The reflect.Array.newInstance
method uses native code because it must use native code. This has nothing inherently to do with performance but is a result of the fact that the Java language cannot express this operation.
To show that it's a language limitation and not strictly related to performance, here is some valid code which creates a new array without directly invoking any native method.
Object x = new String[0];
However, newInstance
takes an arbitrary value of Class<?>
and then creates the corresponding array with the represented type. However, this construct is not possible in plain Java and it cannot be expressed by the type-system or corresponding normal "new array" syntax.
// This production is NOT VALID in Java, as T is not a type
// (T is variable that evaluates to an object representing a type)
Class<?> T = String.class;
Object x = new T[0];
// -> error: cannot find symbol T
Because such a production is not allowed, a native method (which has access to the JVM internals) is used to create the new array instance of the corresponding type.
While the above argues for the case of newInstance
needing to be native, I believe many of the other reflect.Array
methods (which are get/set methods) could be handled in plain Java with the use of specialized casting; in these cases the argument for performance holds sway.
However, most code does not use the Array reflection (this includes "multi-valued data structures" such as ArrayList), but simply uses normal Java array access which is directly translated to the appropriate Java bytecode without going through reflect.Array
or the native methods it uses.
Conclusion:
Java already provides fast array access through the JVM's execution of the bytecode. HotSpot, the "official" JVM, is written in C++ which is "native" code - but this execution of array-related bytecode is independent of reflect.Array
and the use native methods.
newInstance
uses a native method because it must use a native method or otherwise dynamically generate and execute bytecode.
Other reflect.Array
methods that could be expressed in Java are native methods for a combination of performance, dispatch simplicity, and "why not" - it's just as easy to add a second or third native method.
(String[]) new Object[length]
.