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Merge branch 'main' into feat/add_ls_alias

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Orhun Parmaksız 2023-02-05 00:54:20 +03:00
commit a2c894d935
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8 changed files with 344 additions and 293 deletions
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4
build.rs
View File

@ -27,7 +27,7 @@ use clap::{CommandFactory, ValueEnum};
use clap_complete::{generate_to, Shell};
use clap_mangen::Man;
include!("src/opts.rs");
include!("src/cli/args.rs");
fn main() {
println!("cargo:rerun-if-env-changed=OUCH_ARTIFACTS_FOLDER");
@ -35,7 +35,7 @@ fn main() {
if let Some(dir) = env::var_os("OUCH_ARTIFACTS_FOLDER") {
let out = &Path::new(&dir);
create_dir_all(out).unwrap();
let cmd = &mut Opts::command();
let cmd = &mut CliArgs::command();
Man::new(cmd.clone())
.render(&mut File::create(out.join("ouch.1")).unwrap())

229
src/check.rs Normal file
View File

@ -0,0 +1,229 @@
//! Checks for errors.
#![warn(missing_docs)]
use std::{
ffi::OsString,
ops::ControlFlow,
path::{Path, PathBuf},
};
use crate::{
error::FinalError,
extension::{build_archive_file_suggestion, Extension},
info,
utils::{pretty_format_list_of_paths, try_infer_extension, user_wants_to_continue, EscapedPathDisplay},
warning, QuestionAction, QuestionPolicy, Result,
};
/// Check, for each file, if the mime type matches the detected extensions.
///
/// In case the file doesn't has any extensions, try to infer the format.
///
/// TODO: maybe the name of this should be "magic numbers" or "file signature",
/// and not MIME.
pub fn check_mime_type(
files: &[PathBuf],
formats: &mut [Vec<Extension>],
question_policy: QuestionPolicy,
) -> Result<ControlFlow<()>> {
for (path, format) in files.iter().zip(formats.iter_mut()) {
if format.is_empty() {
// File with no extension
// Try to detect it automatically and prompt the user about it
if let Some(detected_format) = try_infer_extension(path) {
// Inferring the file extension can have unpredicted consequences (e.g. the user just
// mistyped, ...) which we should always inform the user about.
info!(
accessible,
"Detected file: `{}` extension as `{}`",
path.display(),
detected_format
);
if user_wants_to_continue(path, question_policy, QuestionAction::Decompression)? {
format.push(detected_format);
} else {
return Ok(ControlFlow::Break(()));
}
}
} else if let Some(detected_format) = try_infer_extension(path) {
// File ending with extension
// Try to detect the extension and warn the user if it differs from the written one
let outer_ext = format.iter().next_back().unwrap();
if !outer_ext
.compression_formats
.ends_with(detected_format.compression_formats)
{
warning!(
"The file extension: `{}` differ from the detected extension: `{}`",
outer_ext,
detected_format
);
if !user_wants_to_continue(path, question_policy, QuestionAction::Decompression)? {
return Ok(ControlFlow::Break(()));
}
}
} else {
// NOTE: If this actually produces no false positives, we can upgrade it in the future
// to a warning and ask the user if he wants to continue decompressing.
info!(accessible, "Could not detect the extension of `{}`", path.display());
}
}
Ok(ControlFlow::Continue(()))
}
/// In the context of listing archives, this function checks if `ouch` was told to list
/// the contents of a compressed file that is not an archive
pub fn check_for_non_archive_formats(files: &[PathBuf], formats: &[Vec<Extension>]) -> Result<()> {
let mut not_archives = files
.iter()
.zip(formats)
.filter(|(_, formats)| !formats.first().map(Extension::is_archive).unwrap_or(false))
.map(|(path, _)| path)
.peekable();
if not_archives.peek().is_some() {
let not_archives: Vec<_> = not_archives.collect();
let error = FinalError::with_title("Cannot list archive contents")
.detail("Only archives can have their contents listed")
.detail(format!(
"Files are not archives: {}",
pretty_format_list_of_paths(&not_archives)
));
return Err(error.into());
}
Ok(())
}
/// Show error if archive format is not the first format in the chain.
pub fn check_archive_formats_position(formats: &[Extension], output_path: &Path) -> Result<()> {
if let Some(format) = formats.iter().skip(1).find(|format| format.is_archive()) {
