JLS says Compile-Time Declaration of a Method Reference of ReferenceType :: [TypeArguments] Identifier can be interpreted in different ways.
Given a targeted function type with n parameters, a set of potentially applicable methods is identified:
ReferenceType :: [TypeArguments] Identifier has two different arities, n and n-1, are considered, to account for the possibility that this form refers to either a static method or an instance method.
A method reference expression of the form ReferenceType :: [TypeArguments] Identifier can be interpreted in different ways. If Identifier refers to an instance method, then the implicit lambda expression has an extra parameter with type of this compared to if Identifier refers to a static method. It is possible for ReferenceType to have both kinds of applicable methods, so the search algorithm described above identifies them separately, since there are different parameter types for each case.
Comparator.comparing method accept a Function<T,R extends Comparable<? super R>>. when you use
String::compareToIgnoreCase that will reports error,because it has two parameters one is implicit this another is a comparing string of method parameter, so it is more like a
BiFunction<String,String,Integer> not a
BiFunction<String, String, Integer> comparator = String::compareToIgnoreCase;
// you can't assign a BiFunction to a Function
// because one is incompatiable with another.
Function<String,Integer> function = comparator;
Stream.sort method accept a Comparator, and Comparator is more like a
BiFunction<T,T,Integer> so it is compatiable with
String::compareToIgnoreCase. on the other hand, they can be interchangeable. for example:
Comparator<String> primary = String::compareToIgnoreCase;
BiFunction<String, String, Integer> comparator1 = primary::compare;
Comparator<String> comparator2 = comparator1::apply;
you can using
comparing(String::toLowerCase) instead, it is equalivent to
String::compareToIgnoreCase, for example: