}/{fname}")).await.unwrap(); let opts = ZipEntryBuilder::new(fname.to_string().into(), compress); let mut entry_writer = writer.write_entry_stream(opts).await.unwrap(); entry_writer.write_all(&content).await.unwrap(); entry_writer.close().await.unwrap(); } writer.close().await.unwrap(); bytes } #[cfg(feature = "tokio-fs")] pub async fn check_decompress_fs(fname: &str) { use async_zip::tokio::read::fs; let zip = fs::ZipFileReader::new(fname).await.unwrap(); let zip_entries: Vec<_> = zip.file().entries().to_vec(); for (idx, entry) in zip_entries.into_iter().enumerate() { // TODO: resolve unwrap usage if entry.dir().unwrap() { continue; } // TODO: resolve unwrap usage let fname = entry.filename().as_str().unwrap(); let mut output = String::new(); let mut reader = zip.reader_with_entry(idx).await.unwrap(); let _ = reader.read_to_string_checked(&mut output).await.unwrap(); let fs_file = format!("{FOLDER_PREFIX}/{fname}"); let expected = tokio::fs::read_to_string(fs_file).await.unwrap(); assert_eq!(output, expected, "for {fname}, expect zip data to match file data"); } } pub async fn check_decompress_seek(fname: &str) { let file = BufReader::new(File::open(fname).await.unwrap()); let mut file_compat = file.compat(); let mut zip = seek::ZipFileReader::new(&mut file_compat).await.unwrap(); let zip_entries: Vec<_> = zip.file().entries().to_vec(); for (idx, entry) in zip_entries.into_iter().enumerate() { // TODO: resolve unwrap usage if entry.dir().unwrap() { continue; } // TODO: resolve unwrap usage let fname = entry.filename().as_str().unwrap(); let mut output = String::new(); let mut reader = zip.reader_with_entry(idx).await.unwrap(); let _ = reader.read_to_string_checked(&mut output).await.unwrap(); let fs_file = format!("tests/test_inputs/{fname}"); let expected = tokio::fs::read_to_string(fs_file).await.unwrap(); assert_eq!(output, expected, "for {fname}, expect zip data to match file data"); } } pub async fn check_decompress_mem(zip_data: Vec) { let zip = mem::ZipFileReader::new(zip_data).await.unwrap(); let zip_entries: Vec<_> = zip.file().entries().to_vec(); for (idx, entry) in zip_entries.into_iter().enumerate() { // TODO: resolve unwrap usage if entry.dir().unwrap() { continue; } // TODO: resolve unwrap usage let fname = entry.filename().as_str().unwrap(); let mut output = String::new(); let mut reader = zip.reader_with_entry(idx).await.unwrap(); let _ = reader.read_to_string_checked(&mut output).await.unwrap(); let fs_file = format!("{FOLDER_PREFIX}/{fname}"); let expected = tokio::fs::read_to_string(fs_file).await.unwrap(); assert_eq!(output, expected, "for {fname}, expect zip data to match file data"); } }