let error = FinalError::with_title(format!(
"Cannot compress to '{}'.",
EscapedPathDisplay::new(output_path)
))
.detail(format!("Found the format '{format}' in an incorrect position."))
.detail(format!(
"'{format}' can only be used at the start of the file extension."
))
.hint(format!(
"If you wish to compress multiple files, start the extension with '{format}'."
))
.hint(format!(
"Otherwise, remove the last '{}' from '{}'.",
format,
EscapedPathDisplay::new(output_path)
));
return Err(error.into());
}
Ok(())
}
/// Check if all provided files have formats to decompress.
pub fn check_missing_formats_when_decompressing(files: &[PathBuf], formats: &[Vec<Extension>]) -> Result<()> {
let files_missing_format: Vec<PathBuf> = files
.iter()
.zip(formats)
.filter(|(_, format)| format.is_empty())
.map(|(input_path, _)| PathBuf::from(input_path))
.collect();
if let Some(path) = files_missing_format.first() {
let error = FinalError::with_title("Cannot decompress files without extensions")
.detail(format!(
"Files without supported extensions: {}",
pretty_format_list_of_paths(&files_missing_format)
))
.detail("Decompression formats are detected automatically by the file extension")
.hint("Provide a file with a supported extension:")
.hint(" ouch decompress example.tar.gz")
.hint("")
.hint("Or overwrite this option with the '--format' flag:")
.hint(format!(
" ouch decompress {} --format tar.gz",
EscapedPathDisplay::new(path),
));
return Err(error.into());
}
Ok(())
}
/// Check if there is a first format when compressing, and returns it.
pub fn check_first_format_when_compressing<'a>(formats: &'a [Extension], output_path: &Path) -> Result<&'a Extension> {
formats.first().ok_or_else(|| {
let output_path = EscapedPathDisplay::new(output_path);
FinalError::with_title(format!("Cannot compress to '{output_path}'."))
.detail("You shall supply the compression format")
.hint("Try adding supported extensions (see --help):")
.hint(format!(" ouch compress <FILES>... {output_path}.tar.gz"))
.hint(format!(" ouch compress <FILES>... {output_path}.zip"))
.hint("")
.hint("Alternatively, you can overwrite this option by using the '--format' flag:")
.hint(format!(" ouch compress <FILES>... {output_path} --format tar.gz"))
.into()
})
}
/// Check if compression is invalid because an archive format is necessary.
///
/// Non-archive formats don't support multiple file compression or folder compression.
pub fn check_invalid_compression_with_non_archive_format(
formats: &[Extension],
output_path: &Path,
files: &[PathBuf],
formats_from_flag: Option<&OsString>,
) -> Result<()> {
let first_format = check_first_format_when_compressing(formats, output_path)?;
let is_some_input_a_folder = files.iter().any(|path| path.is_dir());
let is_multiple_inputs = files.len() > 1;
// If format is archive, nothing to check
// If there's no folder or multiple inputs, non-archive formats can handle it
if first_format.is_archive() || !is_some_input_a_folder && !is_multiple_inputs {
return Ok(());
}
let first_detail_message = if is_multiple_inputs {
"You are trying to compress multiple files."
} else {
"You are trying to compress a folder."
};
let (from_hint, to_hint) = if let Some(formats) = formats_from_flag {
let formats = formats.to_string_lossy();
(
format!("From: --format {formats}"),
format!("To: --format tar.{formats}"),
)
} else {
// This piece of code creates a suggestion for compressing multiple files
// It says:
// Change from file.bz.xz
// To file.tar.bz.xz
let suggested_output_path = build_archive_file_suggestion(output_path, ".tar")
.expect("output path should contain a compression format");
(
format!("From: {}", EscapedPathDisplay::new(output_path)),
format!("To: {suggested_output_path}"),
)
};
let output_path = EscapedPathDisplay::new(output_path);
let error = FinalError::with_title(format!("Cannot compress to '{output_path}'."))
.detail(first_detail_message)
.detail(format!(
"The compression format '{first_format}' does not accept multiple files.",
))
.detail("Formats that bundle files into an archive are tar and zip.")
.hint(format!("Try inserting 'tar.' or 'zip.' before '{first_format}'."))
.hint(from_hint)
.hint(to_hint);
Err(error.into())
}

