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LeafOS / LeafOS-Project / android_art / 465455f6538a4b624a8482e8927f5cbb929c2f5c / . / test / 618-checker-induction / src / Main.java
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/*
* Copyright (C) 2016 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.
*/
/**
* Tests on loop optimizations related to induction.
*/
public class Main {
static int[] a = new int[10];
static int[] novec = new int[20]; // to prevent vectorization
/// CHECK-START: void Main.deadSingleLoop() loop_optimization (before)
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:none
//
/// CHECK-START: void Main.deadSingleLoop() loop_optimization (after)
/// CHECK-NOT: Phi
static void deadSingleLoop() {
for (int i = 0; i < 4; i++) {
}
}
/// CHECK-START: void Main.deadSingleLoop() loop_optimization (before)
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:none
//
/// CHECK-START: void Main.deadSingleLoop() loop_optimization (after)
/// CHECK-NOT: Phi
static void deadSingleLoopN(int n) {
for (int i = 0; i < n; i++) {
}
}
/// CHECK-START: void Main.potentialInfiniteLoop(int) loop_optimization (before)
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:none
//
/// CHECK-START: void Main.potentialInfiniteLoop(int) loop_optimization (after)
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:none
static void potentialInfiniteLoop(int n) {
for (int i = 0; i <= n; i++) { // loops forever when n = MAX_INT
}
}
/// CHECK-START: void Main.deadNestedLoops() loop_optimization (before)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:<<Loop>>
//
/// CHECK-START: void Main.deadNestedLoops() loop_optimization (after)
/// CHECK-NOT: Phi
static void deadNestedLoops() {
for (int i = 0; i < 4; i++) {
for (int j = 0; j < 4; j++) {
}
}
}
/// CHECK-START: void Main.deadNestedAndFollowingLoops() loop_optimization (before)
/// CHECK-DAG: Phi loop:<<Loop1:B\d+>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop2:B\d+>> outer_loop:<<Loop1>>
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:<<Loop2>>
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:<<Loop2>>
/// CHECK-DAG: Phi loop:<<Loop3:B\d+>> outer_loop:<<Loop1>>
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:<<Loop3>>
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:none
//
/// CHECK-START: void Main.deadNestedAndFollowingLoops() loop_optimization (after)
/// CHECK-NOT: Phi
static void deadNestedAndFollowingLoops() {
for (int i = 0; i < 4; i++) {
for (int j = 0; j < 4; j++) {
for (int k = 0; k < 4; k++) {
}
for (int k = 0; k < 4; k++) {
}
}
for (int j = 0; j < 4; j++) {
for (int k = 0; k < 4; k++) {
}
}
}
for (int i = 0; i < 4; i++) {
}
}
/// CHECK-START: void Main.deadConditional(int) loop_optimization (before)
/// CHECK-DAG: Phi loop:{{B\d+}} outer_loop:none
//
/// CHECK-START: void Main.deadConditional(int) loop_optimization (after)
/// CHECK-NOT: Phi
public static void deadConditional(int n) {
int k = 0;
int m = 0;
for (int i = 0; i < n; i++) {
if (i == 3)
k = i;
else
m = i;
}
}
/// CHECK-START: void Main.deadConditionalCycle(int) loop_optimization (before)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
//
/// CHECK-START: void Main.deadConditionalCycle(int) loop_optimization (after)
/// CHECK-NOT: Phi
public static void deadConditionalCycle(int n) {
int k = 0;
int m = 0;
for (int i = 0; i < n; i++) {
if (i == 3)
k--;
else
m++;
}
}
/// CHECK-START: void Main.deadInduction() loop_optimization (before)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArraySet loop:<<Loop>> outer_loop:none
//
/// CHECK-START: void Main.deadInduction() loop_optimization (after)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-NOT: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArraySet loop:<<Loop>> outer_loop:none
static void deadInduction() {
int dead = 0;
for (int i = 0; i < a.length; i++) {
a[i] = novec[2 * i] + 1;
dead += 5;
}
}
/// CHECK-START: void Main.deadManyInduction() loop_optimization (before)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArraySet loop:<<Loop>> outer_loop:none
//
/// CHECK-START: void Main.deadManyInduction() loop_optimization (after)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-NOT: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArraySet loop:<<Loop>> outer_loop:none
static void deadManyInduction() {
int dead1 = 0, dead2 = 1, dead3 = 3;
for (int i = 0; i < a.length; i++) {
dead1 += 5;
a[i] = novec[2 * i] + 2;
dead2 += 10;
dead3 += 100;
}
}
/// CHECK-START: void Main.deadSequence() loop_optimization (before)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArraySet loop:<<Loop>> outer_loop:none
//
/// CHECK-START: void Main.deadSequence() loop_optimization (after)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-NOT: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArraySet loop:<<Loop>> outer_loop:none
static void deadSequence() {
int dead = 0;
for (int i = 0; i < a.length; i++) {
a[i] = novec[2 * i] + 3;
// Increment value defined inside loop,
// but sequence itself not used anywhere.
