use std::{convert::TryFrom, path::PathBuf, vec::Vec}; use clap::{Arg, Values}; // use colored::Colorize; use crate::error; use crate::extension::Extension; use crate::file::File; #[derive(PartialEq, Eq, Debug)] pub enum CommandKind { Compression( // Files to be compressed Vec, ), Decompression( // Files to be decompressed and their extensions Vec, ), } #[derive(PartialEq, Eq, Debug)] pub struct Command { pub kind: CommandKind, pub output: Option, } pub fn clap_app<'a, 'b>() -> clap::App<'a, 'b> { clap::App::new("ouch") .version("0.1.1") .about("ouch is a unified compression & decompression utility") .after_help( "ouch infers what to based on the extensions of the input files and output file received. Examples: `ouch -i movies.tar.gz classes.zip -o Videos/` in order to decompress files into a folder. `ouch -i headers/ sources/ Makefile -o my-project.tar.gz` `ouch -i image{1..50}.jpeg -o images.zip` Please relate any issues or contribute at https://github.com/vrmiguel/ouch") .author("Vinícius R. Miguel") .help_message("Displays this message and exits") .settings(&[ clap::AppSettings::ColoredHelp, clap::AppSettings::ArgRequiredElseHelp, ]) .arg( Arg::with_name("input") .required(true) .multiple(true) .long("input") .short("i") .help("The input files or directories.") .takes_value(true), ) .arg( Arg::with_name("output") // --output/-o not required when output can be inferred from the input files .required(false) .multiple(false) .long("output") .short("o") .help("The output directory or compressed file.") .takes_value(true), ) } pub fn get_matches() -> clap::ArgMatches<'static> { clap_app().get_matches() } // holy spaghetti code impl TryFrom> for Command { type Error = error::Error; fn try_from(matches: clap::ArgMatches<'static>) -> error::OuchResult { let process_decompressible_input = |input_files: Values| { let input_files = input_files.map(|filename| (filename, Extension::new(filename))); for file in input_files.clone() { if let (file, Err(_)) = file { return Err(error::Error::InputsMustHaveBeenDecompressible(file.into())); } } Ok(input_files .map(|(filename, extension)| (PathBuf::from(filename), extension.unwrap())) .map(File::from) .collect::>()) }; // Possibilities: // * Case 1: output not supplied, therefore try to infer output by checking if all input files are decompressible // * Case 2: output supplied let output_was_supplied = matches.is_present("output"); let input_files = matches.values_of("input").unwrap(); // Safe to unwrap since input is an obligatory argument if output_was_supplied { let output_file = matches.value_of("output").unwrap(); // Safe unwrap since we've established that output was supplied let output_file_extension = Extension::new(output_file); let output_is_compressible = output_file_extension.is_ok(); if output_is_compressible { // The supplied output is compressible, so we'll compress our inputs to it // println!( // "{}: trying to compress input files into '{}'", // "info".yellow(), // output_file // ); let input_files = input_files.map(PathBuf::from).collect(); return Ok(Command { kind: CommandKind::Compression(input_files), output: Some(File { path: output_file.into(), contents_in_memory: None, extension: Some(output_file_extension.unwrap()) }), }); } else { // Output not supplied // Checking if input files are decompressible let input_files = process_decompressible_input(input_files)?; return Ok(Command { kind: CommandKind::Decompression(input_files), output: Some(File { path: output_file.into(), contents_in_memory: None, extension: None }) }); } } else { // else: output file not supplied // Case 1: all input files are decompressible // Case 2: error let input_files = process_decompressible_input(input_files)?; return Ok(Command { kind: CommandKind::Decompression(input_files), output: None, }); } } }