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LeafOS / LeafOS-Project / android_art / c210ab55bcebda93f4e21d6df6e1dca5a5e152c5 / . / test / 411-checker-hdiv-hrem-const / src / DivTest.java
blob: 60230c4b272f3e13d0bd3fecdc57731e4b670e9d [file] [log] [blame]
/*
* Copyright (C) 2020 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.
*/
public class DivTest {
private static void expectEquals(int expected, int result) {
if (expected != result) {
throw new Error("Expected: " + expected + ", found: " + result);
}
}
private static void expectEquals(long expected, long result) {
if (expected != result) {
throw new Error("Expected: " + expected + ", found: " + result);
}
}
private static void expectEquals(String expected, String result) {
if (!expected.equals(result)) {
throw new Error("Expected: " + expected + ", found: " + result);
}
}
public static void main() {
divInt();
divLong();
}
private static void divInt() {
expectEquals(0, $noinline$IntDivBy18(0));
expectEquals(0, $noinline$IntDivBy18(1));
expectEquals(0, $noinline$IntDivBy18(-1));
expectEquals(1, $noinline$IntDivBy18(18));
expectEquals(-1, $noinline$IntDivBy18(-18));
expectEquals(3, $noinline$IntDivBy18(65));
expectEquals(-3, $noinline$IntDivBy18(-65));
expectEquals(0, $noinline$IntALenDivBy18(new int[0]));
expectEquals(0, $noinline$IntALenDivBy18(new int[1]));
expectEquals(1, $noinline$IntALenDivBy18(new int[18]));
expectEquals(3, $noinline$IntALenDivBy18(new int[65]));
expectEquals(0, $noinline$IntDivByMinus18(0));
expectEquals(0, $noinline$IntDivByMinus18(1));
expectEquals(0, $noinline$IntDivByMinus18(-1));
expectEquals(-1, $noinline$IntDivByMinus18(18));
expectEquals(1, $noinline$IntDivByMinus18(-18));
expectEquals(-3, $noinline$IntDivByMinus18(65));
expectEquals(3, $noinline$IntDivByMinus18(-65));
expectEquals(0, $noinline$IntDivBy7(0));
expectEquals(0, $noinline$IntDivBy7(1));
expectEquals(0, $noinline$IntDivBy7(-1));
expectEquals(1, $noinline$IntDivBy7(7));
expectEquals(-1, $noinline$IntDivBy7(-7));
expectEquals(3, $noinline$IntDivBy7(22));
expectEquals(-3, $noinline$IntDivBy7(-22));
expectEquals(0, $noinline$IntALenDivBy7(new int[0]));
expectEquals(0, $noinline$IntALenDivBy7(new int[1]));
expectEquals(1, $noinline$IntALenDivBy7(new int[7]));
expectEquals(3, $noinline$IntALenDivBy7(new int[22]));
expectEquals(0, $noinline$IntDivByMinus7(0));
expectEquals(0, $noinline$IntDivByMinus7(1));
expectEquals(0, $noinline$IntDivByMinus7(-1));
expectEquals(-1, $noinline$IntDivByMinus7(7));
expectEquals(1, $noinline$IntDivByMinus7(-7));
expectEquals(-3, $noinline$IntDivByMinus7(22));
expectEquals(3, $noinline$IntDivByMinus7(-22));
expectEquals(0, $noinline$IntDivBy6(0));
expectEquals(0, $noinline$IntDivBy6(1));
expectEquals(0, $noinline$IntDivBy6(-1));
expectEquals(1, $noinline$IntDivBy6(6));
expectEquals(-1, $noinline$IntDivBy6(-6));
expectEquals(3, $noinline$IntDivBy6(19));
expectEquals(-3, $noinline$IntDivBy6(-19));
expectEquals(0, $noinline$IntALenDivBy6(new int[0]));
expectEquals(0, $noinline$IntALenDivBy6(new int[1]));
expectEquals(1, $noinline$IntALenDivBy6(new int[6]));
expectEquals(3, $noinline$IntALenDivBy6(new int[19]));
expectEquals(0, $noinline$IntDivByMinus6(0));
expectEquals(0, $noinline$IntDivByMinus6(1));
expectEquals(0, $noinline$IntDivByMinus6(-1));
expectEquals(-1, $noinline$IntDivByMinus6(6));
expectEquals(1, $noinline$IntDivByMinus6(-6));
expectEquals(-3, $noinline$IntDivByMinus6(19));
expectEquals(3, $noinline$IntDivByMinus6(-19));
expectEquals(2, $noinline$UnsignedIntDiv01(12));
expectEquals(2, $noinline$UnsignedIntDiv02(12));
expectEquals(2, $noinline$UnsignedIntDiv03(12));
expectEquals(2, $noinline$UnsignedIntDiv04(12));
expectEquals("01", $noinline$UnsignedIntDiv05(10));
expectEquals("321", $noinline$UnsignedIntDiv05(123));
expectEquals(1, $noinline$UnsignedIntDiv06(101));
expectEquals(1, $noinline$UnsignedIntDiv07(10));
expectEquals(1, $noinline$UnsignedIntDiv07(100));
expectEquals(10, $noinline$UnsignedIntDiv08(100));
