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/*
* 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.
*/
//
// Test on loop optimizations, in particular around less common induction.
//
public class Main {
static int sResult;
//
// Various sequence variables used in bound checks.
//
/// CHECK-START: void Main.bubble(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.bubble(int[]) BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static void bubble(int[] a) {
for (int i = a.length; --i >= 0;) {
for (int j = 0; j < i; j++) {
if (a[j] > a[j+1]) {
int tmp = a[j];
a[j] = a[j+1];
a[j+1] = tmp;
}
}
}
}
/// CHECK-START: int Main.periodicIdiom(int) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.periodicIdiom(int) BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int periodicIdiom(int tc) {
int[] x = { 1, 3 };
// Loop with periodic sequence (0, 1).
int k = 0;
int result = 0;
for (int i = 0; i < tc; i++) {
result += x[k];
k = 1 - k;
}
return result;
}
/// CHECK-START: int Main.periodicSequence2(int) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.periodicSequence2(int) BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int periodicSequence2(int tc) {
int[] x = { 1, 3 };
// Loop with periodic sequence (0, 1).
int k = 0;
int l = 1;
int result = 0;
for (int i = 0; i < tc; i++) {
result += x[k];
int t = l;
l = k;
k = t;
}
return result;
}
/// CHECK-START: int Main.periodicSequence4(int) BCE (before)
/// CHECK-DAG: BoundsCheck
/// CHECK-DAG: BoundsCheck
/// CHECK-DAG: BoundsCheck
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.periodicSequence4(int) BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int periodicSequence4(int tc) {
int[] x = { 1, 3, 5, 7 };
// Loop with periodic sequence (0, 1, 2, 3).
int k = 0;
int l = 1;
int m = 2;
int n = 3;
int result = 0;
for (int i = 0; i < tc; i++) {
result += x[k] + x[l] + x[m] + x[n]; // all used at once
int t = n;
n = k;
k = l;
l = m;
m = t;
}
return result;
}
/// CHECK-START: int Main.periodicXorSequence(int) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.periodicXorSequence(int) BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int periodicXorSequence(int tc) {
int[] x = { 1, 3 };
// Loop with periodic sequence (0, 1).
int k = 0;
int result = 0;
for (int i = 0; i < tc; i++) {
result += x[k];
k ^= 1;
}
return result;
}
/// CHECK-START: int Main.justRightUp1() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justRightUp1() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int justRightUp1() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int result = 0;
for (int i = Integer.MAX_VALUE - 10, k = 0; i < Integer.MAX_VALUE; i++) {
result += x[k++];
}
return result;
}
/// CHECK-START: int Main.justRightUp2() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justRightUp2() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int justRightUp2() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int result = 0;
for (int i = Integer.MAX_VALUE - 10; i < Integer.MAX_VALUE; i++) {
result += x[i - Integer.MAX_VALUE + 10];
}
return result;
}
/// CHECK-START: int Main.justRightUp3() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justRightUp3() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int justRightUp3() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int result = 0;
for (int i = Integer.MAX_VALUE - 10, k = 0; i <= Integer.MAX_VALUE - 1; i++) {
result += x[k++];
}
return result;
}
/// CHECK-START: int Main.justOOBUp() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justOOBUp() BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justOOBUp() BCE (after)
/// CHECK-NOT: Deoptimize
private static int justOOBUp() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int result = 0;
// Infinite loop!
for (int i = Integer.MAX_VALUE - 9, k = 0; i <= Integer.MAX_VALUE; i++) {
result += x[k++];
}
return result;
}
/// CHECK-START: int Main.justRightDown1() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justRightDown1() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int justRightDown1() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int result = 0;
for (int i = Integer.MIN_VALUE + 10, k = 0; i > Integer.MIN_VALUE; i--) {
result += x[k++];
}
return result;
}
/// CHECK-START: int Main.justRightDown2() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justRightDown2() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int justRightDown2() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int result = 0;
for (int i = Integer.MIN_VALUE + 10; i > Integer.MIN_VALUE; i--) {
result += x[Integer.MAX_VALUE + i];
}
return result;
}
/// CHECK-START: int Main.justRightDown3() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justRightDown3() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int justRightDown3() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int result = 0;
for (int i = Integer.MIN_VALUE + 10, k = 0; i >= Integer.MIN_VALUE + 1; i--) {
result += x[k++];
}
return result;
}
/// CHECK-START: int Main.justOOBDown() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justOOBDown() BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.justOOBDown() BCE (after)
/// CHECK-NOT: Deoptimize
private static int justOOBDown() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int result = 0;
// Infinite loop!
