require "formula_support" require "formula_lock" require "formula_pin" require "hardware" require "utils/bottles" require "utils/shell" require "build_environment" require "build_options" require "formulary" require "software_spec" require "install_renamed" require "pkg_version" require "tap" require "keg" require "migrator" # A formula provides instructions and metadata for Homebrew to install a piece # of software. Every Homebrew formula is a {Formula}. # All subclasses of {Formula} (and all Ruby classes) have to be named # `UpperCase` and `not-use-dashes`. # A formula specified in `this-formula.rb` should have a class named # `ThisFormula`. Homebrew does enforce that the name of the file and the class # correspond. # Make sure you check with `brew search` that the name is free! # @abstract # @see SharedEnvExtension # @see FileUtils # @see Pathname # @see https://github.com/Homebrew/brew/blob/master/docs/Formula-Cookbook.md Formula Cookbook # @see https://github.com/styleguide/ruby Ruby Style Guide # #

class Wget < Formula
#   homepage "https://www.gnu.org/software/wget/"
#   url "https://ftp.gnu.org/gnu/wget/wget-1.15.tar.gz"
#   sha256 "52126be8cf1bddd7536886e74c053ad7d0ed2aa89b4b630f76785bac21695fcd"
#
#   def install
#     system "./configure", "--prefix=#{prefix}"
#     system "make", "install"
#   end
# end

class Formula include FileUtils include Utils::Inreplace include Utils::Shell extend Enumerable # @!method inreplace(paths, before = nil, after = nil) # Actually implemented in {Utils::Inreplace.inreplace}. # Sometimes we have to change a bit before we install. Mostly we # prefer a patch but if you need the `prefix` of this formula in the # patch you have to resort to `inreplace`, because in the patch # you don't have access to any var defined by the formula. Only # HOMEBREW_PREFIX is available in the embedded patch. # inreplace supports regular expressions. #

inreplace "somefile.cfg", /look[for]what?/, "replace by #{bin}/tool"

# @see Utils::Inreplace.inreplace # The name of this {Formula}. # e.g. `this-formula` attr_reader :name # The path to the alias that was used to identify this {Formula}. # e.g. `/usr/local/Library/Taps/homebrew/homebrew-core/Aliases/another-name-for-this-formula` attr_reader :alias_path # The name of the alias that was used to identify this {Formula}. # e.g. `another-name-for-this-formula` attr_reader :alias_name # The fully-qualified name of this {Formula}. # For core formula it's the same as {#name}. # e.g. `homebrew/tap-name/this-formula` attr_reader :full_name # The fully-qualified alias referring to this {Formula}. # For core formula it's the same as {#alias_name}. # e.g. `homebrew/tap-name/another-name-for-this-formula` attr_reader :full_alias_name # The full path to this {Formula}. # e.g. `/usr/local/Library/Taps/homebrew/homebrew-core/Formula/this-formula.rb` attr_reader :path # The {Tap} instance associated with this {Formula}. # If it's nil, then this formula is loaded from path or URL. # @private attr_reader :tap # The stable (and default) {SoftwareSpec} for this {Formula} # This contains all the attributes (e.g. URL, checksum) that apply to the # stable version of this formula. # @private attr_reader :stable # The development {SoftwareSpec} for this {Formula}. # Installed when using `brew install --devel` # `nil` if there is no development version. # @see #stable # @private attr_reader :devel # The HEAD {SoftwareSpec} for this {Formula}. # Installed when using `brew install --HEAD` # This is always installed with the version `HEAD` and taken from the latest # commit in the version control system. # `nil` if there is no HEAD version. # @see #stable # @private attr_reader :head # The currently active {SoftwareSpec}. # @see #determine_active_spec attr_reader :active_spec protected :active_spec # A symbol to indicate currently active {SoftwareSpec}. # It's either :stable, :devel or :head # @see #active_spec # @private attr_reader :active_spec_sym # most recent modified time for source files # @private attr_reader :source_modified_time # Used for creating new Homebrew versions of software without new upstream # versions. # @see .revision attr_reader :revision # Used to change version schemes for packages attr_reader :version_scheme # The current working directory during builds. # Will only be non-`nil` inside {#install}. attr_reader :buildpath # The current working directory during tests. # Will only be non-`nil` inside {#test}. attr_reader :testpath # When installing a bottle (binary package) from a local path this will be # set to the full path to the bottle tarball. If not, it will be `nil`. # @private attr_accessor :local_bottle_path # When performing a build, test, or other loggable action, indicates which # log file location to use. # @private attr_reader :active_log_type # The {BuildOptions} for this {Formula}. Lists the arguments passed and any # {#options} in the {Formula}. Note that these may differ at different times # during the installation of a {Formula}. This is annoying but the result of # state that we're trying to eliminate. # @return [BuildOptions] attr_accessor :build # A {Boolean} indicating whether this formula should be considered outdated # if the target of the alias it was installed with has since changed. # Defaults to true. # @return [Boolean] attr_accessor :follow_installed_alias alias follow_installed_alias? follow_installed_alias # @private def initialize(name, path, spec, alias_path: nil) @name = name @path = path @alias_path = alias_path @alias_name = File.basename(alias_path) if alias_path @revision = self.class.revision || 0 @version_scheme = self.class.version_scheme || 0 @tap = if path == Formulary.core_path(name) CoreTap.instance elsif path.to_s =~ HOMEBREW_TAP_PATH_REGEX Tap.fetch($1, $2) end @full_name = full_name_with_optional_tap(name) @full_alias_name = full_name_with_optional_tap(@alias_name) spec_eval :stable spec_eval :devel spec_eval :head @active_spec = determine_active_spec(spec) @active_spec_sym = if head? :head elsif devel? :devel else :stable end validate_attributes! @build = active_spec.build @pin = FormulaPin.new(self) @follow_installed_alias = true end # @private def active_spec=(spec_sym) spec = send(spec_sym) raise FormulaSpecificationError, "#{spec_sym} spec is not available for #{full_name}" unless spec @active_spec = spec @active_spec_sym = spec_sym validate_attributes! @build = active_spec.build end private # Allow full name logic to be re-used between names, aliases, # and installed aliases. def full_name_with_optional_tap(name) if name.nil? || @tap.nil? || @tap.core_tap? name else "#{@tap}/#{name}" end end def spec_eval(name) spec = self.class.send(name) return unless spec.url spec.owner = self instance_variable_set("@#{name}", spec) end def determine_active_spec(requested) spec = send(requested) || stable || devel || head spec || raise(FormulaSpecificationError, "formulae require at least a URL") end def validate_attributes! if name.nil? || name.empty? || name =~ /\s/ raise FormulaValidationError.new(full_name, :name, name) end url = active_spec.url if url.nil? || url.empty? || url =~ /\s/ raise FormulaValidationError.new(full_name, :url, url) end val = version.respond_to?(:to_str) ? version.to_str : version return unless val.nil? || val.empty? || val =~ /\s/ raise FormulaValidationError.new(full_name, :version, val) end public # The alias path that was used to install this formula, if present. # Can differ from alias_path, which is the alias used to find the formula, # and is specified to this instance. def installed_alias_path path = build.source["path"] if build.is_a?(Tab) path if path =~ %r{#{HOMEBREW_TAP_DIR_REGEX}/Aliases} end def installed_alias_name File.basename(installed_alias_path) if installed_alias_path end def full_installed_alias_name full_name_with_optional_tap(installed_alias_name) end # The path that was specified to find this formula. def specified_path alias_path || path end # The name specified to find this formula. def specified_name alias_name || name end # The name (including tap) specified to find this formula. def full_specified_name full_alias_name || full_name end # The name specified to install this formula. def installed_specified_name installed_alias_name || name end # The name (including tap) specified to install this formula. def full_installed_specified_name full_installed_alias_name || full_name end # Is the currently active {SoftwareSpec} a {#stable} build? # @private def stable? active_spec == stable end # Is the currently active {SoftwareSpec} a {#devel} build? # @private def devel? active_spec == devel end # Is the currently active {SoftwareSpec} a {#head} build? # @private def head? active_spec == head end # @private def bottle_unneeded? active_spec.bottle_unneeded? end # @private def bottle_disabled? active_spec.bottle_disabled? end # @private def bottle_disable_reason active_spec.bottle_disable_reason end # Does the currently active {SoftwareSpec} has any bottle? # @private def bottle_defined? active_spec.bottle_defined? end # Does the currently active {SoftwareSpec} has an installable bottle? # @private def bottled? active_spec.bottled? end # @private def bottle_specification active_spec.bottle_specification end # The Bottle object for the currently active {SoftwareSpec}. # @private def bottle Bottle.new(self, bottle_specification) if bottled? end # The description of the software. # @see .desc def desc self.class.desc end # The homepage for the software. # @see .homepage def homepage self.class.homepage end # The version for the currently active {SoftwareSpec}. # The version is autodetected from the URL and/or tag so only needs to be # declared if it cannot be autodetected correctly. # @see .version def version active_spec.version end def update_head_version return unless head? return unless head.downloader.is_a?(VCSDownloadStrategy) return unless head.downloader.cached_location.exist? head.version.update_commit(head.downloader.last_commit) end # The {PkgVersion} for this formula with {version} and {#revision} information. def pkg_version PkgVersion.new(version, revision) end # A named Resource for the currently active {SoftwareSpec}. # Additional downloads can be defined as {#resource}s. # {Resource#stage} will create a temporary directory and yield to a block. #

