/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ import java.lang.reflect.Method; class Circle { Circle(double radius) { this.radius = radius; } public double getRadius() { return radius; } public double getArea() { return radius * radius * Math.PI; } private double radius; } class TestClass { static { sTestClassObj = new TestClass(-1, -2); } TestClass() { } TestClass(int i, int j) { this.i = i; this.j = j; } int i; int j; volatile int k; TestClass next; String str; static int si; static TestClass sTestClassObj; } class SubTestClass extends TestClass { int k; } class TestClass2 { int i; int j; } class TestClass3 { float floatField = 8.0f; boolean test1 = true; } class Finalizable { static boolean sVisited = false; static final int VALUE1 = 0xbeef; static final int VALUE2 = 0xcafe; int i; protected void finalize() { if (i != VALUE1) { System.out.println("Where is the beef?"); } sVisited = true; } } interface Filter { public boolean isValid(int i); } public class Main { /// CHECK-START: double Main.calcCircleArea(double) load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: double Main.calcCircleArea(double) load_store_elimination (after) /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet static double calcCircleArea(double radius) { return new Circle(radius).getArea(); } /// CHECK-START: int Main.test1(TestClass, TestClass) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test1(TestClass, TestClass) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-NOT: NullCheck /// CHECK-NOT: InstanceFieldGet // Different fields shouldn't alias. static int test1(TestClass obj1, TestClass obj2) { obj1.i = 1; obj2.j = 2; return obj1.i + obj2.j; } /// CHECK-START: int Main.test2(TestClass) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test2(TestClass) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK-NOT: NullCheck /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet // Redundant store of the same value. static int test2(TestClass obj) { obj.j = 1; obj.j = 1; return obj.j; } /// CHECK-START: int Main.test3(TestClass) load_store_elimination (before) /// CHECK: StaticFieldGet /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test3(TestClass) load_store_elimination (after) /// CHECK: StaticFieldGet /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet /// CHECK-NOT: StaticFieldGet // A new allocation (even non-singleton) shouldn't alias with pre-existing values. static int test3(TestClass obj) { TestClass obj1 = TestClass.sTestClassObj; TestClass obj2 = new TestClass(); // Cannot alias with obj or obj1 which pre-exist. obj.next = obj2; // Make obj2 a non-singleton. // All stores below need to stay since obj/obj1/obj2 are not singletons. obj.i = 1; obj1.j = 2; // Following stores won't kill values of obj.i and obj1.j. obj2.i = 3; obj2.j = 4; return obj.i + obj1.j + obj2.i + obj2.j; } /// CHECK-START: int Main.test6(TestClass, TestClass, boolean) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test6(TestClass, TestClass, boolean) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-NOT: NullCheck /// CHECK-NOT: InstanceFieldGet // Setting the same value doesn't clear the value for aliased locations. static int test6(TestClass obj1, TestClass obj2, boolean b) { obj1.i = 1; obj1.j = 2; if (b) { obj2.j = 2; } return obj1.j + obj2.j; } /// CHECK-START: int Main.test7(TestClass) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test7(TestClass) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet // Invocation should kill values in non-singleton heap locations. static int test7(TestClass obj) { obj.i = 1; System.out.print(""); return obj.i; } /// CHECK-START: int Main.test8() load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InvokeVirtual /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test8() load_store_elimination (after) /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK: InvokeVirtual /// CHECK-NOT: NullCheck /// CHECK-NOT: InstanceFieldGet // Invocation should not kill values in singleton heap locations. static int test8() { TestClass obj = new TestClass(); obj.i = 1; System.out.print(""); return obj.i; } /// CHECK-START: int Main.test9(TestClass) load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test9(TestClass) load_store_elimination (after) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet // Invocation should kill values in non-singleton heap locations. static int test9(TestClass obj) { TestClass obj2 = new TestClass(); obj2.i = 1; obj.next = obj2; System.out.print(""); return obj2.i; } /// CHECK-START: int Main.test11(TestClass) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test11(TestClass) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK-NOT: NullCheck /// CHECK-NOT: InstanceFieldGet // Loop without heap writes. // obj.i is actually hoisted to the loop pre-header by licm already. static int test11(TestClass obj) { obj.i = 1; int sum = 0; for (int i = 0; i < 10; i++) { sum += obj.i; } return sum; } /// CHECK-START: int Main.test12(TestClass, TestClass) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldSet /// CHECK-START: int Main.test12(TestClass, TestClass) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldSet // Loop with heap writes. static int test12(TestClass obj1, TestClass obj2) { obj1.i = 1; int sum = 0; for (int i = 0; i < 10; i++) { sum += obj1.i; obj2.i = sum; } return sum; } /// CHECK-START: int Main.test13(TestClass, TestClass2) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test13(TestClass, TestClass2) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-NOT: NullCheck /// CHECK-NOT: InstanceFieldGet // Different classes shouldn't alias. static int test13(TestClass obj1, TestClass2 obj2) { obj1.i = 1; obj2.i = 2; return obj1.i + obj2.i; } /// CHECK-START: int Main.test14(TestClass, SubTestClass) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test14(TestClass, SubTestClass) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet // Subclass may alias with super class. static int test14(TestClass obj1, SubTestClass obj2) { obj1.i = 1; obj2.i = 2; return obj1.i; } /// CHECK-START: int Main.test15() load_store_elimination (before) /// CHECK: StaticFieldSet /// CHECK: StaticFieldSet /// CHECK: StaticFieldGet /// CHECK-START: int Main.test15() load_store_elimination (after) /// CHECK: <> IntConstant 2 /// CHECK: StaticFieldSet /// CHECK-NOT: StaticFieldGet /// CHECK: Return [<>] // Static field access from subclass's name. static int test15() { TestClass.si = 1; SubTestClass.si = 2; return TestClass.si; } /// CHECK-START: int Main.test16() load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test16() load_store_elimination (after) /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet // Test inlined constructor. static int test16() { TestClass obj = new TestClass(1, 2); return obj.i + obj.j; } /// CHECK-START: int Main.test17() load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test17() load_store_elimination (after) /// CHECK: <> IntConstant 0 /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet /// CHECK: Return [<>] // Test getting default value. static int test17() { TestClass obj = new TestClass(); obj.j = 1; return obj.i; } /// CHECK-START: int Main.test18(TestClass) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test18(TestClass) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet // Volatile field load/store shouldn't be eliminated. static int test18(TestClass obj) { obj.k = 1; return obj.k; } /// CHECK-START: float Main.test19(float[], float[]) load_store_elimination (before) /// CHECK: {{f\d+}} ArrayGet /// CHECK: {{f\d+}} ArrayGet /// CHECK-START: float Main.test19(float[], float[]) load_store_elimination (after) /// CHECK: {{f\d+}} ArrayGet /// CHECK-NOT: {{f\d+}} ArrayGet // I/F, J/D aliasing should not happen any more and LSE