/* * 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 Main { private static void expectEquals(long expected, long result) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } private static void expectEquals(long[] div_rem_expected, long[] result) { expectEquals(div_rem_expected[0], result[0]); expectEquals(div_rem_expected[1], result[1]); } private static void remInt() { expectEquals(1L, $noinline$IntDivRemBy18(1)); expectEquals(1L << 32 | 2L, $noinline$IntDivRemBy18(20)); expectEquals(1L, $noinline$IntRemDivBy18(1)); expectEquals(1L << 32 | 2L, $noinline$IntRemDivBy18(20)); expectEquals(1L, $noinline$IntDivRemBy18(1, false)); expectEquals(1L << 32 | 2L, $noinline$IntDivRemBy18(20, true)); expectEquals(1L, $noinline$IntDivRemByMinus18(1)); expectEquals(-1L, $noinline$IntDivRemBy18(-1)); expectEquals((-1L << 32) | 2L, $noinline$IntDivRemByMinus18(20)); expectEquals((1L << 32) | (-2L & 0x00000000ffffffff), $noinline$IntDivRemByMinus18(-20)); expectEquals(0L, $noinline$IntDivRemBy5(0)); expectEquals(1L, $noinline$IntDivRemBy5(1)); expectEquals(1L << 32, $noinline$IntDivRemBy5(5)); expectEquals((1L << 32) | 1L, $noinline$IntDivRemBy5(6)); expectEquals((-1L << 32) | 0x00000000ffffffff, $noinline$IntDivRemBy5(-6)); expectEquals(-1L << 32, $noinline$IntDivRemBy5(-5)); expectEquals(0x00000000ffffffff, $noinline$IntDivRemBy5(-1)); expectEquals(0L, $noinline$IntDivRemByMinus5(0)); expectEquals(1L, $noinline$IntDivRemByMinus5(1)); expectEquals(-1L << 32, $noinline$IntDivRemByMinus5(5)); expectEquals((-1L << 32) | 1L, $noinline$IntDivRemByMinus5(6)); expectEquals((1L << 32) | 0x00000000ffffffff, $noinline$IntDivRemByMinus5(-6)); expectEquals(1L << 32, $noinline$IntDivRemByMinus5(-5)); expectEquals(0x00000000ffffffff, $noinline$IntDivRemByMinus5(-1)); expectEquals(0L, $noinline$IntDivRemBy7(0)); expectEquals(1L, $noinline$IntDivRemBy7(1)); expectEquals(1L << 32, $noinline$IntDivRemBy7(7)); expectEquals((1L << 32) | 1L, $noinline$IntDivRemBy7(8)); expectEquals((-1L << 32) | 0x00000000ffffffff, $noinline$IntDivRemBy7(-8)); expectEquals(-1L << 32, $noinline$IntDivRemBy7(-7)); expectEquals(0x00000000ffffffff, $noinline$IntDivRemBy7(-1)); expectEquals(0L, $noinline$IntDivRemByMinus7(0)); expectEquals(1L, $noinline$IntDivRemByMinus7(1)); expectEquals(-1L << 32, $noinline$IntDivRemByMinus7(7)); expectEquals((-1L << 32) | 1L, $noinline$IntDivRemByMinus7(8)); expectEquals((1L << 32) | 0x00000000ffffffff, $noinline$IntDivRemByMinus7(-8)); expectEquals(1L << 32, $noinline$IntDivRemByMinus7(-7)); expectEquals(0x00000000ffffffff, $noinline$IntDivRemByMinus7(-1)); expectEquals(0L, $noinline$IntDivRemByMaxInt(0)); expectEquals(1L, $noinline$IntDivRemByMaxInt(1)); expectEquals(1L << 32, $noinline$IntDivRemByMaxInt(Integer.MAX_VALUE)); expectEquals(Integer.MAX_VALUE - 1, $noinline$IntDivRemByMaxInt(Integer.MAX_VALUE - 1)); expectEquals((-1L << 32) | 0x00000000ffffffff, $noinline$IntDivRemByMaxInt(Integer.MIN_VALUE)); expectEquals(0x00000000ffffffff, $noinline$IntDivRemByMaxInt(-1)); } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntDivRemBy18(int) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$IntDivRemBy18(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemBy18(int) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #34 /// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31 /// CHECK: msub w{{\d+}}, w{{\d+}}, w{{\d+}}, w{{\d+}} private static long $noinline$IntDivRemBy18(int v) { int q = v / 18; int r = v % 18; return ((long)q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntDivRemByMinus18(int) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$IntDivRemByMinus18(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemByMinus18(int) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #34 /// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31 /// CHECK: msub w{{\d+}}, w{{\d+}}, w{{\d+}}, w{{\d+}} private static long $noinline$IntDivRemByMinus18(int v) { int q = v / -18; int r = v % -18; return ((long)q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntRemDivBy18(int) instruction_simplifier (before) /// CHECK: Rem /// CHECK: Div // /// CHECK-START: long Main.$noinline$IntRemDivBy18(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long Main.