resource("additional_files").stage { bin.install "my/extra/tool" }

def resource(name) active_spec.resource(name) end # An old name for the formula def oldname @oldname ||= if tap formula_renames = tap.formula_renames formula_renames.to_a.rassoc(name).first if formula_renames.value?(name) end end # All of aliases for the formula def aliases @aliases ||= if tap tap.alias_reverse_table[full_name] || [] else [] end end # The {Resource}s for the currently active {SoftwareSpec}. def resources active_spec.resources.values end # The {Dependency}s for the currently active {SoftwareSpec}. # @private def deps active_spec.deps end # The {Requirement}s for the currently active {SoftwareSpec}. # @private def requirements active_spec.requirements end # The cached download for the currently active {SoftwareSpec}. # @private def cached_download active_spec.cached_download end # Deletes the download for the currently active {SoftwareSpec}. # @private def clear_cache active_spec.clear_cache end # The list of patches for the currently active {SoftwareSpec}. # @private def patchlist active_spec.patches end # The options for the currently active {SoftwareSpec}. # @private def options active_spec.options end # The deprecated options for the currently active {SoftwareSpec}. # @private def deprecated_options active_spec.deprecated_options end # The deprecated option flags for the currently active {SoftwareSpec}. # @private def deprecated_flags active_spec.deprecated_flags end # If a named option is defined for the currently active {SoftwareSpec}. def option_defined?(name) active_spec.option_defined?(name) end # All the {.fails_with} for the currently active {SoftwareSpec}. # @private def compiler_failures active_spec.compiler_failures end # If this {Formula} is installed. # This is actually just a check for if the {#installed_prefix} directory # exists and is not empty. # @private def installed? (dir = installed_prefix).directory? && !dir.children.empty? end # If at least one version of {Formula} is installed. # @private def any_version_installed? require "tab" installed_prefixes.any? { |keg| (keg/Tab::FILENAME).file? } end # @private # The link status symlink directory for this {Formula}. # You probably want {#opt_prefix} instead. def linked_keg HOMEBREW_LINKED_KEGS/name end def latest_head_version head_versions = installed_prefixes.map do |pn| pn_pkgversion = PkgVersion.parse(pn.basename.to_s) pn_pkgversion if pn_pkgversion.head? end.compact head_versions.max_by do |pn_pkgversion| [Tab.for_keg(prefix(pn_pkgversion)).source_modified_time, pn_pkgversion.revision] end end def latest_head_prefix head_version = latest_head_version prefix(head_version) if head_version end def head_version_outdated?(version, options = {}) tab = Tab.for_keg(prefix(version)) return true if tab.version_scheme < version_scheme return true if stable && tab.stable_version && tab.stable_version < stable.version return true if devel && tab.devel_version && tab.devel_version < devel.version if options[:fetch_head] return false unless head && head.downloader.is_a?(VCSDownloadStrategy) downloader = head.downloader downloader.shutup! unless ARGV.verbose? downloader.commit_outdated?(version.version.commit) else false end end # The latest prefix for this formula. Checks for {#head}, then {#devel} # and then {#stable}'s {#prefix} # @private def installed_prefix if head && (head_version = latest_head_version) && !head_version_outdated?(head_version) latest_head_prefix elsif devel && (devel_prefix = prefix(PkgVersion.new(devel.version, revision))).directory? devel_prefix elsif stable && (stable_prefix = prefix(PkgVersion.new(stable.version, revision))).directory? stable_prefix else prefix end end # The currently installed version for this formula. Will raise an exception # if the formula is not installed. # @private def installed_version Keg.new(installed_prefix).version end # The directory in the cellar that the formula is installed to. # This directory contains the formula's name and version. def prefix(v = pkg_version) Pathname.new("#{HOMEBREW_CELLAR}/#{name}/#{v}") end # The parent of the prefix; the named directory in the cellar containing all # installed versions of this software # @private def rack prefix.parent end # All currently installed prefix directories. # @private def installed_prefixes rack.directory? ? rack.subdirs : [] end # All currently installed kegs. # @private def installed_kegs installed_prefixes.map { |dir| Keg.new(dir) } end # The directory where the formula's binaries should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # # Need to install into the {.bin} but the makefile doesn't mkdir -p prefix/bin? #

bin.mkpath

# # No `make install` available? #

bin.install "binary1"

def bin prefix+"bin" end # The directory where the formula's documentation should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def doc share+"doc"+name end # The directory where the formula's headers should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # # No `make install` available? #

include.install "example.h"

def include prefix+"include" end # The directory where the formula's info files should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def info share+"info" end # The directory where the formula's libraries should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # # No `make install` available? #

lib.install "example.dylib"

def lib prefix+"lib" end # The directory where the formula's binaries should be installed. # This is not symlinked into `HOMEBREW_PREFIX`. # It is also commonly used to install files that we do not wish to be # symlinked into HOMEBREW_PREFIX from one of the other directories and # instead manually create symlinks or wrapper scripts into e.g. {#bin}. def libexec prefix+"libexec" end # The root directory where the formula's manual pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # Often one of the more specific `man` functions should be used instead # e.g. {#man1} def man share+"man" end # The directory where the formula's man1 pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # # No `make install` available? #

man1.install "example.1"

def man1 man+"man1" end # The directory where the formula's man2 pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def man2 man+"man2" end # The directory where the formula's man3 pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # # No `make install` available? #

man3.install "man.3"

def man3 man+"man3" end # The directory where the formula's man4 pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def man4 man+"man4" end # The directory where the formula's man5 pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def man5 man+"man5" end # The directory where the formula's man6 pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def man6 man+"man6" end # The directory where the formula's man7 pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def man7 man+"man7" end # The directory where the formula's man8 pages should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def man8 man+"man8" end # The directory where the formula's `sbin` binaries should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # Generally we try to migrate these to {#bin} instead. def sbin prefix+"sbin" end # The directory where the formula's shared files should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # # Need a custom directory? #