dead += i;
}
}
/// CHECK-START: void Main.deadCycleWithException(int) loop_optimization (before)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArraySet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-NOT: BoundsCheck
//
/// CHECK-START: void Main.deadCycleWithException(int) loop_optimization (after)
/// CHECK-DAG: Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-NOT: Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArraySet loop:<<Loop>> outer_loop:none
/// CHECK-DAG: ArrayGet loop:<<Loop>> outer_loop:none
/// CHECK-NOT: ArrayGet loop:<<Loop>> outer_loop:none
static void deadCycleWithException(int k) {
int dead = 0;
for (int i = 0; i < a.length; i++) {
a[i] = novec[2 * i] + 4;
// Increment value of dead cycle may throw exception. Dynamic
// BCE takes care of the bounds check though, which enables
// removing the ArrayGet after removing the dead cycle.
dead += a[k];
}
}
/// CHECK-START: int Main.closedFormInductionUp() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.closedFormInductionUp() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormInductionUp() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 12395 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
static int closedFormInductionUp() {
int closed = 12345;
for (int i = 0; i < 10; i++) {
closed += 5;
}
return closed; // only needs last value
}
/// CHECK-START: int Main.closedFormInductionInAndDown(int) loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi2>>] loop:none
//
/// CHECK-START: int Main.closedFormInductionInAndDown(int) loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormInductionInAndDown(int) instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Par:i\d+>> ParameterValue loop:none
/// CHECK-DAG: <<Int:i\d+>> IntConstant -50 loop:none
/// CHECK-DAG: <<Add:i\d+>> Add [<<Int>>,<<Par>>] loop:none
/// CHECK-DAG: Return [<<Add>>] loop:none
static int closedFormInductionInAndDown(int closed) {
for (int i = 0; i < 10; i++) {
closed -= 5;
}
return closed; // only needs last value
}
/// CHECK-START: int Main.closedFormInductionTrivialIf() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Select loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.closedFormInductionTrivialIf() loop_optimization (after)
/// CHECK-NOT: Phi
/// CHECK-NOT: Select
//
/// CHECK-START: int Main.closedFormInductionTrivialIf() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 81 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
static int closedFormInductionTrivialIf() {
int closed = 11;
for (int i = 0; i < 10; i++) {
// Trivial if becomes trivial select at HIR level.
// Make sure this is still recognized as induction.
if (i < 5) {
closed += 7;
} else {
closed += 7;
}
}
return closed; // only needs last value
}
/// CHECK-START: int Main.closedFormNested() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop1:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop1>> outer_loop:none
/// CHECK-DAG: <<Phi3:i\d+>> Phi loop:<<Loop2:B\d+>> outer_loop:<<Loop1>>
/// CHECK-DAG: <<Phi4:i\d+>> Phi loop:<<Loop2>> outer_loop:<<Loop1>>
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.closedFormNested() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormNested() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 100 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
static int closedFormNested() {
int closed = 0;
for (int i = 0; i < 10; i++) {
for (int j = 0; j < 10; j++) {
closed++;
}
}
return closed; // only needs last-value
}
/// CHECK-START: int Main.closedFormNestedAlt() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop1:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop1>> outer_loop:none
/// CHECK-DAG: <<Phi3:i\d+>> Phi loop:<<Loop2:B\d+>> outer_loop:<<Loop1>>
/// CHECK-DAG: <<Phi4:i\d+>> Phi loop:<<Loop2>> outer_loop:<<Loop1>>
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.closedFormNestedAlt() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormNestedAlt() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 15082 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
static int closedFormNestedAlt() {
int closed = 12345;
for (int i = 0; i < 17; i++) {
for (int j = 0; j < 23; j++) {
closed += 7;
}
}
return closed; // only needs last-value
}
// closedFormInductionUpN turns into `if n < 0 then 12345 else 12345 + n * 5`.