for (int i = Integer.MIN_VALUE + 9, k = 0; i >= Integer.MIN_VALUE; i--) {
result += x[k++];
}
return result;
}
/// CHECK-START: void Main.lowerOOB(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.lowerOOB(int[]) BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.lowerOOB(int[]) BCE (after)
/// CHECK-NOT: Deoptimize
private static void lowerOOB(int[] x) {
// OOB!
for (int i = -1; i < x.length; i++) {
sResult += x[i];
}
}
/// CHECK-START: void Main.upperOOB(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.upperOOB(int[]) BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.upperOOB(int[]) BCE (after)
/// CHECK-NOT: Deoptimize
private static void upperOOB(int[] x) {
// OOB!
for (int i = 0; i <= x.length; i++) {
sResult += x[i];
}
}
/// CHECK-START: void Main.doWhileUpOOB() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.doWhileUpOOB() BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.doWhileUpOOB() BCE (after)
/// CHECK-NOT: Deoptimize
private static void doWhileUpOOB() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int i = 0;
// OOB!
do {
sResult += x[i++];
} while (i <= x.length);
}
/// CHECK-START: void Main.doWhileDownOOB() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.doWhileDownOOB() BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.doWhileDownOOB() BCE (after)
/// CHECK-NOT: Deoptimize
private static void doWhileDownOOB() {
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int i = x.length - 1;
// OOB!
do {
sResult += x[i--];
} while (-1 <= i);
}
/// CHECK-START: void Main.justRightTriangular1() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.justRightTriangular1() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static void justRightTriangular1() {
int[] a = { 1 } ;
for (int i = Integer.MIN_VALUE + 5; i <= Integer.MIN_VALUE + 10; i++) {
for (int j = Integer.MIN_VALUE + 4; j < i - 5; j++) {
sResult += a[j - (Integer.MIN_VALUE + 4)];
}
}
}
/// CHECK-START: void Main.justRightTriangular2() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.justRightTriangular2() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static void justRightTriangular2() {
int[] a = { 1 } ;
for (int i = Integer.MIN_VALUE + 5; i <= 10; i++) {
for (int j = 4; j < i - 5; j++) {
sResult += a[j - 4];
}
}
}
/// CHECK-START: void Main.justOOBTriangular() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.justOOBTriangular() BCE (after)
/// CHECK-DAG: Deoptimize
//
/// CHECK-START: void Main.justOOBTriangular() BCE (after)
/// CHECK-NOT: BoundsCheck
private static void justOOBTriangular() {
int[] a = { 1 } ;
for (int i = Integer.MIN_VALUE + 4; i <= 10; i++) {
for (int j = 4; j < i - 5; j++) {
sResult += a[j - 4];
}
}
}
/// CHECK-START: void Main.hiddenOOB1(int) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.hiddenOOB1(int) BCE (after)
/// CHECK-DAG: Deoptimize
//
/// CHECK-START: void Main.hiddenOOB1(int) BCE (after)
/// CHECK-NOT: BoundsCheck
private static void hiddenOOB1(int lo) {
int[] a = { 1 } ;
for (int i = lo; i <= 10; i++) {
// Dangerous loop where careless static range analysis would yield strict upper bound
// on index j of 5. When, for instance, lo and thus i = -2147483648, the upper bound
// becomes really positive due to arithmetic wrap-around, causing OOB.
for (int j = 4; j < i - 5; j++) {
sResult += a[j - 4];
}
}
}
/// CHECK-START: void Main.hiddenOOB2(int) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.hiddenOOB2(int) BCE (after)
/// CHECK-DAG: Deoptimize
//
/// CHECK-START: void Main.hiddenOOB2(int) BCE (after)
/// CHECK-NOT: BoundsCheck
private static void hiddenOOB2(int hi) {
int[] a = { 1 } ;
for (int i = 0; i < hi; i++) {
// Dangerous loop where careless static range analysis would yield strict lower bound
// on index j of 5. When, for instance, hi and thus i = 2147483647, the upper bound
// becomes really negative due to arithmetic wrap-around, causing OOB.
