Last Update: 2011-07-31 09:50:50 -0400

Rakefile Format (as of version 0.8.7)

First of all, there is no special format for a Rakefile. A Rakefile contains executable Ruby code. Anything legal in a ruby script is allowed in a Rakefile.

Now that we understand there is no special syntax in a Rakefile, there are some conventions that are used in a Rakefile that are a little unusual in a typical Ruby program. Since a Rakefile is tailored to specifying tasks and actions, the idioms used in a Rakefile are designed to support that.

So, what goes into a Rakefile?


Tasks are the main unit of work in a Rakefile. Tasks have a name (usually given as a symbol or a string), a list of prerequisites (more symbols or strings) and a list of actions (given as a block).

Simple Tasks

A task is declared by using the task method. task takes a single parameter that is the name of the task.

task :name

Tasks with Prerequisites

Any prerequisites are given as a list (enclosed in square brackets) following the name and an arrow (=>).

task :name => [:prereq1, :prereq2]

NOTE: Although this syntax looks a little funky, it is legal Ruby. We are constructing a hash where the key is :name and the value for that key is the list of prerequisites. It is equivalent to the following …

hash = Hash.new
hash[:name] = [:prereq1, :prereq2]

Tasks with Actions

Actions are defined by passing a block to the task method. Any Ruby code can be placed in the block. The block may reference the task object via the block parameter.

task :name => [:prereq1, :prereq2] do |t|
  # actions (may reference t)

Multiple Definitions

A task may be specified more than once. Each specification adds its prerequisites and actions to the existing definition. This allows one part of a rakefile to specify the actions and a different rakefile (perhaps separately generated) to specify the dependencies.

For example, the following is equivalent to the single task specification given above.

task :name
task :name => [:prereq1]
task :name => [:prereq2]
task :name do |t|
  # actions

File Tasks

Some tasks are designed to create a file from one or more other files. Tasks that generate these files may be skipped if the file already exists. File tasks are used to specify file creation tasks.

File tasks are declared using the file method (instead of the task method). In addition, file tasks are usually named with a string rather than a symbol.

The following file task creates a executable program (named prog) given two object files name a.o and b.o. The tasks for creating a.o and b.o are not shown.

file "prog" => ["a.o", "b.o"] do |t|
  sh "cc -o #{t.name} #{t.prerequisites.join(' ')}"

Directory Tasks

It is common to need to create directories upon demand. The directory convenience method is a short-hand for creating a FileTask that creates the directory. For example, the following declaration …

directory "testdata/examples/doc"

is equivalent to …

file "testdata"              do |t| mkdir t.name end
file "testdata/examples"     do |t| mkdir t.name end
file "testdata/examples/doc" do |t| mkdir t.name end

The directory method does not accept prerequisites or actions, but both prerequisites and actions can be added later. For example …

directory "testdata"
file "testdata" => ["otherdata"]
file "testdata" do
  cp Dir["standard_data/*.data"], "testdata"

Tasks with Parallel Prerequisites

Rake allows parallel execution of prerequisites using the following syntax:

multitask :copy_files => [:copy_src, :copy_doc, :copy_bin] do
  puts "All Copies Complete"

In this example, copy_files is a normal rake task. Its actions are executed whenever all of its prerequisites are done. The big difference is that the prerequisites (copy_src, copy_bin and copy_doc) are executed in parallel. Each of the prerequisites are run in their own Ruby thread, possibly allowing faster overall runtime.

Secondary Prerequisites

If any of the primary prerequisites of a multitask have common secondary prerequisites, all of the primary/parallel prerequisites will wait until the common prerequisites have been run.

For example, if the copy_xxx tasks have the following prerequisites:

task :copy_src => [:prep_for_copy]
task :copy_bin => [:prep_for_copy]
task :copy_doc => [:prep_for_copy]

Then the prep_for_copy task is run before starting all the copies in parallel. Once prep_for_copy is complete, copy_src, copy_bin, and copy_doc are all run in parallel. Note that prep_for_copy is run only once, even though it is referenced in multiple threads.

Thread Safety

The Rake internal data structures are thread-safe with respect to the multitask parallel execution, so there is no need for the user to do extra synchronization for Rake’s benefit. However, if there are user data structures shared between the parallel prerequisites, the user must do whatever is necessary to prevent race conditions.

Automatically Running Tasks in Parallel

Rake now supports the command-line option -j for automatically detecting non-dependent tasks and safely executing them in parallel. See parallel.rdoc.

Tasks with Arguments

Prior to version 0.8.0, rake was only able to handle command line arguments of the form NAME=VALUE that were passed into Rake via the ENV hash. Many folks had asked for some kind of simple command line arguments, perhaps using “—” to separate regular task names from argument values on the command line. The problem is that there was no easy way to associate positional arguments on the command line with different tasks. Suppose both tasks :a and :b expect a command line argument: does the first value go with :a? What if :b is run first? Should it then get the first command line argument.

