A formula is a package definition written in Ruby. It can be created with brew create <URL>
where <URL>
is a zip or tarball, installed with brew install <formula>
, and debugged with brew install --debug --verbose <formula>
. Formulae use the Formula API which provides various Homebrew-specific helpers.
Term | Description | Example |
---|---|---|
Formula | The package definition | /usr/local/Homebrew/Library/Taps/homebrew/homebrew-core/Formula/foo.rb |
Keg | The installation prefix of a Formula | /usr/local/Cellar/foo/0.1 |
opt prefix | A symlink to the active version of a Keg | /usr/local/opt/foo |
Cellar | All Kegs are installed here | /usr/local/Cellar |
Tap | A Git repository of Formulae and/or commands | /usr/local/Homebrew/Library/Taps/homebrew/homebrew-core |
Bottle | Pre-built Keg used instead of building from source | qt-4.8.4.mavericks.bottle.tar.gz |
Cask | An extension of homebrew to install macOS native apps | /Applications/MacDown.app/Contents/SharedSupport/bin/macdown |
Brew Bundle | An extension of homebrew to describe dependencies | brew 'myservice', restart_service: true |
Homebrew uses Git for downloading updates and contributing to the project.
Homebrew installs to the Cellar
and then symlinks some of the installation into /usr/local
so that other programs can see what’s going on. We suggest you brew ls
a few of the kegs in your Cellar to see how it is all arranged.
Packages are installed according to their formulae, which live in /usr/local/Homebrew/Library/Taps/homebrew/homebrew-core/Formula
. Check one out a simple one e.g. brew edit etl
(or etl) or a more advanced one e.g. brew edit git
(or Git).
Make sure you run brew update
before you start. This turns your Homebrew installation into a Git repository.
Before submitting a new formula make sure your package:
brew search <formula>
)brew audit --new-formula <formula>
tests.Before submitting a new formula make sure you read over our contribution guidelines.
Run brew create
with a URL to the source tarball:
brew create https://example.com/foo-0.1.tar.gz
This creates /usr/local/Homebrew/Library/Taps/homebrew/homebrew-core/Formula/foo.rb
and opens it in your EDITOR
. It’ll look something like:
class Foo < Formula
desc ""
homepage ""
url "https://example.com/foo-0.1.tar.gz"
sha256 "85cc828a96735bdafcf29eb6291ca91bac846579bcef7308536e0c875d6c81d7"
# depends_on "cmake" => :build
def install
# ENV.deparallelize
system "./configure", "--disable-debug",
"--disable-dependency-tracking",
"--disable-silent-rules",
"--prefix=#{prefix}"
# system "cmake", ".", *std_cmake_args
system "make", "install"
end
test do
system "false"
end
end
If brew
said Warning: Version cannot be determined from URL
when doing the create
step, you’ll need to explicitly add the correct version
to the formula and then save the formula.
Homebrew will try to guess the formula’s name from its URL. If it fails to do
so you can override this with brew create <URL> --set-name <name>
.
homepage
We don’t accept formulae without a homepage
!
An SSL/TLS (https) homepage
is preferred, if one is available.
Try to summarize from the homepage
what the formula does in the desc
ription. Note that the desc
ription is automatically prepended with the formula name.
brew install --interactive foo
You’re now at a new prompt with the tarball extracted to a temporary sandbox.
Check the package’s README
. Does the package install with ./configure
, cmake
, or something else? Delete the commented out cmake
lines if the package uses ./configure
.
The README
probably tells you about dependencies and Homebrew or macOS probably already has them. You can check for Homebrew dependencies with brew search
. Some common dependencies that macOS comes with:
libexpat
libGL
libiconv
libpcap
libxml2
Python
Ruby
There are plenty of others; check /usr/lib
for them.
We generally try not to duplicate system libraries and complicated tools in core Homebrew but we do duplicate some commonly used tools.
Special exceptions are OpenSSL and LibreSSL. Things that use either should be built using Homebrew’s shipped equivalent and our test bot’s post-install audit
will warn if it detects you haven’t done this.
Homebrew’s OpenSSL is
keg_only
to avoid conflicting with the system so sometimes formulae need to
have environment variables set or special configuration flags passed
to locate our OpenSSL. You can see this mechanism in the
clamav
formula. Usually this is unnecessary because Homebrew sets up our build environment
to favour finding keg_only
formulae first.