for (int j = 6; j > i + 5; j--) {
sResult += a[j - 6];
}
}
}
/// CHECK-START: void Main.hiddenOOB3(int) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.hiddenOOB3(int) BCE (after)
/// CHECK-DAG: Deoptimize
//
/// CHECK-START: void Main.hiddenOOB3(int) BCE (after)
/// CHECK-NOT: BoundsCheck
private static void hiddenOOB3(int hi) {
int[] a = { 11 } ;
for (int i = -1; i <= hi; i++) {
// Dangerous loop where careless static range analysis would yield strict lower bound
// on index j of 0. For large i, the initial value of j becomes really negative due
// to arithmetic wrap-around, causing OOB.
for (int j = i + 1; j < 1; j++) {
sResult += a[j];
}
}
}
/// CHECK-START: void Main.hiddenInfiniteOOB() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.hiddenInfiniteOOB() BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.hiddenInfiniteOOB() BCE (after)
/// CHECK-NOT: Deoptimize
private static void hiddenInfiniteOOB() {
int[] a = { 11 } ;
for (int i = -1; i <= 0; i++) {
// Dangerous loop where careless static range analysis would yield a safe upper bound
// of -3. In reality, due to arithmetic wrap-around (when i = -1, j <= 2147483647;
// whereas when i = 0, j <= -3), this is an infinite loop that goes OOB.
for (int j = -3; j <= 2147483646 * i - 3; j++) {
sResult += a[j + 3];
}
}
}
/// CHECK-START: void Main.hiddenFiniteOOB() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.hiddenFiniteOOB() BCE (after)
/// CHECK-DAG: Deoptimize
//
/// CHECK-START: void Main.hiddenFiniteOOB() BCE (after)
/// CHECK-NOT: BoundsCheck
private static void hiddenFiniteOOB() {
int[] a = { 111 } ;
for (int i = -1; i <= 0; i++) {
// Dangerous loop similar as above where the loop is now finite, but the
// loop still goes out of bounds for i = -1 due to the large upper bound.
for (int j = -4; j < 2147483646 * i - 3; j++) {
sResult += a[j + 4];
}
}
}
/// CHECK-START: void Main.inductionOOB(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.inductionOOB(int[]) BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.inductionOOB(int[]) BCE (after)
/// CHECK-NOT: Deoptimize
private static void inductionOOB(int[] a) {
// Careless range analysis would remove the bounds check.
// However, the narrower induction b wraps around arithmetically
// before it reaches the end of arrays longer than 127.
byte b = 0;
for (int i = 0; i < a.length; i++) {
a[b++] = i;
}
}
/// CHECK-START: void Main.controlOOB(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.controlOOB(int[]) BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.controlOOB(int[]) BCE (after)
/// CHECK-NOT: Deoptimize
private static void controlOOB(int[] a) {
// As above, but now the loop control also wraps around.
for (byte i = 0; i < a.length; i++) {
a[i] = -i;
}
}
/// CHECK-START: void Main.conversionOOB(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.conversionOOB(int[]) BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: void Main.conversionOOB(int[]) BCE (after)
/// CHECK-NOT: Deoptimize
private static void conversionOOB(int[] a) {
// As above, but with wrap around caused by an explicit conversion.
for (int i = 0; i < a.length; ) {
a[i] = i;
i = (byte) (i + 1);
}
}
/// CHECK-START: int Main.doNotHoist(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int Main.doNotHoist(int[]) BCE (after)
/// CHECK-NOT: BoundsCheck
public static int doNotHoist(int[] a) {
int n = a.length;
int x = 0;
// BCE applies, but hoisting would crash the loop.
for (int i = -10000; i < 10000; i++) {
for (int j = 0; j <= 1; j++) {
if (0 <= i && i < n)
x += a[i];
}
}
return x;
}
/// CHECK-START: int[] Main.add() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int[] Main.add() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int[] add() {
int[] a = new int[10];
for (int i = 0; i <= 3; i++) {
for (int j = 0; j <= 6; j++) {
a[i + j] += 1;
}
}
return a;
}
/// CHECK-START: int[] Main.multiply1() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int[] Main.multiply1() BCE (after)
/// CHECK-NOT: BoundsCheck
/// CHECK-NOT: Deoptimize
private static int[] multiply1() {
int[] a = new int[10];
try {
for (int i = 0; i <= 3; i++) {
for (int j = 0; j <= 3; j++) {
// Range [0,9]: safe.
