use std::fs; use std::fs::File; use std::io::prelude::*; use std::io::BufWriter; use crossbeam_channel::Receiver; use futures::channel::mpsc::UnboundedSender; use log::{debug, info}; use crate::common_dir_traversal::{DirTraversalBuilder, DirTraversalResult, FileEntry, ProgressData, ToolType}; use crate::common_tool::{CommonData, CommonToolData}; use crate::common_traits::*; #[derive(Eq, PartialEq, Clone, Debug)] pub enum DeleteMethod { None, Delete, } /// Info struck with helpful information's about results #[derive(Default)] pub struct Info { pub number_of_empty_files: usize, } /// Struct with required information's to work pub struct EmptyFiles { common_data: CommonToolData, information: Info, empty_files: Vec, delete_method: DeleteMethod, } impl CommonData for EmptyFiles { fn get_cd(&self) -> &CommonToolData { &self.common_data } fn get_cd_mut(&mut self) -> &mut CommonToolData { &mut self.common_data } } impl EmptyFiles { pub fn new() -> Self { Self { common_data: CommonToolData::new(ToolType::EmptyFiles), information: Info::default(), empty_files: vec![], delete_method: DeleteMethod::None, } } pub fn find_empty_files(&mut self, stop_receiver: Option<&Receiver<()>>, progress_sender: Option<&UnboundedSender>) { info!("Starting finding empty files"); let start_time = std::time::Instant::now(); self.find_empty_files_internal(stop_receiver, progress_sender); info!("Ended finding empty files which took {:?}", start_time.elapsed()); } fn find_empty_files_internal(&mut self, stop_receiver: Option<&Receiver<()>>, progress_sender: Option<&UnboundedSender>) { self.optimize_dirs_before_start(); if !self.check_files(stop_receiver, progress_sender) { self.common_data.stopped_search = true; return; } self.delete_files(); self.debug_print(); } /// Check files for any with size == 0 fn check_files(&mut self, stop_receiver: Option<&Receiver<()>>, progress_sender: Option<&UnboundedSender>) -> bool { debug!("check_files - start"); let result = DirTraversalBuilder::new() .root_dirs(self.common_data.directories.included_directories.clone()) .group_by(|_fe| ()) .stop_receiver(stop_receiver) .progress_sender(progress_sender) .minimal_file_size(0) .maximal_file_size(0) .directories(self.common_data.directories.clone()) .allowed_extensions(self.common_data.allowed_extensions.clone()) .excluded_items(self.common_data.excluded_items.clone()) .recursive_search(self.common_data.recursive_search) .build() .run(); debug!("check_files - collected files to check"); let res = match result { DirTraversalResult::SuccessFiles { grouped_file_entries, warnings } => { if let Some(empty_files) = grouped_file_entries.get(&()) { self.empty_files = empty_files.clone(); } self.information.number_of_empty_files = self.empty_files.len(); self.common_data.text_messages.warnings.extend(warnings); true } DirTraversalResult::SuccessFolders { .. } => { unreachable!() } DirTraversalResult::Stopped => false, }; debug!("check_files - end"); res } /// Function to delete files, from filed Vector fn delete_files(&mut self) { match self.delete_method { DeleteMethod::Delete => { for file_entry in &self.empty_files { if fs::remove_file(file_entry.path.clone()).is_err() { self.common_data.text_messages.warnings.push(file_entry.path.display().to_string()); } } } DeleteMethod::None => { //Just do nothing } } } } impl Default for EmptyFiles { fn default() -> Self { Self::new() } } impl DebugPrint for EmptyFiles { #[allow(dead_code)] #[allow(unreachable_code)] /// Debugging printing - only available on debug build fn debug_print(&self) { #[cfg(not(debug_assertions))] { return; } println!("---------------DEBUG PRINT---------------"); println!("Empty list size - {}", self.empty_files.len()); println!("Delete Method - {:?}", self.delete_method); self.debug_print_common(); println!("-----------------------------------------"); } } impl SaveResults for EmptyFiles { fn save_results_to_file(&mut self, file_name: &str) -> bool { let file_name: String = match file_name { "" => "results.txt".to_string(), k => k.to_string(), }; let file_handler = match File::create(&file_name) { Ok(t) => t, Err(e) => { self.common_data.text_messages.errors.push(format!("Failed to create file {file_name}, reason {e}")); return false; } }; let mut writer = BufWriter::new(file_handler); if let Err(e) = writeln!( writer, "Results of searching {:?} with excluded directories {:?} and excluded items {:?}", self.common_data.directories.included_directories, self.common_data.directories.excluded_directories, self.common_data.excluded_items.items ) { self.common_data .text_messages .errors .push(format!("Failed to save results to file {file_name}, reason {e}")); return false; } if !self.empty_files.is_empty() { writeln!(writer, "Found {} empty files.", self.information.number_of_empty_files).unwrap(); for file_entry in &self.empty_files { writeln!(writer, "{}", file_entry.path.display()).unwrap(); } } else { write!(writer, "Not found any empty files.").unwrap(); } true } } impl PrintResults for EmptyFiles { /// Print information's about duplicated entries /// Only needed for CLI fn print_results(&self) { println!("Found {} empty files.\n", self.information.number_of_empty_files); for file_entry in &self.empty_files { println!("{}", file_entry.path.display()); } } } impl EmptyFiles { pub const fn get_empty_files(&self) -> &Vec { &self.empty_files } pub const fn get_information(&self) -> &Info { &self.information } pub fn set_delete_method(&mut self, delete_method: DeleteMethod) { self.delete_method = delete_method; } }