/// CHECK-START: int Main.closedFormInductionUpN(int) loop_optimization (before)
/// CHECK: Phi
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormInductionUpN(int) loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormInductionUpN(int) loop_optimization (after)
/// CHECK-DAG: <<N:i\d+>> ParameterValue
/// CHECK-DAG: <<Int5:i\d+>> IntConstant 5
/// CHECK-DAG: <<Int12345:i\d+>> IntConstant 12345
/// CHECK-DAG: <<Int0:i\d+>> IntConstant 0
/// CHECK-DAG: <<Mul:i\d+>> Mul [<<Int5>>,<<N>>]
/// CHECK-DAG: <<Add:i\d+>> Add [<<Mul>>,<<Int12345>>]
/// CHECK-DAG: <<LT:z\d+>> LessThan [<<Int0>>,<<N>>]
/// CHECK-DAG: <<Sel:i\d+>> Select [<<Int12345>>,<<Add>>,<<LT>>]
/// CHECK-DAG: Return [<<Sel>>]
static int closedFormInductionUpN(int n) {
int closed = 12345;
for (int i = 0; i < n; i++) {
closed += 5;
}
return closed; // only needs last value
}
// closedFormInductionInAndDownN turns into `if n < 0 then closed else closed - n * 5`.
/// CHECK-START: int Main.closedFormInductionInAndDownN(int, int) loop_optimization (before)
/// CHECK: Phi
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormInductionInAndDownN(int, int) loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormInductionInAndDownN(int, int) loop_optimization (after)
/// CHECK-DAG: <<Closed:i\d+>> ParameterValue
/// CHECK-DAG: <<N:i\d+>> ParameterValue
/// CHECK-DAG: <<IntNeg5:i\d+>> IntConstant -5
/// CHECK-DAG: <<Int0:i\d+>> IntConstant 0
/// CHECK-DAG: <<Mul:i\d+>> Mul [<<IntNeg5>>,<<N>>]
/// CHECK-DAG: <<Add:i\d+>> Add [<<Mul>>,<<Closed>>]
/// CHECK-DAG: <<LT:z\d+>> LessThan [<<Int0>>,<<N>>]
/// CHECK-DAG: <<Sel:i\d+>> Select [<<Closed>>,<<Add>>,<<LT>>]
/// CHECK-DAG: Return [<<Sel>>]
static int closedFormInductionInAndDownN(int closed, int n) {
for (int i = 0; i < n; i++) {
closed -= 5;
}
return closed; // only needs last value
}
// closedFormNestedN turns into `if (n < 0) then 0 else n * 10`
/// CHECK-START: int Main.closedFormNestedN(int) loop_optimization (before)
/// CHECK: Phi
/// CHECK: Phi
/// CHECK: Phi
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormNestedN(int) loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormNestedN(int) loop_optimization (after)
/// CHECK-DAG: <<N:i\d+>> ParameterValue
/// CHECK-DAG: <<Int10:i\d+>> IntConstant 10
/// CHECK-DAG: <<Int0:i\d+>> IntConstant 0
/// CHECK-DAG: <<Mul:i\d+>> Mul [<<Int10>>,<<N>>]
/// CHECK-DAG: <<Add:i\d+>> Add [<<Mul>>,<<Int0>>]
/// CHECK-DAG: <<LT:z\d+>> LessThan [<<Int0>>,<<N>>]
/// CHECK-DAG: <<Sel:i\d+>> Select [<<Int0>>,<<Add>>,<<LT>>]
/// CHECK-DAG: Return [<<Sel>>]
static int closedFormNestedN(int n) {
int closed = 0;
for (int i = 0; i < n; i++) {
for (int j = 0; j < 10; j++) {
closed++;
}
}
return closed; // only needs last-value
}
// closedFormNestedNAlt turns into `if (n < 0) then 12345 else 12345 + n * 161`
/// CHECK-START: int Main.closedFormNestedNAlt(int) loop_optimization (before)
/// CHECK: Phi
/// CHECK: Phi
/// CHECK: Phi
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormNestedNAlt(int) loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormNestedNAlt(int) loop_optimization (after)
/// CHECK-DAG: <<N:i\d+>> ParameterValue
/// CHECK-DAG: <<Int161:i\d+>> IntConstant 161
/// CHECK-DAG: <<Int12345:i\d+>> IntConstant 12345
/// CHECK-DAG: <<Int0:i\d+>> IntConstant 0
/// CHECK-DAG: <<Mul:i\d+>> Mul [<<Int161>>,<<N>>]
/// CHECK-DAG: <<Add:i\d+>> Add [<<Mul>>,<<Int12345>>]
/// CHECK-DAG: <<LT:z\d+>> LessThan [<<Int0>>,<<N>>]
/// CHECK-DAG: <<Sel:i\d+>> Select [<<Int12345>>,<<Add>>,<<LT>>]
/// CHECK-DAG: Return [<<Sel>>]
static int closedFormNestedNAlt(int n) {
int closed = 12345;
for (int i = 0; i < n; i++) {
for (int j = 0; j < 23; j++) {
closed += 7;
}
}
return closed; // only needs last-value
}
// We optimize only the inner loop. It turns into `if (n < 0) then closed else closed + n`.
