# fd [![Build Status](https://travis-ci.org/sharkdp/fd.svg?branch=master)](https://travis-ci.org/sharkdp/fd) [![Build status](https://ci.appveyor.com/api/projects/status/21c4p5fwggc5gy3j?svg=true)](https://ci.appveyor.com/project/sharkdp/fd) [![Version info](https://img.shields.io/crates/v/fd-find.svg)](https://crates.io/crates/fd-find) *fd* is a simple, fast and user-friendly alternative to [*find*](https://www.gnu.org/software/findutils/). While it does not seek to mirror all of *find*'s powerful functionality, it provides sensible (opinionated) defaults for [80%](https://en.wikipedia.org/wiki/Pareto_principle) of the use cases. ## Features * Convenient syntax: `fd PATTERN` instead of `find -iname '*PATTERN*'`. * Colorized terminal output (similar to *ls*). * It's *fast* (see [benchmarks](#benchmark) below). * Smart case: the search is case-insensitive by default. It switches to case-sensitive if the pattern contains an uppercase character[\*](http://vimdoc.sourceforge.net/htmldoc/options.html#'smartcase'). * Ignores hidden directories and files, by default. * Ignores patterns from your `.gitignore`, by default. * Regular expressions. * Unicode-awareness. * The command name is *50%* shorter[\*](https://github.com/ggreer/the_silver_searcher) than `find` :-). * Parallel command execution with a syntax similar to GNU Parallel. ## Demo ![Demo](http://i.imgur.com/kTMFSVU.gif) ## Benchmark Let's search my home folder for files that end in `[0-9].jpg`. It contains ~150.000 subdirectories and about a million files. For averaging and statistical analysis, I'm using [bench](https://github.com/Gabriel439/bench). All benchmarks are performed for a "warm cache". Results for a cold cache are similar. Let's start with `find`: ``` find ~ -iregex '.*[0-9]\.jpg$' time 6.265 s (6.127 s .. NaN s) 1.000 R² (1.000 R² .. 1.000 R²) mean 6.162 s (6.140 s .. 6.181 s) std dev 31.73 ms (0.0 s .. 33.48 ms) ``` `find` is much faster if it does not need to perform a regular-expression search: ``` find ~ -iname '*[0-9].jpg' time 2.866 s (2.754 s .. 2.964 s) 1.000 R² (0.999 R² .. 1.000 R²) mean 2.860 s (2.834 s .. 2.875 s) std dev 23.11 ms (0.0 s .. 25.09 ms) ``` Now let's try the same for `fd`. Note that `fd` *always* performs a regular expression search. The options `--hidden` and `--no-ignore` are needed for a fair comparison, otherwise `fd` does not have to traverse hidden folders and ignored paths (see below): ``` fd --hidden --no-ignore '.*[0-9]\.jpg$' ~ time 892.6 ms (839.0 ms .. 915.4 ms) 0.999 R² (0.997 R² .. 1.000 R²) mean 871.2 ms (857.9 ms .. 881.3 ms) std dev 15.50 ms (0.0 s .. 17.49 ms) ``` For this particular example, `fd` is approximately seven times faster than `find -iregex` and about three times faster than `find -iname`. By the way, both tools found the exact same 14030 files :smile:. Finally, let's run `fd` without `--hidden` and `--no-ignore` (this can lead to different search results, of course): ``` fd '[0-9]\.jpg$' ~ time 159.5 ms (155.8 ms .. 165.3 ms) 0.999 R² (0.996 R² .. 1.000 R²) mean 158.7 ms (156.5 ms .. 161.6 ms) std dev 3.263 ms (2.401 ms .. 4.298 ms) ``` **Note**: This is *one particular* benchmark on *one particular* machine. While I have performed quite a lot of different tests (and found consistent results), things might be different for you! I encourage everyone to try it out on their own. Concerning *fd*'s speed, the main credit goes to the `regex` and `ignore` crates that are also used in [ripgrep](https://github.com/BurntSushi/ripgrep) (check it out!). ## Colorized output `fd` can colorize files by extension, just like `ls`. In order for this to work, the environment variable [`LS_COLORS`](https://linux.die.net/man/5/dir_colors) has to be set. Typically, the value of this variable is set by the `dircolors` command which provides a convenient configuration format to define colors for different file formats. On most distributions, `LS_COLORS` should be set already. If you are looking for alternative, more complete (and more colorful) variants, see [here](https://github.com/seebi/dircolors-solarized) or [here](https://github.com/trapd00r/LS_COLORS). ## Parallel Command Execution If the `--exec` flag is specified alongside a command template, a job pool will be created for generating and executing commands in parallel with each discovered path as the inputs. The syntax for generating commands is similar to that of GNU Parallel: - **{}**: A placeholder token that will be replaced with the discovered path. - **{.}**: Removes the extension from the path. - **{/}**: Uses the basename of the discovered path. - **{//}**: Uses the parent of the discovered path. - **{/.}**: Uses the basename, with the extension removed. ```sh # Demonstration of parallel job execution fd -e flac --exec 'sleep 1; echo $\{SHELL}: {}' # This also works, because `SHELL` is not a valid token fd -e flac --exec 'sleep 1; echo ${SHELL}: {}' # The token is optional -- it gets added at the end by default. fd -e flac --exec 'echo' # Real world example of converting flac files into opus files. fd -e flac --type f --exec 'ffmpeg -i "{}" -c:a libopus "{.