expectEquals(11, $noinline$UnsignedIntDiv08(101));
expectEquals(-2, $noinline$SignedIntDiv01(-12));
expectEquals(-2, $noinline$SignedIntDiv02(-12));
expectEquals(2, $noinline$SignedIntDiv03(-12));
expectEquals(2, $noinline$SignedIntDiv04(-12, true));
expectEquals(-2, $noinline$SignedIntDiv05(-12, 0,-13));
expectEquals(-2, $noinline$SignedIntDiv06(-12));
}
// A test case to check that 'lsr' and 'asr' are combined into one 'asr'.
// For divisor 18 seen in an MP3 decoding workload there is no need
// to correct the result of get_high(dividend * magic). So there are no
// instructions between 'lsr' and 'asr'. In such a case they can be combined
// into one 'asr'.
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntDivBy18(int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$IntDivBy18(int v) {
int r = v / 18;
return r;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$IntALenDivBy18(int[]) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: lsr{{s?}} r{{\d+}}, r{{\d+}}, #2
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntALenDivBy18(int[]) disassembly (after)
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$IntALenDivBy18(int[] arr) {
int r = arr.length / 18;
return r;
}
// A test case to check that 'lsr' and 'asr' are combined into one 'asr'.
// Divisor -18 has the same property as divisor 18: no need to correct the
// result of get_high(dividend * magic). So there are no
// instructions between 'lsr' and 'asr'. In such a case they can be combined
// into one 'asr'.
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntDivByMinus18(int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$IntDivByMinus18(int v) {
int r = v / -18;
return r;
}
// A test case to check that 'lsr' and 'add' are combined into one 'adds'.
// For divisor 7 seen in the core library the result of get_high(dividend * magic)
// must be corrected by the 'add' instruction.
//
// The test case also checks 'add' and 'add_shift' are optimized into 'adds' and 'cinc'.
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntDivBy7(int) disassembly (after)
/// CHECK: adds x{{\d+}}, x{{\d+}}, x{{\d+}}, lsl #32
/// CHECK-NEXT: asr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NEXT: cinc w{{\d+}}, w{{\d+}}, mi
private static int $noinline$IntDivBy7(int v) {
int r = v / 7;
return r;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$IntALenDivBy7(int[]) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: add{{s?}} r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: lsr{{s?}} r{{\d+}}, r{{\d+}}, #2
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntALenDivBy7(int[]) disassembly (after)
/// CHECK: adds x{{\d+}}, x{{\d+}}, x{{\d+}}, lsl #32
/// CHECK-NEXT: lsr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NOT: cinc w{{\d+}}, w{{\d+}}, mi
private static int $noinline$IntALenDivBy7(int[] arr) {
int r = arr.length / 7;
return r;
}
// A test case to check that 'lsr' and 'add' are combined into one 'adds'.
// Divisor -7 has the same property as divisor 7: the result of get_high(dividend * magic)
// must be corrected. In this case it is a 'sub' instruction.
//
// The test case also checks 'sub' and 'add_shift' are optimized into 'subs' and 'cinc'.
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntDivByMinus7(int) disassembly (after)
/// CHECK: subs x{{\d+}}, x{{\d+}}, x{{\d+}}, lsl #32
/// CHECK-NEXT: asr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NEXT: cinc w{{\d+}}, w{{\d+}}, mi
private static int $noinline$IntDivByMinus7(int v) {
int r = v / -7;
return r;
}
// A test case to check that 'asr' is used to get the high 32 bits of the result of
// 'dividend * magic'.
// For divisor 6 seen in the core library there is no need to correct the result of
// get_high(dividend * magic). Also there is no 'asr' before the final 'add' instruction
// which uses only the high 32 bits of the result. In such a case 'asr' getting the high
// 32 bits can be used as well.