// Potentially we can also update the outer loop turning into if (m < 0) then 0 else if (n < 0)
// then 0 else m * n`.
/// CHECK-START: int Main.closedFormNestedMN(int, int) loop_optimization (before)
/// CHECK: Phi
/// CHECK: Phi
/// CHECK: Phi
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormNestedMN(int, int) loop_optimization (after)
/// CHECK: Phi
/// CHECK: Phi
/// CHECK-NOT: Phi
//
// Inner loop optimization
/// CHECK-START: int Main.closedFormNestedMN(int, int) loop_optimization (after)
/// CHECK-DAG: <<M:i\d+>> ParameterValue
/// CHECK-DAG: <<N:i\d+>> ParameterValue
/// CHECK-DAG: <<Int0:i\d+>> IntConstant 0
/// CHECK-DAG: <<Phi:i\d+>> Phi
/// CHECK-DAG: <<Add:i\d+>> Add [<<N>>,<<Phi>>]
/// CHECK-DAG: <<LT:z\d+>> LessThan [<<Int0>>,<<N>>]
/// CHECK-DAG: <<Sel:i\d+>> Select [<<Phi>>,<<Add>>,<<LT>>]
static int closedFormNestedMN(int m, int n) {
int closed = 0;
for (int i = 0; i < m; i++) {
for (int j = 0; j < n; j++) {
closed++;
}
}
return closed; // only needs last-value
}
// We optimize only the inner loop. It turns into `if (n < 0) then closed else closed + n * 7`.
// Potentially we can also update the outer loop turning into if (m < 0) then 0 else if (n < 0)
// then 1245 else 12345 + m * n * 7`.
/// CHECK-START: int Main.closedFormNestedMNAlt(int, int) loop_optimization (before)
/// CHECK: Phi
/// CHECK: Phi
/// CHECK: Phi
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFormNestedMNAlt(int, int) loop_optimization (after)
/// CHECK: Phi
/// CHECK: Phi
/// CHECK-NOT: Phi
//
// Inner loop optimization
/// CHECK-START: int Main.closedFormNestedMNAlt(int, int) loop_optimization (after)
/// CHECK-DAG: <<M:i\d+>> ParameterValue
/// CHECK-DAG: <<N:i\d+>> ParameterValue
/// CHECK-DAG: <<Int7:i\d+>> IntConstant 7
/// CHECK-DAG: <<Int0:i\d+>> IntConstant 0
/// CHECK-DAG: <<Phi:i\d+>> Phi
/// CHECK-DAG: <<Mul:i\d+>> Mul [<<Int7>>,<<N>>]
/// CHECK-DAG: <<Add:i\d+>> Add [<<Mul>>,<<Phi>>]
/// CHECK-DAG: <<LT:z\d+>> LessThan [<<Int0>>,<<N>>]
/// CHECK-DAG: <<Sel:i\d+>> Select [<<Phi>>,<<Add>>,<<LT>>]
static int closedFormNestedMNAlt(int m, int n) {
int closed = 12345;
for (int i = 0; i < m; i++) {
// if n < 0 then closed else closed + n * 7
for (int j = 0; j < n; j++) {
closed += 7;
}
}
return closed; // only needs last-value
}
/// CHECK-START: int Main.mainIndexReturned() loop_optimization (before)
/// CHECK-DAG: <<Phi:i\d+>> Phi loop:{{B\d+}} outer_loop:none
/// CHECK-DAG: Return [<<Phi>>] loop:none
//
/// CHECK-START: int Main.mainIndexReturned() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.mainIndexReturned() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 10 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
static int mainIndexReturned() {
int i;
for (i = 0; i < 10; i++);
return i;
}
/// CHECK-START: int Main.periodicReturned9() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.periodicReturned9() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.periodicReturned9() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 1 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
static int periodicReturned9() {
int k = 0;
for (int i = 0; i < 9; i++) {
k = 1 - k;
}
return k;
}
/// CHECK-START: int Main.periodicReturned10() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.periodicReturned10() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.periodicReturned10() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 0 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
static int periodicReturned10() {
int k = 0;
for (int i = 0; i < 10; i++) {
k = 1 - k;
}
return k;
}
/// CHECK-START: int Main.getSum21() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: <<Phi3:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi2>>] loop:none
//
/// CHECK-START: int Main.getSum21() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.getSum21() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 21 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static int getSum21() {
int k = 0;
int sum = 0;
for (int i = 0; i < 6; i++) {
k++;
sum += k;
}
return sum;
}
// Ensure double induction does not "overshoot" the subscript range.