Important: $(brew --prefix)/bin
is NOT on the PATH
during formula installation. If you have dependencies at build time, you must specify them and brew
will add them to the PATH
or create a Requirement
.
class Foo < Formula
depends_on "pkg-config" => :run
depends_on "jpeg"
depends_on "boost" => "with-icu"
depends_on "readline" => :recommended
depends_on "gtk+" => :optional
depends_on :x11 => :optional
end
A String (e.g. "jpeg"
) specifies a formula dependency.
A Symbol (e.g. :x11
) specifies a Requirement
which can be fulfilled by one or more formulae, casks or other system-wide installed software (e.g. X11).
A Hash (e.g. =>
) specifies a formula dependency with some additional information. Given a single string key, the value can take several forms:
:build
, :optional
, :run
or :recommended
)
:build
means that dependency is a build-time only dependency so it can
be skipped when installing from a bottle or when listing missing
dependencies using brew missing
.:optional
generates an implicit with-foo
option for the formula.
This means that, given depends_on "foo" => :optional
, the user must pass --with-foo
in order to use the dependency.:run
can mean the dependency is only required at runtime, or it can be used
to declare build dependencies such as pkg-config
that are needed at
runtime as well, which will silence the audit warning. :run
dependencies
are currently available at build time.:recommended
generates an implicit without-foo
option, meaning that
the dependency is enabled by default and the user must pass
--without-foo
to disable this dependency. The default
description can be overridden using the normal option syntax (in this case, the option declaration must precede the dependency):
option "with-foo", "Compile with foo bindings" # This overrides the generated description if you want to
depends_on "foo" => :optional # Generated description is "Build with foo support"
a String or an Array
String values are interpreted as options to be passed to the dependency. You can also pass an array of strings, or an array of symbols and strings, in which case the symbols are interpreted as described above, and the strings are passed to the dependency as options.
depends_on "foo" => "with-bar"
depends_on "foo" => %w{with-bar with-baz}
depends_on "foo" => [:optional, "with-bar"]
Sometimes there’s hard conflict between formulae, and it can’t be avoided or circumvented with keg_only
.
A good example formula for minor conflict is mbedtls, which ships and compiles a “Hello World” executable. This is obviously non-essential to mbedtls
’s functionality, and conflict with the popular GNU hello
formula would be overkill, so we just remove it during the installation process.
pdftohtml provides an example of a serious
conflict, where both formula ship an identically-named binary that is essential to functionality, so a conflicts_with
is preferable.
As a general rule, conflicts_with
should be a last-resort option. It’s a fairly blunt instrument.
The syntax for a conflict that can’t be worked around is:
conflicts_with "blueduck", :because => "yellowduck also ships a duck binary"
In Homebrew we sometimes accept formulae updates that don’t include a version bump. These include resource updates, new patches or fixing a security issue with a formula.
Occasionally, these updates require a forced-recompile of the formula itself or its dependents to either ensure formulae continue to function as expected or to close a security issue. This forced-recompile is known as a revision
and is inserted underneath the homepage
/url
/sha256
block.
When a dependent of a formula fails against a new version of that dependency it must receive a revision
. An example of such failure can be seen here and the fix here.
revision
s are also used for formulae that move from the system OpenSSL to the Homebrew-shipped OpenSSL without any other changes to that formula. This ensures users aren’t left exposed to the potential security issues of the outdated OpenSSL. An example of this can be seen in this commit.
Sometimes formulae have version schemes that change such that a direct comparison between two versions no longer produces the correct result. For example, a project might be version 13
and then decide to become 1.0.0
. As 13
is translated to 13.0.0
by our versioning system by default this requires intervention.
When a version scheme of a formula fails to recognise a new version as newer it must receive a version_scheme
. An example of this can be seen here.
