use crate::adapters::*; use crate::args::RgaArgs; use crate::CachingWriter; use failure::Fallible; use failure::{format_err, Error}; use path_clean::PathClean; use std::convert::TryInto; use std::io::BufWriter; use std::sync::{Arc, RwLock}; #[derive(Clone)] pub struct PreprocConfig<'a> { pub cache: Option>>, pub args: &'a RgaArgs, } /** * preprocess a file as defined in `ai`. * * If a cache is passed, read/write to it. * */ pub fn rga_preproc(ai: AdaptInfo) -> Result<(), Error> { let adapters = adapter_matcher()?; let AdaptInfo { filepath_hint, is_real_file, inp, oup, line_prefix, config, archive_recursion_depth, .. } = ai; let PreprocConfig { mut cache, args } = config; let filename = filepath_hint .file_name() .ok_or_else(|| format_err!("Empty filename"))?; eprintln!("depth: {}", archive_recursion_depth); if archive_recursion_depth >= args.rga_max_archive_recursion { writeln!(oup, "{}[rga: max archive recursion reached]", line_prefix)?; return Ok(()); } eprintln!("path_hint: {:?}", filepath_hint); /*let mimetype = tree_magic::from_filepath(path).ok_or(lerr(format!( "File {} does not exist", filename.to_string_lossy() )))?; println!("mimetype: {:?}", mimetype);*/ let adapter = adapters(FileMeta { // mimetype, lossy_filename: filename.to_string_lossy().to_string(), }); match adapter { Some(ad) => { let meta = ad.metadata(); eprintln!("adapter: {}", &meta.name); let db_name = format!("{}.v{}", meta.name, meta.version); if let Some(cache) = cache.as_mut() { let cache_key: Vec = { let clean_path = filepath_hint.to_owned().clean(); let meta = std::fs::metadata(&filepath_hint)?; let key = ( clean_path, meta.modified().expect("weird OS that can't into mtime"), ); eprintln!("cache key: {:?}", key); bincode::serialize(&key).expect("could not serialize path") // key in the cache database }; cache.write().unwrap().get_or_run( &db_name, &cache_key, Box::new(|| -> Fallible>> { // wrapping BufWriter here gives ~10% perf boost let mut compbuf = BufWriter::new(CachingWriter::new( oup, args.rga_cache_max_blob_len.try_into().unwrap(), args.rga_cache_compression_level.try_into().unwrap(), )?); eprintln!("adapting..."); ad.adapt(AdaptInfo { line_prefix, filepath_hint, is_real_file, inp, oup: &mut compbuf, archive_recursion_depth, config: PreprocConfig { cache: None, args }, })?; let compressed = compbuf .into_inner() .map_err(|_| "could not finish zstd") .unwrap() .finish()?; if let Some(cached) = compressed { eprintln!("compressed len: {}", cached.len()); Ok(Some(cached)) } else { Ok(None) } }), Box::new(|cached| { let stdouti = std::io::stdout(); zstd::stream::copy_decode(cached, stdouti.lock())?; Ok(()) }), )?; Ok(()) } else { eprintln!("adapting..."); ad.adapt(AdaptInfo { line_prefix, filepath_hint, is_real_file, inp, oup, archive_recursion_depth, config: PreprocConfig { cache: None, args }, })?; Ok(()) } } None => { // allow passthrough if the file is in an archive, // otherwise it should have been filtered out by rg pre-glob since rg can handle those better than us let allow_cat = !is_real_file; if allow_cat { spawning::postproc_line_prefix(line_prefix, inp, oup)?; Ok(()) } else { Err(format_err!("No adapter found for file {:?}", filename)) } } } }