phatsort
FAT filesystem sort utility
https://github.com/ExtremaIS/phatsort-haskell#readme
Version on this page: | 0.5.0.1@rev:3 |
LTS Haskell 22.37: | 0.6.0.0@rev:4 |
Stackage Nightly 2024-10-08: | 0.6.0.0@rev:4 |
Latest on Hackage: | 0.6.0.0@rev:4 |
phatsort-0.5.0.1@sha256:6934688cee512e0e6e2a0049e452fa415d2f4a8bb1be24ae13547df6acf9fa20,3234
Module documentation for 0.5.0.1
- PhatSort
- PhatSort.Cmd
- PhatSort.Monad
- PhatSort.Monad.FileSystem
- PhatSort.Monad.Stdio
- PhatSort.Monad.Sync
- PhatSort.Monad.Trans
- PhatSort.Script
- PhatSort.SortOptions
PhatSort
Overview
The PhatSort project provides two command-line utilities for sorting files
and directories on FAT filesystems. The phatsort
utility sorts files and
directories that are already on the filesystem. The seqcp
utility copies
files and directories to the filesystem in sorted order.
There are many MP3 players that allow you to mount the device as external
storage and manage the media yourself. The storage generally uses a FAT
filesystem. When copying multiple files onto the storage, using the command
line (cp
/mv
) or a GUI, they are generally stored in an arbitrary order.
This is not a problem if the firmware of the MP3 player sorts by filename, but
many MP3 players use the order in the FAT filesystem without sorting, which
results in podcasts and album tracks being played out of order.
There are some utilities that sort the FAT tables of an unmounted filesystem. (See Related Software for information and links.) Unfortunately, there are many devices for which this does not work. PhatSort takes a different approach to solving the problem. It works by creating new directories and moving (“renaming”) the files in the desired order, while the filesystem is mounted. This method works on all devices that have been tried so far.
PhatSort also (optionally) forces the filesystem buffers to be written to the
storage media after each change. This helps avoid write failures when using
devices that have problems with writing large amounts of data. Note that the
seqcp
utility helps with this issue even on non-FAT filesystems.
CLI
Requirements
PhatSort has only been tested on Linux. It might work on other operating systems. Scripts that are output use POSIX shell commands and therefore require a POSIX shell to execute.
Installation
.deb
Package Installation
Check the Releases page for .deb
packages.
.rpm
Package Installation
Check the Releases page for .rpm
packages.
Installation From Hackage
Install PhatSort from Hackage using Cabal as follows:
$ cabal v2-install phatsort
Installation From Stackage
Install PhatSort from Stackage using Stack as follows:
$ stack install phatsort
Usage
See the phatsort
and seqcp
man
pages for usage information.
Related Software
FATSort
is a command-line utility that
sorts unmounted FAT filesystems by direct manipulation of the FAT tables.
Unfortunately, there are many devices for which this does not work.
YAFS
is a
command-line utility that sorts unmounted FAT filesystems by direct
manipulation of the FAT tables.
Visual YAFS
provides a GUI. I have not tried either of these.
DriveSort
is Windows GUI
software that sorts unmounted FAT filesystems by direct manipulation of the
FAT tables. I have not tried it.
Project
Links
- Hackage: https://hackage.haskell.org/package/phatsort
- Stackage: https://www.stackage.org/package/phatsort
- GitHub: https://github.com/ExtremaIS/phatsort-haskell
- GitHub Actions CI: https://github.com/ExtremaIS/phatsort-haskell/actions
Tags
All releases are tagged in the main
branch. Release tags are signed using
the
[email protected]
GPG key.
Contribution
Issues and feature requests are tracked on GitHub: https://github.com/ExtremaIS/phatsort-haskell/issues
Issues may also be submitted via email to [email protected].
License
This project is released under the
MIT License as specified in the
LICENSE
file.
Changes
phatsort-haskell
Changelog
This project follows the Haskell package versioning policy, with
versions in A.B.C.D
format. A
may be incremented arbitrarily for
non-technical reasons, but semantic versioning is otherwise
followed, where A.B
is the major version, C
is the minor version, and D
is the patch version. Initial development uses versions 0.0.0.D
, for which
every version is considered breaking.
The format of this changelog is based on Keep a Changelog, with the following conventions:
- Level-two heading
Unreleased
is used to track changes that have not been released. - Other level-two headings specify the release in
A.B.C.D (YYYY-MM-DD)
format, with newer versions above older versions. - Level-three headings are used to categorize changes as follows:
- Breaking
- Non-Breaking
- Changes are listed in arbitrary order and present tense.
0.5.0.1 (2022-03-02)
Non-Breaking
- Bump
optparse-applicative
dependency version upper bound
0.5.0.0 (2021-12-10)
Breaking
- Add
seqcp
- Check that each target directory is not a mount point
- Call
sync
system call via FFI instead of running thesync
command
Non-Breaking
- Add tests using mocking
0.4.0.0 (2021-06-25)
Breaking
- Fix
--help
when usingoptparse-applicative
0.16
Non-Breaking
- Refactor Nix configuration
0.3.0.0 (2021-05-27)
Breaking
- Add support for
optparse-applicative
0.16
Non-Breaking
- Add
.deb
and.rpm
packaging - Add Cabal support to
Makefile
- Add Cabal tests to GitHub Actions
- Add stan static analysis
0.2.0.2 (2020-11-23)
Non-Breaking
- Use GitHub Actions instead of Travis CI
0.2.0.1 (2020-11-08)
Non-Breaking
- Rename Git default branch to
main
0.2.0.0 (2020-07-26)
Breaking
- Add syncing,
--no-sync
option
Non-Breaking
- Refactor
Makefile
, addSTACK_NIX_PATH
support - Add
test-all
command toMakefile
- Add Nix configuration
0.1.0.3 (2019-12-22)
Non-Breaking
- Switch back to using
LibOA
instead ofoptparse-applicative-supplement
0.1.0.2 (2019-12-22)
Non-Breaking
- Use
optparse-applicative-supplement
0.1.0.1 (2019-12-22)
Non-Breaking
- Add Travis CI
- Turn off threading
0.1.0.0 (2019-12-21)
Breaking
- Initial public release