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntDivBy6(int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$IntDivBy6(int v) {
int r = v / 6;
return r;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$IntALenDivBy6(int[]) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntALenDivBy6(int[]) disassembly (after)
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$IntALenDivBy6(int[] arr) {
int r = arr.length / 6;
return r;
}
// A test case to check that 'asr' is used to get the high 32 bits of the result of
// 'dividend * magic'.
// Divisor -6 has the same property as divisor 6: no need to correct the result of
// get_high(dividend * magic) and no 'asr' before the final 'add' instruction
// which uses only the high 32 bits of the result. In such a case 'asr' getting the high
// 32 bits can be used as well.
//
/// CHECK-START-ARM64: int DivTest.$noinline$IntDivByMinus6(int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$IntDivByMinus6(int v) {
int r = v / -6;
return r;
}
private static int $noinline$Negate(int v) {
return -v;
}
private static int $noinline$Decrement(int v) {
return v - 1;
}
private static int $noinline$Increment(int v) {
return v + 1;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$UnsignedIntDiv01(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$UnsignedIntDiv01(int) disassembly (after)
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$UnsignedIntDiv01(int v) {
int c = 0;
if (v > 0) {
c = v / 6;
} else {
c = $noinline$Negate(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$UnsignedIntDiv02(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$UnsignedIntDiv02(int) disassembly (after)
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$UnsignedIntDiv02(int v) {
int c = 0;
if (0 < v) {
c = v / 6;
} else {
c = $noinline$Negate(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$UnsignedIntDiv03(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$UnsignedIntDiv03(int) disassembly (after)
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$UnsignedIntDiv03(int v) {
int c = 0;
if (v >= 0) {
c = v / 6;
} else {
c = $noinline$Negate(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$UnsignedIntDiv04(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$UnsignedIntDiv04(int) disassembly (after)
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$UnsignedIntDiv04(int v) {
int c = 0;
if (0 <= v) {
c = v / 6;
} else {
c = $noinline$Negate(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: java.lang.String DivTest.$noinline$UnsignedIntDiv05(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: java.lang.String DivTest.$noinline$UnsignedIntDiv05(int) disassembly (after)
/// CHECK: smull x{{\d+}}, w{{\d+}}, w{{\d+}}
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static String $noinline$UnsignedIntDiv05(int v) {
String r = "";
while (v > 0) {
int d = v % 10;
r += (char)(d + '0');
v /= 10;
}
return r;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$UnsignedIntDiv06(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$UnsignedIntDiv06(int) disassembly (after)
/// CHECK: smull x{{\d+}}, w{{\d+}}, w{{\d+}}
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$UnsignedIntDiv06(int v) {
int c = 0;
for(; v > 100; ++c) {
v /= 10;
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$UnsignedIntDiv07(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$UnsignedIntDiv07(int) disassembly (after)
/// CHECK: smull x{{\d+}}, w{{\d+}}, w{{\d+}}
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$UnsignedIntDiv07(int v) {
while (v > 0 && (v % 10) == 0) {
v /= 10;
}
return v;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$UnsignedIntDiv08(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NOT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$UnsignedIntDiv08(int) disassembly (after)
/// CHECK: smull x{{\d+}}, w{{\d+}}, w{{\d+}}
/// CHECK: lsr x{{\d+}}, x{{\d+}}, #34
/// CHECK-NOT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$UnsignedIntDiv08(int v) {
if (v < 10) {
v = $noinline$Negate(v); // This is to prevent from using Select.
} else {
v = (v % 10) + (v / 10);
}
return v;
}
// A test case to check that a correcting 'add' is generated for a negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$SignedIntDiv01(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$SignedIntDiv01(int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$SignedIntDiv01(int v) {
int c = 0;
if (v < 0) {
c = v / 6;
} else {
c = $noinline$Decrement(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for a negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM: int DivTest.$noinline$SignedIntDiv02(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$SignedIntDiv02(int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$SignedIntDiv02(int v) {
int c = 0;
if (v <= 0) {
c = v / 6;
} else {
c = $noinline$Decrement(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for signed division.
//
/// CHECK-START-ARM: int DivTest.$noinline$SignedIntDiv03(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$SignedIntDiv03(int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$SignedIntDiv03(int v) {
boolean positive = (v > 0);
int c = v / 6;
if (!positive) {
c = $noinline$Negate(c); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for signed division.