4
src/opts.rs → src/cli/args.rs
View File

@ -5,14 +5,14 @@ use clap::{Parser, ValueHint};
// Ouch command line options (docstrings below are part of --help)
/// A command-line utility for easily compressing and decompressing files and directories.
///
/// Supported formats: tar, zip, bz/bz2, gz, lz4, xz/lzma, zst.
/// Supported formats: tar, zip, gz, xz/lzma, bz/bz2, lz4, sz, zst.
///
/// Repository: https://github.com/ouch-org/ouch
#[derive(Parser, Debug)]
#[command(about, version)]
// Disable rustdoc::bare_urls because rustdoc parses URLs differently than Clap
#[allow(rustdoc::bare_urls)]
pub struct Opts {
pub struct CliArgs {
/// Skip [Y/n] questions positively
#[arg(short, long, conflicts_with = "no", global = true)]
pub yes: bool,

27
src/cli.rs → src/cli/mod.rs
View File

@ -1,4 +1,6 @@
//! CLI related functions, uses the clap argparsing definitions from `opts.rs`.
//! CLI related functions, uses the clap argparsing definitions from `args.rs`.
mod args;
use std::{
io,
@ -9,25 +11,26 @@ use std::{
use clap::Parser;
use fs_err as fs;
use crate::{accessible::set_accessible, utils::FileVisibilityPolicy, Opts, QuestionPolicy, Subcommand};
pub use self::args::{CliArgs, Subcommand};
use crate::{accessible::set_accessible, utils::FileVisibilityPolicy, QuestionPolicy};
impl Opts {
impl CliArgs {
/// A helper method that calls `clap::Parser::parse`.
///
/// And:
/// 1. Make paths absolute.
/// 2. Checks the QuestionPolicy.
pub fn parse_args() -> crate::Result<(Self, QuestionPolicy, FileVisibilityPolicy)> {
let mut opts = Self::parse();
let mut args = Self::parse();
set_accessible(opts.accessible);
set_accessible(args.accessible);
let (Subcommand::Compress { files, .. }
| Subcommand::Decompress { files, .. }
| Subcommand::List { archives: files, .. }) = &mut opts.cmd;
| Subcommand::List { archives: files, .. }) = &mut args.cmd;
*files = canonicalize_files(files)?;
let skip_questions_positively = match (opts.yes, opts.no) {
let skip_questions_positively = match (args.yes, args.no) {
(false, false) => QuestionPolicy::Ask,
(true, false) => QuestionPolicy::AlwaysYes,
(false, true) => QuestionPolicy::AlwaysNo,
@ -35,12 +38,12 @@ impl Opts {
};
let file_visibility_policy = FileVisibilityPolicy::new()
.read_git_exclude(opts.gitignore)
.read_ignore(opts.gitignore)
.read_git_ignore(opts.gitignore)
.read_hidden(opts.hidden);
.read_git_exclude(args.gitignore)
.read_ignore(args.gitignore)
.read_git_ignore(args.gitignore)
.read_hidden(args.hidden);
Ok((opts, skip_questions_positively, file_visibility_policy))
Ok((args, skip_questions_positively, file_visibility_policy))
}
}

