Dsl.scala is a framework to create embedded Domain-Specific Languages in Scala. It can be considered as an alternative syntax to for comprehension, Scala Async and Scala Continuations. It unifies monads, generators, asynchronous functions, coroutines and continuations to a single universal syntax, and can be easily integrate to Scalaz, Cats, Scala Collections, Scala Futures, Akka HTTP, Java NIO, or your custom domains.
A DSL author is able to create language keywords by implementing the Dsl trait, which contains only one abstract method to be implemented. No knowledge about Scala compiler or AST macros is required.
DSLs written in Dsl.scala are collaborative with others DSLs and Scala control flows. A DSL user can create functions that contains interleaved DSLs implemented by different vendors, along with ordinary Scala control flows.
We also provide some built-in keywords, including:
- The
Await
keyword for creating memoized asynchronous values as Scala Futures, similar to theawait
/async
keywords in C#, Python and JavaScript. - The
Shift
keyword for creating asynchronous tasks as delimited continuations, similar to theshift
operator in Scala Continuations. - The
AsynchronousIo.Connect
,AsynchronousIo.Accept
,AsynchronousIo.Read
andAsynchronousIo.Write
keywords for performing I/O on an asynchronous channel. - The
Yield
keyword for generating lazy streams, similar toyield
in C#, Python and JavaScript. - The
Fork
keyword for duplicating current context, similar to thefork
system call in POSIX. - The
Return
keyword for early returning, similar to the nativereturn
keyword in Scala. - The
Using
keyword to automatically close resources when exiting a scope, similar to the nativeusing
keyword in C#. - The
Monadic
keyword for creating Scalaz or Cats monadic control flow, similar to the !-notation in Idris. - The
NullSafe
keyword for the null safe operator, similar to the?
operator in Kotlin and Groovy. - The
NoneSafe
keyword for theNone
safe operator, similar to theMaybe
monad in Haskell.
All the above keywords can be used together with each others. For example you can perform list comprehension to manipulate native resources in an asynchronous task by using Each
, Using
and Shift
together.
Suppose you want to create a random number generator. The generated numbers should be stored in a lazily evaluated infinite stream, which can be built with the help of our built-in domain-specific keyword Yield
.
So, you need to add the library that contains the implementation of the keyword Yield
:
// Add the "keywords-yield" library in your build.sbt, to use the `Yield` keyword
libraryDependencies += "com.thoughtworks.dsl" %% "keywords-yield" % "latest.release"
// Add other "keywords-xxx" libraries in your build.sbt, to use other keywords
// libraryDependencies += "com.thoughtworks.dsl" %% "keywords-xxx" % "latest.release"
The random number generator can be implemented as a recursive function that produces the next random number in each iteration.
import com.thoughtworks.dsl.keywords.Yield
// Must not annotated with @tailrec
def xorshiftRandomGenerator(seed: Int): LazyList[Int] = reset {
val tmp1 = seed ^ (seed << 13)
val tmp2 = tmp1 ^ (tmp1 >>> 17)
val tmp3 = tmp2 ^ (tmp2 << 5)
!Yield(tmp3)
xorshiftRandomGenerator(tmp3)
}
Note that a keyword is a plain case class. You need a !
prefix to the keyword to activate the DSL.
It's done. We can test it in ScalaTest:
val myGenerator = xorshiftRandomGenerator(seed = 123)
myGenerator(0) should be(31682556)
myGenerator(1) should be(-276305998)
myGenerator(2) should be(2101636938)
The call to xorshiftRandomGenerator
does not throw a StackOverflowError
because the execution of xorshiftRandomGenerator
will be paused at the keyword Yield
, and it will be resumed when the caller is looking for the next number.
- sbt-ammonite-classpath is an sbt plug-in that uses
Each
keywords to iterate through configuations and keys, as an alternative syntax offor
comprehensions. - Dsl.scala-akka-actor provides the Akka Actor support for Dsl.scala. It is an alternative to Akka FSM, for building actors with complex states from simple native Scala control flows.
- Dsl.scala-akka-http contains utilities to integrate Akka HTTP with Dsl.scala.
- dsl-domains-cats contains utilities to integrate Cats with Dsl.scala. It provides the
!
-notation for creating Cats monadic expressions.
(Feel free to add your project here)
- Check the Documentation to find examples about using or creating DSLs.
- See MVNRepository or Scaladex for the settings of each built-in DSLs for your build tools.
- Benchmarks: Dsl.scala vs Monix vs Cats Effect vs Scalaz Concurrent vs Scala Async vs Scala Continuation
- Control.Dsl is the Haskell port of this library.
- The syntax of our
BangNotation
compiler plugin is inspired by Idris' !-notation.