//
/// CHECK-START-ARM: int DivTest.$noinline$SignedIntDiv04(int, boolean) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$SignedIntDiv04(int, boolean) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$SignedIntDiv04(int v, boolean apply_div) {
int c = 0;
boolean positive = (v > 0);
if (apply_div) {
c = v / 6;
} else {
c = $noinline$Decrement(v); // This is to prevent from using Select.
}
if (!positive) {
c = $noinline$Negate(c); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for signed division.
//
/// CHECK-START-ARM: int DivTest.$noinline$SignedIntDiv05(int, int, int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$SignedIntDiv05(int, int, int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$SignedIntDiv05(int v, int a, int b) {
int c = 0;
if (v < a)
c = $noinline$Increment(c); // This is to prevent from using Select.
if (b < a)
c = $noinline$Increment(c); // This is to prevent from using Select.
if (v > b) {
c = v / 6;
} else {
c = $noinline$Increment(c); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for signed division.
//
/// CHECK-START-ARM: int DivTest.$noinline$SignedIntDiv06(int) disassembly (after)
/// CHECK: smull r{{\d+}}, r{{\d+}}, r{{\d+}}, r{{\d+}}
/// CHECK-NEXT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31
//
/// CHECK-START-ARM64: int DivTest.$noinline$SignedIntDiv06(int) disassembly (after)
/// CHECK: asr x{{\d+}}, x{{\d+}}, #32
/// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31
private static int $noinline$SignedIntDiv06(int v) {
int c = v / 6;
if (v > 0) {
c = $noinline$Negate(c); // This is to prevent from using Select.
}
return c;
}
private static void divLong() {
expectEquals(0L, $noinline$LongDivBy18(0L));
expectEquals(0L, $noinline$LongDivBy18(1L));
expectEquals(0L, $noinline$LongDivBy18(-1L));
expectEquals(1L, $noinline$LongDivBy18(18L));
expectEquals(-1L, $noinline$LongDivBy18(-18L));
expectEquals(3L, $noinline$LongDivBy18(65L));
expectEquals(-3L, $noinline$LongDivBy18(-65L));
expectEquals(0L, $noinline$LongDivByMinus18(0L));
expectEquals(0L, $noinline$LongDivByMinus18(1L));
expectEquals(0L, $noinline$LongDivByMinus18(-1L));
expectEquals(-1L, $noinline$LongDivByMinus18(18L));
expectEquals(1L, $noinline$LongDivByMinus18(-18L));
expectEquals(-3L, $noinline$LongDivByMinus18(65L));
expectEquals(3L, $noinline$LongDivByMinus18(-65L));
expectEquals(0L, $noinline$LongDivBy7(0L));
expectEquals(0L, $noinline$LongDivBy7(1L));
expectEquals(0L, $noinline$LongDivBy7(-1L));
expectEquals(1L, $noinline$LongDivBy7(7L));
expectEquals(-1L, $noinline$LongDivBy7(-7L));
expectEquals(3L, $noinline$LongDivBy7(22L));
expectEquals(-3L, $noinline$LongDivBy7(-22L));
expectEquals(0L, $noinline$LongDivByMinus7(0L));
expectEquals(0L, $noinline$LongDivByMinus7(1L));
expectEquals(0L, $noinline$LongDivByMinus7(-1L));
expectEquals(-1L, $noinline$LongDivByMinus7(7L));
expectEquals(1L, $noinline$LongDivByMinus7(-7L));
expectEquals(-3L, $noinline$LongDivByMinus7(22L));
expectEquals(3L, $noinline$LongDivByMinus7(-22L));
expectEquals(0L, $noinline$LongDivBy6(0L));
expectEquals(0L, $noinline$LongDivBy6(1L));
expectEquals(0L, $noinline$LongDivBy6(-1L));
expectEquals(1L, $noinline$LongDivBy6(6L));
expectEquals(-1L, $noinline$LongDivBy6(-6L));
expectEquals(3L, $noinline$LongDivBy6(19L));
expectEquals(-3L, $noinline$LongDivBy6(-19L));
expectEquals(0L, $noinline$LongDivByMinus6(0L));
expectEquals(0L, $noinline$LongDivByMinus6(1L));
expectEquals(0L, $noinline$LongDivByMinus6(-1L));
expectEquals(-1L, $noinline$LongDivByMinus6(6L));
expectEquals(1L, $noinline$LongDivByMinus6(-6L));