(share/"concept").mkpath

# # Installing something into another custom directory? #

(share/"concept2").install "ducks.txt"

# # Install `./example_code/simple/ones` to share/demos #

(share/"demos").install "example_code/simple/ones"

# # Install `./example_code/simple/ones` to share/demos/examples #

(share/"demos").install "example_code/simple/ones" => "examples"

def share prefix+"share" end # The directory where the formula's shared files should be installed, # with the name of the formula appended to avoid linking conflicts. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # # No `make install` available? #

pkgshare.install "examples"

def pkgshare prefix+"share"+name end # The directory where Emacs Lisp files should be installed, with the # formula name appended to avoid linking conflicts. # # Install an Emacs mode included with a software package: #

elisp.install "contrib/emacs/example-mode.el"

def elisp prefix+"share/emacs/site-lisp"+name end # The directory where the formula's Frameworks should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # This is not symlinked into `HOMEBREW_PREFIX`. def frameworks prefix+"Frameworks" end # The directory where the formula's kernel extensions should be installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. # This is not symlinked into `HOMEBREW_PREFIX`. def kext_prefix prefix+"Library/Extensions" end # The directory where the formula's configuration files should be installed. # Anything using `etc.install` will not overwrite other files on e.g. upgrades # but will write a new file named `*.default`. # This directory is not inside the `HOMEBREW_CELLAR` so it is persisted # across upgrades. def etc (HOMEBREW_PREFIX+"etc").extend(InstallRenamed) end # The directory where the formula's variable files should be installed. # This directory is not inside the `HOMEBREW_CELLAR` so it is persisted # across upgrades. def var HOMEBREW_PREFIX+"var" end # The directory where the formula's Bash completion files should be # installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def bash_completion prefix+"etc/bash_completion.d" end # The directory where the formula's ZSH completion files should be # installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def zsh_completion share+"zsh/site-functions" end # The directory where the formula's fish completion files should be # installed. # This is symlinked into `HOMEBREW_PREFIX` after installation or with # `brew link` for formulae that are not keg-only. def fish_completion share+"fish/vendor_completions.d" end # The directory used for as the prefix for {#etc} and {#var} files on # installation so, despite not being in `HOMEBREW_CELLAR`, they are installed # there after pouring a bottle. # @private def bottle_prefix prefix+".bottle" end # The directory where the formula's installation or test logs will be written. # @private def logs HOMEBREW_LOGS+name end # The prefix, if any, to use in filenames for logging current activity def active_log_prefix if active_log_type "#{active_log_type}." else "" end end # Runs a block with the given log type in effect for its duration def with_logging(log_type) old_log_type = @active_log_type @active_log_type = log_type yield ensure @active_log_type = old_log_type end # This method can be overridden to provide a plist. # For more examples read Apple's handy manpage: # https://developer.apple.com/library/mac/documentation/Darwin/Reference/ManPages/man5/plist.5.html #

def plist; <<-EOS.undent
  #  
  #  
  #  
  #  
  #    Label
  #      #{plist_name}
  #    ProgramArguments
  #    
  #      #{opt_bin}/example
  #      --do-this
  #    
  #    RunAtLoad
  #    
  #    KeepAlive
  #    
  #    StandardErrorPath
  #    /dev/null
  #    StandardOutPath
  #    /dev/null
  #  
  #  EOS
  # end

def plist nil end # The generated launchd {.plist} service name. def plist_name "homebrew.mxcl."+name end # The generated launchd {.plist} file path. def plist_path prefix+(plist_name+".plist") end # @private def plist_manual self.class.plist_manual end # @private def plist_startup self.class.plist_startup end # A stable path for this formula, when installed. Contains the formula name # but no version number. Only the active version will be linked here if # multiple versions are installed. # # This is the prefered way to refer a formula in plists or from another # formula, as the path is stable even when the software is updated. #

args << "--with-readline=#{Formula["readline"].opt_prefix}" if build.with? "readline"

def opt_prefix Pathname.new("#{HOMEBREW_PREFIX}/opt/#{name}") end def opt_bin opt_prefix+"bin" end def opt_include opt_prefix+"include" end def opt_lib opt_prefix+"lib" end def opt_libexec opt_prefix+"libexec" end def opt_sbin opt_prefix+"sbin" end def opt_share opt_prefix+"share" end def opt_pkgshare opt_prefix+"share"+name end def opt_elisp opt_prefix+"share/emacs/site-lisp"+name end def opt_frameworks opt_prefix+"Frameworks" end # Indicates that this formula supports bottles. (Not necessarily that one # should be used in the current installation run.) # Can be overridden to selectively disable bottles from formulae. # Defaults to true so overridden version does not have to check if bottles # are supported. # Replaced by {.pour_bottle}'s `satisfy` method if it is specified. def pour_bottle? true end # @private def pour_bottle_check_unsatisfied_reason self.class.pour_bottle_check_unsatisfied_reason end # Can be overridden to run commands on both source and bottle installation. def post_install; end # @private def post_install_defined? method(:post_install).owner == self.class end # @private def run_post_install build = self.build self.build = Tab.for_formula(self) old_tmpdir = ENV["TMPDIR"] old_temp = ENV["TEMP"] old_tmp = ENV["TMP"] ENV["TMPDIR"] = ENV["TEMP"] = ENV["TMP"] = HOMEBREW_TEMP with_logging("post_install") do post_install end ensure self.build = build ENV["TMPDIR"] = old_tmpdir ENV["TEMP"] = old_temp ENV["TMP"] = old_tmp end # Tell the user about any caveats regarding this package. # @return [String] #

def caveats
  #   <<-EOS.undent
  #     Are optional. Something the user should know?
  #   EOS
  # end

# #

def caveats
  #   s = <<-EOS.undent
  #     Print some important notice to the user when `brew info ` is
  #     called or when brewing a formula.
  #     This is optional. You can use all the vars like #{version} here.
  #   EOS
  #   s += "Some issue only on older systems" if MacOS.version < :mountain_lion
  #   s
  # end

