Edit this page on GitHub

Time in the Compiler

In the compiler overview section, we saw that dotc is an interactive compiler, and so can answer questions about entities as they come into existance and change throughout time, for example:

  • which new definitions were added in a REPL session?
  • which definitions were replaced in an incremental build?
  • how are definitions simplified as they are adapted to the runtime system?

Hours, Minutes, and Periods

For the compiler to be able to resolve the above temporal questions, and more, it maintains a concept of time. Additionally, because interactions are frequent, it is important to persist knowledge of entities between interactions, allowing the compiler to remain performant. Knowing about time allows the compiler to efficiently mark entities as being outdated.

Conceptually, dotc works like a clock, where its minutes are represented by phases, and its hours by runs. Like a clock, each run passes once each of its phases have completed sequentially, and then a new run can begin. Phases are further grouped into periods, where during a period certain entities of the compiler remain stable.

Time Travel

During a run, each phase can rewrite the world as the compiler sees it, for example:

  • to transform trees,
  • to gradually simplify type from Scala types to JVM types,
  • to move definitions out of inner scopes to outer ones, fitting the JVM's model,
  • and so on.

Because definitions can change over time, various artifacts associated with them are stored non-destructively, and views of the definition created earlier, or later in the compiler can be accessed by using the atPhase method, defined in Contexts.

As an example, assume the following definitions are available in a Context:

class Box { type X }

def foo(b: Box)(x: b.X): List[b.X] = List(x)

You can compare the type of definition foo after the typer phase and after the erasure phase by using atPhase:

import dotty.tools.dotc.core.Contexts.{Context, atPhase}
import dotty.tools.dotc.core.Phases.{typerPhase, erasurePhase}
import dotty.tools.dotc.core.Decorators.i

given Context = …

val fooDef: Symbol = … // `def foo(b: Box)(x: b.X): List[b.X]`

println(i"$fooDef after typer   => ${atPhase(typerPhase.next)(fooDef.info)}")
println(i"$fooDef after erasure => ${atPhase(erasurePhase.next)(fooDef.info)}")

and see the following output:

method foo after typer   => (b: Box)(x: b.X): scala.collection.immutable.List[b.X]
method foo after erasure => (b: Box, x: Object): scala.collection.immutable.List