private static int getIncr2(int[] arr) {
for (int i = 0; i < 12; ) {
arr[i++] = 30;
arr[i++] = 29;
}
int sum = 0;
for (int i = 0; i < 12; i++) {
sum += arr[i];
}
return sum;
}
// We can generate a select, which then DCE detects it is redundant. Therefore, we eliminate
// these loops.
/// CHECK-START: int Main.mainIndexReturnedN(int) loop_optimization (before)
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.mainIndexReturnedN(int) loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.mainIndexReturnedN(int) loop_optimization (after)
/// CHECK: Select
static int mainIndexReturnedN(int n) {
int i;
for (i = 0; i < n; i++);
return i;
}
/// CHECK-START: int Main.mainIndexShort1(short) loop_optimization (before)
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.mainIndexShort1(short) loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.mainIndexShort1(short) loop_optimization (after)
/// CHECK: Select
static int mainIndexShort1(short s) {
int i = 0;
for (i = 0; i < s; i++) { }
return i;
}
/// CHECK-START: int Main.mainIndexShort2(short) loop_optimization (before)
/// CHECK: Phi
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.mainIndexShort2(short) loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.mainIndexShort2(short) loop_optimization (after)
/// CHECK: Select
static int mainIndexShort2(short s) {
int i = 0;
for (i = 0; s > i; i++) { }
return i;
}
/// CHECK-START: int Main.periodicReturnedN(int) loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.periodicReturnedN(int) loop_optimization (after)
/// CHECK-NOT: Phi
static int periodicReturnedN(int n) {
int k = 0;
for (int i = 0; i < n; i++) {
k = 1 - k;
}
return k;
}
/// CHECK-START: int Main.periodicOverflowTripCountNotOptimized() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: {{i\d+}} Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.periodicOverflowTripCountNotOptimized() loop_optimization (after)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: {{i\d+}} Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
static int periodicOverflowTripCountNotOptimized() {
int k = 0;
for (int i = Integer.MIN_VALUE; i < Integer.MAX_VALUE - 81; i += 80) {
k = 1 - k;
}
return k;
}
/// CHECK-START: int Main.periodicCouldOverflowTripCountNotOptimized(int) loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: {{i\d+}} Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.periodicCouldOverflowTripCountNotOptimized(int) loop_optimization (after)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: {{i\d+}} Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
static int periodicCouldOverflowTripCountNotOptimized(int start) {
int k = 0;
for (int i = start; i < Integer.MAX_VALUE - 81; i += 80) {
k = 1 - k;
}
return k;
}
// If ever replaced by closed form, last value should be correct!
private static int getSumN(int n) {
int k = 0;
int sum = 0;
for (int i = 0; i < n; i++) {
k++;
sum += k;
}
return sum;
}
// If ever replaced by closed form, last value should be correct!
private static int closedTwice() {
int closed = 0;
for (int i = 0; i < 10; i++) {
closed++;
}
// Closed form of first loop defines trip count of second loop.
int other_closed = 0;
for (int i = 0; i < closed; i++) {
other_closed++;
}
return other_closed;
}
/// CHECK-START: int Main.closedFeed() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop1:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop1>> outer_loop:none
/// CHECK-DAG: <<Phi3:i\d+>> Phi loop:<<Loop2:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi4:i\d+>> Phi loop:<<Loop2>> outer_loop:none
/// CHECK-DAG: Return [<<Phi3>>] loop:none
/// CHECK-EVAL: "<<Loop1>>" != "<<Loop2>>"
//
/// CHECK-START: int Main.closedFeed() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedFeed() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 20 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static int closedFeed() {
int closed = 0;
for (int i = 0; i < 10; i++) {
closed++;
}
// Closed form of first loop feeds into initial value of second loop,
// used when generating closed form for the latter.
for (int i = 0; i < 10; i++) {
closed++;
}
return closed;
}
/// CHECK-START: int Main.closedLargeUp() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.closedLargeUp() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedLargeUp() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant -10 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static int closedLargeUp() {
int closed = 0;
for (int i = 0; i < 10; i++) {
closed += 0x7fffffff;
}
return closed;
}
/// CHECK-START: int Main.closedLargeDown() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.closedLargeDown() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedLargeDown() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 10 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static int closedLargeDown() {
int closed = 0;
for (int i = 0; i < 10; i++) {
closed -= 0x7fffffff;
}
return closed;
}
// Checks that we do not loop optimize if the calculation of the trip count would overflow.