274
src/commands/mod.rs
View File

@ -4,25 +4,21 @@ mod compress;
mod decompress;
mod list;
use std::{
ops::ControlFlow,
path::{Path, PathBuf},
};
use std::{ops::ControlFlow, path::PathBuf};
use rayon::prelude::{IndexedParallelIterator, IntoParallelRefIterator, ParallelIterator};
use utils::colors;
use crate::{
check,
cli::Subcommand,
commands::{compress::compress_files, decompress::decompress_file, list::list_archive_contents},
error::{Error, FinalError},
extension::{self, flatten_compression_formats, parse_format, Extension, SUPPORTED_EXTENSIONS},
extension::{self, parse_format},
info,
list::ListOptions,
utils::{
self, pretty_format_list_of_paths, to_utf, try_infer_extension, user_wants_to_continue, EscapedPathDisplay,
FileVisibilityPolicy,
},
warning, Opts, QuestionAction, QuestionPolicy, Subcommand,
utils::{self, to_utf, EscapedPathDisplay, FileVisibilityPolicy},
warning, CliArgs, QuestionPolicy,
};
/// Warn the user that (de)compressing this .zip archive might freeze their system.
@ -35,71 +31,12 @@ fn warn_user_about_loading_zip_in_memory() {
warning!("{}", ZIP_IN_MEMORY_LIMITATION_WARNING);
}
/// Builds a suggested output file in scenarios where the user tried to compress
/// a folder into a non-archive compression format, for error message purposes
///
/// E.g.: `build_suggestion("file.bz.xz", ".tar")` results in `Some("file.tar.bz.xz")`
fn build_archive_file_suggestion(path: &Path, suggested_extension: &str) -> Option<String> {
let path = path.to_string_lossy();
let mut rest = &*path;
let mut position_to_insert = 0;
// Walk through the path to find the first supported compression extension
while let Some(pos) = rest.find('.') {
// Use just the text located after the dot we found
rest = &rest[pos + 1..];
position_to_insert += pos + 1;
// If the string contains more chained extensions, clip to the immediate one
let maybe_extension = {
let idx = rest.find('.').unwrap_or(rest.len());
&rest[..idx]
};
// If the extension we got is a supported extension, generate the suggestion
// at the position we found
if SUPPORTED_EXTENSIONS.contains(&maybe_extension) {
let mut path = path.to_string();
path.insert_str(position_to_insert - 1, suggested_extension);
return Some(path);
}
}
None
}
/// In the context of listing archives, this function checks if `ouch` was told to list
/// the contents of a compressed file that is not an archive
fn check_for_non_archive_formats(files: &[PathBuf], formats: &[Vec<Extension>]) -> crate::Result<()> {
let mut not_archives = files
.iter()
.zip(formats)
.filter(|(_, formats)| !formats.first().map(Extension::is_archive).unwrap_or(false))
.map(|(path, _)| path)
.peekable();
if not_archives.peek().is_some() {
let not_archives: Vec<_> = not_archives.collect();
let error = FinalError::with_title("Cannot list archive contents")
.detail("Only archives can have their contents listed")
.detail(format!(
"Files are not archives: {}",
pretty_format_list_of_paths(&not_archives)
));
return Err(error.into());
}
Ok(())
}
/// This function checks what command needs to be run and performs A LOT of ahead-of-time checks
/// to assume everything is OK.
///
/// There are a lot of custom errors to give enough error description and explanation.
pub fn run(
args: Opts,
args: CliArgs,
question_policy: QuestionPolicy,
file_visibility_policy: FileVisibilityPolicy,
) -> crate::Result<()> {
@ -122,84 +59,13 @@ pub fn run(
None => (None, extension::extensions_from_path(&output_path)),
};
let first_format = formats.first().ok_or_else(|| {
let output_path = EscapedPathDisplay::new(&output_path);