a[i * j] += 1;
}
}
} catch (Exception e) {
a[0] += 1000;
}
return a;
}
/// CHECK-START: int[] Main.multiply2() BCE (before)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int[] Main.multiply2() BCE (after)
/// CHECK-DAG: BoundsCheck
//
/// CHECK-START: int[] Main.multiply2() BCE (after)
/// CHECK-NOT: Deoptimize
static int[] multiply2() {
int[] a = new int[10];
try {
for (int i = -3; i <= 3; i++) {
for (int j = -3; j <= 3; j++) {
// Range [-9,9]: unsafe.
a[i * j] += 1;
}
}
} catch (Exception e) {
a[0] += 1000;
}
return a;
}
/// CHECK-START: int Main.linearDynamicBCE1(int[], int, int) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: NullCheck loop:<<Loop>>
/// CHECK-DAG: ArrayLength loop:<<Loop>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.linearDynamicBCE1(int[], int, int) BCE (after)
/// CHECK-DAG: ArrayGet loop:{{B\d+}}
/// CHECK-DAG: Deoptimize loop:none
//
/// CHECK-START: int Main.linearDynamicBCE1(int[], int, int) BCE (after)
/// CHECK-NOT: NullCheck loop:{{B\d+}}
/// CHECK-NOT: ArrayLength loop:{{B\d+}}
/// CHECK-NOT: BoundsCheck loop:{{B\d+}}
private static int linearDynamicBCE1(int[] x, int lo, int hi) {
int result = 0;
for (int i = lo; i < hi; i++) {
sResult += x[i];
}
return result;
}
/// CHECK-START: int Main.linearDynamicBCE2(int[], int, int, int) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: NullCheck loop:<<Loop>>
/// CHECK-DAG: ArrayLength loop:<<Loop>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.linearDynamicBCE2(int[], int, int, int) BCE (after)
/// CHECK-DAG: ArrayGet loop:{{B\d+}}
/// CHECK-DAG: Deoptimize loop:none
//
/// CHECK-START: int Main.linearDynamicBCE2(int[], int, int, int) BCE (after)
/// CHECK-NOT: NullCheck loop:{{B\d+}}
/// CHECK-NOT: ArrayLength loop:{{B\d+}}
/// CHECK-NOT: BoundsCheck loop:{{B\d+}}
private static int linearDynamicBCE2(int[] x, int lo, int hi, int offset) {
int result = 0;
for (int i = lo; i < hi; i++) {
sResult += x[offset + i];
}
return result;
}
/// CHECK-START: int Main.wrapAroundDynamicBCE(int[]) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: NullCheck loop:<<Loop>>
/// CHECK-DAG: ArrayLength loop:<<Loop>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.wrapAroundDynamicBCE(int[]) BCE (after)
/// CHECK-DAG: ArrayGet loop:{{B\d+}}
/// CHECK-DAG: Deoptimize loop:none
//
/// CHECK-START: int Main.wrapAroundDynamicBCE(int[]) BCE (after)
/// CHECK-NOT: NullCheck loop:{{B\d+}}
/// CHECK-NOT: ArrayLength loop:{{B\d+}}
/// CHECK-NOT: BoundsCheck loop:{{B\d+}}
private static int wrapAroundDynamicBCE(int[] x) {
int w = 9;
int result = 0;
for (int i = 0; i < 10; i++) {
result += x[w];
w = i;
}
return result;
}
/// CHECK-START: int Main.periodicDynamicBCE(int[]) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: NullCheck loop:<<Loop>>
/// CHECK-DAG: ArrayLength loop:<<Loop>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.periodicDynamicBCE(int[]) BCE (after)
/// CHECK-DAG: ArrayGet loop:{{B\d+}}
/// CHECK-DAG: Deoptimize loop:none
//
/// CHECK-START: int Main.periodicDynamicBCE(int[]) BCE (after)
/// CHECK-NOT: NullCheck loop:{{B\d+}}
/// CHECK-NOT: ArrayLength loop:{{B\d+}}
/// CHECK-NOT: BoundsCheck loop:{{B\d+}}
private static int periodicDynamicBCE(int[] x) {
int k = 0;
int result = 0;
for (int i = 0; i < 10; i++) {
result += x[k];
k = 1 - k;
}
return result;
}
/// CHECK-START: int Main.dynamicBCEPossiblyInfiniteLoop(int[], int, int) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: NullCheck loop:<<Loop>>
/// CHECK-DAG: ArrayLength loop:<<Loop>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.dynamicBCEPossiblyInfiniteLoop(int[], int, int) BCE (after)
/// CHECK-DAG: ArrayGet loop:{{B\d+}}
/// CHECK-DAG: Deoptimize loop:none
//
/// CHECK-START: int Main.dynamicBCEPossiblyInfiniteLoop(int[], int, int) BCE (after)
/// CHECK-NOT: NullCheck loop:{{B\d+}}
/// CHECK-NOT: ArrayLength loop:{{B\d+}}
/// CHECK-NOT: BoundsCheck loop:{{B\d+}}
static int dynamicBCEPossiblyInfiniteLoop(int[] x, int lo, int hi) {
// This loop could be infinite for hi = max int. Since i is also used
// as subscript, however, dynamic bce can proceed.