def caveats nil end # rarely, you don't want your library symlinked into the main prefix # see gettext.rb for an example def keg_only? keg_only_reason && keg_only_reason.valid? end # @private def keg_only_reason self.class.keg_only_reason end # sometimes the formula cleaner breaks things # skip cleaning paths in a formula with a class method like this: # skip_clean "bin/foo", "lib/bar" # keep .la files with: # skip_clean :la # @private def skip_clean?(path) return true if path.extname == ".la" && self.class.skip_clean_paths.include?(:la) to_check = path.relative_path_from(prefix).to_s self.class.skip_clean_paths.include? to_check end # Sometimes we accidentally install files outside prefix. After we fix that, # users will get nasty link conflict error. So we create a whitelist here to # allow overwriting certain files. e.g. # link_overwrite "bin/foo", "lib/bar" # link_overwrite "share/man/man1/baz-*" # @private def link_overwrite?(path) # Don't overwrite files not created by Homebrew. return false unless path.stat.uid == HOMEBREW_BREW_FILE.stat.uid # Don't overwrite files belong to other keg except when that # keg's formula is deleted. begin keg = Keg.for(path) rescue NotAKegError, Errno::ENOENT # file doesn't belong to any keg. else tab_tap = Tab.for_keg(keg).tap return false if tab_tap.nil? # this keg doesn't below to any core/tap formula, most likely coming from a DIY install. begin Formulary.factory(keg.name) rescue FormulaUnavailableError # formula for this keg is deleted, so defer to whitelist rescue TapFormulaAmbiguityError, TapFormulaWithOldnameAmbiguityError return false # this keg belongs to another formula else return false # this keg belongs to another formula end end to_check = path.relative_path_from(HOMEBREW_PREFIX).to_s self.class.link_overwrite_paths.any? do |p| p == to_check || to_check.start_with?(p.chomp("/") + "/") || to_check =~ /^#{Regexp.escape(p).gsub('\*', ".*?")}$/ end end def skip_cxxstdlib_check? false end # @private def require_universal_deps? false end # @private def patch return if patchlist.empty? ohai "Patching" patchlist.each(&:apply) end # yields |self,staging| with current working directory set to the uncompressed tarball # where staging is a Mktemp staging context # @private def brew stage do |staging| staging.retain! if ARGV.keep_tmp? prepare_patches begin yield self, staging rescue StandardError staging.retain! if ARGV.interactive? || ARGV.debug? raise ensure cp Dir["config.log", "CMakeCache.txt"], logs end end end # @private def lock @lock = FormulaLock.new(name) @lock.lock return unless oldname return unless (oldname_rack = HOMEBREW_CELLAR/oldname).exist? return unless oldname_rack.resolved_path == rack @oldname_lock = FormulaLock.new(oldname) @oldname_lock.lock end # @private def unlock @lock.unlock unless @lock.nil? @oldname_lock.unlock unless @oldname_lock.nil? end def migration_needed? return false unless oldname return false if rack.exist? old_rack = HOMEBREW_CELLAR/oldname return false unless old_rack.directory? return false if old_rack.subdirs.empty? tap == Tab.for_keg(old_rack.subdirs.first).tap end # @private def outdated_kegs(options = {}) @outdated_kegs ||= Hash.new do |cache, key| raise Migrator::MigrationNeededError, self if migration_needed? cache[key] = _outdated_kegs(key) end @outdated_kegs[options] end def _outdated_kegs(options = {}) all_kegs = [] installed_kegs.each do |keg| all_kegs << keg version = keg.version next if version.head? tab = Tab.for_keg(keg) next if version_scheme > tab.version_scheme next if version_scheme == tab.version_scheme && pkg_version > version # don't consider this keg current if there's a newer formula available next if follow_installed_alias? && new_formula_available? return [] # this keg is the current version of the formula, so it's not outdated end # Even if this formula hasn't been installed, there may be installations # of other formulae which used to be targets of the alias currently # targetting this formula. These should be counted as outdated versions. all_kegs.concat old_installed_formulae.flat_map(&:installed_kegs) head_version = latest_head_version if head_version && !head_version_outdated?(head_version, options) [] else all_kegs.sort_by(&:version) end end def new_formula_available? installed_alias_target_changed? && !latest_formula.installed? end def current_installed_alias_target Formulary.factory(installed_alias_path) if installed_alias_path end # Has the target of the alias used to install this formula changed? # Returns false if the formula wasn't installed with an alias. def installed_alias_target_changed? target = current_installed_alias_target target && target.name != name end # Is this formula the target of an alias used to install an old formula? def supersedes_an_installed_formula? old_installed_formulae.any? end # Has the alias used to install the formula changed, or are different # formulae already installed with this alias? def alias_changed? installed_alias_target_changed? || supersedes_an_installed_formula? end # If the alias has changed value, return the new formula. # Otherwise, return self. def latest_formula installed_alias_target_changed? ? current_installed_alias_target : self end def old_installed_formulae # If this formula isn't the current target of the alias, # it doesn't make sense to say that other formulae are older versions of it # because we don't know which came first. return [] if alias_path.nil? || installed_alias_target_changed? self.class.installed_with_alias_path(alias_path).reject { |f| f.name == name } end # @private def outdated?(options = {}) !outdated_kegs(options).empty? rescue Migrator::MigrationNeededError true end # @private def pinnable? @pin.pinnable? end # @private def pinned? @pin.pinned? end # @private def pinned_version @pin.pinned_version end # @private def pin @pin.pin end # @private def unpin @pin.unpin end # @private def ==(other) instance_of?(other.class) && name == other.name && active_spec == other.active_spec end alias eql? == # @private def hash name.hash end # @private def <=>(other) return unless other.is_a?(Formula) name <=> other.name end def to_s name end # @private def inspect "#" end # Standard parameters for CMake builds. # Setting CMAKE_FIND_FRAMEWORK to "LAST" tells CMake to search for our # libraries before trying to utilize Frameworks, many of which will be from # 3rd party installs. # Note: there isn't a std_autotools variant because autotools is a lot # less consistent and the standard parameters are more memorable. def std_cmake_args args = %W[ -DCMAKE_C_FLAGS_RELEASE=-DNDEBUG -DCMAKE_CXX_FLAGS_RELEASE=-DNDEBUG -DCMAKE_INSTALL_PREFIX=#{prefix} -DCMAKE_BUILD_TYPE=Release -DCMAKE_FIND_FRAMEWORK=LAST -DCMAKE_VERBOSE_MAKEFILE=ON -Wno-dev ] # Avoid false positives for clock_gettime support on 10.11. # CMake cache entries for other weak symbols may be added here as needed. if MacOS.version == "10.11" && MacOS::Xcode.installed? && MacOS::Xcode.version >= "8.0" args << "-DHAVE_CLOCK_GETTIME:INTERNAL=0" end args end # an array of all core {Formula} names # @private def self.core_names CoreTap.instance.formula_names end # an array of all core {Formula} files # @private def self.core_files CoreTap.instance.formula_files end # an array of all tap {Formula} names # @private def self.tap_names @tap_names ||= Tap.reject(&:core_tap?).flat_map(&:formula_names).sort end # an array of all tap {Formula} files # @private def self.tap_files @tap_files ||= Tap.reject(&:core_tap?).flat_map(&:formula_files) end # an array of all {Formula} names # @private def self.names @names ||= (core_names + tap_names.map { |name| name.split("/")[-1] }).uniq.sort end # an array of all {Formula} files # @private def self.files @files ||= core_files + tap_files end # an array of all {Formula} names, which the tap formulae have the fully-qualified name # @private def self.full_names @full_names ||= core_names + tap_names end # @private def self.each files.each do |file| begin yield Formulary.factory(file) rescue StandardError => e # Don't let one broken formula break commands. But do complain. onoe "Failed to import: #{file}" puts e next end end end # Clear cache of .racks def self.clear_racks_cache @racks = nil end # Clear caches of .racks and .installed. def self.clear_installed_formulae_cache clear_racks_cache @installed = nil end # An array of all racks currently installed. # @private def self.racks @racks ||= if HOMEBREW_CELLAR.directory? HOMEBREW_CELLAR.subdirs.reject do |rack| rack.symlink? || rack.subdirs.empty? end else [] end end # An array of all installed {Formula} # @private def self.installed @installed ||= racks.map do |rack| begin Formulary.from_rack(rack) rescue FormulaUnavailableError, TapFormulaAmbiguityError, TapFormulaWithOldnameAmbiguityError end end.compact end def self.installed_with_alias_path(alias_path) return [] if alias_path.nil? installed.select { |f| f.installed_alias_path == alias_path } end # an array of all alias files of core {Formula} # @private def self.core_alias_files CoreTap.instance.alias_files end # an array of all core aliases # @private def self.core_aliases CoreTap.instance.aliases end # an array of all tap aliases # @private def self.tap_aliases @tap_aliases ||= Tap.reject(&:core_tap?).flat_map(&:aliases).sort end # an array of all aliases # @private def self.aliases @aliases ||= (core_aliases + tap_aliases.map { |name| name.split("/")[-1] }).uniq.sort end # an array of all aliases, , which the tap formulae have the fully-qualified name # @private def self.alias_full_names @alias_full_names ||= core_aliases + tap_aliases end # a table mapping core alias to formula name # @private def self.core_alias_table CoreTap.instance.alias_table end # a table mapping core formula name to aliases # @private def self.core_alias_reverse_table CoreTap.instance.alias_reverse_table end def self.[](name) Formulary.factory(name) end # True if this formula is provided by Homebrew itself # @private def core_formula? tap && tap.core_tap? end # True if this formula is provided by external Tap # @private def tap? tap && !tap.core_tap? end # @private def print_tap_action(options = {}) return unless tap? verb = options[:verb] || "Installing" ohai "#{verb} #{name} from #{tap}" end # @private def env self.class.env end # @private def conflicts self.class.conflicts end # Returns a list of Dependency objects in an installable order, which # means if a depends on b then b will be ordered before a in this list # @private def recursive_dependencies(&block) Dependency.expand(self, &block) end # The full set of Requirements for this formula's dependency tree. # @private def recursive_requirements(&block) Requirement.expand(self, &block) end # Returns a list of Dependency objects that are required at runtime. # @private def runtime_dependencies recursive_dependencies.reject(&:build?) end # Returns a list of formulae depended on by this formula that aren't # installed def missing_dependencies(hide: nil) hide ||= [] missing_dependencies = recursive_dependencies do |dependent, dep| if dep.optional? || dep.recommended? tab = Tab.for_formula(dependent) Dependency.prune unless tab.with?(dep) elsif dep.build? Dependency.prune end end missing_dependencies.map!(&:to_formula) missing_dependencies.select! do |d| hide.include?(d.name) || d.installed_prefixes.empty? end missing_dependencies end # @private def to_hash hsh = { "name" => name, "full_name" => full_name, "desc" => desc, "homepage" => homepage, "oldname" => oldname, "aliases" => aliases, "versions" => { "stable" => (stable.version.to_s if stable), "bottle" => bottle ? true : false, "devel" => (devel.version.to_s if devel), "head" => (head.version.to_s if head), }, "revision" => revision, "version_scheme" => version_scheme, "installed" => [], "linked_keg" => (linked_keg.resolved_path.basename.to_s if linked_keg.exist?), "pinned" => pinned?, "outdated" => outdated?, "keg_only" => keg_only?, "dependencies" => deps.map(&:name).uniq, "recommended_dependencies" => deps.select(&:recommended?).map(&:name).uniq, "optional_dependencies" => deps.select(&:optional?).map(&:name).uniq, "build_dependencies" => deps.select(&:build?).map(&:name).uniq, "conflicts_with" => conflicts.map(&:name), "caveats" => caveats, } hsh["requirements"] = requirements.map do |req| { "name" => req.name, "default_formula" => req.default_formula, "cask" => req.cask, "download" => req.download, } end hsh["options"] = options.map do |opt| { "option" => opt.flag, "description" => opt.description } end hsh["bottle"] = {} %w[stable devel].each do |spec_sym| next unless spec = send(spec_sym) next unless spec.bottle_defined? bottle_spec = spec.bottle_specification bottle_info = { "rebuild" => bottle_spec.rebuild, "cellar" => (cellar = bottle_spec.cellar).is_a?(Symbol) ? cellar.inspect : cellar, "prefix" => bottle_spec.prefix, "root_url" => bottle_spec.root_url, } bottle_info["files"] = {} bottle_spec.collector.keys.each do |os| checksum = bottle_spec.collector[os] bottle_info["files"][os] = { "url" => "#{bottle_spec.root_url}/#{Bottle::Filename.create(self, os, bottle_spec.rebuild)}", checksum.hash_type.to_s => checksum.hexdigest, } end hsh["bottle"][spec_sym] = bottle_info end installed_kegs.each do |keg| tab = Tab.for_keg keg hsh["installed"] << { "version" => keg.version.to_s, "used_options" => tab.used_options.as_flags, "built_as_bottle" => tab.built_as_bottle, "poured_from_bottle" => tab.poured_from_bottle, } end hsh["installed"] = hsh["installed"].sort_by { |i| Version.create(i["version"]) } hsh end # @private def fetch active_spec.fetch end # @private def verify_download_integrity(fn) active_spec.verify_download_integrity(fn) end # @private def run_test old_home = ENV["HOME"] old_curl_home = ENV["CURL_HOME"] old_tmpdir = ENV["TMPDIR"] old_temp = ENV["TEMP"] old_tmp = ENV["TMP"] old_term = ENV["TERM"] ENV["CURL_HOME"] = old_curl_home || old_home ENV["TMPDIR"] = ENV["TEMP"] = ENV["TMP"] = HOMEBREW_TEMP ENV["TERM"] = "dumb" mktemp("#{name}-test") do |staging| staging.retain! if ARGV.keep_tmp? @testpath = staging.tmpdir ENV["HOME"] = @testpath setup_home @testpath begin with_logging("test") do test end rescue Exception staging.retain! if ARGV.debug? raise end end ensure @testpath = nil ENV["HOME"] = old_home ENV["CURL_HOME"] = old_curl_home ENV["TMPDIR"] = old_tmpdir ENV["TEMP"] = old_temp ENV["TMP"] = old_tmp ENV["TERM"] = old_term end # @private def test_defined? false end # @private def test end # @private def test_fixtures(file) HOMEBREW_LIBRARY_PATH.join("test", "support", "fixtures", file) end # This method is overridden in {Formula} subclasses to provide the installation instructions. # The sources (from {.url}) are downloaded, hash-checked and # Homebrew changes into a temporary directory where the # archive was unpacked or repository cloned. #