$noinline$IntRemDivBy18(int) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #34 /// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31 /// CHECK: msub w{{\d+}}, w{{\d+}}, w{{\d+}}, w{{\d+}} private static long $noinline$IntRemDivBy18(int v) { int r = v % 18; int q = v / 18; return ((long)q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntDivRemBy5(int) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$IntDivRemBy5(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Shl /// CHECK-NEXT: Add /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemBy5(int) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #33 /// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31 /// CHECK: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsl #2 /// CHECK: sub w{{\d+}}, w{{\d+}}, w{{\d+}} private static long $noinline$IntDivRemBy5(int v) { int q = v / 5; int r = v % 5; return ((long)q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntDivRemByMinus5(int) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$IntDivRemByMinus5(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemByMinus5(int) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #33 /// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31 /// CHECK: msub w{{\d+}}, w{{\d+}}, w{{\d+}}, w{{\d+}} private static long $noinline$IntDivRemByMinus5(int v) { int q = v / -5; int r = v % -5; return ((long)q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntDivRemBy7(int) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$IntDivRemBy7(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Shl /// CHECK-NEXT: Sub /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemBy7(int) instruction_simplifier_arm64 (after) /// CHECK: Div /// CHECK-NEXT: DataProcWithShifterOp /// CHECK-NEXT: Add // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemBy7(int) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #34 /// CHECK-NEXT: cinc w{{\d+}}, w{{\d+}}, mi /// CHECK: sub w{{\d+}}, w{{\d+}}, w{{\d+}}, lsl #3 /// CHECK: add w{{\d+}}, w{{\d+}}, w{{\d+}} // /// CHECK-START-ARM: long Main.$noinline$IntDivRemBy7(int) instruction_simplifier_arm (after) /// CHECK: Div /// CHECK-NEXT: DataProcWithShifterOp /// CHECK-NEXT: Add // /// CHECK-START-ARM: long Main.$noinline$IntDivRemBy7(int) disassembly (after) /// CHECK: asr{{s?}} r{{\d+}}, #2 /// CHECK-NEXT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31 /// CHECK: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, lsl #3 /// CHECK: add{{s?}} r{{\d+}}, r{{\d+}}, r{{\d+}} private static long $noinline$IntDivRemBy7(int v) { int q = v / 7; int r = v % 7; return ((long)q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntDivRemByMinus7(int) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$IntDivRemByMinus7(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemByMinus7(int) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #34 /// CHECK-NEXT: cinc w{{\d+}}, w{{\d+}}, mi /// CHECK: msub w{{\d+}}, w{{\d+}}, w{{\d+}}, w{{\d+}} private static long $noinline$IntDivRemByMinus7(int v) { int q = v / -7; int r = v % -7; return ((long)q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntDivRemByMaxInt(int) instruction_simplifier (before) /// CHECK: Div /// CHECK-NEXT: Rem // /// CHECK-START: long Main.$noinline$IntDivRemByMaxInt(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Shl /// CHECK-NEXT: Sub /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemByMaxInt(int) instruction_simplifier_arm64 (after) /// CHECK: Div /// CHECK-NEXT: DataProcWithShifterOp /// CHECK-NEXT: Add // /// CHECK-START-ARM64: long Main.$noinline$IntDivRemByMaxInt(int) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #61 /// CHECK-NEXT: add w{{\d+}}, w{{\d+}}, w{{\d+}}, lsr #31 /// CHECK: sub w{{\d+}}, w{{\d+}}, w{{\d+}}, lsl #31 /// CHECK: add w{{\d+}}, w{{\d+}}, w{{\d+}} // /// CHECK-START-ARM: long Main.$noinline$IntDivRemByMaxInt(int) instruction_simplifier_arm (after) /// CHECK: Div /// CHECK-NEXT: DataProcWithShifterOp /// CHECK-NEXT: Add // /// CHECK-START-ARM: long Main.$noinline$IntDivRemByMaxInt(int) disassembly (after) /// CHECK: asr{{s?