When you already have a lot of formulae installed, it’s easy to miss a common dependency. You can double-check which libraries a binary links to with the otool
command (perhaps you need to use xcrun otool
):
$ otool -L /usr/local/bin/ldapvi
/usr/local/bin/ldapvi:
/usr/local/opt/openssl/lib/libssl.1.0.0.dylib (compatibility version 1.0.0, current version 1.0.0)
/usr/local/opt/openssl/lib/libcrypto.1.0.0.dylib (compatibility version 1.0.0, current version 1.0.0)
/usr/local/lib/libglib-2.0.0.dylib (compatibility version 4201.0.0, current version 4201.0.0)
/usr/local/opt/gettext/lib/libintl.8.dylib (compatibility version 10.0.0, current version 10.2.0)
/usr/local/opt/readline/lib/libreadline.6.dylib (compatibility version 6.0.0, current version 6.3.0)
/usr/local/lib/libpopt.0.dylib (compatibility version 1.0.0, current version 1.0.0)
/usr/lib/libncurses.5.4.dylib (compatibility version 5.4.0, current version 5.4.0)
/System/Library/Frameworks/LDAP.framework/Versions/A/LDAP (compatibility version 1.0.0, current version 2.4.0)
/usr/lib/libresolv.9.dylib (compatibility version 1.0.0, current version 1.0.0)
/usr/lib/libSystem.B.dylib (compatibility version 1.0.0, current version 1213.0.0)
Homebrew doesn’t package already packaged language-specific libraries. These should be installed directly from gem
/cpan
/pip
etc.
If you’re installing an application then use resource
s for all language-specific dependencies:
class Foo < Formula
resource "pycrypto" do
url "https://files.pythonhosted.org/packages/60/db/645aa9af249f059cc3a368b118de33889219e0362141e75d4eaf6f80f163/pycrypto-2.6.1.tar.gz"
sha256 "f2ce1e989b272cfcb677616763e0a2e7ec659effa67a88aa92b3a65528f60a3c"
end
def install
resource("pycrypto").stage { system "python", *Language::Python.setup_install_args(libexec/"vendor") }
end
end
jrnl is an example of a formula that does this well. The end result means the user doesn’t have to use pip
or Python and can just run jrnl
.
homebrew-pypi-poet can help you generate resource
stanzas for the dependencies of your Python application and gdm can help you generate go_resource
stanzas for the dependencies of your Go application.
brew install --verbose --debug foo
--debug
will ask you to open an interactive shell if the build fails so you can try to figure out what went wrong.
Check the top of the e.g. ./configure
output. Some configure scripts do not recognize e.g. --disable-debug
. If you see a warning about it, remove the option from the formula.
Add a valid test to the test do
block of the formula. This will be run by brew test foo
and the Brew Test Bot.
The
test do
block automatically creates and changes to a temporary directory which
is deleted after run. You can access this
Pathname
with the
testpath
function. The environment variable HOME
is set to testpath
within
the test do
block.
We want tests that don’t require any user input and test the basic functionality of the application. For example foo build-foo input.foo
is a good test and (despite their widespread use) foo --version
and foo --help
are bad tests. However, a bad test is better than no test at all.
See cmake for an example of a formula with a good test. The formula writes a basic CMakeLists.txt
file into the test directory then calls CMake to generate Makefiles. This test checks that CMake doesn’t e.g. segfault during basic operation. Another good example is tinyxml2, which writes a small C++ source file into the test directory, compiles and links it against the tinyxml2 library and finally checks that the resulting program runs successfully.
Homebrew expects to find manual pages in #{prefix}/share/man/...
, and not in #{prefix}/man/...
.
Some software installs to man
instead of share/man
, so check the output and add a "--mandir=#{man}"
to the ./configure
line if needed.
Name the formula like the project markets the product. So it’s pkg-config
, not pkgconfig
; sdl_mixer
, not sdl-mixer
or sdlmixer
.
The only exception is stuff like “Apache Ant”. Apache sticks “Apache” in front of everything, but we use the formula name ant
. We only include the prefix in cases like GNUplot (because it’s part of the name) and GNU Go (because everyone calls it “GNU Go”—nobody just calls it “Go”). The word “Go” is too common and there are too many implementations of it.
If you’re not sure about the name check the homepage, and check the Wikipedia page and what Debian calls it.
When Homebrew already has a formula called foo
we typically do not accept requests to replace that formula with something else also named foo
. This is to avoid both confusing and surprising users’ expectations.
When two formulae share an upstream name, e.g. AESCrypt
and AESCrypt
the newer formula must typically adapt the name to avoid conflict with the current formula.
If you’re still not sure, just commit. We’ll apply some arbitrary rule and make a decision 😉.