def install
  #   system "./configure", "--prefix=#{prefix}"
  #   system "make", "install"
  # end

def install end protected def setup_home(home) # keep Homebrew's site-packages in sys.path when using system Python user_site_packages = home/"Library/Python/2.7/lib/python/site-packages" user_site_packages.mkpath (user_site_packages/"homebrew.pth").write <<-EOS.undent import site; site.addsitedir("#{HOMEBREW_PREFIX}/lib/python2.7/site-packages") import sys, os; sys.path = (os.environ["PYTHONPATH"].split(os.pathsep) if "PYTHONPATH" in os.environ else []) + ["#{HOMEBREW_PREFIX}/lib/python2.7/site-packages"] + sys.path EOS end public # To call out to the system, we use the `system` method and we prefer # you give the args separately as in the line below, otherwise a subshell # has to be opened first. #

system "./bootstrap.sh", "--arg1", "--prefix=#{prefix}"

# # For CMake we have some necessary defaults in {#std_cmake_args}: #

system "cmake", ".", *std_cmake_args

# # If the arguments given to configure (or make or cmake) are depending # on options defined above, we usually make a list first and then # use the `args << if ` to append to: #

args = ["--with-option1", "--with-option2"]
  #
  # # Most software still uses `configure` and `make`.
  # # Check with `./configure --help` what our options are.
  # system "./configure", "--disable-debug", "--disable-dependency-tracking",
  #                       "--disable-silent-rules", "--prefix=#{prefix}",
  #                       *args # our custom arg list (needs `*` to unpack)
  #
  # # If there is a "make", "install" available, please use it!
  # system "make", "install"

def system(cmd, *args) verbose = ARGV.verbose? verbose_using_dots = !ENV["HOMEBREW_VERBOSE_USING_DOTS"].nil? # remove "boring" arguments so that the important ones are more likely to # be shown considering that we trim long ohai lines to the terminal width pretty_args = args.dup if cmd == "./configure" && !verbose pretty_args.delete "--disable-dependency-tracking" pretty_args.delete "--disable-debug" end pretty_args.each_index do |i| if pretty_args[i].to_s.start_with? "import setuptools" pretty_args[i] = "import setuptools..." end end ohai "#{cmd} #{pretty_args*" "}".strip @exec_count ||= 0 @exec_count += 1 logfn = format("#{logs}/#{active_log_prefix}%02d.%s", @exec_count, File.basename(cmd).split(" ").first) logs.mkpath File.open(logfn, "w") do |log| log.puts Time.now, "", cmd, args, "" log.flush if verbose rd, wr = IO.pipe begin pid = fork do rd.close log.close exec_cmd(cmd, args, wr, logfn) end wr.close if verbose_using_dots last_dot = Time.at(0) while buf = rd.gets log.puts buf # make sure dots printed with interval of at least 1 min. next unless (Time.now - last_dot) > 60 print "." $stdout.flush last_dot = Time.now end puts else while buf = rd.gets log.puts buf puts buf end end ensure rd.close end else pid = fork { exec_cmd(cmd, args, log, logfn) } end Process.wait(pid) $stdout.flush unless $?.success? log_lines = ENV["HOMEBREW_FAIL_LOG_LINES"] log_lines ||= "15" log.flush if !verbose || verbose_using_dots puts "Last #{log_lines} lines from #{logfn}:" Kernel.system "/usr/bin/tail", "-n", log_lines, logfn end log.puts require "system_config" require "build_environment" env = ENV.to_hash SystemConfig.dump_verbose_config(log) log.puts Homebrew.dump_build_env(env, log) raise BuildError.new(self, cmd, args, env) end end end # @private def eligible_kegs_for_cleanup eligible_for_cleanup = [] if installed? eligible_kegs = if head? && (head_prefix = latest_head_prefix) installed_kegs - [Keg.new(head_prefix)] else installed_kegs.select { |k| pkg_version > k.version } end unless eligible_kegs.empty? eligible_kegs.each do |keg| if keg.linked? opoo "Skipping (old) #{keg} due to it being linked" elsif pinned? && keg == Keg.new(@pin.path.resolved_path) opoo "Skipping (old) #{keg} due to it being pinned" else eligible_for_cleanup << keg end end end elsif !installed_prefixes.empty? && !pinned? # If the cellar only has one version installed, don't complain # that we can't tell which one to keep. Don't complain at all if the # only installed version is a pinned formula. opoo "Skipping #{full_name}: most recent version #{pkg_version} not installed" end eligible_for_cleanup end private def exec_cmd(cmd, args, out, logfn) ENV["HOMEBREW_CC_LOG_PATH"] = logfn # TODO: system "xcodebuild" is deprecated, this should be removed soon. ENV.remove_cc_etc if cmd.to_s.start_with? "xcodebuild" # Turn on argument filtering in the superenv compiler wrapper. # We should probably have a better mechanism for this than adding # special cases to this method. if cmd == "python" setup_py_in_args = %w[setup.py build.py].include?(args.first) setuptools_shim_in_args = args.any? { |a| a.to_s.start_with? "import setuptools" } ENV.refurbish_args if setup_py_in_args || setuptools_shim_in_args end $stdout.reopen(out) $stderr.reopen(out) out.close args.collect!(&:to_s) begin exec(cmd, *args) rescue nil end puts "Failed to execute: #{cmd}" exit! 1 # never gets here unless exec threw or failed end def stage active_spec.stage do |staging| @source_modified_time = active_spec.source_modified_time @buildpath = Pathname.pwd env_home = buildpath/".brew_home" mkdir_p env_home old_home = ENV["HOME"] ENV["HOME"] = env_home old_curl_home = ENV["CURL_HOME"] ENV["CURL_HOME"] = old_curl_home || old_home setup_home env_home begin yield staging ensure @buildpath = nil ENV["HOME"] = old_home ENV["CURL_HOME"] = old_curl_home end end end def prepare_patches active_spec.add_legacy_patches(patches) if respond_to?(:patches) patchlist.grep(DATAPatch) { |p| p.path = path } patchlist.each do |patch| patch.verify_download_integrity(patch.fetch) if patch.external? end end def self.method_added(method) case method when :brew raise "You cannot override Formula#brew in class #{name}" when :test define_method(:test_defined?) { true } when :options instance = allocate specs.each do |spec| instance.options.each do |opt, desc| spec.option(opt[/^--(.+)$/, 1], desc) end end remove_method(:options) end end # The methods below define the formula DSL. class << self include BuildEnvironmentDSL # The reason for why this software is not linked (by default) to # {::HOMEBREW_PREFIX}. # @private attr_reader :keg_only_reason # @!attribute [w] # A one-line description of the software. Used by users to get an overview # of the software and Homebrew maintainers. # Shows when running `brew info`. # #

desc "Example formula"

attr_rw :desc # @!attribute [w] homepage # The homepage for the software. Used by users to get more information # about the software and Homebrew maintainers as a point of contact for # e.g. submitting patches. # Can be opened with running `brew home`. # #

homepage "https://www.example.com"

attr_rw :homepage # The `:startup` attribute set by {.plist_options}. # @private attr_reader :plist_startup # The `:manual` attribute set by {.plist_options}. # @private attr_reader :plist_manual # If `pour_bottle?` returns `false` the user-visible reason to display for # why they cannot use the bottle. # @private attr_accessor :pour_bottle_check_unsatisfied_reason # @!attribute [w] revision # Used for creating new Homebrew versions of software without new upstream # versions. For example, if we bump the major version of a library this # {Formula} {.depends_on} then we may need to update the `revision` of this # {Formula} to install a new version linked against the new library version. # `0` if unset. # #

revision 1

attr_rw :revision # @!attribute [w] version_scheme # Used for creating new Homebrew versions schemes. For example, if we want # to change version scheme from one to another, then we may need to update # `version_scheme` of this {Formula} to be able to use new version scheme. # E.g. to move from 20151020 scheme to 1.0.0 we need to increment # `version_scheme`. Without this, the prior scheme will always equate to a # higher version. # `0` if unset. # #

version_scheme 1

attr_rw :version_scheme # A list of the {.stable}, {.devel} and {.head} {SoftwareSpec}s. # @private def specs @specs ||= [stable, devel, head].freeze end # @!attribute [w] url # The URL used to download the source for the {#stable} version of the formula. # We prefer `https` for security and proxy reasons. # Optionally specify the download strategy with `:using => ...` # `:git`, `:hg`, `:svn`, `:bzr`, `:cvs`, # `:curl` (normal file download. Will also extract.) # `:nounzip` (without extracting) # `:post` (download via an HTTP POST) # `S3DownloadStrategy` (download from S3 using signed request) # #

url "https://packed.sources.and.we.prefer.https.example.com/archive-1.2.3.tar.bz2"

