1 / 12

Taming Wildcards in Java’s Type System

Taming Wildcards in Java’s Type System. Ross Tate Alan Leung Sorin Lerner. University of California, San Diego. Why Use Wildcards?. Not covariant. Need use-site variance. Used only once. What about List 〈 Integer 〉 ?. long average(List nums) { long sum = 0; for (Object num : nums)

bedros
Download Presentation

Taming Wildcards in Java’s Type System

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Taming Wildcardsin Java’s Type System Ross Tate Alan Leung Sorin Lerner University of California, San Diego

  2. Why Use Wildcards? Not covariant Need use-site variance Used only once What about List〈Integer〉? long average(List nums) { long sum = 0; for (Object num : nums) sum += ((Number)num).longValue(); return sum / nums.size(); } long average(List〈Number〉 nums) { long sum = 0; for (Number num : nums) sum += num.longValue(); return sum / nums.size(); } 〈P extends Number〉 long average(List〈P〉 nums) { long sum = 0; for (Number num : nums) sum += num.longValue(); return sum / nums.size(); } long average(List〈? extends Number〉 nums) { long sum = 0; for (Number num : nums) sum += num.longValue(); return sum / nums.size(); } Runtime Type Cast

  3. Why Use Wildcards? Inexpressible with polymorphism 〈P〉 void addSuperclasses(Class〈P〉 c, List〈? super Class〈? super P〉〉 list) { Class〈? super P〉 sup = c.getSuperclass(); if (sup != null) { list.add(sup); addSuperclasses(sup, list); } } Untypeable with use-site variance ∃X : X :> P. Class〈X〉

  4. Open Problems with Wildcards Solved • No known subtyping algorithm • Subtyping rules are overly restrictive • Join algorithm is incomplete • Type checker is non-deterministic • Type checker can affect program semantics

  5. Subtyping Wildcards

  6. Broken Subtyping Algorithm class Numbers〈P extends Number〉 extends ArrayList〈P〉 {} List〈Numbers〈?〉〉<: List〈? extends List〈? extends Number〉〉 No javac Java Yes class C〈P〉 extends D〈D〈? super C〈L〈P〉〉〉〉 {} C〈X〉<: D〈? super C〈X〉〉 No Stack Overflow javac Java

  7. False Negatives class Numbers〈P extends Number〉 extends ArrayList〈P〉 {} List〈? extends List〈? extends Number〉〉 List〈? extends List〈?〉〉 List〈? extends ArrayList〈?〉〉 List〈? extends Numbers〈?〉〉 List〈Numbers〈?〉〉 extends Number direct supertype extends Number direct supertype extends Number direct supertype

  8. Our Algorithm Sound & Complete (if it terminates) class Numbers〈P extends Number〉 extends ArrayList〈P〉 {}  List〈Numbers〈?〉〉<: List〈? extends List〈? extends Number〉〉 Numbers〈?〉<: List〈? extends Number〉 Numbers〈X〉<: List〈? extends Number〉 List〈X〉<: List〈? extends Number〉 X <: Number Instantiation X <: Number Context Opening Inheritance Instantiation Assumption

  9. Non-Termination Contrived class C〈P〉 extends D〈D〈? super C〈L〈P〉〉〉〉 {} C〈X〉<: D〈? super C〈X〉〉 D〈D〈? super C〈L〈X〉〉〉〉<: D〈? super C〈X〉〉 C〈X〉<: D〈? super C〈L〈X〉〉〉 D〈D〈? super C〈L〈X〉〉〉〉<: D〈? super C〈L〈X〉〉〉 C〈L〈X〉〉<: D〈? super C〈L〈X〉〉〉 Inheritance Infinite Proof of Subtyping Instantiation Inheritance Instantiation

  10. Restrictions Termination Guaranteed Contrived Inheritance Restriction No use of ? super in the inheritance hierarchy Parameter Restriction When constraining type parameters,? super may only be used at covariant locations class C〈P〉 extends D〈D〈? super C〈L〈P〉〉〉〉 {} Contrived 〈P extends List〈List〈? super C〈L〈P〉〉〉〉〉

  11. Survey No Violations of Our Restrictions 9.2 Million Lines of Code Analyzed Wildcards in Inheritance Wildcards in Constraints 10000 100000 1000 0 Only Unconstrained Wildcards   # of Superclass Declarations All at covariant locations

  12. Summary of Contributions • Sound and Complete Subtyping Algorithm • given practical language restrictions • Theory of Existential Types • design of implicit constraints • Techniques for Type-Argument Inference • lazy joins for wildcards • Fixes to the Type System • improved equivalence and intersections • Compatible Extensions to Java • mixing use-site and declaration-site variance

More Related