expectEquals(-3L, $noinline$LongDivByMinus6(19L));
expectEquals(3L, $noinline$LongDivByMinus6(-19L));
expectEquals(0L, $noinline$LongDivBy100(0L));
expectEquals(0L, $noinline$LongDivBy100(1L));
expectEquals(0L, $noinline$LongDivBy100(-1L));
expectEquals(1L, $noinline$LongDivBy100(100L));
expectEquals(-1L, $noinline$LongDivBy100(-100L));
expectEquals(3L, $noinline$LongDivBy100(301L));
expectEquals(-3L, $noinline$LongDivBy100(-301L));
expectEquals(0L, $noinline$LongDivByMinus100(0L));
expectEquals(0L, $noinline$LongDivByMinus100(1L));
expectEquals(0L, $noinline$LongDivByMinus100(-1L));
expectEquals(-1L, $noinline$LongDivByMinus100(100L));
expectEquals(1L, $noinline$LongDivByMinus100(-100L));
expectEquals(-3L, $noinline$LongDivByMinus100(301L));
expectEquals(3L, $noinline$LongDivByMinus100(-301L));
expectEquals(2L, $noinline$UnsignedLongDiv01(12L));
expectEquals(2L, $noinline$UnsignedLongDiv02(12L));
expectEquals(2L, $noinline$UnsignedLongDiv03(12L));
expectEquals(2L, $noinline$UnsignedLongDiv04(12L));
expectEquals("01", $noinline$UnsignedLongDiv05(10L));
expectEquals("321", $noinline$UnsignedLongDiv05(123L));
expectEquals(1L, $noinline$UnsignedLongDiv06(101L));
expectEquals(1L, $noinline$UnsignedLongDiv07(10L));
expectEquals(1L, $noinline$UnsignedLongDiv07(100L));
expectEquals(10L, $noinline$UnsignedLongDiv08(100L));
expectEquals(11L, $noinline$UnsignedLongDiv08(101L));
expectEquals(-2L, $noinline$SignedLongDiv01(-12L));
expectEquals(-2L, $noinline$SignedLongDiv02(-12L));
expectEquals(2L, $noinline$SignedLongDiv03(-12L));
expectEquals(2L, $noinline$SignedLongDiv04(-12L, true));
expectEquals(-2L, $noinline$SignedLongDiv05(-12L, 0L,-13L));
expectEquals(-2L, $noinline$SignedLongDiv06(-12L));
}
// Test cases for Int64 HDiv/HRem to check that optimizations implemented for Int32 are not
// used for Int64. The same divisors 18, -18, 7, -7, 6 and -6 are used.
/// CHECK-START-ARM64: long DivTest.$noinline$LongDivBy18(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$LongDivBy18(long v) {
long r = v / 18L;
return r;
}
/// CHECK-START-ARM64: long DivTest.$noinline$LongDivByMinus18(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$LongDivByMinus18(long v) {
long r = v / -18L;
return r;
}
/// CHECK-START-ARM64: long DivTest.$noinline$LongDivBy7(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: asr x{{\d+}}, x{{\d+}}, #1
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$LongDivBy7(long v) {
long r = v / 7L;
return r;
}
/// CHECK-START-ARM64: long DivTest.$noinline$LongDivByMinus7(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: asr x{{\d+}}, x{{\d+}}, #1
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$LongDivByMinus7(long v) {
long r = v / -7L;
return r;
}
/// CHECK-START-ARM64: long DivTest.$noinline$LongDivBy6(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$LongDivBy6(long v) {
long r = v / 6L;
return r;
}
/// CHECK-START-ARM64: long DivTest.$noinline$LongDivByMinus6(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$LongDivByMinus6(long v) {
long r = v / -6L;
return r;
}
// A test to check 'add' and 'add_shift' are optimized into 'adds' and 'cinc'.
//
/// CHECK-START-ARM64: long DivTest.$noinline$LongDivBy100(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: adds x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: asr x{{\d+}}, x{{\d+}}, #6
/// CHECK-NEXT: cinc x{{\d+}}, x{{\d+}}, mi
private static long $noinline$LongDivBy100(long v) {
long r = v / 100L;
return r;
}
// A test to check 'subs' and 'add_shift' are optimized into 'subs' and 'cinc'.
