`bfs`
=====
[](https://github.com/tavianator/bfs/blob/main/LICENSE)
[](https://github.com/tavianator/bfs/releases)
[](https://github.com/tavianator/bfs/actions/workflows/linux.yml)
[](https://github.com/tavianator/bfs/actions/workflows/macos.yml)
[](https://github.com/tavianator/bfs/actions/workflows/freebsd.yml)
Breadth-first search for your files.
`bfs` is a variant of the UNIX `find` command that operates [breadth-first](https://en.wikipedia.org/wiki/Breadth-first_search) rather than [depth-first](https://en.wikipedia.org/wiki/Depth-first_search).
It is otherwise compatible with many versions of `find`, including
- [POSIX `find`](http://pubs.opengroup.org/onlinepubs/9699919799/utilities/find.html)
- [GNU `find`](https://www.gnu.org/software/findutils/)
- {[Free](https://www.freebsd.org/cgi/man.cgi?find(1)),[Open](https://man.openbsd.org/find.1),[Net](https://man.netbsd.org/find.1)}BSD `find`
- [macOS `find`](https://ss64.com/osx/find.html)
If you're not familiar with `find`, the [GNU find manual](https://www.gnu.org/software/findutils/manual/html_mono/find.html) provides a good introduction.
Features
--------
bfs operates breadth-first, which typically finds the file(s) you're looking for faster.
Imagine the following directory tree:
haystack
├── deep
│ └── 1
│ └── 2
│ └── 3
│ └── 4
│ └── ...
└── shallow
└── needle
`find` will explore the entire `deep` directory tree before it ever gets to the `shallow` one that contains what you're looking for.
$ find haystack
haystack
haystack/deep
haystack/deep/1
haystack/deep/1/2
haystack/deep/1/2/3
haystack/deep/1/2/3/4
...
haystack/shallow
haystack/shallow/needle
On the other hand, `bfs` lists files from shallowest to deepest, so you never have to wait for it to explore an entire unrelated subtree.
$ bfs haystack
haystack
haystack/deep
haystack/shallow
haystack/deep/1
haystack/shallow/needle
haystack/deep/1/2
haystack/deep/1/2/3
haystack/deep/1/2/3/4
...
bfs tries to be easier to use than find, while remaining compatible.
For example, `bfs` is less picky about where you put its arguments:
$ bfs -L -name 'needle' haystack │ $ find -L -name 'needle' haystack
haystack/needle │ find: paths must precede expression: haystack
│
$ bfs haystack -L -name 'needle' │ $ find haystack -L -name 'needle'
haystack/needle │ find: unknown predicate `-L'
│
$ bfs -L haystack -name 'needle' │ $ find -L haystack -name 'needle'
haystack/needle │ haystack/needle
bfs adds some options that make common tasks easier.
### `-exclude`
The `-exclude` operator skips an entire subtree whenever an expression matches.
For example, `-exclude -name .git` will exclude any files or directories named `.git` from the search results.
`-exclude` is easier to use than the standard `-prune` action; compare
bfs -name config -exclude -name .git
to the equivalent
find ! \( -name .git -prune \) -name config
Unlike `-prune`, `-exclude` even works in combination with `-depth`/`-delete`.
---
### `-hidden`/`-nohidden`
`-hidden` matches "hidden" files (dotfiles).
`bfs -hidden` is effectively shorthand for
find \( -name '.*' -not -name . -not -name ..` \)
`-nohidden` is equivalent to `-exclude -hidden`.
---
### `-unique`
This option ensures that `bfs` only visits each file once, even if it's reachable through multiple hard or symbolic links.
It's particularly useful when following symbolic links (`-L`).
---
### `-color`/`-nocolor`
When printing to a terminal, `bfs` automatically colors paths like GNU `ls`, according to the `LS_COLORS` environment variable.
The `-color` and `-nocolor` options override the automatic behavior, which may be handy when you want to preserve colors through a pipe:
bfs -color | less -R
If the [`NO_COLOR`](https://no-color.org/) environment variable is set, colors will be disabled by default.
Installation
------------
bfs may already be packaged for your operating system.
Alpine Linux
# apk add bfs
Debian/Ubuntu
# apt install bfs
NixOS
# nix-env -i bfs
Void Linux
# xbps-install -S bfs
FreeBSD
# pkg install bfs
MacPorts
# port install bfs
Homebrew
$ brew install tavianator/tap/bfs
To build bfs from source, you may need to install some dependencies.
The only absolute requirements for building `bfs` are a C compiler and GNU make.
These are installed by default on many systems, and easy to install on most others.
Refer to your operating system's documentation on building software.
`bfs` also depends on some system libraries for some of its features.
These dependencies are optional, and can be turned off at build time if necessary by setting the appropriate variable to the empty string (e.g. `make WITH_ONIGURUMA=`).
| Dependency | Platforms | `make` flag |
|-------------------------------------------------------|------------|------------------|
| [acl](https://savannah.nongnu.org/projects/acl) | Linux only | `WITH_ACL` |
| [attr](https://savannah.nongnu.org/projects/attr) | Linux only | `WITH_ATTR` |
| [libcap](https://sites.google.com/site/fullycapable/) | Linux only | `WITH_LIBCAP` |
| [Oniguruma](https://github.com/kkos/oniguruma) | All | `WITH_ONIGURUMA` |
Here's how to install them on some common platforms:
Alpine Linux
# apk add acl-dev attr-dev libcap-dev oniguruma-dev
Arch Linux
# pacman -S acl attr libcap oniguruma
Debian/Ubuntu
# apt install acl libacl1-dev attr libattr1-dev libcap2-bin libcap-dev libonig-dev
NixOS
# nix-env -i acl attr libcap oniguruma
Void Linux
# xbps-install -S acl-devel attr-devel libcap-devel oniguruma-devel
FreeBSD
# pkg install oniguruma
MacPorts
# port install oniguruma6
Homebrew
$ brew install oniguruma
Once the dependencies are installed, download one of the [releases](https://github.com/tavianator/bfs/releases) or clone the [git repo](https://github.com/tavianator/bfs).
Then run
$ make
This will build the `bfs` binary in the current directory.
You can test it out:
$ ./bfs -nohidden
If you're interested in speed, you may want to build the release version instead:
$ make release
Finally, if you want to install it globally, run
# make install