Rake 0.8.0 solves this problem by explicitly passing values directly to the tasks that need them. For example, if I had a release task that required a version number, I could say:

rake release[0.8.2]

And the string “0.8.2“ will be passed to the :release task. Multiple arguments can be passed by separating them with a comma, for example:

rake name[john,doe]

Just a few words of caution. The rake task name and its arguments need to be a single command line argument to rake. This generally means no spaces. If spaces are needed, then the entire rake + argument string should be quoted. Something like this:

rake "name[billy bob, smith]"

(Quoting rules vary between operating systems and shells, so make sure you consult the proper docs for your OS/shell).

Tasks Arguments and the Environment

Task argument values can also be picked up from the environment. For example, if the “release” task expected a parameter named “release_version“, then either

rake release[0.8.2]


RELEASE_VERSION rake release

will work. Environment variable names must either match the task parameter exactly, or match an all-uppercase version of the task parameter.

Tasks that Expect Parameters

Parameters are only given to tasks that are setup to expect them. In order to handle named parameters, the task declaration syntax for tasks has been extended slightly.

For example, a task that needs a first name and last name might be declared as:

task :name, [:first_name, :last_name]

The first argument is still the name of the task (:name in this case). The next two arguments are the names of the parameters expected by :name in an array (:first_name and :last_name in the example).

To access the values of the parameters, the block defining the task behaviour can now accept a second parameter:

task :name, [:first_name, :last_name] do |t, args|
  puts "First name is #{args.first_name}"
  puts "Last  name is #{args.last_name}"

The first argument of the block “t” is always bound to the current task object. The second argument “args” is an open-struct like object that allows access to the task arguments. Extra command line arguments to a task are ignored. Missing command line arguments are picked up from matching environment variables. If there are no matching environment variables, they are given the nil value.

If you wish to specify default values for the arguments, you can use the with_defaults method in the task body. Here is the above example where we specify default values for the first and last names:

task :name, [:first_name, :last_name] do |t, args|
  args.with_defaults(:first_name => "John", :last_name => "Dough")
  puts "First name is #{args.first_name}"
  puts "Last  name is #{args.last_name}"

Tasks that Expect Parameters and Have Prerequisites

Tasks that use parameters have a slightly different format for prerequisites. Use the arrow notation to indicate the prerequisites for tasks with arguments. For example:

task :name, [:first_name, :last_name] => [:pre_name] do |t, args|
  args.with_defaults(:first_name => "John", :last_name => "Dough")
  puts "First name is #{args.first_name}"
  puts "Last  name is #{args.last_name}"

Deprecated Task Parameters Format

There is an older format for declaring task parameters that omitted the task argument array and used the :needs keyword to introduce the dependencies. That format is still supported for compatibility, but is not recommended for use. The older format may be dropped in future versions of rake.

Accessing Task Programmatically

Sometimes it is useful to manipulate tasks programmatically in a Rakefile. To find a task object, use the :[] operator on the Rake::Task.

Programmatic Task Example

For example, the following Rakefile defines two tasks. The :doit task simply prints a simple “DONE” message. The :dont class will lookup the doit class and remove (clear) all of its prerequisites and actions.

task :doit do
  puts "DONE"

task :dont do

Running this example:

$ rake doit
(in /Users/jim/working/git/rake/x)
$ rake dont doit
(in /Users/jim/working/git/rake/x)

The ability to programmatically manipulate tasks gives rake very powerful meta-programming capabilities w.r.t. task execution, but should be used with cation.


When a file is named as a prerequisite, but does not have a file task defined for it, Rake will attempt to synthesize a task by looking at a list of rules supplied in the Rakefile.

Suppose we were trying to invoke task “mycode.o“, but no task is defined for it. But the rakefile has a rule that look like this …

rule '.o' => ['.c'] do |t|
  sh "cc #{t.source} -c -o #{t.name}"

This rule will synthesize any task that ends in “.o”. It has a prerequisite a source file with an extension of “.c” must exist. If Rake is able to find a file named “mycode.c“, it will automatically create a task that builds “mycode.o“ from “mycode.c“.

If the file “mycode.c“ does not exist, rake will attempt to recursively synthesize a rule for it.

When a task is synthesized from a rule, the source attribute of the task is set to the matching source file. This allows us to write rules with actions that reference the source file.

Advanced Rules

Any regular expression may be used as the rule pattern. Additionally, a proc may be used to calculate the name of the source file. This allows for complex patterns and sources.

The following rule is equivalent to the example above.

rule( /\.o$/ => [
  proc {|task_name| task_name.sub(/\.[^.]+$/, '.c') }
]) do |t|
  sh "cc #{t.source} -c -o #{t.name}"

NOTE: Because of a quirk in Ruby syntax, parenthesis are required on rule when the first argument is a regular expression.

The following rule might be used for Java files …

rule '.java' => [
  proc { |tn| tn.sub(/\.class$/, '.java').sub(/^classes\//, 'src/') }
] do |t|
  java_compile(t.source, t.name)

NOTE: java_compile is a hypothetical method that invokes the java compiler.

Importing Dependencies

Any ruby file (including other rakefiles) can be included with a standard Ruby require command. The rules and declarations in the required file are just added to the definitions already accumulated.