When importing classes, Homebrew will require the formula and then create an instance of the class. It does this by assuming the formula name can be directly converted to the class name using a regexp
. The rules are simple:
foo-bar.rb
=> FooBar
foobar.rb
=> Foobar
Thus, if you change the name of the class, you must also rename the file. Filenames should be all lowercase, and class names should be the strict CamelCase equivalent, e.g. formulae gnu-go
and sdl_mixer
become classes GnuGo
and SdlMixer
, even if part of their name is an acronym.
Add aliases by creating symlinks in an Aliases
directory in the tap root.
You can run brew audit --strict --online
to test formulae for adherence to Homebrew house style. The audit
command includes warnings for trailing whitespace, preferred URLs for certain source hosts, and a lot of other style issues. Fixing these warnings before committing will make the process a lot quicker for everyone.
New formulae being submitted to Homebrew should run brew audit --new-formula foo
. This command is performed by the Brew Test Bot on new submissions as part of the automated build and test process, and highlights more potential issues than the standard audit.
Use brew info
and check if the version guessed by Homebrew from the URL is
correct. Add an explicit version
if not.
Everything is built on Git, so contribution is easy:
brew update # required in more ways than you think (initializes the brew git repository if you don't already have it)
cd $(brew --repo homebrew/core)
# Create a new git branch for your formula so your pull request is easy to
# modify if any changes come up during review.
git checkout -b <some-descriptive-name>
git add Formula/foo.rb
git commit
The established standard for Git commit messages is:
At Homebrew, we like to put the name of the formula up front like so: foobar 7.3 (new formula)
.
This may seem crazy short, but you’ll find that forcing yourself to summarise the commit encourages you to be atomic and concise. If you can’t summarise it in 50-80 characters, you’re probably trying to commit two commits as one. For a more thorough explanation, please read Tim Pope’s excellent blog post, A Note About Git Commit Messages.
The preferred commit message format for simple version updates is foobar 7.3
and for fixes is foobar: fix flibble matrix.
.
Ensure you reference any relevant GitHub issue, e.g. Closes #12345
in the commit message. Homebrew’s history is the first thing future contributors will look to when trying to understand the current state of formulae they’re interested in.
Now you just need to push your commit to GitHub.
If you haven’t forked Homebrew yet, go to the homebrew-core
repository and hit the Fork button.
If you have already forked Homebrew on GitHub, then you can manually push (just make sure you have been pulling from the Homebrew/homebrew-core
master):
git push https://github.com/myname/homebrew-core/ <what-you-called-your-branch>
Now, open a pull request for your changes.
Three commands are provided for displaying informational messages to the user:
ohai
for general infoopoo
for warning messagesodie
for error messages and immediately exitingIn particular, when a test needs to be performed before installation use odie
to bail out gracefully. For example:
if build.with?("qt") && build.with("qt5")
odie "Options --with-qt and --with-qt5 are mutually exclusive."
end
system "make", "install"
bin.install "foo"
You’ll see stuff like this in some formulae. This moves the file foo
into the formula’s bin
directory (/usr/local/Cellar/pkg/0.1/bin
) and makes it executable (chmod 0555 foo
).
inreplace
A convenience function that can edit files in-place. For example:
inreplace "path", before, after
before
and after
can be strings or regular expressions. You should use the block form if you need to make multiple replacements in a file:
inreplace "path" do |s|
s.gsub! /foo/, "bar"
s.gsub! "123", "456"
end
Make sure you modify s
! This block ignores the returned value.
inreplace
should be used instead of patches when patching something that will never be accepted upstream, e.g. making the software’s build system respect Homebrew’s installation hierarchy. If it’s something that affects both Homebrew and MacPorts (i.e. macOS specific) it should be turned into an upstream submitted patch instead.
If you need modify variables in a Makefile
, rather than using inreplace
, pass them as arguments to make
:
system "make", "target", "VAR2=value1", "VAR2=value2", "VAR3=values can have spaces"
args = %W[
CC=#{ENV.cc}
PREFIX=#{prefix}
]
system "make", *args
Note that values can contain unescaped spaces if you use the multiple-argument form of system
.
While patch
es should generally be avoided, sometimes they are necessary.