should eliminate the load. static float test19(float[] fa1, float[] fa2) { fa1[0] = fa2[0]; return fa1[0]; } /// CHECK-START: TestClass Main.test20() load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK-START: TestClass Main.test20() load_store_elimination (after) /// CHECK: NewInstance /// CHECK-NOT: InstanceFieldSet // Storing default heap value is redundant if the heap location has the // default heap value. static TestClass test20() { TestClass obj = new TestClass(); obj.i = 0; return obj; } /// CHECK-START: void Main.test21(TestClass) load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK-START: void Main.test21(TestClass) load_store_elimination (after) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet // Loop side effects can kill heap values, stores need to be kept in that case. static void test21(TestClass obj0) { TestClass obj = new TestClass(); obj0.str = "abc"; obj.str = "abc"; for (int i = 0; i < 2; i++) { // Generate some loop side effect that writes into obj. obj.str = "def"; } System.out.print(obj0.str.substring(0, 0) + obj.str.substring(0, 0)); } /// CHECK-START: int Main.test22() load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.test22() load_store_elimination (after) /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet /// CHECK-NOT: InstanceFieldGet // For a singleton, loop side effects can kill its field values only if: // (1) it dominiates the loop header, and // (2) its fields are stored into inside a loop. static int test22() { int sum = 0; TestClass obj1 = new TestClass(); obj1.i = 2; // This store can be eliminated since obj1 is never stored into inside a loop. for (int i = 0; i < 2; i++) { TestClass obj2 = new TestClass(); obj2.i = 3; // This store can be eliminated since the singleton is inside the loop. sum += obj2.i; } TestClass obj3 = new TestClass(); obj3.i = 5; // This store can be eliminated since the singleton is created after the loop. sum += obj1.i + obj3.i; return sum; } /// CHECK-START: void Main.testFinalizable() load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-START: void Main.testFinalizable() load_store_elimination (after) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK-NOT: InstanceFieldSet // Allocations of finalizable objects cannot be eliminated. static void testFinalizable() { Finalizable finalizable = new Finalizable(); finalizable.i = Finalizable.VALUE2; finalizable.i = Finalizable.VALUE1; } static java.lang.ref.WeakReference getWeakReference() { return new java.lang.ref.WeakReference<>(new Object()); } static void testFinalizableByForcingGc() { testFinalizable(); java.lang.ref.WeakReference reference = getWeakReference(); Runtime runtime = Runtime.getRuntime(); for (int i = 0; i < 20; ++i) { runtime.gc(); System.runFinalization(); try { Thread.sleep(1); } catch (InterruptedException e) { throw new AssertionError(e); } // Check to see if the weak reference has been garbage collected. if (reference.get() == null) { // A little bit more sleep time to make sure. try { Thread.sleep(100); } catch (InterruptedException e) { throw new AssertionError(e); } if (!Finalizable.sVisited) { System.out.println("finalize() not called."); } return; } } System.out.println("testFinalizableByForcingGc() failed to force gc."); } /// CHECK-START: int Main.$noinline$testHSelect(boolean) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: Select /// CHECK-START: int Main.