FinalError::with_title(format!("Cannot compress to '{output_path}'."))
.detail("You shall supply the compression format")
.hint("Try adding supported extensions (see --help):")
.hint(format!(" ouch compress <FILES>... {output_path}.tar.gz"))
.hint(format!(" ouch compress <FILES>... {output_path}.zip"))
.hint("")
.hint("Alternatively, you can overwrite this option by using the '--format' flag:")
.hint(format!(" ouch compress <FILES>... {output_path} --format tar.gz"))
})?;
let is_some_input_a_folder = files.iter().any(|path| path.is_dir());
let is_multiple_inputs = files.len() > 1;
// If first format is not archive, can't compress folder, or multiple files
// Index safety: empty formats should be checked above.
if !first_format.is_archive() && (is_some_input_a_folder || is_multiple_inputs) {
let first_detail_message = if is_multiple_inputs {
"You are trying to compress multiple files."
} else {
"You are trying to compress a folder."
};
let (from_hint, to_hint) = if let Some(formats) = formats_from_flag {
let formats = formats.to_string_lossy();
(
format!("From: --format {formats}"),
format!("To: --format tar.{formats}"),
)
} else {
// This piece of code creates a suggestion for compressing multiple files
// It says:
// Change from file.bz.xz
// To file.tar.bz.xz
let suggested_output_path = build_archive_file_suggestion(&output_path, ".tar")
.expect("output path should contain a compression format");
(
format!("From: {}", EscapedPathDisplay::new(&output_path)),
format!("To: {suggested_output_path}"),
)
};
let output_path = EscapedPathDisplay::new(&output_path);
let error = FinalError::with_title(format!("Cannot compress to '{output_path}'."))
.detail(first_detail_message)
.detail(format!(
"The compression format '{first_format}' does not accept multiple files.",
))
.detail("Formats that bundle files into an archive are tar and zip.")
.hint(format!("Try inserting 'tar.' or 'zip.' before '{first_format}'."))
.hint(from_hint)
.hint(to_hint);
return Err(error.into());
}
if let Some(format) = formats.iter().skip(1).find(|format| format.is_archive()) {
let error = FinalError::with_title(format!(
"Cannot compress to '{}'.",
EscapedPathDisplay::new(&output_path)
))
.detail(format!("Found the format '{format}' in an incorrect position."))
.detail(format!(
"'{format}' can only be used at the start of the file extension."
))
.hint(format!(
"If you wish to compress multiple files, start the extension with '{format}'."
))
.hint(format!(
"Otherwise, remove the last '{}' from '{}'.",
format,
EscapedPathDisplay::new(&output_path)
));
return Err(error.into());
}
check::check_invalid_compression_with_non_archive_format(
&formats,
&output_path,
&files,
formats_from_flag.as_ref(),
)?;
check::check_archive_formats_position(&formats, &output_path)?;
let output_file = match utils::ask_to_create_file(&output_path, question_policy)? {
Some(writer) => writer,
@ -265,35 +131,11 @@ pub fn run(
}
}
if let ControlFlow::Break(_) = check_mime_type(&files, &mut formats, question_policy)? {
if let ControlFlow::Break(_) = check::check_mime_type(&files, &mut formats, question_policy)? {
return Ok(());
}
let files_missing_format: Vec<PathBuf> = files
.iter()
.zip(&formats)
.filter(|(_, formats)| formats.is_empty())
.map(|(input_path, _)| PathBuf::from(input_path))
.collect();
if let Some(path) = files_missing_format.first() {
let error = FinalError::with_title("Cannot decompress files without extensions")
.detail(format!(
"Files without supported extensions: {}",
pretty_format_list_of_paths(&files_missing_format)
))
.detail("Decompression formats are detected automatically by the file extension")