int result = 0;
for (int i = lo; i <= hi; i++) {
result += x[i];
}
return result;
}
/// CHECK-START: int Main.noDynamicBCEPossiblyInfiniteLoop(int[], int, int) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.noDynamicBCEPossiblyInfiniteLoop(int[], int, int) BCE (after)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.noDynamicBCEPossiblyInfiniteLoop(int[], int, int) BCE (after)
/// CHECK-NOT: Deoptimize
static int noDynamicBCEPossiblyInfiniteLoop(int[] x, int lo, int hi) {
// As above, but now the index is not used as subscript,
// and dynamic bce is not applied.
int result = 0;
for (int k = 0, i = lo; i <= hi; i++) {
result += x[k++];
}
return result;
}
/// CHECK-START: int Main.noDynamicBCEMixedInductionTypes(int[], long, long) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.noDynamicBCEMixedInductionTypes(int[], long, long) BCE (after)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.noDynamicBCEMixedInductionTypes(int[], long, long) BCE (after)
/// CHECK-NOT: Deoptimize
static int noDynamicBCEMixedInductionTypes(int[] x, long lo, long hi) {
int result = 0;
// Mix of int and long induction.
int k = 0;
for (long i = lo; i < hi; i++) {
result += x[k++];
}
return result;
}
/// CHECK-START: int Main.dynamicBCEConstantRange(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck loop:<<InnerLoop:B\d+>>
/// CHECK-DAG: ArrayGet loop:<<InnerLoop>>
/// CHECK-DAG: If loop:<<InnerLoop>>
/// CHECK-DAG: If loop:<<OuterLoop:B\d+>>
/// CHECK-EVAL: "<<InnerLoop>>" != "<<OuterLoop>>"
//
/// CHECK-START: int Main.dynamicBCEConstantRange(int[]) BCE (after)
/// CHECK-DAG: ArrayGet loop:<<InnerLoop:B\d+>>
/// CHECK-DAG: Deoptimize loop:<<OuterLoop:B\d+>>
/// CHECK-EVAL: "<<InnerLoop>>" != "<<OuterLoop>>"
//
/// CHECK-START: int Main.dynamicBCEConstantRange(int[]) BCE (after)
/// CHECK-NOT: BoundsCheck
//
// No additional top tests were introduced.
/// CHECK-START: int Main.dynamicBCEConstantRange(int[]) BCE (after)
/// CHECK-DAG: If
/// CHECK-DAG: If
/// CHECK-NOT: If
static int dynamicBCEConstantRange(int[] x) {
int result = 0;
for (int i = 2; i <= 6; i++) {
// Range analysis sees that innermost loop is finite and always taken.
for (int j = i - 2; j <= i + 2; j++) {
result += x[j];
}
}
return result;
}
/// CHECK-START: int Main.dynamicBCEAndConstantIndices(int[], int[][], int, int) BCE (before)
/// CHECK-DAG: {{l\d+}} ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: {{l\d+}} ArrayGet loop:<<Loop>>
/// CHECK-DAG: {{l\d+}} ArrayGet loop:<<Loop>>
//
/// CHECK-START: int Main.dynamicBCEAndConstantIndices(int[], int[][], int, int) BCE (after)
// Order matters:
/// CHECK: Deoptimize loop:<<Loop:B\d+>>
/// CHECK-NOT: Goto loop:<<Loop>>
/// CHECK-DAG: {{l\d+}} ArrayGet loop:<<Loop>>
/// CHECK-DAG: {{l\d+}} ArrayGet loop:<<Loop>>
/// CHECK-DAG: {{l\d+}} ArrayGet loop:<<Loop>>
/// CHECK: Goto loop:<<Loop>>
//
/// CHECK-START: int Main.dynamicBCEAndConstantIndices(int[], int[][], int, int) BCE (after)
/// CHECK-DAG: Deoptimize loop:none
static int dynamicBCEAndConstantIndices(int[] x, int[][] a, int lo, int hi) {
// Deliberately test array length on a before the loop so that only bounds checks
// on constant subscripts remain, making them a viable candidate for hoisting.