$noinline$testHSelect(boolean) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: Select // Test that HSelect creates alias. static int $noinline$testHSelect(boolean b) { if (sFlag) { throw new Error(); } TestClass obj = new TestClass(); TestClass obj2 = null; obj.i = 0xdead; if (b) { obj2 = obj; } return obj2.i; } static int sumWithFilter(int[] array, Filter f) { int sum = 0; for (int i = 0; i < array.length; i++) { if (f.isValid(array[i])) { sum += array[i]; } } return sum; } /// CHECK-START: int Main.sumWithinRange(int[], int, int) load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.sumWithinRange(int[], int, int) load_store_elimination (after) /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet // A lambda-style allocation can be eliminated after inlining. static int sumWithinRange(int[] array, final int low, final int high) { Filter filter = new Filter() { public boolean isValid(int i) { return (i >= low) && (i <= high); } }; return sumWithFilter(array, filter); } private static int mI = 0; private static float mF = 0f; /// CHECK-START: float Main.testAllocationEliminationWithLoops() load_store_elimination (before) /// CHECK: NewInstance /// CHECK: NewInstance /// CHECK: NewInstance /// CHECK-START: float Main.testAllocationEliminationWithLoops() load_store_elimination (after) /// CHECK-NOT: NewInstance private static float testAllocationEliminationWithLoops() { for (int i0 = 0; i0 < 5; i0++) { for (int i1 = 0; i1 < 5; i1++) { for (int i2 = 0; i2 < 5; i2++) { int lI0 = ((int) new Integer(((int) new Integer(mI)))); if (((boolean) new Boolean(false))) { for (int i3 = 576 - 1; i3 >= 0; i3--) { mF -= 976981405.0f; } } } } } return 1.0f; } /// CHECK-START: TestClass2 Main.testStoreStore() load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-START: TestClass2 Main.testStoreStore() load_store_elimination (after) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-NOT: InstanceFieldSet private static TestClass2 testStoreStore() { TestClass2 obj = new TestClass2(); obj.i = 41; obj.j = 42; obj.i = 41; obj.j = 43; return obj; } /// CHECK-START: void Main.testStoreStore2(TestClass2) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-START: void Main.testStoreStore2(TestClass2) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-NOT: InstanceFieldSet private static void testStoreStore2(TestClass2 obj) { obj.i = 41; obj.j = 42; obj.i = 43; obj.j = 44; } /// CHECK-START: void Main.testStoreStore3(TestClass2, boolean) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-START: void Main.testStoreStore3(TestClass2, boolean) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-NOT: InstanceFieldSet private static void testStoreStore3(TestClass2 obj, boolean flag) { obj.i = 41; obj.j = 42; // redundant since it's overwritten in both branches below. if (flag) { obj.j = 43; } else { obj.j = 44; } } /// CHECK-START: void Main.testStoreStore4() load_store_elimination (before) /// CHECK: StaticFieldSet /// CHECK: StaticFieldSet /// CHECK-START: void Main.testStoreStore4() load_store_elimination (after) /// CHECK: StaticFieldSet /// CHECK-NOT: StaticFieldSet private static void testStoreStore4() { TestClass.si = 61; TestClass.si = 62; } /// CHECK-START: int Main.testStoreStore5(TestClass2, TestClass2) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldSet /// CHECK-START: int Main.testStoreStore5(TestClass2, TestClass2) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldSet private static int testStoreStore5(TestClass2 obj1, TestClass2 obj2) { obj1.i = 71; // This store is needed since obj2.i may load from it. int i = obj2.i; obj1.i = 72; return i; } /// CHECK-START: int Main.testStoreStore6(TestClass2, TestClass2) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldSet /// CHECK-START: int Main.testStoreStore6(TestClass2, TestClass2) load_store_elimination (after) /// CHECK-NOT: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldSet private static int testStoreStore6(TestClass2 obj1, TestClass2 obj2) { obj1.i = 81; // This store is not needed since obj2.j cannot load from it. int j = obj2.j; obj1.i = 82; return j; } /// CHECK-START: int Main.testNoSideEffects(int[]) load_store_elimination (before) /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArrayGet /// CHECK-START: int Main.testNoSideEffects(int[]) load_store_elimination (after) /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK-NOT: ArraySet /// CHECK-NOT: ArrayGet private static int testNoSideEffects(int[] array) { array[0] = 101; array[1] = 102; int bitCount = Integer.bitCount(0x3456); array[1] = 103; return array[0] + bitCount; } /// CHECK-START: void Main.testThrow(TestClass2, java.lang.Exception) load_store_elimination (before) /// CHECK: InstanceFieldSet /// CHECK: Throw /// CHECK-START: void Main.testThrow(TestClass2, java.lang.Exception) load_store_elimination (after) /// CHECK: InstanceFieldSet /// CHECK: Throw // Make sure throw keeps the store. private static void testThrow(TestClass2 obj, Exception e) throws Exception { obj.i = 55; throw e; } /// CHECK-START: int Main.testStoreStoreWithDeoptimize(int[]) load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK: Deoptimize /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArrayGet /// CHECK: ArrayGet /// CHECK: ArrayGet /// CHECK: ArrayGet /// CHECK-START: int Main.testStoreStoreWithDeoptimize(int[]) load_store_elimination (after) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldSet /// CHECK-NOT: InstanceFieldSet /// CHECK: Deoptimize /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK-NOT: ArrayGet private static int testStoreStoreWithDeoptimize(int[] arr) { TestClass2 obj = new TestClass2(); obj.i = 41; obj.j = 42; obj.i = 41; obj.j = 43; arr[0] = 1; // One HDeoptimize here. arr[1] = 1; arr[2] = 1; arr[3] = 1; return arr[0] + arr[1] + arr[2] + arr[3]; } /// CHECK-START: double Main.getCircleArea(double, boolean) load_store_elimination (before) /// CHECK: NewInstance /// CHECK-START: double Main.getCircleArea(double, boolean) load_store_elimination (after) /// CHECK-NOT: NewInstance private static double getCircleArea(double radius, boolean b) { double area = 0d; if (b) { area = new Circle(radius).getArea(); } return area; } /// CHECK-START: double Main.testDeoptimize(int[], double[], double) load_store_elimination (before) /// CHECK: Deoptimize /// CHECK: NewInstance /// CHECK: Deoptimize /// CHECK: NewInstance /// CHECK-START: double Main.testDeoptimize(int[], double[], double) load_store_elimination (after) /// CHECK: Deoptimize /// CHECK: NewInstance /// CHECK: Deoptimize /// CHECK-NOT: NewInstance private static double testDeoptimize(int[] iarr, double[] darr, double radius) { iarr[0] = 1; // One HDeoptimize here. Not triggered. iarr[1] = 1; Circle circle1 = new Circle(radius); iarr[2] = 1; darr[0] = circle1.getRadius(); // One HDeoptimize here, which holds circle1 live. Triggered. darr[1] = circle1.getRadius(); darr[2] = circle1.getRadius(); darr[3] = circle1.getRadius(); return new Circle(Math.PI).getArea(); } /// CHECK-START: int Main.testAllocationEliminationOfArray1() load_store_elimination (before) /// CHECK: NewArray /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArrayGet /// CHECK: ArrayGet /// CHECK: ArrayGet /// CHECK: ArrayGet /// CHECK-START: int Main.testAllocationEliminationOfArray1() load_store_elimination (after) /// CHECK-NOT: NewArray /// CHECK-NOT: ArraySet /// CHECK-NOT: ArrayGet private static int testAllocationEliminationOfArray1() { int[] array = new int[4]; array[2] = 4; array[3] = 7; return array[0] + array[1] + array[2] + array[3]; } /// CHECK-START: int Main.testAllocationEliminationOfArray2() load_store_elimination (before) /// CHECK: NewArray /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArrayGet /// CHECK-START: int Main.testAllocationEliminationOfArray2() load_store_elimination (after) /// CHECK: NewArray /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArrayGet private static int testAllocationEliminationOfArray2() { // Cannot eliminate array allocation since array is accessed with non-constant // index (only 3 elements to prevent vectorization of the reduction). int[] array = new int[3]; array[1] = 4; array[2] = 7; int sum = 0; for (int e : array) { sum += e; } return sum; } /// CHECK-START: int Main.testAllocationEliminationOfArray3(int) load_store_elimination (before) /// CHECK: NewArray /// CHECK: ArraySet /// CHECK: ArrayGet /// CHECK-START: int Main.testAllocationEliminationOfArray3(int) load_store_elimination (after) /// CHECK-NOT: NewArray /// CHECK-NOT: ArraySet /// CHECK-NOT: ArrayGet private static int testAllocationEliminationOfArray3(int i) { int[] array = new int[4]; array[i] = 4; return array[i]; } /// CHECK-START: int Main.testAllocationEliminationOfArray4(int) load_store_elimination (before) /// CHECK: NewArray /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArrayGet /// CHECK: ArrayGet /// CHECK-START: int Main.testAllocationEliminationOfArray4(int) load_store_elimination (after) /// CHECK: NewArray /// CHECK: ArraySet /// CHECK: ArraySet /// CHECK: ArrayGet /// CHECK-NOT: ArrayGet private static int testAllocationEliminationOfArray4(int i) { // Cannot eliminate array allocation due to index aliasing between 1 and i. int[] array = new int[4]; array[1] = 2; array[i] = 4; return array[1] + array[i]; } /// CHECK-START: int Main.testAllocationEliminationOfArray5(int) load_store_elimination (before) /// CHECK: NewArray /// CHECK: ArraySet /// CHECK: ArrayGet /// CHECK-START: int Main.testAllocationEliminationOfArray5(int) load_store_elimination (after) /// CHECK: NewArray /// CHECK-NOT: ArraySet /// CHECK-NOT: ArrayGet private static int testAllocationEliminationOfArray5(int i) { // Cannot eliminate array allocation due to unknown i that may // cause NegativeArraySizeException. int[] array = new int[i]; array[1] = 12; return array[1]; } /// CHECK-START: int Main.testExitMerge(boolean) load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: Return /// CHECK: InstanceFieldSet /// CHECK: Throw /// CHECK-START: int Main.testExitMerge(boolean) load_store_elimination (after) /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet /// CHECK: Return /// CHECK-NOT: InstanceFieldSet /// CHECK: Throw private static int testExitMerge(boolean cond) { TestClass obj = new TestClass(); if (cond) { obj.i = 1; return obj.i + 1; } else { obj.i = 2; throw new Error(); } } /// CHECK-START: int Main.testExitMerge2(boolean) load_store_elimination (before) /// CHECK: NewInstance /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK: InstanceFieldSet /// CHECK: InstanceFieldGet /// CHECK-START: int Main.testExitMerge2(boolean) load_store_elimination (after) /// CHECK-NOT: NewInstance /// CHECK-NOT: InstanceFieldSet /// CHECK-NOT: InstanceFieldGet private static int testExitMerge2(boolean cond) { TestClass obj = new TestClass(); int res; if (cond) { obj.i = 1; res = obj.i + 1; } else { obj.i = 2; res = obj.j + 2; } return res; } /// CHECK-START: void Main.testStoreSameValue() load_store_elimination (before) /// CHECK: NewArray /// CHECK: ArrayGet /// CHECK: ArraySet /// CHECK-START: void Main.testStoreSameValue() load_store_elimination (after) /// CHECK: NewArray /// CHECK-NOT: ArrayGet /// CHECK-NOT: ArraySet private static void testStoreSameValue() { Object[] array = new Object[2]; sArray = array; Object obj = array[0]; array[1] = obj; // store the same value as the defaut value. } static Object[] sArray; /// CHECK-START: int Main.testLocalArrayMerge1(boolean) load_store_elimination (before) /// CHECK-DAG: <> IntConstant 0 /// CHECK-DAG: <> IntConstant 1 /// CHECK-DAG: <> NewArray /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: <> ArrayGet [<>,<>] /// CHECK-DAG: Return [<>] // /// CHECK-START: int Main.testLocalArrayMerge1(boolean) load_store_elimination (after) /// CHECK-DAG: <> IntConstant 1 /// CHECK-DAG: Return [<>] // /// CHECK-START: int Main.testLocalArrayMerge1(boolean) load_store_elimination (after) /// CHECK-NOT: NewArray /// CHECK-NOT: ArraySet /// CHECK-NOT: ArrayGet private static int testLocalArrayMerge1(boolean x) { // The explicit store can be removed right away // since it is equivalent to the default. int[] a = { 0 }; // The diamond pattern