.hint("Provide a file with a supported extension:")
.hint(" ouch decompress example.tar.gz")
.hint("")
.hint("Or overwrite this option with the '--format' flag:")
.hint(format!(
" ouch decompress {} --format tar.gz",
EscapedPathDisplay::new(path),
));
return Err(error.into());
}
check::check_missing_formats_when_decompressing(&files, &formats)?;
// The directory that will contain the output files
// We default to the current directory if the user didn't specify an output directory with --dir
@ -334,13 +176,13 @@ pub fn run(
formats.push(file_formats);
}
if let ControlFlow::Break(_) = check_mime_type(&files, &mut formats, question_policy)? {
if let ControlFlow::Break(_) = check::check_mime_type(&files, &mut formats, question_policy)? {
return Ok(());
}
}
// Ensure we were not told to list the content of a non-archive compressed file
check_for_non_archive_formats(&files, &formats)?;
check::check_for_non_archive_formats(&files, &formats)?;
let list_options = ListOptions { tree };
@ -348,88 +190,10 @@ pub fn run(
if i > 0 {
println!();
}
let formats = flatten_compression_formats(&formats);
let formats = extension::flatten_compression_formats(&formats);
list_archive_contents(archive_path, formats, list_options, question_policy)?;
}
}
}
Ok(())
}
fn check_mime_type(
files: &[PathBuf],
formats: &mut [Vec<Extension>],
question_policy: QuestionPolicy,
) -> crate::Result<ControlFlow<()>> {
for (path, format) in files.iter().zip(formats.iter_mut()) {
if format.is_empty() {
// File with no extension
// Try to detect it automatically and prompt the user about it
if let Some(detected_format) = try_infer_extension(path) {
// Inferring the file extension can have unpredicted consequences (e.g. the user just
// mistyped, ...) which we should always inform the user about.
info!(
accessible,
"Detected file: `{}` extension as `{}`",
path.display(),
detected_format
);
if user_wants_to_continue(path, question_policy, QuestionAction::Decompression)? {
format.push(detected_format);
} else {
return Ok(ControlFlow::Break(()));
}
}
} else if let Some(detected_format) = try_infer_extension(path) {
// File ending with extension
// Try to detect the extension and warn the user if it differs from the written one
let outer_ext = format.iter().next_back().unwrap();
if !outer_ext
.compression_formats
.ends_with(detected_format.compression_formats)
{
warning!(
"The file extension: `{}` differ from the detected extension: `{}`",
outer_ext,
detected_format
);
if !user_wants_to_continue(path, question_policy, QuestionAction::Decompression)? {
return Ok(ControlFlow::Break(()));
}
}
} else {
// NOTE: If this actually produces no false positives, we can upgrade it in the future
// to a warning and ask the user if he wants to continue decompressing.
info!(accessible, "Could not detect the extension of `{}`", path.display());
}
}
Ok(ControlFlow::Continue(()))
}
#[cfg(test)]
mod tests {
use std::path::Path;
use super::build_archive_file_suggestion;
#[test]
fn builds_suggestion_correctly() {
assert_eq!(build_archive_file_suggestion(Path::new("linux.png"), ".tar"), None);
assert_eq!(
build_archive_file_suggestion(Path::new("linux.xz.gz.zst"), ".tar").unwrap(),
"linux.tar.xz.gz.zst"
);
assert_eq!(
build_archive_file_suggestion(Path::new("linux.pkg.xz.gz.zst"), ".tar").unwrap(),
"linux.pkg.tar.xz.gz.zst"
);
assert_eq!(
build_archive_file_suggestion(Path::new("linux.pkg.zst"), ".tar").unwrap(),
"linux.pkg.tar.zst"
);
assert_eq!(
build_archive_file_suggestion(Path::new("linux.pkg.info.zst"), ".tar").unwrap(),
"linux.pkg.info.tar.zst"
);
}
}