//
/// CHECK-START-ARM64: long DivTest.$noinline$LongDivByMinus100(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: subs x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: asr x{{\d+}}, x{{\d+}}, #6
/// CHECK-NEXT: cinc x{{\d+}}, x{{\d+}}, mi
private static long $noinline$LongDivByMinus100(long v) {
long r = v / -100L;
return r;
}
private static long $noinline$Negate(long v) {
return -v;
}
private static long $noinline$Decrement(long v) {
return v - 1;
}
private static long $noinline$Increment(long v) {
return v + 1;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$UnsignedLongDiv01(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$UnsignedLongDiv01(long v) {
long c = 0;
if (v > 0) {
c = v / 6;
} else {
c = $noinline$Negate(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$UnsignedLongDiv02(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$UnsignedLongDiv02(long v) {
long c = 0;
if (0 < v) {
c = v / 6;
} else {
c = $noinline$Negate(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$UnsignedLongDiv03(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$UnsignedLongDiv03(long v) {
long c = 0;
if (v >= 0) {
c = v / 6;
} else {
c = $noinline$Negate(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$UnsignedLongDiv04(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$UnsignedLongDiv04(long v) {
long c = 0;
if (0 <= v) {
c = v / 6;
} else {
c = $noinline$Negate(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: java.lang.String DivTest.$noinline$UnsignedLongDiv05(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: lsr x{{\d+}}, x{{\d+}}, #2
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static String $noinline$UnsignedLongDiv05(long v) {
String r = "";
while (v > 0) {
long d = v % 10;
r += (char)(d + '0');
v /= 10;
}
return r;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: void DivTest.$noinline$UnsignedLongDiv05(java.lang.StringBuilder, long, long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: lsr x{{\d+}}, x{{\d+}}, #2
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static void $noinline$UnsignedLongDiv05(java.lang.StringBuilder sb, long w, long d) {
while (w > 0) {
sb.append((char)(d/w + '0'));
d = d % w;
w /= 10;
}
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$UnsignedLongDiv06(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$UnsignedLongDiv06(long v) {
long c = 0;
for(; v > 100; ++c) {
v /= 10;
}
return c;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$UnsignedLongDiv07(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$UnsignedLongDiv07(long v) {
while (v > 0 && (v % 10) == 0) {
v /= 10;
}
return v;
}
// A test case to check that a correcting 'add' is not generated for a non-negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$UnsignedLongDiv08(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NOT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$UnsignedLongDiv08(long v) {
if (v < 10) {
v = $noinline$Negate(v); // This is to prevent from using Select.
} else {
v = (v % 10) + (v / 10);
}
return v;
}
// A test case to check that a correcting 'add' is generated for a negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$SignedLongDiv01(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$SignedLongDiv01(long v) {
long c = 0;
if (v < 0) {
c = v / 6;
} else {
c = $noinline$Decrement(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for a negative
// dividend and a positive divisor.
//
/// CHECK-START-ARM64: long DivTest.$noinline$SignedLongDiv02(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$SignedLongDiv02(long v) {
long c = 0;
if (v <= 0) {
c = v / 6;
} else {
c = $noinline$Decrement(v); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for signed division.
//
/// CHECK-START-ARM64: long DivTest.$noinline$SignedLongDiv03(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$SignedLongDiv03(long v) {
boolean positive = (v > 0);
long c = v / 6;
if (!positive) {
c = $noinline$Negate(c); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for signed division.
//
/// CHECK-START-ARM64: long DivTest.$noinline$SignedLongDiv04(long, boolean) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$SignedLongDiv04(long v, boolean apply_div) {
long c = 0;
boolean positive = (v > 0);
if (apply_div) {
c = v / 6;
} else {
c = $noinline$Decrement(v); // This is to prevent from using Select.
}
if (!positive) {
c = $noinline$Negate(c); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for signed division.
//
/// CHECK-START-ARM64: long DivTest.$noinline$SignedLongDiv05(long, long, long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$SignedLongDiv05(long v, long a, long b) {
long c = 0;
if (v < a)
c = $noinline$Increment(c); // This is to prevent from using Select.
if (b < a)
c = $noinline$Increment(c); // This is to prevent from using Select.
if (v > b) {
c = v / 6;
} else {
c = $noinline$Increment(c); // This is to prevent from using Select.
}
return c;
}
// A test case to check that a correcting 'add' is generated for signed division.
//
/// CHECK-START-ARM64: long DivTest.$noinline$SignedLongDiv06(long) disassembly (after)
/// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}}
/// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63
private static long $noinline$SignedLongDiv06(long v) {
long c = v / 6;
if (v > 0) {
c = $noinline$Negate(c); // This is to prevent from using Select.
}
return c;
}
}