stores/load can be replaced // by the direct value. if (x) { a[0] = 1; } else { a[0] = 1; } return a[0]; } /// CHECK-START: int Main.testLocalArrayMerge2(boolean) load_store_elimination (before) /// CHECK-DAG: <> IntConstant 0 /// CHECK-DAG: <> IntConstant 1 /// CHECK-DAG: <> IntConstant 2 /// CHECK-DAG: <> IntConstant 3 /// CHECK-DAG: <> NewArray /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: <> ArrayGet [<>,<>] /// CHECK-DAG: Return [<>] // /// CHECK-START: int Main.testLocalArrayMerge2(boolean) load_store_elimination (after) /// CHECK-DAG: <> IntConstant 0 /// CHECK-DAG: <> NewArray /// CHECK-DAG: <> ArrayGet [<>,<>] /// CHECK-DAG: Return [<>] // /// CHECK-START: int Main.testLocalArrayMerge2(boolean) load_store_elimination (after) /// CHECK-DAG: ArraySet /// CHECK-DAG: ArraySet /// CHECK-NOT: ArraySet private static int testLocalArrayMerge2(boolean x) { // The explicit store can be removed eventually even // though it is not equivalent to the default. int[] a = { 1 }; // The diamond pattern stores/load remain. if (x) { a[0] = 2; } else { a[0] = 3; } return a[0]; } /// CHECK-START: int Main.testLocalArrayMerge3(boolean) load_store_elimination (after) /// CHECK-DAG: <> IntConstant 0 /// CHECK-DAG: <> IntConstant 1 /// CHECK-DAG: <> IntConstant 2 /// CHECK-DAG: <> NewArray /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: <> ArrayGet [<>,<>] /// CHECK-DAG: Return [<>] private static int testLocalArrayMerge3(boolean x) { // All stores/load remain. int[] a = { 1 }; if (x) { a[0] = 2; } return a[0]; } /// CHECK-START: int Main.testLocalArrayMerge4(boolean) load_store_elimination (before) /// CHECK-DAG: <> IntConstant 0 /// CHECK-DAG: <> IntConstant 1 /// CHECK-DAG: <> NewArray /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: ArraySet [<>,<>,<>] /// CHECK-DAG: <> ArrayGet [<>,<>] /// CHECK-DAG: <> ArrayGet [<>,<>] /// CHECK-DAG: <> Add [<>,<>] /// CHECK-DAG: Return [<>] // /// CHECK-START: int Main.testLocalArrayMerge4(boolean) load_store_elimination (after) /// CHECK-DAG: <> IntConstant 1 /// CHECK-DAG: <> TypeConversion [<>] /// CHECK-DAG: <> TypeConversion [<>] /// CHECK-DAG: <> Add [<>,<>] /// CHECK-DAG: Return [<>] // /// CHECK-START: int Main.testLocalArrayMerge4(boolean) load_store_elimination (after) /// CHECK-NOT: NewArray /// CHECK-NOT: ArraySet /// CHECK-NOT: ArrayGet private static int testLocalArrayMerge4(boolean x) { byte[] a = { 0 }; if (x) { a[0] = 1; } else { a[0] = 1; } // Differently typed (signed vs unsigned), // but same reference. return a[0] + (a[0] & 0xff); } static void assertIntEquals(int result, int expected) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } static void assertFloatEquals(float result, float expected) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } static void assertDoubleEquals(double result, double expected) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } public static void main(String[] args) throws Exception { Class main2 = Class.forName("Main2"); Method test4 = main2.getMethod("test4", TestClass.class, boolean.class); Method test5 = main2.getMethod("test5", TestClass.class, boolean.class); Method test10 = main2.getMethod("test10", TestClass.class); Method test23 = main2.getMethod("test23", boolean.class); Method test24 = main2.getMethod("test24"); assertDoubleEquals(Math.PI * Math.PI * Math.PI, calcCircleArea(Math.PI)); assertIntEquals(test1(new TestClass(), new TestClass()), 3); assertIntEquals(test2(new TestClass()), 1); TestClass obj1 = new TestClass(); TestClass obj2 = new TestClass(); obj1.next = obj2; assertIntEquals(test3(obj1), 10); assertIntEquals((int)test4.invoke(null, new TestClass(), true), 1); assertIntEquals((int)test4.invoke(null, new TestClass(), false), 1); assertIntEquals((int)test5.invoke(null, new TestClass(), true), 1); assertIntEquals((int)test5.invoke(null, new TestClass(), false), 2); assertIntEquals(test6(new TestClass(), new