When patch
ing (i.e. fixing header file inclusion, fixing compiler warnings, etc.) the first thing to do is check whether or not the upstream project is aware of the issue. If not, file a bug report and/or submit your patch for inclusion. We may sometimes still accept your patch before it was submitted upstream but by getting the ball rolling on fixing the upstream issue you reduce the length of time we have to carry the patch around.
Always justify a patch
with a code comment! Otherwise, nobody will know when it is safe to remove the patch, or safe to leave it in when updating the formula. The comment should include a link to the relevant upstream issue(s).
External patch
es can be declared using resource-style blocks:
patch do
url "https://example.com/example_patch.diff"
sha256 "85cc828a96735bdafcf29eb6291ca91bac846579bcef7308536e0c875d6c81d7"
end
A strip level of -p1
is assumed. It can be overridden using a symbol argument:
patch :p0 do
url "https://example.com/example_patch.diff"
sha256 "85cc828a96735bdafcf29eb6291ca91bac846579bcef7308536e0c875d6c81d7"
end
patch
es can be declared in stable
, devel
, and head
blocks. NOTE: always use a block instead of a conditional, i.e. stable do ... end
instead of if build.stable? then ... end
.
stable do
# some other things...
patch do
url "https://example.com/example_patch.diff"
sha256 "85cc828a96735bdafcf29eb6291ca91bac846579bcef7308536e0c875d6c81d7"
end
end
Embedded (END) patches can be declared like so:
patch :DATA
patch :p0, :DATA
with the patch data included at the end of the file:
__END__
diff --git a/foo/showfigfonts b/foo/showfigfonts
index 643c60b..543379c 100644
--- a/foo/showfigfonts
+++ b/foo/showfigfonts
@@ -14,6 +14,7 @@
…
Patches can also be embedded by passing a string. This makes it possible to provide multiple embedded patches while making only some of them conditional.
patch :p0, "..."
In embedded patches, the string HOMEBREW_PREFIX
is replaced with the value of the constant HOMEBREW_PREFIX
before the patch is applied.
brew install --interactive --git foo
# (make some edits)
git diff | pbcopy
brew edit foo
Now just paste into the formula after __END__
.
Instead of git diff | pbcopy
, for some editors git diff >> path/to/your/formula/foo.rb
might help you ensure that the patch is not touched (e.g. white space removal, indentation, etc.)
If anything isn’t clear, you can usually figure it out by grep
ping the $(brew --repo homebrew/core)
directory. Please submit a pull request to amend this document if you think it will help!
devel
, head
)Formulae can specify alternate downloads for the upstream project’s devel
release (unstable but not master
/trunk
) or head
(master
/trunk
).
devel
The devel
spec (activated by passing --devel
) is used for a project’s unstable releases. It is specified in a block:
devel do
url "https://foo.com/foo-0.1.tar.gz"
sha256 "85cc828a96735bdafcf29eb6291ca91bac846579bcef7308536e0c875d6c81d7"
end
You can test if the devel
spec is in use with build.devel?
.
head
head
URLs (activated by passing --HEAD
) build the development cutting edge. Specifying it is easy:
class Foo < Formula
head "https://github.com/mxcl/lastfm-cocoa.git"
end
Homebrew understands git
, svn
, and hg
URLs, and has a way to specify cvs
repositories as a URL as well. You can test whether the head
is being built with build.head?
.
To use a specific commit, tag, or branch from a repository, specify head
with the :tag
and :revision
, :revision
, or :branch
option, like so:
class Foo < Formula
head "https://github.com/some/package.git", :revision => "090930930295adslfknsdfsdaffnasd13"
# or :branch => "develop" (the default is "master")
# or :tag => "1_0_release",
# :revision => "090930930295adslfknsdfsdaffnasd13"
end
Sometimes a package fails to build when using a certain compiler. Since recent Xcode versions no longer include a GCC compiler we cannot simply force the use of GCC. Instead, the correct way to declare this is the fails_with
DSL method. A properly constructed fails_with
block documents the latest compiler build version known to cause compilation to fail, and the cause of the failure. For example:
fails_with :llvm do
build 2335
cause <<~EOS
The "cause" field should include a short summary of the error. Include
the URLs of any relevant information, such as upstream bug reports. Wrap
the text at a sensible boundary (~72-80 characters), but do not break
URLs over multiple lines.
