/* * Copyright (c) 2013-present, Facebook, Inc. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ package codetoanalyze.java.checkers; import android.annotation.SuppressLint; import com.facebook.infer.annotation.Expensive; import com.facebook.infer.annotation.PerformanceCritical; interface I { void foo(); } class A implements I { @SuppressLint("CHECKERS_EXPENSIVE_OVERRIDES_UNANNOTATED") // Suppressing the sub-typing violation warning here as foo() is not annotated as @Expensive // in the interface. This report is legit but is not relevant for the current test. @Expensive public void foo() {} } class B extends A implements I { public void foo() {} } public class ExpensiveInheritanceExample { // The objective of this test is to document the limitations of the checker, which just // implements a type system. This means that the checker is flow insensitive and is only based // on the static type information. Especially, it does not try to resolve dynamic dispatch. // However, the checker is still exhaustive thanks to the sub-typing rule for // the @Expensive annotation. @PerformanceCritical void shouldNotReportBecauseInterfaceNotAnnotated(I i) { i.foo(); } @PerformanceCritical void reportsBecauseFooIsExpensiveInA(A a) { a.foo(); } @PerformanceCritical void doesNotreportBecauseFooIsNotExpensiveInB(B b) { b.foo(); } native B createB(); A actuallyReturnsObjectOfTypeB() { return createB(); } @PerformanceCritical void reportsAssumingObjectOfTypeA() { A a = actuallyReturnsObjectOfTypeB(); a.foo(); } @PerformanceCritical void doesReportBecauseTypeFlowInsensitive(A a) { if (a instanceof B) { a.foo(); } } }