}} r{{\d+}}, #29 /// CHECK-NEXT: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, asr #31 /// CHECK: sub r{{\d+}}, r{{\d+}}, r{{\d+}}, lsl #31 /// CHECK: add{{s?}} r{{\d+}}, r{{\d+}}, r{{\d+}} private static long $noinline$IntDivRemByMaxInt(int v) { int q = v / Integer.MAX_VALUE; int r = v % Integer.MAX_VALUE; return ((long)q << 32) | r; } // A test case to check: // HDiv with the same inputs as HRem but in another basic block is not reused. // /// CHECK-START: long Main.$noinline$IntDivRemBy18(int, boolean) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$IntDivRemBy18(int, boolean) instruction_simplifier (after) /// CHECK: Div /// CHECK: Rem private static long $noinline$IntDivRemBy18(int v, boolean do_division) { long result = 0; if (do_division) { int q = v / 18; result = (long)q << 32; } int r = v % 18; return result | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntDivRem(int, int) instruction_simplifier$after_gvn (before) /// CHECK: Div /// CHECK-NEXT: Rem // /// CHECK-START: long Main.$noinline$IntDivRem(int, int) instruction_simplifier$after_gvn (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub private static long $noinline$IntDivRem(int v, int s) { int q = v / s; int r = v % s; return ((long)q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$IntRemDiv(int, int) instruction_simplifier$after_gvn (before) /// CHECK: Rem /// CHECK-NEXT: Div // /// CHECK-START: long Main.$noinline$IntRemDiv(int, int) instruction_simplifier$after_gvn (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub private static long $noinline$IntRemDiv(int v, int s) { int r = v % s; int q = v / s; return ((long)q << 32) | r; } // A test case to check: // HDiv with the same inputs as HRem but in another basic block is not reused. // /// CHECK-START: long Main.$noinline$IntDivRem(int, int, boolean) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$IntDivRem(int, int, boolean) instruction_simplifier (after) /// CHECK: Div /// CHECK: Rem private static long $noinline$IntDivRem(int v, int s, boolean do_division) { long result = 0; if (do_division) { int q = v / s; result = (long)q << 32; } int r = v % s; return result | r; } // A test case to check: // If HRem is in a loop, the instruction simplifier postpones its optimization till // loop analysis/optimizations are done. // /// CHECK-START: int Main.$noinline$IntRemBy18InLoop(int) instruction_simplifier (before) /// CHECK: Div loop:B{{\d+}} /// CHECK-NEXT: Rem loop:B{{\d+}} // /// CHECK-START: int Main.$noinline$IntRemBy18InLoop(int) instruction_simplifier (after) /// CHECK: Div loop:B{{\d+}} /// CHECK-NEXT: Rem loop:B{{\d+}} // /// CHECK-START: int Main.$noinline$IntRemBy18InLoop(int) instruction_simplifier$after_bce (before) /// CHECK: Div loop:B{{\d+}} /// CHECK-NEXT: Rem loop:B{{\d+}} // /// CHECK-START: int Main.$noinline$IntRemBy18InLoop(int) instruction_simplifier$after_bce (after) /// CHECK-NOT: Rem /// CHECK: Div loop:B{{\d+}} /// CHECK-NEXT: Mul loop:B{{\d+}} /// CHECK-NEXT: Sub loop:B{{\d+}} private static int $noinline$IntRemBy18InLoop(int v) { int[] values = new int[v]; for (int i = 0; i < values.length; ++i) { int q = i / 18; int r = i % 18; values[i] = q + r; } return values[v - 1]; } // A test case to check: // FP type HRem is not optimized by the instruction simplifier. // /// CHECK-START: float Main.$noinline$FloatRemBy18(float) instruction_simplifier (before) /// CHECK: Div /// CHECK-NEXT: Rem // /// CHECK-START: float Main.$noinline$FloatRemBy18(float) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Rem private static float $noinline$FloatRemBy18(float v) { float q = v / 18.0f; float r = v % 18.0f; return q + r; } // A test case to check: // FP type HRem is not optimized by the instruction simplifier. // /// CHECK-START: double Main.$noinline$DoubleRemBy18(double) instruction_simplifier (before) /// CHECK: Div /// CHECK-NEXT: Rem // /// CHECK-START: double Main.$noinline$DoubleRemBy18(double) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Rem private static double $noinline$DoubleRemBy18(double v) { double q = v / 18.0; double r = v % 18.0; return q + r; } // A test case to check: // HRem with a divisor of power 2 is not optimized by the instruction simplifier because // the case is optimized by the code generator. // /// CHECK-START: int Main.