/// CHECK-START: int Main.closedLinearStepOverflow() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.closedLinearStepOverflow() loop_optimization (after)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
private static int closedLinearStepOverflow() {
int closed = 0;
// Note that this isn't a "one-off" error.
// We are using MIN and MAX to make sure we overflow.
for (int i = Integer.MIN_VALUE; i < (Integer.MAX_VALUE - 80); i += 79) {
closed++;
}
return closed;
}
// Since we cannot guarantee that the start/end wouldn't overflow we do not perform loop
// optimization.
/// CHECK-START: int Main.$inline$closedByParameters(int, int) loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.$inline$closedByParameters(int, int) loop_optimization (after)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
private static int $inline$closedByParameters(int start, int end) {
int closed = 0;
for (int i = start; i < end; i++) {
closed++;
}
return closed;
}
// Since we are inlining `closedByParameters` we know that the parameters are fixed and
// therefore we can perform loop optimization.
/// CHECK-START: int Main.closedByParametersWithInline() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: int Main.closedByParametersWithInline() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.closedByParametersWithInline() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 10 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static int closedByParametersWithInline() {
return $inline$closedByParameters(0, 10);
}
/// CHECK-START: int Main.waterFall() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop1:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop2:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi3:i\d+>> Phi loop:<<Loop3:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi4:i\d+>> Phi loop:<<Loop4:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi5:i\d+>> Phi loop:<<Loop5:B\d+>> outer_loop:none
/// CHECK-DAG: Return [<<Phi5>>] loop:none
//
/// CHECK-START: int Main.waterFall() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: int Main.waterFall() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 50 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static int waterFall() {
int i = 0;
for (; i < 10; i++);
for (; i < 20; i++);
for (; i < 30; i++);
for (; i < 40; i++);
for (; i < 50; i++);
return i; // this should become just 50
}
/// CHECK-START: boolean Main.periodicBoolIdiom1() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: boolean Main.periodicBoolIdiom1() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: boolean Main.periodicBoolIdiom1() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 0 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static boolean periodicBoolIdiom1() {
boolean x = true;
for (int i = 0; i < 7; i++) {
x = !x;
}
return x;
}
/// CHECK-START: boolean Main.periodicBoolIdiom2() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: boolean Main.periodicBoolIdiom2() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: boolean Main.periodicBoolIdiom2() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 0 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static boolean periodicBoolIdiom2() {
boolean x = true;
for (int i = 0; i < 7; i++) {
x = (x != true);
}
return x;
}
/// CHECK-START: boolean Main.periodicBoolIdiom3() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi1>>] loop:none
//
/// CHECK-START: boolean Main.periodicBoolIdiom3() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: boolean Main.periodicBoolIdiom3() instruction_simplifier$before_codegen (after)
/// CHECK-DAG: <<Int:i\d+>> IntConstant 0 loop:none
/// CHECK-DAG: Return [<<Int>>] loop:none
private static boolean periodicBoolIdiom3() {
boolean x = true;
for (int i = 0; i < 7; i++) {
x = (x == false);
}
return x;
}
/// CHECK-START: boolean Main.periodicBoolIdiom1N(boolean, int) loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi2>>] loop:none
//
/// CHECK-START: boolean Main.periodicBoolIdiom1N(boolean, int) loop_optimization (after)
/// CHECK-NOT: Phi
private static boolean periodicBoolIdiom1N(boolean x, int n) {