TestClass(), true), 4); assertIntEquals(test6(new TestClass(), new TestClass(), false), 2); assertIntEquals(test7(new TestClass()), 1); assertIntEquals(test8(), 1); obj1 = new TestClass(); obj2 = new TestClass(); obj1.next = obj2; assertIntEquals(test9(new TestClass()), 1); assertIntEquals((int)test10.invoke(null, new TestClass(3, 4)), 3); assertIntEquals(TestClass.si, 3); assertIntEquals(test11(new TestClass()), 10); assertIntEquals(test12(new TestClass(), new TestClass()), 10); assertIntEquals(test13(new TestClass(), new TestClass2()), 3); SubTestClass obj3 = new SubTestClass(); assertIntEquals(test14(obj3, obj3), 2); assertIntEquals(test15(), 2); assertIntEquals(test16(), 3); assertIntEquals(test17(), 0); assertIntEquals(test18(new TestClass()), 1); float[] fa1 = { 0.8f }; float[] fa2 = { 1.8f }; assertFloatEquals(test19(fa1, fa2), 1.8f); assertFloatEquals(test20().i, 0); test21(new TestClass()); assertIntEquals(test22(), 13); assertIntEquals((int)test23.invoke(null, true), 4); assertIntEquals((int)test23.invoke(null, false), 5); assertFloatEquals((float)test24.invoke(null), 8.0f); testFinalizableByForcingGc(); assertIntEquals($noinline$testHSelect(true), 0xdead); int[] array = {2, 5, 9, -1, -3, 10, 8, 4}; assertIntEquals(sumWithinRange(array, 1, 5), 11); assertFloatEquals(testAllocationEliminationWithLoops(), 1.0f); assertFloatEquals(mF, 0f); assertDoubleEquals(Math.PI * Math.PI * Math.PI, getCircleArea(Math.PI, true)); assertDoubleEquals(0d, getCircleArea(Math.PI, false)); int[] iarray = {0, 0, 0}; double[] darray = {0d, 0d, 0d}; try { assertDoubleEquals(Math.PI * Math.PI * Math.PI, testDeoptimize(iarray, darray, Math.PI)); } catch (Exception e) { System.out.println(e); } assertIntEquals(iarray[0], 1); assertIntEquals(iarray[1], 1); assertIntEquals(iarray[2], 1); assertDoubleEquals(darray[0], Math.PI); assertDoubleEquals(darray[1], Math.PI); assertDoubleEquals(darray[2], Math.PI); assertIntEquals(testAllocationEliminationOfArray1(), 11); assertIntEquals(testAllocationEliminationOfArray2(), 11); assertIntEquals(testAllocationEliminationOfArray3(2), 4); assertIntEquals(testAllocationEliminationOfArray4(2), 6); assertIntEquals(testAllocationEliminationOfArray5(2), 12); try { testAllocationEliminationOfArray5(-2); } catch (NegativeArraySizeException e) { System.out.println("Got NegativeArraySizeException."); } assertIntEquals(testStoreStore().i, 41); assertIntEquals(testStoreStore().j, 43); assertIntEquals(testExitMerge(true), 2); assertIntEquals(testExitMerge2(true), 2); assertIntEquals(testExitMerge2(false), 2); TestClass2 testclass2 = new TestClass2(); testStoreStore2(testclass2); assertIntEquals(testclass2.i, 43); assertIntEquals(testclass2.j, 44); testStoreStore3(testclass2, true); assertIntEquals(testclass2.i, 41); assertIntEquals(testclass2.j, 43); testStoreStore3(testclass2, false); assertIntEquals(testclass2.i, 41); assertIntEquals(testclass2.j, 44); testStoreStore4(); assertIntEquals(TestClass.si, 62); int ret = testStoreStore5(testclass2, testclass2); assertIntEquals(testclass2.i, 72); assertIntEquals(ret, 71); testclass2.j = 88; ret = testStoreStore6(testclass2, testclass2); assertIntEquals(testclass2.i, 82); assertIntEquals(ret, 88); ret = testNoSideEffects(iarray); assertIntEquals(iarray[0], 101); assertIntEquals(iarray[1], 103); assertIntEquals(ret, 108); try { testThrow(testclass2, new Exception()); } catch (Exception e) {} assertIntEquals(testclass2.i, 55); assertIntEquals(testStoreStoreWithDeoptimize(new int[4]), 4); assertIntEquals(testLocalArrayMerge1(true), 1); assertIntEquals(testLocalArrayMerge1(false), 1); assertIntEquals(testLocalArrayMerge2(true), 2); assertIntEquals(testLocalArrayMerge2(false), 3); assertIntEquals(testLocalArrayMerge3(true), 2); assertIntEquals(testLocalArrayMerge3(false), 1); assertIntEquals(testLocalArrayMerge4(true), 2); assertIntEquals(testLocalArrayMerge4(false), 2); } static boolean sFlag; }