url "https://some.dont.provide.archives.example.com", :using => :git, :tag => "1.2.3", :revision => "db8e4de5b2d6653f66aea53094624468caad15d2"

def url(val, specs = {}) stable.url(val, specs) end # @!attribute [w] version # The version string for the {#stable} version of the formula. # The version is autodetected from the URL and/or tag so only needs to be # declared if it cannot be autodetected correctly. # #

version "1.2-final"

def version(val = nil) stable.version(val) end # @!attribute [w] mirror # Additional URLs for the {#stable} version of the formula. # These are only used if the {.url} fails to download. It's optional and # there can be more than one. Generally we add them when the main {.url} # is unreliable. If {.url} is really unreliable then we may swap the # {.mirror} and {.url}. # #

mirror "https://in.case.the.host.is.down.example.com"
    # mirror "https://in.case.the.mirror.is.down.example.com

def mirror(val) stable.mirror(val) end # @!attribute [w] sha256 # @scope class # To verify the {#cached_download}'s integrity and security we verify the # SHA-256 hash matches what we've declared in the {Formula}. To quickly fill # this value you can leave it blank and run `brew fetch --force` and it'll # tell you the currently valid value. # #

sha256 "2a2ba417eebaadcb4418ee7b12fe2998f26d6e6f7fda7983412ff66a741ab6f7"

Checksum::TYPES.each do |type| define_method(type) { |val| stable.send(type, val) } end # @!attribute [w] bottle # Adds a {.bottle} {SoftwareSpec}. # This provides a pre-built binary package built by the Homebrew maintainers for you. # It will be installed automatically if there is a binary package for your platform # and you haven't passed or previously used any options on this formula. # # If you maintain your own repository, you can add your own bottle links. # https://github.com/Homebrew/brew/blob/master/docs/Bottles.md # You can ignore this block entirely if submitting to Homebrew/Homebrew, It'll be # handled for you by the Brew Test Bot. # #

bottle do
    #   root_url "https://example.com" # Optional root to calculate bottle URLs
    #   prefix "/opt/homebrew" # Optional HOMEBREW_PREFIX in which the bottles were built.
    #   cellar "/opt/homebrew/Cellar" # Optional HOMEBREW_CELLAR in which the bottles were built.
    #   rebuild 1 # Making the old bottle outdated without bumping the version/revision of the formula.
    #   sha256 "4355a46b19d348dc2f57c046f8ef63d4538ebb936000f3c9ee954a27460dd865" => :el_capitan
    #   sha256 "53c234e5e8472b6ac51c1ae1cab3fe06fad053beb8ebfd8977b010655bfdd3c3" => :yosemite
    #   sha256 "1121cfccd5913f0a63fec40a6ffd44ea64f9dc135c66634ba001d10bcf4302a2" => :mavericks
    # end

# # Only formulae where the upstream URL breaks or moves frequently, require compile # or have a reasonable amount of patches/resources should be bottled. # Formulae which do not meet the above requirements should not be bottled. # # Formulae which should not be bottled & can be installed without any compile # required should be tagged with: #

bottle :unneeded

# # Otherwise formulae which do not meet the above requirements and should not # be bottled should be tagged with: #

bottle :disable, "reasons"

def bottle(*args, &block) stable.bottle(*args, &block) end # @private def build stable.build end # @!attribute [w] stable # Allows adding {.depends_on} and {#patch}es just to the {.stable} {SoftwareSpec}. # This is required instead of using a conditional. # It is preferrable to also pull the {url} and {.sha256} into the block if one is added. # #

stable do
    #   url "https://example.com/foo-1.0.tar.gz"
    #   sha256 "2a2ba417eebaadcb4418ee7b12fe2998f26d6e6f7fda7983412ff66a741ab6f7"
    #
    #   depends_on "libxml2"
    #   depends_on "libffi"
    # end

def stable(&block) @stable ||= SoftwareSpec.new return @stable unless block_given? @stable.instance_eval(&block) end # @!attribute [w] devel # Adds a {.devel} {SoftwareSpec}. # This can be installed by passing the `--devel` option to allow # installing non-stable (e.g. beta) versions of software. # #

devel do
    #   url "https://example.com/archive-2.0-beta.tar.gz"
    #   sha256 "2a2ba417eebaadcb4418ee7b12fe2998f26d6e6f7fda7983412ff66a741ab6f7"
    #
    #   depends_on "cairo"
    #   depends_on "pixman"
    # end

def devel(&block) @devel ||= SoftwareSpec.new return @devel unless block_given? @devel.instance_eval(&block) end # @!attribute [w] head # Adds a {.head} {SoftwareSpec}. # This can be installed by passing the `--HEAD` option to allow # installing software directly from a branch of a version-control repository. # If called as a method this provides just the {url} for the {SoftwareSpec}. # If a block is provided you can also add {.depends_on} and {#patch}es just to the {.head} {SoftwareSpec}. # The download strategies (e.g. `:using =>`) are the same as for {url}. # `master` is the default branch and doesn't need stating with a `:branch` parameter. #

head "https://we.prefer.https.over.git.example.com/.git"

head "https://example.com/.git", :branch => "name_of_branch", :revision => "abc123"

# or (if autodetect fails): #

head "https://hg.is.awesome.but.git.has.won.example.com/", :using => :hg

def head(val = nil, specs = {}, &block) @head ||= HeadSoftwareSpec.new if block_given? @head.instance_eval(&block) elsif val @head.url(val, specs) else @head end end # Additional downloads can be defined as resources and accessed in the # install method. Resources can also be defined inside a stable, devel, or # head block. This mechanism replaces ad-hoc "subformula" classes. #

resource "additional_files" do
    #   url "https://example.com/additional-stuff.tar.gz"
    #   sha256 "c6bc3f48ce8e797854c4b865f6a8ff969867bbcaebd648ae6fd825683e59fef2"
    # end

def resource(name, klass = Resource, &block) specs.each do |spec| spec.resource(name, klass, &block) unless spec.resource_defined?(name) end end def go_resource(name, &block) specs.each { |spec| spec.go_resource(name, &block) } end # The dependencies for this formula. Use strings for the names of other # formulae. Homebrew provides some :special dependencies for stuff that # requires certain extra handling (often changing some ENV vars or # deciding if to use the system provided version or not.) #

# `:build` means this dep is only needed during build.
    # depends_on "cmake" => :build

depends_on "homebrew/dupes/tcl-tk" => :optional

# `:recommended` dependencies are built by default.
    # # But a `--without-...` option is generated to opt-out.
    # depends_on "readline" => :recommended

# `:optional` dependencies are NOT built by default.
    # # But a `--with-...` options is generated.
    # depends_on "glib" => :optional

# If you need to specify that another formula has to be built with/out
    # # certain options (note, no `--` needed before the option):
    # depends_on "zeromq" => "with-pgm"
    # depends_on "qt" => ["with-qtdbus", "developer"] # Multiple options.