for (int i = 0; i < n; i++) {
x = !x;
}
return x;
}
/// CHECK-START: boolean Main.periodicBoolIdiom2N(boolean, int) loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi2>>] loop:none
//
/// CHECK-START: boolean Main.periodicBoolIdiom2N(boolean, int) loop_optimization (after)
/// CHECK-NOT: Phi
private static boolean periodicBoolIdiom2N(boolean x, int n) {
for (int i = 0; i < n; i++) {
x = (x != true);
}
return x;
}
/// CHECK-START: boolean Main.periodicBoolIdiom3N(boolean, int) loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:i\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi2>>] loop:none
//
/// CHECK-START: boolean Main.periodicBoolIdiom3N(boolean, int) loop_optimization (after)
/// CHECK-NOT: Phi
private static boolean periodicBoolIdiom3N(boolean x, int n) {
for (int i = 0; i < n; i++) {
x = (x == false);
}
return x;
}
/// CHECK-START: float Main.periodicFloat10() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: <<Phi3:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: <<Phi4:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi2>>] loop:none
//
/// CHECK-START: float Main.periodicFloat10() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: float Main.periodicFloat10() loop_optimization (after)
/// CHECK-DAG: <<Float:f\d+>> FloatConstant 2 loop:none
/// CHECK-DAG: Return [<<Float>>] loop:none
private static float periodicFloat10() {
float r = 4.5f;
float s = 2.0f;
float t = -1.0f;
for (int i = 0; i < 10; i++) {
float tmp = t;
t = r;
r = s;
s = tmp;
}
return r;
}
/// CHECK-START: float Main.periodicFloat11() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: <<Phi3:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: <<Phi4:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi2>>] loop:none
//
/// CHECK-START: float Main.periodicFloat11() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: float Main.periodicFloat11() loop_optimization (after)
/// CHECK-DAG: <<Float:f\d+>> FloatConstant -1 loop:none
/// CHECK-DAG: Return [<<Float>>] loop:none
private static float periodicFloat11() {
float r = 4.5f;
float s = 2.0f;
float t = -1.0f;
for (int i = 0; i < 11; i++) {
float tmp = t;
t = r;
r = s;
s = tmp;
}
return r;
}
/// CHECK-START: float Main.periodicFloat12() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: <<Phi3:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: <<Phi4:f\d+>> Phi loop:<<Loop>> outer_loop:none
/// CHECK-DAG: Return [<<Phi2>>] loop:none
//
/// CHECK-START: float Main.periodicFloat12() loop_optimization (after)
/// CHECK-NOT: Phi
//
/// CHECK-START: float Main.periodicFloat12() loop_optimization (after)
/// CHECK-DAG: <<Float:f\d+>> FloatConstant 4.5 loop:none
/// CHECK-DAG: Return [<<Float>>] loop:none
private static float periodicFloat12() {
float r = 4.5f;
float s = 2.0f;
float t = -1.0f;
for (int i = 0; i < 12; i++) {
float tmp = t;
t = r;
r = s;
s = tmp;
}
return r;
}
private static int exceptionExitBeforeAdd() {
int k = 0;
try {
for (int i = 0; i < 10; i++) {
a[i] = 0;
k += 10; // increment last
}
} catch (Exception e) {
// Flag error by returning current
// value of k negated.
return -k - 1;
}
return k;
}
private static int exceptionExitAfterAdd() {
int k = 0;
try {
for (int i = 0; i < 10; i++) {
k += 10; // increment first
a[i] = 0;
}
} catch (Exception e) {
// Flag error by returning current
// value of k negated.
return -k - 1;
}
return k;
}
/// CHECK-START: long Main.closedLinearInductionUnmatchedTypesNotOptimized() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:j\d+>> Phi loop:<<Loop>> outer_loop:none
//
/// CHECK-START: long Main.closedLinearInductionUnmatchedTypesNotOptimized() loop_optimization (after)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
/// CHECK-DAG: <<Phi2:j\d+>> Phi loop:<<Loop>> outer_loop:none
private static long closedLinearInductionUnmatchedTypesNotOptimized() {
long sum = 0;
for (int i = 0; i < 10; ++i) {
++sum;
}
return sum;
}
/// CHECK-START: short Main.closedLinearInductionNarrowingNotOptimized() loop_optimization (before)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
//
/// CHECK-START: short Main.closedLinearInductionNarrowingNotOptimized() loop_optimization (after)
