ripgrep (rg) ------------ ripgrep is a line-oriented search tool that recursively searches your current directory for a regex pattern while respecting your gitignore rules. ripgrep has first class support on Windows, macOS and Linux, with binary downloads available for [every release](https://github.com/BurntSushi/ripgrep/releases). ripgrep is similar to other popular search tools like The Silver Searcher, ack and grep. [![Linux build status](https://travis-ci.org/BurntSushi/ripgrep.svg?branch=master)](https://travis-ci.org/BurntSushi/ripgrep) [![Windows build status](https://ci.appveyor.com/api/projects/status/github/BurntSushi/ripgrep?svg=true)](https://ci.appveyor.com/project/BurntSushi/ripgrep) [![](https://img.shields.io/crates/v/ripgrep.svg)](https://crates.io/crates/ripgrep) Dual-licensed under MIT or the [UNLICENSE](http://unlicense.org). ### CHANGELOG Please see the [CHANGELOG](CHANGELOG.md) for a release history. ### Documentation quick links * [Installation](#installation) * [User Guide](GUIDE.md) * [Frequently Asked Questions](FAQ.md) * [Regex syntax](https://docs.rs/regex/0.2.5/regex/#syntax) * [Configuration files](GUIDE.md#configuration-file) * [Shell completions](FAQ.md#complete) * [Building](#building) ### Screenshot of search results [![A screenshot of a sample search with ripgrep](http://burntsushi.net/stuff/ripgrep1.png)](http://burntsushi.net/stuff/ripgrep1.png) ### Quick examples comparing tools This example searches the entire Linux kernel source tree (after running `make defconfig && make -j8`) for `[A-Z]+_SUSPEND`, where all matches must be words. Timings were collected on a system with an Intel i7-6900K 3.2 GHz, and ripgrep was compiled with SIMD enabled. Please remember that a single benchmark is never enough! See my [blog post on ripgrep](http://blog.burntsushi.net/ripgrep/) for a very detailed comparison with more benchmarks and analysis. | Tool | Command | Line count | Time | | ---- | ------- | ---------- | ---- | | ripgrep (Unicode) | `rg -n -w '[A-Z]+_SUSPEND'` | 450 | **0.106s** | | [git grep](https://www.kernel.org/pub/software/scm/git/docs/git-grep.html) | `LC_ALL=C git grep -E -n -w '[A-Z]+_SUSPEND'` | 450 | 0.553s | | [The Silver Searcher](https://github.com/ggreer/the_silver_searcher) | `ag -w '[A-Z]+_SUSPEND'` | 450 | 0.589s | | [git grep (Unicode)](https://www.kernel.org/pub/software/scm/git/docs/git-grep.html) | `LC_ALL=en_US.UTF-8 git grep -E -n -w '[A-Z]+_SUSPEND'` | 450 | 2.266s | | [sift](https://github.com/svent/sift) | `sift --git -n -w '[A-Z]+_SUSPEND'` | 450 | 3.505s | | [ack](https://github.com/petdance/ack2) | `ack -w '[A-Z]+_SUSPEND'` | 1878 | 6.823s | | [The Platinum Searcher](https://github.com/monochromegane/the_platinum_searcher) | `pt -w -e '[A-Z]+_SUSPEND'` | 450 | 14.208s | (Yes, `ack` [has](https://github.com/petdance/ack2/issues/445) a [bug](https://github.com/petdance/ack2/issues/14).) Here's another benchmark that disregards gitignore files and searches with a whitelist instead. The corpus is the same as in the previous benchmark, and the flags passed to each command ensure that they are doing equivalent work: | Tool | Command | Line count | Time | | ---- | ------- | ---------- | ---- | | ripgrep | `rg -L -u -tc -n -w '[A-Z]+_SUSPEND'` | 404 | **0.079s** | | [ucg](https://github.com/gvansickle/ucg) | `ucg --type=cc -w '[A-Z]+_SUSPEND'` | 390 | 0.163s | | [GNU grep](https://www.gnu.org/software/grep/) | `egrep -R -n --include='*.c' --include='*.h' -w '[A-Z]+_SUSPEND'` | 404 | 0.611s | (`ucg` [has slightly different behavior in the presence of symbolic links](https://github.com/gvansickle/ucg/issues/106).) And finally, a straight-up comparison between ripgrep and GNU grep on a single large file (~9.3GB, [`OpenSubtitles2016.raw.en.gz`](http://opus.lingfil.uu.se/OpenSubtitles2016/mono/OpenSubtitles2016.raw.en.gz)): | Tool | Command | Line count | Time | | ---- | ------- | ---------- | ---- | | ripgrep | `rg -w 'Sherlock [A-Z]\w+'` | 5268 | **2.108s** | | [GNU grep](https://www.gnu.org/software/grep/) | `LC_ALL=C egrep -w 'Sherlock [A-Z]\w+'` | 5268 | 7.014s | In the