# Optional and enforce that boost is built with `--with-c++11`.
    # depends_on "boost" => [:optional, "with-c++11"]

# If a dependency is only needed in certain cases:
    # depends_on "sqlite" if MacOS.version == :leopard
    # depends_on :xcode # If the formula really needs full Xcode.
    # depends_on :tex # Homebrew does not provide a Tex Distribution.
    # depends_on :fortran # Checks that `gfortran` is available or `FC` is set.
    # depends_on :mpi => :cc # Needs MPI with `cc`
    # depends_on :mpi => [:cc, :cxx, :optional] # Is optional. MPI with `cc` and `cxx`.
    # depends_on :macos => :lion # Needs at least OS X Lion (10.7).
    # depends_on :apr # If a formula requires the CLT-provided apr library to exist.
    # depends_on :arch => :intel # If this formula only builds on Intel architecture.
    # depends_on :arch => :x86_64 # If this formula only builds on Intel x86 64-bit.
    # depends_on :arch => :ppc # Only builds on PowerPC?
    # depends_on :ld64 # Sometimes ld fails on `MacOS.version < :leopard`. Then use this.
    # depends_on :x11 # X11/XQuartz components. Non-optional X11 deps should go in Homebrew/Homebrew-x11
    # depends_on :osxfuse # Permits the use of the upstream signed binary or our source package.
    # depends_on :tuntap # Does the same thing as above. This is vital for Yosemite and above.
    # depends_on :mysql => :recommended

# It is possible to only depend on something if
    # # `build.with?` or `build.without? "another_formula"`:
    # depends_on :mysql # allows brewed or external mysql to be used
    # depends_on :postgresql if build.without? "sqlite"
    # depends_on :hg # Mercurial (external or brewed) is needed

# #

# If any Python >= 2.7 < 3.x is okay (either from macOS or brewed):
    # depends_on :python

# to depend on Python >= 2.7 but use system Python where possible
    # depends_on :python if MacOS.version <= :snow_leopard

# Python 3.x if the `--with-python3` is given to `brew install example`
    # depends_on :python3 => :optional

def depends_on(dep) specs.each { |spec| spec.depends_on(dep) } end # @!attribute [w] option # Options can be used as arguments to `brew install`. # To switch features on/off: `"with-something"` or `"with-otherthing"`. # To use other software: `"with-other-software"` or `"without-foo"` # Note, that for {.depends_on} that are `:optional` or `:recommended`, options # are generated automatically. # # There are also some special options: # - `:universal`: build a universal binary/library (e.g. on newer Intel Macs # this means a combined x86_64/x86 binary/library). #

option "with-spam", "The description goes here without a dot at the end"

option "with-qt", "Text here overwrites the autogenerated one from 'depends_on "qt" => :optional'"

option :universal

def option(name, description = "") specs.each { |spec| spec.option(name, description) } end # @!attribute [w] deprecated_option # Deprecated options are used to rename options and migrate users who used # them to newer ones. They are mostly used for migrating non-`with` options # (e.g. `enable-debug`) to `with` options (e.g. `with-debug`). #

deprecated_option "enable-debug" => "with-debug"

def deprecated_option(hash) specs.each { |spec| spec.deprecated_option(hash) } end # External patches can be declared using resource-style blocks. #

patch do
    #   url "https://example.com/example_patch.diff"
    #   sha256 "c6bc3f48ce8e797854c4b865f6a8ff969867bbcaebd648ae6fd825683e59fef2"
    # 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 "c6bc3f48ce8e797854c4b865f6a8ff969867bbcaebd648ae6fd825683e59fef2"
    # end

# # Patches can be declared in stable, devel, and head blocks. This form is # preferred over using conditionals. #

stable do
    #   patch do
    #     url "https://example.com/example_patch.diff"
    #     sha256 "c6bc3f48ce8e797854c4b865f6a8ff969867bbcaebd648ae6fd825683e59fef2"
    #   end
    # end

# # Embedded (`__END__`) patches are declared like so: #

patch :DATA
    # patch :p0, :DATA

# # 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, "..."

def patch(strip = :p1, src = nil, &block) specs.each { |spec| spec.patch(strip, src, &block) } end # Defines launchd plist handling. # # Does your plist need to be loaded at startup? #

plist_options :startup => true

# # Or only when necessary or desired by the user? #

plist_options :manual => "foo"

# # Or perhaps you'd like to give the user a choice? Ooh fancy. #

plist_options :startup => true, :manual => "foo start"

def plist_options(options) @plist_startup = options[:startup] @plist_manual = options[:manual] end # @private def conflicts @conflicts ||= [] end # If this formula conflicts with another one. #

conflicts_with "imagemagick", :because => "because this is just a stupid example"

def conflicts_with(*names) opts = names.last.is_a?(Hash) ? names.pop : {} names.each { |name| conflicts << FormulaConflict.new(name, opts[:because]) } end def skip_clean(*paths) paths.flatten! # Specifying :all is deprecated and will become an error skip_clean_paths.merge(paths) end # @private def skip_clean_paths @skip_clean_paths ||= Set.new end # Software that will not be sym-linked into the `brew --prefix` will only # live in its Cellar. Other formulae can depend on it and then brew will # add the necessary includes and libs (etc.) during the brewing of that # other formula. But generally, keg_only formulae are not in your PATH # and not seen by compilers if you build your own software outside of # Homebrew. This way, we don't shadow software provided by macOS. #

keg_only :provided_by_macos

keg_only "because I want it so"

def keg_only(reason, explanation = "") @keg_only_reason = KegOnlyReason.new(reason, explanation) end # Pass :skip to this method to disable post-install stdlib checking def cxxstdlib_check(check_type) define_method(:skip_cxxstdlib_check?) { true } if check_type == :skip end # Marks the {Formula} as failing with a particular compiler so it will fall back to others. # For Apple compilers, this should be in the format: #

fails_with :clang do
    #   build 600
    #   cause "multiple configure and compile errors"
    # end

# # The block may be omitted, and if present the build may be omitted; # if so, then the compiler will be blacklisted for *all* versions. # # `major_version` should be the major release number only, for instance # '4.8' for the GCC 4.8 series (4.8.0, 4.8.1, etc.). # If `version` or the block is omitted, then the compiler will be # blacklisted for all compilers in that series. # # For example, if a bug is only triggered on GCC 4.8.1 but is not # encountered on 4.8.2: # #

fails_with :gcc => '4.8' do
    #   version '4.8.1'
    # end

def fails_with(compiler, &block) specs.each { |spec| spec.fails_with(compiler, &block) } end def needs(*standards) specs.each { |spec| spec.needs(*standards) } end # Test (is required for new formula and makes us happy). # @return [Boolean] # # The block will create, run in and delete a temporary directory. # # We are fine if the executable does not error out, so we know linking # and building the software was ok. #

system bin/"foobar", "--version"

# #

(testpath/"test.file").write <<-EOS.undent
    #   writing some test file, if you need to
    # EOS
    # assert_equal "OK", shell_output("test_command test.file").strip

# # Need complete control over stdin, stdout? #

require "open3"
    # Open3.popen3("#{bin}/example", "argument") do |stdin, stdout, _|
    #   stdin.write("some text")
    #   stdin.close
    #   assert_equal "result", stdout.read
    # end

# # The test will fail if it returns false, or if an exception is raised. # Failed assertions and failed `system` commands will raise exceptions. def test(&block) define_method(:test, &block) end # Defines whether the {Formula}'s bottle can be used on the given Homebrew # installation. # # For example, if the bottle requires the Xcode CLT to be installed a # {Formula} would declare: #

pour_bottle? do
    #   reason "The bottle needs the Xcode CLT to be installed."
    #   satisfy { MacOS::CLT.installed? }
    # end

# # If `satisfy` returns `false` then a bottle will not be used and instead # the {Formula} will be built from source and `reason` will be printed. def pour_bottle?(&block) @pour_bottle_check = PourBottleCheck.new(self) @pour_bottle_check.instance_eval(&block) end # @private def link_overwrite(*paths) paths.flatten! link_overwrite_paths.merge(paths) end # @private def link_overwrite_paths @link_overwrite_paths ||= Set.new end end end