89
src/extension.rs
View File

@ -170,22 +170,6 @@ pub fn extensions_from_path(path: &Path) -> Vec<Extension> {
extensions
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_extensions_from_path() {
use CompressionFormat::*;
let path = Path::new("bolovo.tar.gz");
let extensions: Vec<Extension> = extensions_from_path(path);
let formats: Vec<CompressionFormat> = flatten_compression_formats(&extensions);
assert_eq!(formats, vec![Tar, Gzip]);
}
}
// Panics if formats has an empty list of compression formats
pub fn split_first_compression_format(formats: &[Extension]) -> (CompressionFormat, Vec<CompressionFormat>) {
let mut extensions: Vec<CompressionFormat> = flatten_compression_formats(formats);
@ -200,3 +184,76 @@ pub fn flatten_compression_formats(extensions: &[Extension]) -> Vec<CompressionF
.copied()
.collect()
}
/// Builds a suggested output file in scenarios where the user tried to compress
/// a folder into a non-archive compression format, for error message purposes
///
/// E.g.: `build_suggestion("file.bz.xz", ".tar")` results in `Some("file.tar.bz.xz")`
pub fn build_archive_file_suggestion(path: &Path, suggested_extension: &str) -> Option<String> {
let path = path.to_string_lossy();
let mut rest = &*path;
let mut position_to_insert = 0;
// Walk through the path to find the first supported compression extension
while let Some(pos) = rest.find('.') {
// Use just the text located after the dot we found
rest = &rest[pos + 1..];
position_to_insert += pos + 1;
// If the string contains more chained extensions, clip to the immediate one
let maybe_extension = {
let idx = rest.find('.').unwrap_or(rest.len());
&rest[..idx]
};
// If the extension we got is a supported extension, generate the suggestion
// at the position we found
if SUPPORTED_EXTENSIONS.contains(&maybe_extension) {
let mut path = path.to_string();
path.insert_str(position_to_insert - 1, suggested_extension);
return Some(path);
}
}
None
}
#[cfg(test)]
mod tests {
use std::path::Path;
use super::*;
#[test]
fn test_extensions_from_path() {
use CompressionFormat::*;
let path = Path::new("bolovo.tar.gz");
let extensions: Vec<Extension> = extensions_from_path(path);
let formats: Vec<CompressionFormat> = flatten_compression_formats(&extensions);
assert_eq!(formats, vec![Tar, Gzip]);
}
#[test]
fn builds_suggestion_correctly() {
assert_eq!(build_archive_file_suggestion(Path::new("linux.png"), ".tar"), None);
assert_eq!(
build_archive_file_suggestion(Path::new("linux.xz.gz.zst"), ".tar").unwrap(),
"linux.tar.xz.gz.zst"
);
assert_eq!(
build_archive_file_suggestion(Path::new("linux.pkg.xz.gz.zst"), ".tar").unwrap(),
"linux.pkg.tar.xz.gz.zst"
);
assert_eq!(
build_archive_file_suggestion(Path::new("linux.pkg.zst"), ".tar").unwrap(),
"linux.pkg.tar.zst"
);
assert_eq!(
build_archive_file_suggestion(Path::new("linux.pkg.info.zst"), ".tar").unwrap(),
"linux.pkg.info.tar.zst"
);
}
}

8
src/main.rs
View File

@ -3,6 +3,7 @@ pub mod macros;
pub mod accessible;
pub mod archive;
pub mod check;
pub mod cli;
pub mod commands;
pub mod error;
@ -10,14 +11,11 @@ pub mod extension;
pub mod list;
pub mod utils;
/// CLI argparsing definitions, using `clap`.
pub mod opts;
use std::{env, path::PathBuf};
use cli::CliArgs;
use error::{Error, Result};
use once_cell::sync::Lazy;
use opts::{Opts, Subcommand};
use utils::{QuestionAction, QuestionPolicy};
// Used in BufReader and BufWriter to perform less syscalls
@ -37,6 +35,6 @@ fn main() {
}
fn run() -> Result<()> {
let (args, skip_questions_positively, file_visibility_policy) = Opts::parse_args()?;
let (args, skip_questions_positively, file_visibility_policy) = CliArgs::parse_args()?;
commands::run(args, skip_questions_positively, file_visibility_policy)
}

2
src/utils/formatting.rs
View File

@ -62,7 +62,7 @@ pub fn strip_cur_dir(source_path: &Path) -> &Path {
source_path.strip_prefix(current_dir).unwrap_or(source_path)
}
/// Converts a slice of AsRef<OsStr> to comma separated String
/// Converts a slice of `AsRef<OsStr>` to comma separated String
///
/// Panics if the slice is empty.
pub fn pretty_format_list_of_paths(os_strs: &[impl AsRef<Path>]) -> String {