if (a.length == 0) {
return -1;
}
// Loop that allows BCE on x[i].
int result = 0;
for (int i = lo; i < hi; i++) {
result += x[i];
if ((i % 10) != 0) {
// None of the subscripts inside a conditional are removed by dynamic bce,
// making them a candidate for deoptimization based on constant indices.
// Compiler should ensure the array loads are not subsequently hoisted
// "above" the deoptimization "barrier" on the bounds.
a[1][i] = 1;
a[2][i] = 2;
a[99][i] = 3;
}
}
return result;
}
/// CHECK-START: int Main.dynamicBCEAndConstantIndicesAllPrimTypes(int[], boolean[], byte[], char[], short[], int[], long[], float[], double[], int, int) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
// For brevity, just test occurrence of at least one of each in the loop:
/// CHECK-DAG: NullCheck loop:<<Loop>>
/// CHECK-DAG: ArrayLength loop:<<Loop>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.dynamicBCEAndConstantIndicesAllPrimTypes(int[], boolean[], byte[], char[], short[], int[], long[], float[], double[], int, int) BCE (after)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-NOT: ArrayGet loop:<<Loop>>
//
/// CHECK-START: int Main.dynamicBCEAndConstantIndicesAllPrimTypes(int[], boolean[], byte[], char[], short[], int[], long[], float[], double[], int, int) BCE (after)
/// CHECK-NOT: NullCheck loop:{{B\d+}}
/// CHECK-NOT: ArrayLength loop:{{B\d+}}
/// CHECK-NOT: BoundsCheck loop:{{B\d+}}
//
/// CHECK-START: int Main.dynamicBCEAndConstantIndicesAllPrimTypes(int[], boolean[], byte[], char[], short[], int[], long[], float[], double[], int, int) BCE (after)
/// CHECK-DAG: Deoptimize loop:none
static int dynamicBCEAndConstantIndicesAllPrimTypes(int[] q,
boolean[] r,
byte[] s,
char[] t,
short[] u,
int[] v,
long[] w,
float[] x,
double[] y, int lo, int hi) {
int result = 0;
for (int i = lo; i < hi; i++) {
// All constant index array references can be hoisted out of the loop during BCE on q[i].
result += q[i] + (r[0] ? 1 : 0) + (int) s[0] + (int) t[0] + (int) u[0] + (int) v[0] +
(int) w[0] + (int) x[0] + (int) y[0];
}
return result;
}
/// CHECK-START: int Main.dynamicBCEAndConstantIndexRefType(int[], java.lang.Integer[], int, int) BCE (before)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: NullCheck loop:<<Loop>>
/// CHECK-DAG: ArrayLength loop:<<Loop>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
/// CHECK-DAG: ArrayGet loop:<<Loop>>
/// CHECK-DAG: NullCheck loop:<<Loop>>
/// CHECK-DAG: ArrayLength loop:<<Loop>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.dynamicBCEAndConstantIndexRefType(int[], java.lang.Integer[], int, int) BCE (after)
/// CHECK-DAG: ArrayGet loop:<<Loop:B\d+>>
/// CHECK-DAG: Deoptimize loop:none
//
/// CHECK-START: int Main.dynamicBCEAndConstantIndexRefType(int[], java.lang.Integer[], int, int) BCE (after)
/// CHECK-NOT: ArrayLength loop:{{B\d+}}
/// CHECK-NOT: BoundsCheck loop:{{B\d+}}
static int dynamicBCEAndConstantIndexRefType(int[] q, Integer[] z, int lo, int hi) {
int result = 0;
for (int i = lo; i < hi; i++) {
// Similar to above, but now implicit call to intValue() may prevent hoisting
// z[0] itself during BCE on q[i]. Therefore, we just check BCE on q[i].
result += q[i] + z[0];
}
return result;
}
/// CHECK-START: int Main.shortIndex(int[]) BCE (before)
/// CHECK-DAG: BoundsCheck loop:<<Loop:B\d+>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.shortIndex(int[]) BCE (after)
/// CHECK-DAG: BoundsCheck loop:<<Loop:B\d+>>
/// CHECK-DAG: BoundsCheck loop:<<Loop>>
//
/// CHECK-START: int Main.shortIndex(int[]) BCE (after)
/// CHECK-NOT: Deoptimize
static int shortIndex(int[] a) {
int r = 0;
// Make sure short/int conversions compiles well (b/32193474).
for (short i = 1; i < 10; i++) {
int ki = i - 1;
r += a[ki] + a[i];
}
return r;
}
//
// Verifier.
