.sbtビルド定義

https://github.com/harrah/xsbt/wiki/Getting-Started-Basic-Defの翻訳(2011/10/27時点)

ここではsbtビルド定義について説明するが、いくつかの「理屈」とbuild.sbtの構文が含まれる。 sbtの使い方とこれまでのページを読んだことを前提とするよ。

.sbtと.scala定義の違い

sbtのビルド定義はベースディレクトリに置かれた.sbtファイルに記述してもよいし、projectサブディレクトリに置かれた.scalaファイルに記述してもよい。

どちらか一方をつかってもいいし、両方を使ってもいい。通常は.sbtファイルを利用し、.sbtでは実現できない場合に.scalaを使うというのが良いアプローチだろう。 後者を使うのは、

• sbtをカスタマイズする。つまり、新しいsettingやtaskを作る。
• ネストされたサブプロジェクトを定義する。

ここでは、.sbtファイルについて説明する。.scalaについては「.scala build definition」で説明する。

ビルド定義とは何か？

ここは絶対に読むべし

After examining a project and processing any build definition files, sbt will end up with an immutable map (set of key-value pairs) describing the build.

For example, one key is name and it maps to a string value, the name of your project.

Build definition files do not affect sbt's map directly.

Instead, the build definition creates a huge list of objects with type Setting[T] where T is the type of the value in the map. (Scala's Setting[T] is like Setting<T> in Java.) A Setting describes a transformation to the map, such as adding a new key-value pair or appending to an existing value. (In the spirit of functional programming, a transformation returns a new map, it does not update the old map in-place.)

In build.sbt, you might create a Setting[String] for the name of your project like this:

name := "hello"

This Setting[String] transforms the map by adding (or replacing) the name key, giving it the value "hello". The transformed map becomes sbt's new map.

To create its map, sbt first sorts the list of settings so that all changes to the same key are made together, and values that depend on other keys are processed after the keys they depend on. Then sbt walks over the sorted list of Setting and applies each one to the map in turn.

Summary: A build definition defines a list of Setting[T], where a Setting[T] is a transformation affecting sbt's map of key-value pairs and T is the type of each value. How build.sbt defines settings

Here's an example:

name := "hello"

version := "1.0"

scalaVersion := "2.9.1"

A build.sbt file is a list of Setting, separated by blank lines. Each Setting is defined with a Scala expression.

The expressions in build.sbt are independent of one another, and they are expressions, rather than complete Scala statements. An implication of this is that you can't define a top-level val, object, class, or method in build.sbt.

On the left, name, version, and scalaVersion are keys. A key is an instance of SettingKey[T], TaskKey[T], or InputKey[T] where T is the expected value type. The kinds of key are explained more below.

Keys have a method called :=, which returns a Setting[T]. You could use a Java-like syntax to call the method:

name.:=("hello")

But Scala allows name := "hello" instead (in Scala, any method can use either syntax).

The := method on key name returns a Setting, specifically a Setting[String]. String also appears in the type of name itself, which is SettingKey[String]. In this case, the returned Setting[String] is a transformation to add or replace the name key in sbt's map, giving it the value "hello".

If you use the wrong value type, the build definition will not compile:

name := 42 // will not compile

Keys are defined in the Keys object

The built-in keys are just fields in an object called Keys. A build.sbt implicitly has an import sbt.Keys._, so sbt.Keys.name can be referred to as name.

Custom keys may be defined in a .scala file or a plugin. Other ways to transform settings

Replacement with := is the simplest transformation, but there are several others. For example you can append to a list value with +=.

The other transformations require an understanding of scopes, so the next page is about scopes and the page after that goes into more detail about settings. Task Keys

There are three flavors of key:

• SettingKey[T]: a key with a value computed once (the value is computed one time when loading the project, and kept around). TaskKey[T]: a key with a value that has to be recomputed each time, potentially creating side effects. InputKey[T]: a task key which has command line arguments as input. The Getting Started Guide doesn't cover InputKey, but when you finish this guide, check out Input Tasks for more.

A TaskKey[T] is said to define a task. Tasks are operations such as compile or package. They may return Unit (Unit is Scala for void), or they may return a value related to the task, for example package is a TaskKey[File] and its value is the jar file it creates.

Each time you start a task execution, for example by typing compile at the interactive sbt prompt, sbt will re-run any tasks involved exactly once.

sbt's map describing the project can keep around a fixed string value for a setting such as name, but it has to keep around some executable code for a task such as compile -- even if that executable code eventually returns a string, it has to be re-run every time.

A given key always refers to either a task or a plain setting. That is, "taskiness" (whether to re-run each time) is a property of the key, not the value.

Using :=, you can assign a computation to a task, and that computation will be re-run each time:

hello := { println("Hello!") }

From a type-system perspective, the Setting created from a task key is slightly different from the one created from a setting key. taskKey := 42 results in a Setting[Task[T]] while settingKey := 42 results in a Setting[T]. For most purposes this makes no difference; the task key still creates a value of type T when the task executes.

The T vs. Task[T] type difference has this implication: a setting key can't depend on a task key, because a setting key is evaluated only once on project load, and not re-run. More on this in more about settings, coming up soon. Keys in sbt interactive mode

In sbt's interactive mode, you can type the name of any task to execute that task. This is why typing compile runs the compile task. compile is a task key.

If you type the name of a setting key rather than a task key, the value of the setting key will be displayed. Typing a task key name executes the task but doesn't display the resulting value; to see a task's result, use show <task name> rather than plain <task name>.

In build definition files, keys are named with camelCase following Scala convention, but the sbt command line uses hyphen-separated-words instead. The hyphen-separated string used in sbt comes from the definition of the key (see Keys). For example, in Keys.scala, there's this key:

val scalacOptions = TaskKey[Seq[String]]("scalac-options", "Options for the Scala compiler.")

In sbt you type scalac-options but in a build definition file you use scalacOptions.

To learn more about any key, type inspect <keyname> at the sbt interactive prompt. Some of the information inspect displays won't make sense yet, but at the top it shows you the setting's value type and a brief description of the setting. Imports in build.sbt

You can place import statements at the top of build.sbt; they need not be separated by blank lines.

There are some implied default imports, as follows:

import sbt._ import Process._ import Keys._

(In addition, if you have .scala files, the contents of any Build or Plugin objects in those files will be imported. More on that when we get to .scala build definitions.) Adding library dependencies

To depend on third-party libraries, there are two options. The first is to drop jars in lib/ (unmanaged dependencies) and the other is to add managed dependencies, which will look like this in build.sbt:

libraryDependencies += "org.apache.derby" % "derby" % "10.4.1.3"

This is how you add a managed dependency on the Apache Derby library, version 10.4.1.3.

The libraryDependencies key involves two complexities: += rather than :=, and the % method. += appends to the key's old value rather than replacing it, this is explained in more about settings. The % method is used to construct an Ivy module ID from strings, explained in library dependencies.

We'll skip over the details of library dependencies until later in the Getting Started Guide. There's a whole page covering it later on.