What compromises Scala made to run on JVM?

最后都变了- 提交于 2019-12-03 09:46:14

This article is a discussion with Martin Odersky (Scala's creator) and includes the compromises that were made in Scala for compatibility with Java. The article mentions:

  1. Static overloading of methods
  2. Having both traits and classes
  3. Inclusion of null pointers.
VonC

The two most important compromises I know about are:

  • type erasure ("reflecting on Type"): It has to manage a Manifest to get around the Java compilation (independent of the JVM, for backward compatibility reason).
  • collection of primitive type: e.g.: arrays

    new scheme of handling arrays in Scala 2.8. Instead of boxing/unboxing and other compiler magic the scheme relies on implicit conversions and manifests to integrate arrays

Those are the two main JVM limitations, when it comes to manage generic type (with bounds): The Java JVM does not keep the exact type use in a generic object, and it has "primitive" types.


But you could also consider:

In order to cover as many possibilities as possible, Scala provides:

  • Conventional class types,
  • Value class types,
  • Nonnullable types,
  • Monad types,
  • Trait types,
  • Singleton object types (procedural modules, utility classes, etc.),
  • Compound types,
  • Functional types,
  • Case classes,
  • Path-dependent types,
  • Anonymous types,
  • Self types,
  • Type aliases,
  • Generic types,
  • Covariant generic types,
  • Contravariant generic types,
  • Bounded generic types,
  • Abstract types,
  • Existential types,
  • Implicit types,
  • Augmented types,
  • View bounded types, and
  • Structural types which allow a form of duck typing when all else fails

Less an issue with the runtime than a cultural hangover: universal equality, hashing, toString.

More deeply tied to the VM: strict by default evaluation, impure functions, exceptions.

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