Because the files are loaded before the rake targets are evaluated, the loaded files must be “ready to go” when the rake command is invoked. This make generated dependency files difficult to use. By the time rake gets around to updating the dependencies file, it is too late to load it.

The Rake.import command addresses this by specifying a file to be loaded after the main rakefile is loaded, but before any targets on the command line are invoked. In addition, if the file name matches an explicit task, that task is invoked before loading the file. This allows dependency files to be generated and used in a single rake command invocation.

NOTE: Starting in Rake version 0.9.0, the top level import command is deprecated and we recommend using the scoped “Rake.import“ command mentioned above. Future versions of Rake will drop support for the top level import command.


require 'rake/loaders/makefile'

file ".depends.mf" => [SRC_LIST] do |t|
  sh "makedepend -f- -- #{CFLAGS} -- #{t.prerequisites} > #{t.name}"

Rake.import ".depends.mf"

If “.depends” does not exist, or is out of date w.r.t. the source files, a new “.depends” file is generated using makedepend before loading.


Standard Ruby comments (beginning with “#”) can be used anywhere it is legal in Ruby source code, including comments for tasks and rules. However, if you wish a task to be described using the “-T” switch, then you need to use the desc command to describe the task.


desc "Create a distribution package"
task :package => [ ... ] do ... end

The “-T” switch (or “—tasks” if you like to spell things out) will display a list of tasks that have a description. If you use desc to describe your major tasks, you have a semi-automatic way of generating a summary of your Rake file.

traken$ rake -T
(in /home/.../rake)
rake clean            # Remove any temporary products.
rake clobber          # Remove any generated file.
rake clobber_rdoc     # Remove rdoc products
rake contrib_test     # Run tests for contrib_test
rake default          # Default Task
rake install          # Install the application
rake lines            # Count lines in the main rake file
rake rdoc             # Build the rdoc HTML Files
rake rerdoc           # Force a rebuild of the RDOC files
rake test             # Run tests
rake testall          # Run all test targets

Only tasks with descriptions will be displayed with the “-T” switch. Use “-P” (or “—prereqs”) to get a list of all tasks and their prerequisites.


As projects grow (and along with it, the number of tasks), it is common for task names to begin to clash. For example, if you might have a main program and a set of sample programs built by a single Rakefile. By placing the tasks related to the main program in one namespace, and the tasks for building the sample programs in a different namespace, the task names will not will not interfere with each other.

For example:

namespace "main" do
  task :build do
    # Build the main program

namespace "samples" do
  task :build do
    # Build the sample programs

task :build => ["main:build", "samples:build"]

Referencing a task in a separate namespace can be achieved by prefixing the task name with the namespace and a colon (e.g. “main:build” refers to the :build task in the main namespace). Nested namespaces are supported, so

Note that the name given in the task command is always the unadorned task name without any namespace prefixes. The task command always defines a task in the current namespace.


File task names are not scoped by the namespace command. Since the name of a file task is the name of an actual file in the file system, it makes little sense to include file task names in name space. Directory tasks (created by the directory command) are a type of file task and are also not affected by namespaces.

Name Resolution

When looking up a task name, rake will start with the current namespace and attempt to find the name there. If it fails to find a name in the current namespace, it will search the parent namespaces until a match is found (or an error occurs if there is no match).

The “rake” namespace is a special implicit namespace that refers to the toplevel names.

If a task name begins with a “^” character, the name resolution will start in the parent namespace. Multiple “^” characters are allowed.

Here is an example file with multiple :run tasks and how various names resolve in different locations.

task :run

namespace "one" do
  task :run

  namespace "two" do
    task :run

    # :run            => "one:two:run"
    # "two:run"       => "one:two:run"
    # "one:two:run"   => "one:two:run"
    # "one:run"       => "one:run"
    # "^run"          => "one:run"
    # "^^run"         => "rake:run" (the top level task)
    # "rake:run"      => "rake:run" (the top level task)

  # :run       => "one:run"
  # "two:run"  => "one:two:run"
  # "^run"     => "rake:run"

# :run           => "rake:run"
# "one:run"      => "one:run"
# "one:two:run"  => "one:two:run"


FileLists are the way Rake manages lists of files. You can treat a FileList as an array of strings for the most part, but FileLists support some additional operations.

Creating a FileList

Creating a file list is easy. Just give it the list of file names:

fl = FileList['file1.rb', file2.rb']

Or give it a glob pattern:

fl = FileList['*.rb']

Odds and Ends

do/end versus { }

Blocks may be specified with either a do/end pair, or with curly braces in Ruby. We strongly recommend using do/end to specify the actions for tasks and rules. Because the rakefile idiom tends to leave off parentheses on the task/file/rule methods, unusual ambiguities can arise when using curly braces.

For example, suppose that the method object_files returns a list of object files in a project. Now we use object_files as the prerequisites in a rule specified with actions in curly braces.

file "prog" => object_files {
  # Actions are expected here (but it doesn't work)!

Because curly braces have a higher precedence than do/end, the block is associated with the object_files method rather than the file method.

This is the proper way to specify the task …

file "prog" => object_files do
  # Actions go here