/// CHECK-DAG: <<Phi1:i\d+>> Phi loop:<<Loop:B\d+>> outer_loop:none
private static short closedLinearInductionNarrowingNotOptimized() {
short i = 0;
for (; i < 10; ++i);
return i;
}
public static void main(String[] args) {
deadSingleLoop();
deadSingleLoopN(4);
potentialInfiniteLoop(4);
deadNestedLoops();
deadNestedAndFollowingLoops();
deadConditional(4);
deadConditionalCycle(4);
deadInduction();
for (int i = 0; i < a.length; i++) {
expectEquals(1, a[i]);
}
deadManyInduction();
for (int i = 0; i < a.length; i++) {
expectEquals(2, a[i]);
}
deadSequence();
for (int i = 0; i < a.length; i++) {
expectEquals(3, a[i]);
}
try {
deadCycleWithException(-1);
throw new Error("Expected: IOOB exception");
} catch (IndexOutOfBoundsException e) {
}
for (int i = 0; i < a.length; i++) {
expectEquals(i == 0 ? 4 : 3, a[i]);
}
deadCycleWithException(0);
for (int i = 0; i < a.length; i++) {
expectEquals(4, a[i]);
}
expectEquals(12395, closedFormInductionUp());
expectEquals(12295, closedFormInductionInAndDown(12345));
expectEquals(81, closedFormInductionTrivialIf());
expectEquals(10 * 10, closedFormNested());
expectEquals(12345 + 17 * 23 * 7, closedFormNestedAlt());
for (int n = -4; n < 10; n++) {
int tc = (n <= 0) ? 0 : n;
expectEquals(12345 + tc * 5, closedFormInductionUpN(n));
expectEquals(12345 - tc * 5, closedFormInductionInAndDownN(12345, n));
expectEquals(tc * 10, closedFormNestedN(n));
expectEquals(12345 + tc * 23 * 7, closedFormNestedNAlt(n));
expectEquals(tc * (tc + 1), closedFormNestedMN(n, n + 1));
expectEquals(12345 + tc * (tc + 1) * 7, closedFormNestedMNAlt(n, n + 1));
}
expectEquals(10, mainIndexReturned());
expectEquals(1, periodicReturned9());
expectEquals(0, periodicReturned10());
expectEquals(21, getSum21());
expectEquals(354, getIncr2(new int[12]));
for (int n = -4; n < 4; n++) {
int tc = (n <= 0) ? 0 : n;
expectEquals(tc, mainIndexReturnedN(n));
expectEquals(tc, mainIndexShort1((short) n));
expectEquals(tc, mainIndexShort2((short) n));
expectEquals(tc & 1, periodicReturnedN(n));
expectEquals((tc * (tc + 1)) / 2, getSumN(n));
}
expectEquals(1, periodicOverflowTripCountNotOptimized());
expectEquals(1, periodicCouldOverflowTripCountNotOptimized(Integer.MIN_VALUE));
expectEquals(10, closedTwice());
expectEquals(20, closedFeed());
expectEquals(-10, closedLargeUp());
expectEquals(10, closedLargeDown());
expectEquals(54366674, closedLinearStepOverflow());
expectEquals(10, $inline$closedByParameters(0, 10));
expectEquals(10, closedByParametersWithInline());
expectEquals(50, waterFall());
expectEquals(false, periodicBoolIdiom1());
expectEquals(false, periodicBoolIdiom2());
expectEquals(false, periodicBoolIdiom3());
for (int n = -4; n < 10; n++) {
int tc = (n <= 0) ? 0 : n;
boolean even = (tc & 1) == 0;
expectEquals(even, periodicBoolIdiom1N(true, n));
expectEquals(!even, periodicBoolIdiom1N(false, n));
expectEquals(even, periodicBoolIdiom2N(true, n));
expectEquals(!even, periodicBoolIdiom2N(false, n));
expectEquals(even, periodicBoolIdiom3N(true, n));
expectEquals(!even, periodicBoolIdiom3N(false, n));
}
expectEquals( 2.0f, periodicFloat10());
expectEquals(-1.0f, periodicFloat11());
expectEquals( 4.5f, periodicFloat12());
expectEquals(100, exceptionExitBeforeAdd());
expectEquals(100, exceptionExitAfterAdd());
a = null;
expectEquals(-1, exceptionExitBeforeAdd());
expectEquals(-11, exceptionExitAfterAdd());
a = new int[4];
expectEquals(-41, exceptionExitBeforeAdd());
expectEquals(-51, exceptionExitAfterAdd());
expectEquals(10, closedLinearInductionUnmatchedTypesNotOptimized());
expectEquals(10, closedLinearInductionNarrowingNotOptimized());
System.out.println("passed");
}
private static void expectEquals(float expected, float result) {
if (expected != result) {
throw new Error("Expected: " + expected + ", found: " + result);
}
}
private static void expectEquals(int expected, int result) {
if (expected != result) {
throw new Error("Expected: " + expected + ", found: " + result);
}
}
private static void expectEquals(boolean expected, boolean result) {
if (expected != result) {
throw new Error("Expected: " + expected + ", found: " + result);
}
}
}