EOS
end
build
takes a Fixnum (an integer; you can find this number in your brew --config
output). cause
takes a String, and the use of heredocs is encouraged to improve readability and allow for more comprehensive documentation.
fails_with
declarations can be used with any of :gcc
, :llvm
, and :clang
. Homebrew will use this information to select a working compiler (if one is available).
To use one of Homebrew’s built-in download strategies, specify the :using =>
flag on a url
or head
. For example:
class Python3 < Formula
homepage "https://www.python.org/"
url "https://www.python.org/ftp/python/3.4.3/Python-3.4.3.tar.xz"
sha256 "b5b3963533768d5fc325a4d7a6bd6f666726002d696f1d399ec06b043ea996b8"
head "https://hg.python.org/cpython", :using => :hg
Download strategies offered by Homebrew are:
:using value |
download strategy |
---|---|
:bzr |
BazaarDownloadStrategy |
:curl |
CurlDownloadStrategy |
:cvs |
CVSDownloadStrategy |
:git |
GitDownloadStrategy |
:hg |
MercurialDownloadStrategy |
:nounzip |
NoUnzipCurlDownloadStrategy |
:post |
CurlPostDownloadStrategy |
:svn |
SubversionDownloadStrategy |
If you need more control over the way files are downloaded and staged, you can create a custom download strategy and specify it using the url
method’s :using
option:
class MyDownloadStrategy < SomeHomebrewDownloadStrategy
# Does something cool
end
class Foo < Formula
url "something", :using => MyDownloadStrategy
end
When your code in the install function is run, the current working directory is set to the extracted tarball.
So it is easy to just move some files:
prefix.install "file1", "file2"
Or everything:
prefix.install Dir["output/*"]
Generally we’d rather you were specific about what files or directories need to be installed rather than installing everything.
Name | Default | Example |
---|---|---|
HOMEBREW_PREFIX |
/usr/local |
|
prefix |
#{HOMEBREW_PREFIX}/Cellar/#{name}/#{version} |
/usr/local/Cellar/foo/0.1 |
opt_prefix |
#{HOMEBREW_PREFIX}/opt/#{name} |
/usr/local/opt/foo |
bin |
#{prefix}/bin |
/usr/local/Cellar/foo/0.1/bin |
doc |
#{prefix}/share/doc/foo |
/usr/local/Cellar/foo/0.1/share/doc/foo |
include |
#{prefix}/include |
/usr/local/Cellar/foo/0.1/include |
info |
#{prefix}/share/info |
/usr/local/Cellar/foo/0.1/share/info |
lib |
#{prefix}/lib |
/usr/local/Cellar/foo/0.1/lib |
libexec |
#{prefix}/libexec |
/usr/local/Cellar/foo/0.1/libexec |
man |
#{prefix}/share/man |
/usr/local/Cellar/foo/0.1/share/man |
man[1-8] |
#{prefix}/share/man/man[1-8] |
/usr/local/Cellar/foo/0.1/share/man/man[1-8] |
sbin |
#{prefix}/sbin |
/usr/local/Cellar/foo/0.1/sbin |
share |
#{prefix}/share |
/usr/local/Cellar/foo/0.1/share |
pkgshare |
#{prefix}/share/foo |
/usr/local/Cellar/foo/0.1/share/foo |
etc |
#{HOMEBREW_PREFIX}/etc |
/usr/local/etc |
var |
#{HOMEBREW_PREFIX}/var |
/usr/local/var |
buildpath |
A temporary directory somewhere on your system | /private/tmp/[formula-name]-0q2b/[formula-name] |
These can be used, for instance, in code such as
bin.install Dir["output/*"]
to move binaries into their correct location into the Cellar, and
man.mkpath
to create the directory structure for the manual page location.
To install man pages into specific locations, use man1.install "foo.1", "bar.1"
, man2.install "foo.2"
, etc.
Note that in the context of Homebrew, libexec
is reserved for private use by the formula and therefore is not symlinked into HOMEBREW_PREFIX
.
If you want to add an option
:
class Yourformula < Formula
...
option "with-ham", "Description of the option"
option "without-spam", "Another description"
depends_on "foo" => :optional # will automatically add a with-foo option
...