}.opus"' ``` ## Install With Rust's package manager [cargo](https://github.com/rust-lang/cargo), you can install *fd* via: ``` cargo install fd-find ``` Note that rust version *1.16.0* or later is required. The release page of this repository also includes precompiled binaries for Linux. On **macOS**, you can use [Homebrew](http://braumeister.org/formula/fd): ``` brew install fd ``` On **Arch Linux**, you can install the package from the official repos: ``` pacman -S fd-rs ``` On **NixOS**, or any Linux distro you can use [Nix](https://nixos.org/nix/): ``` nix-env -i fd ``` On **Windows**, you can download the pre-built binaries from the [Release page](https://github.com/sharkdp/fd/releases). ## Development ```bash git clone https://github.com/sharkdp/fd # Build cd fd cargo build # Run unit tests and integration tests cargo test # Install cargo install ``` ## Command-line options ``` USAGE: fd [FLAGS/OPTIONS] [] [] FLAGS: -H, --hidden Search hidden files and directories -I, --no-ignore Do not respect .(git)ignore files -s, --case-sensitive Case-sensitive search (default: smart case) -i, --ignore-case Case-insensitive search (default: smart case) -a, --absolute-path Show absolute instead of relative paths -L, --follow Follow symbolic links -p, --full-path Search full path (default: file-/dirname only) -0, --print0 Separate results by the null character -h, --help Prints help information -V, --version Prints version information OPTIONS: -d, --max-depth Set maximum search depth (default: none) -t, --type Filter by type: f(ile), d(irectory), (sym)l(ink) -e, --extension Filter by file extension -c, --color When to use colors: never, *auto*, always -j, --threads Set number of threads to use for searching & executing -x, --exec Execute the given command for each search result ARGS: the search pattern, a regular expression (optional) the root directory for the filesystem search (optional) ``` ## Tutorial First, to get an overview of all available command line options, you can either run `fd -h` for a concise help message (see above) or `fd --help` for a more detailed version. ### Simple search *fd* is designed to find entries in your filesystem. The most basic search you can perform is to run *fd* with a single argument: the search pattern. For example, assume that you want to find an old script of yours (the name included `netflix`): ``` bash > fd netfl Software/python/imdb-ratings/netflix-details.py ``` If called with just a single argument like this, *fd* searches the current directory recursively for any entries that *contain* the pattern `netfl`. ### Regular expression search The search pattern is treated as a regular expression. Here, we search for entries that start with `x` and end with `rc`: ``` bash > cd /etc > fd '^x.*rc$' X11/xinit/xinitrc X11/xinit/xserverrc ``` ### Specifying the root directory If we want so search a specific directory, it can be given as a second argument to *fd*: ``` bash > fd passwd /etc /etc/default/passwd /etc/pam.d/passwd /etc/passwd ``` ### Running *fd* without any arguments *fd* can be called with no arguments. This is very useful to get a quick overview of all entries in the current directory, recursively (similar to `ls -R`): ``` bash > cd fd/tests > fd testenv testenv/mod.rs tests.rs ``` ### Searching for a particular file extension Often, we are interested in all files of a particular type. This can be done with the `-e` (or `--extension`) option. Here, we search for all Markdown files in the fd repository: ``` bash > cd fd > fd -e md CONTRIBUTING.md README.md ``` The `-e` option can be used in combination with a search pattern: ``` bash > fd -e rs mod src/fshelper/mod.rs src/lscolors/mod.rs tests/testenv/mod.rs ``` ### Hidden and ignored files By default, *fd* does not search hidden directories and does not show hidden files in the search results. To disable this behavior, we can use the `-H` (or `--hidden`) option: ``` bash > fd pre-commit > fd -H pre-commit .git/hooks/pre-commit.sample ``` If we work in a directory that is a Git repository (or includes Git repositories), *fd* does not search folders (and does not show files) that match one of the `.gitignore` patterns. To disable this behavior, we can use the `-I` (or `--ignore`) option: ``` bash > fd num_cpu > fd -I num_cpu target/debug/deps/libnum_cpus-f5ce7ef99006aa05.rlib ``` To really search *all* files and directories, simply combine the hidden and ignore features to show everything (`-HI`). ### Using fd with `xargs` or `parallel` If we want to run a command on all search results, we can pipe the output to `xargs`: ``` bash > fd -0 -e rs | xargs -0 wc -l ``` Here, the `-0` option tells *fd* to separate search results by the NULL character (instead of . newlines) In the same way, the `-0` option of `xargs` tells it to read the input in this way .