//
public static void main(String[] args) {
// Set to run expensive tests for correctness too.
boolean HEAVY = false;
int[] x = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
int[] a200 = new int[200];
// Sorting.
int[] sort = { 5, 4, 1, 9, 10, 2, 7, 6, 3, 8 };
bubble(sort);
for (int i = 0; i < 10; i++) {
expectEquals(sort[i], x[i]);
}
// Periodic adds (1, 3), one at the time.
expectEquals(0, periodicIdiom(-1));
for (int tc = 0; tc < 32; tc++) {
int expected = (tc >> 1) << 2;
if ((tc & 1) != 0) {
expected += 1;
}
expectEquals(expected, periodicIdiom(tc));
}
// Periodic adds (1, 3), one at the time.
expectEquals(0, periodicSequence2(-1));
for (int tc = 0; tc < 32; tc++) {
int expected = (tc >> 1) << 2;
if ((tc & 1) != 0) {
expected += 1;
}
expectEquals(expected, periodicSequence2(tc));
}
// Periodic adds (1, 3, 5, 7), all at once.
expectEquals(0, periodicSequence4(-1));
for (int tc = 0; tc < 32; tc++) {
expectEquals(tc * 16, periodicSequence4(tc));
}
// Periodic adds (1, 3), one at the time.
expectEquals(0, periodicXorSequence(-1));
for (int tc = 0; tc < 32; tc++) {
int expected = (tc >> 1) << 2;
if ((tc & 1) != 0) {
expected += 1;
}
expectEquals(expected, periodicXorSequence(tc));
}
// Large bounds.
expectEquals(55, justRightUp1());
expectEquals(55, justRightUp2());
expectEquals(55, justRightUp3());
expectEquals(55, justRightDown1());
expectEquals(55, justRightDown2());
expectEquals(55, justRightDown3());
// Large bounds OOB.
sResult = 0;
try {
justOOBUp();
} catch (ArrayIndexOutOfBoundsException e) {
sResult = 1;
}
expectEquals(1, sResult);
sResult = 0;
try {
justOOBDown();
} catch (ArrayIndexOutOfBoundsException e) {
sResult = 1;
}
expectEquals(1, sResult);
// Lower bound goes OOB.
sResult = 0;
try {
lowerOOB(x);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1000, sResult);
// Upper bound goes OOB.
sResult = 0;
try {
upperOOB(x);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1055, sResult);
// Do while up goes OOB.
sResult = 0;
try {
doWhileUpOOB();
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1055, sResult);
// Do while down goes OOB.
sResult = 0;
try {
doWhileDownOOB();
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1055, sResult);
// Triangular.
sResult = 0;
justRightTriangular1();
expectEquals(1, sResult);
if (HEAVY) {
sResult = 0;
justRightTriangular2();
expectEquals(1, sResult);
}
sResult = 0;
try {
justOOBTriangular();
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1001, sResult);
// Hidden OOB.
sResult = 0;
try {
hiddenOOB1(10); // no OOB
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1, sResult);
sResult = 0;
try {
hiddenOOB1(-2147483648); // OOB
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1001, sResult);
sResult = 0;
try {
hiddenOOB2(1); // no OOB
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1, sResult);
sResult = 0;
try {
hiddenOOB3(-1); // no OOB
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(11, sResult);
// Expensive hidden OOB test.
if (HEAVY) {
sResult = 0;
try {
hiddenOOB2(2147483647); // OOB
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1002, sResult);
sResult = 0;
try {
hiddenOOB3(2147483647); // OOB
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1011, sResult);
}
// More hidden OOB.
sResult = 0;
try {
hiddenInfiniteOOB();
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1011, sResult);
sResult = 0;
try {
hiddenFiniteOOB();
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1111, sResult);
sResult = 0;
try {
inductionOOB(a200);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1000, sResult);
for (int i = 0; i < 200; i++) {
expectEquals(i < 128 ? i : 0, a200[i]);
}
sResult = 0;
try {
controlOOB(a200);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1000, sResult);
for (int i = 0; i < 200; i++) {
expectEquals(i < 128 ? -i : 0, a200[i]);
}
sResult = 0;
try {
conversionOOB(a200);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1000, sResult);
for (int i = 0; i < 200; i++) {
expectEquals(i < 128 ? i : 0, a200[i]);
}
// No hoisting after BCE.
expectEquals(110, doNotHoist(x));
// Addition.