And then to define the effects the option
s have:
if build.with? "ham"
# note, no "with" in the option name (it is added by the build.with? method)
end
if build.without? "ham"
# works as you'd expect. True if `--without-ham` was given.
end
option
names should be prefixed with the words with
or without
. For example, an option to run a test suite should be named --with-test
or --with-check
rather than --test
, and an option to enable a shared library --with-shared
rather than --shared
or --enable-shared
.
Note that option
s that aren’t build.with?
or build.without?
should be deprecated with deprecated_option
. See wget for an example.
You can use the file utilities provided by Ruby’s FileUtils
. These are included in the Formula
class, so you do not need the FileUtils.
prefix to use them.
When creating symlinks, take special care to ensure they are relative symlinks. This makes it easier to create a relocatable bottle. For example, to create a symlink in bin
to an executable in libexec
, use
bin.install_symlink libexec/"name"
instead of:
ln_s libexec/"name", bin
The symlinks created by install_symlink
are guaranteed to be relative. ln_s
will only produce a relative symlink when given a relative path.
For example, Ruby 1.9’s gems should be installed to var/lib/ruby/
so that gems don’t need to be reinstalled when upgrading Ruby. You can usually do this with symlink trickery, or better a configure option.
Another example would be configuration files that should not be overwritten on package upgrades. If after installation you find that to-be-persisted configuration files are not copied but instead symlinked into /usr/local/etc/
from the Cellar, this can often be rectified by passing an appropriate argument to the package’s configure script. That argument will vary depending on a given package’s configure script and/or Makefile, but one example might be: --sysconfdir=#{etc}
Homebrew provides two Formula methods for launchd plist files. plist_name
will return e.g. homebrew.mxcl.<formula>
and plist_path
will return e.g. /usr/local/Cellar/foo/0.1/homebrew.mxcl.foo.plist
.
Eventually a new version of the software will be released. In this case you should update the url
and sha256
. If a revision
line exists outside any bottle do
block and the new release is stable rather than devel, it should be removed.
Leave the bottle do ... end
block as-is; our CI system will update it when we pull your change.
Check if the formula you are updating is a dependency for any other formulae by running brew uses UPDATED_FORMULA
. If it is a dependency, run brew reinstall
for all the dependencies after it is installed and verify they work correctly.
Homebrew wants to maintain a consistent Ruby style across all formulae based on Ruby Style Guide. Other formulae may not have been updated to match this guide yet but all new ones should. Also:
def install
goes before def post_install
)__END__
lineHomebrew tries to automatically determine the version
from the url
to avoid duplication. If the tarball has an unusual name you may need to manually assign the version
.
Not all projects have makefiles that will run in parallel so try to deparallelize by adding these lines to the install
method:
ENV.deparallelize
system "make" # separate make and make install steps
system "make", "install"
If that fixes it, please open an issue so that we can fix it for everyone.
Check out what MacPorts and Fink do:
brew -S --macports foo
brew -S --fink foo
superenv
is our “super environment” that isolates builds by removing /usr/local/bin
and all user PATH
s that are not essential for the build. It does this because user PATH
s are often full of stuff that breaks builds. superenv
also removes bad flags from the commands passed to clang
/gcc
and injects others (for example all keg_only
dependencies are added to the -I
and -L
flags).
Some software requires a Fortran compiler. This can be declared by adding depends_on :fortran
to a formula. :fortran
is a Requirement
that does several things.
First, it looks to see if you have set the FC
environment variable. If it is set, Homebrew will use this value during compilation. If it is not set, it will check to see if gfortran
is found in PATH
. If it is, Homebrew will use its location as the value of FC
. Otherwise, the gcc
formula will be treated as a dependency and installed prior to compilation.
If you have set FC
to a custom Fortran compiler, you may additionally set FCFLAGS
and FFLAGS
. Alternatively, you can pass --default-fortran-flags
to brew install
to use Homebrew’s standard CFLAGS
.
When using Homebrew’s gfortran
compiler, the standard CFLAGS
are used and user-supplied values of FCFLAGS
and FFLAGS
are ignored for consistency and reproducibility reasons.
master
)Have you created a real mess in Git which stops you from creating a commit you want to submit to us? You might want to consider starting again from scratch. Your changes can be reset to the Homebrew master
branch by running:
git checkout -f master
git reset --hard origin/master