above benchmark, passing the `-n` flag (for showing line numbers) increases the times to `2.640s` for ripgrep and `10.277s` for GNU grep. ### Why should I use ripgrep? * It can replace both The Silver Searcher and GNU grep because it is generally faster than both. (N.B. It is not, strictly speaking, a "drop-in" replacement for both, but the feature sets are far more similar than different.) * Like The Silver Searcher, ripgrep defaults to recursive directory search and won't search files ignored by your `.gitignore` files. It also ignores hidden and binary files by default. ripgrep also implements full support for `.gitignore`, whereas there are many bugs related to that functionality in The Silver Searcher. * ripgrep can search specific types of files. For example, `rg -tpy foo` limits your search to Python files and `rg -Tjs foo` excludes Javascript files from your search. ripgrep can be taught about new file types with custom matching rules. * ripgrep supports many features found in `grep`, such as showing the context of search results, searching multiple patterns, highlighting matches with color and full Unicode support. Unlike GNU grep, ripgrep stays fast while supporting Unicode (which is always on). * ripgrep supports searching files in text encodings other than UTF-8, such as UTF-16, latin-1, GBK, EUC-JP, Shift_JIS and more. (Some support for automatically detecting UTF-16 is provided. Other text encodings must be specifically specified with the `-E/--encoding` flag.) * ripgrep supports searching files compressed in a common format (gzip, xz, lzma or bzip2 current) with the `-z/--search-zip` flag. In other words, use ripgrep if you like speed, filtering by default, fewer bugs, and Unicode support. ### Why shouldn't I use ripgrep? I'd like to try to convince you why you *shouldn't* use ripgrep. This should give you a glimpse at some important downsides or missing features of ripgrep. * ripgrep uses a regex engine based on finite automata, so if you want fancy regex features such as backreferences or lookaround, ripgrep won't provide them to you. ripgrep does support lots of things though, including, but not limited to: lazy quantification (e.g., `a+?`), repetitions (e.g., `a{2,5}`), begin/end assertions (e.g., `^\w+$`), word boundaries (e.g., `\bfoo\b`), and support for Unicode categories (e.g., `\p{Sc}` to match currency symbols or `\p{Lu}` to match any uppercase letter). (Fancier regexes will never be supported.) * ripgrep doesn't have multiline search. (Will happen as an opt-in feature.) In other words, if you like fancy regexes or multiline search, then ripgrep may not quite meet your needs (yet). ### Is it really faster than everything else? Generally, yes. A large number of benchmarks with detailed analysis for each is [available on my blog](http://blog.burntsushi.net/ripgrep/). Summarizing, ripgrep is fast because: * It is built on top of [Rust's regex engine](https://github.com/rust-lang-nursery/regex). Rust's regex engine uses finite automata, SIMD and aggressive literal optimizations to make searching very fast. * Rust's regex library maintains performance with full Unicode support by building UTF-8 decoding directly into its deterministic finite automaton engine. * It supports searching with either memory maps or by searching incrementally with an intermediate buffer. The former is better for single files and the latter is better for large directories. ripgrep chooses the best searching strategy for you automatically. * Applies your ignore patterns in `.gitignore` files using a [`RegexSet`](https://doc.rust-lang.org/regex/regex/struct.RegexSet.html). That means a single file path can be matched against multiple glob patterns simultaneously. * It uses a lock-free parallel recursive directory iterator, courtesy of [`crossbeam`](https://docs.rs/crossbeam) and [`ignore`](https://docs.rs/ignore). ### Feature comparison Andy Lester, author of [ack](https://beyondgrep.com/), has published an excellent table comparing the features of ack, ag, git-grep, GNU grep and ripgrep: https://beyondgrep.com/feature-comparison/ ### Installation The binary name for ripgrep is `rg`. **[Archives of precompiled binaries for ripgrep are available for Windows, macOS and Linux.](https://github.com/BurntSushi/ripgrep/releases)** Users of platforms not explicitly mentioned below (such as Debian) are advised to download one of these archives. Linux binaries are static executables. Windows binaries are available either as built with MinGW (GNU) or with Microsoft Visual C++ (MSVC). When possible, prefer MSVC over GNU, but you'll need to have the [Microsoft VC++ 2015 redistributable](https://www.microsoft.com/en-us/download/details.aspx?id=48145) installed. If you're a **macOS Homebrew** or a **Linuxbrew** user, then you can install ripgrep either from homebrew-core, (compiled with rust stable, no SIMD): ``` $ brew install ripgrep ``` or you can install a binary compiled with rust nightly (including SIMD and all optimizations) by utilizing a custom tap: ``` $ brew tap burntsushi/ripgrep https://github.com/BurntSushi/ripgrep.git $ brew install burntsushi/ripgrep/ripgrep-bin ``` If you're a **Windows Chocolatey** user, then you can install ripgrep from the [official repo](https://chocolatey.org/packages/ripgrep): ``` $ choco install ripgrep ``` If you're an **Arch Linux** user, then you can install ripgrep from the official repos: ``` $ pacman -S ripgrep ``` If you're a **Gentoo** user, you can install ripgrep from the [official repo](https://packages.gentoo.org/packages/sys-apps/ripgrep): ``` $ emerge sys-apps/ripgrep ``` If you're a **Fedora 27+** user, you can install ripgrep from official repositories. ``` $ sudo dnf install ripgrep ``` If you're a **Fedora 24+** user, you can install ripgrep from [copr](https://copr.fedorainfracloud.org/coprs/carlwgeorge/ripgrep/): ``` $ sudo dnf copr enable carlwgeorge/ripgrep $ sudo dnf install ripgrep ``` If you're a **RHEL/CentOS 7** user, you can install ripgrep from [copr](https://copr.fedorainfracloud.org/coprs/carlwgeorge/ripgrep/): ``` $ sudo yum-config-manager --add-repo=https://copr.fedorainfracloud.org/coprs/carlwgeorge/ripgrep/repo/epel-7/carlwgeorge-ripgrep-epel-7.repo $ sudo yum install ripgrep ``` If you're a **Nix** user, you can install ripgrep from [nixpkgs](https://github.com/NixOS/nixpkgs/blob/master/pkgs/tools/text/ripgrep/default.nix): ``` $ nix-env --install ripgrep $ # (Or using the attribute name, which is also ripgrep.) ``` If you're an **Ubuntu** user, ripgrep can be installed from the `snap` store. * Note that if you are using `16.04 LTS` or later, snap is already installed. * For older versions you can install snap using [this guide](https://docs.snapcraft.io/core/install-ubuntu). ``` sudo snap install rg ``` If you're a **Rust programmer**, ripgrep can be installed with `cargo`. * Note that the minimum supported version of Rust for ripgrep is **1.20**, although ripgrep may work with older versions. * Note that the binary may be bigger than expected because it contains debug symbols. This is intentional. To remove debug symbols and therefore reduce the file size, run `strip` on the binary. ``` $ cargo install ripgrep ``` ripgrep isn't currently in any other package repositories. [I'd like to change that](https://github.com/BurntSushi/ripgrep/issues/10). ### Building ripgrep is written in Rust, so you'll need to grab a [Rust installation](https://www.rust-lang.org/) in order to compile it. ripgrep compiles with Rust 1.20 (stable) or newer. Building is easy: ``` $ git clone https://github.com/BurntSushi/ripgrep $ cd ripgrep $ cargo build --release $ ./target/release/rg --version 0.1.3 ``` If you have a Rust nightly compiler and a recent Intel CPU, then you can enable optional SIMD acceleration like so: ``` RUSTFLAGS="-C target-cpu=native" cargo build --release --features 'simd-accel avx-accel' ``` If your machine doesn't support AVX instructions, then simply remove `avx-accel` from the features list. Similarly for SIMD. ### Running tests ripgrep is relatively well-tested, including both unit tests and integration tests. To run the full test suite, use: ``` $ cargo test --all ``` from the repository root.