{
int[] e1 ={ 1, 2, 3, 4, 4, 4, 4, 3, 2, 1 };
int[] a1 = add();
for (int i = 0; i < 10; i++) {
expectEquals(a1[i], e1[i]);
}
}
// Multiplication.
{
int[] e1 = { 7, 1, 2, 2, 1, 0, 2, 0, 0, 1 };
int[] a1 = multiply1();
for (int i = 0; i < 10; i++) {
expectEquals(a1[i], e1[i]);
}
int[] e2 = { 1001, 0, 0, 1, 0, 0, 1, 0, 0, 1 };
int[] a2 = multiply2();
for (int i = 0; i < 10; i++) {
expectEquals(a2[i], e2[i]);
}
}
// Dynamic BCE.
sResult = 0;
try {
linearDynamicBCE1(x, -1, x.length);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1000, sResult);
sResult = 0;
linearDynamicBCE1(x, 0, x.length);
expectEquals(55, sResult);
sResult = 0;
try {
linearDynamicBCE1(x, 0, x.length + 1);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1055, sResult);
// Dynamic BCE with offset.
sResult = 0;
try {
linearDynamicBCE2(x, 0, x.length, -1);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1000, sResult);
sResult = 0;
linearDynamicBCE2(x, 0, x.length, 0);
expectEquals(55, sResult);
sResult = 0;
try {
linearDynamicBCE2(x, 0, x.length, 1);
} catch (ArrayIndexOutOfBoundsException e) {
sResult += 1000;
}
expectEquals(1054, sResult);
// Dynamic BCE candidates.
expectEquals(55, wrapAroundDynamicBCE(x));
expectEquals(15, periodicDynamicBCE(x));
expectEquals(55, dynamicBCEPossiblyInfiniteLoop(x, 0, 9));
expectEquals(55, noDynamicBCEPossiblyInfiniteLoop(x, 0, 9));
expectEquals(55, noDynamicBCEMixedInductionTypes(x, 0, 10));
expectEquals(125, dynamicBCEConstantRange(x));
// Dynamic BCE combined with constant indices.
int[][] a;
a = new int[0][0];
expectEquals(-1, dynamicBCEAndConstantIndices(x, a, 0, 10));
a = new int[100][10];
expectEquals(55, dynamicBCEAndConstantIndices(x, a, 0, 10));
for (int i = 0; i < 10; i++) {
expectEquals((i % 10) != 0 ? 1 : 0, a[1][i]);
expectEquals((i % 10) != 0 ? 2 : 0, a[2][i]);
expectEquals((i % 10) != 0 ? 3 : 0, a[99][i]);
}
a = new int[3][10];
sResult = 0;
try {
expectEquals(55, dynamicBCEAndConstantIndices(x, a, 0, 10));
} catch (ArrayIndexOutOfBoundsException e) {
sResult = 1;
}
expectEquals(1, sResult);
expectEquals(a[1][1], 1);
expectEquals(a[2][1], 2);
// Dynamic BCE combined with constant indices of all types.
boolean[] x1 = { true };
byte[] x2 = { 2 };
char[] x3 = { 3 };
short[] x4 = { 4 };
int[] x5 = { 5 };
long[] x6 = { 6 };
float[] x7 = { 7 };
double[] x8 = { 8 };
expectEquals(415,
dynamicBCEAndConstantIndicesAllPrimTypes(x, x1, x2, x3, x4, x5, x6, x7, x8, 0, 10));
Integer[] x9 = { 9 };
expectEquals(145, dynamicBCEAndConstantIndexRefType(x, x9, 0, 10));
expectEquals(99, shortIndex(x));
System.out.println("passed");
}
private static void expectEquals(int expected, int result) {
if (expected != result) {
throw new Error("Expected: " + expected + ", found: " + result);
}
}
}