$noinline$IntRemByIntMin(int) instruction_simplifier (before) /// CHECK: Div /// CHECK-NEXT: Rem // /// CHECK-START: int Main.$noinline$IntRemByIntMin(int) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Rem private static int $noinline$IntRemByIntMin(int v) { int q = v / Integer.MIN_VALUE; int r = v % Integer.MIN_VALUE; return q + r; } private static void remLong() { expectEquals(1L, $noinline$LongDivRemBy18(1L)); expectEquals(1L << 32 | 2L, $noinline$LongDivRemBy18(20L)); expectEquals(1L, $noinline$LongRemDivBy18(1L)); expectEquals(1L << 32 | 2L, $noinline$LongRemDivBy18(20L)); expectEquals(1L, $noinline$LongDivRemBy18(1L, false)); expectEquals(1L << 32 | 2L, $noinline$LongDivRemBy18(20L, true)); expectEquals(new long[] {0L, 1L}, $noinline$LongDivRemByMinus18(1)); expectEquals(new long[] {0L, -1L}, $noinline$LongDivRemByMinus18(-1)); expectEquals(new long[] {-1L, 2L}, $noinline$LongDivRemByMinus18(20)); expectEquals(new long[] {1L, -2L}, $noinline$LongDivRemByMinus18(-20)); expectEquals(new long[] {0L, 0L}, $noinline$LongDivRemBy5(0)); expectEquals(new long[] {0L, 1L}, $noinline$LongDivRemBy5(1)); expectEquals(new long[] {1L, 0L}, $noinline$LongDivRemBy5(5)); expectEquals(new long[] {1L, 1L}, $noinline$LongDivRemBy5(6)); expectEquals(new long[] {-1L, -1L}, $noinline$LongDivRemBy5(-6)); expectEquals(new long[] {-1L, 0L}, $noinline$LongDivRemBy5(-5)); expectEquals(new long[] {0L, -1L}, $noinline$LongDivRemBy5(-1)); expectEquals(new long[] {0L, 0L}, $noinline$LongDivRemByMinus5(0)); expectEquals(new long[] {0L, 1L}, $noinline$LongDivRemByMinus5(1)); expectEquals(new long[] {-1L, 0L}, $noinline$LongDivRemByMinus5(5)); expectEquals(new long[] {-1L, 1L}, $noinline$LongDivRemByMinus5(6)); expectEquals(new long[] {1L, -1L}, $noinline$LongDivRemByMinus5(-6)); expectEquals(new long[] {1L, 0L}, $noinline$LongDivRemByMinus5(-5)); expectEquals(new long[] {0L, -1L}, $noinline$LongDivRemByMinus5(-1)); expectEquals(new long[] {0L, 0L}, $noinline$LongDivRemBy7(0)); expectEquals(new long[] {0L, 1L}, $noinline$LongDivRemBy7(1)); expectEquals(new long[] {1L, 0L}, $noinline$LongDivRemBy7(7)); expectEquals(new long[] {1L, 1L}, $noinline$LongDivRemBy7(8)); expectEquals(new long[] {-1L, -1L}, $noinline$LongDivRemBy7(-8)); expectEquals(new long[] {-1L, 0L}, $noinline$LongDivRemBy7(-7)); expectEquals(new long[] {0L, -1L}, $noinline$LongDivRemBy7(-1)); expectEquals(new long[] {0L, 0L}, $noinline$LongDivRemByMinus7(0)); expectEquals(new long[] {0L, 1L}, $noinline$LongDivRemByMinus7(1)); expectEquals(new long[] {-1L, 0L}, $noinline$LongDivRemByMinus7(7)); expectEquals(new long[] {-1L, 1L}, $noinline$LongDivRemByMinus7(8)); expectEquals(new long[] {1L, -1L}, $noinline$LongDivRemByMinus7(-8)); expectEquals(new long[] {1L, 0L}, $noinline$LongDivRemByMinus7(-7)); expectEquals(new long[] {0L, -1L}, $noinline$LongDivRemByMinus7(-1)); expectEquals(new long[] {0L, 0L}, $noinline$LongDivRemByMaxLong(0)); expectEquals(new long[] {0L, 1L}, $noinline$LongDivRemByMaxLong(1)); expectEquals(new long[] {1L, 0L}, $noinline$LongDivRemByMaxLong(Long.MAX_VALUE)); expectEquals(new long[] {0L, Long.MAX_VALUE - 1}, $noinline$LongDivRemByMaxLong(Long.MAX_VALUE - 1)); expectEquals(new long[] {-1L, -1L}, $noinline$LongDivRemByMaxLong(Long.MIN_VALUE)); expectEquals(new long[] {0L, -1L}, $noinline$LongDivRemByMaxLong(-1)); } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$LongDivRemBy18(long) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$LongDivRemBy18(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub private static long $noinline$LongDivRemBy18(long v) { long q = v / 18L; long r = v % 18L; return (q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long[] Main.$noinline$LongDivRemByMinus18(long) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long[] Main.$noinline$LongDivRemByMinus18(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long[] Main.$noinline$LongDivRemByMinus18(long) disassembly (after) /// CHECK: smulh x{{\d+}}, x{{\d+}}, x{{\d+}} /// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63 /// CHECK: msub x{{\d+}}, x{{\d+}}, x{{\d+}}, x{{\d+}} private static long[] $noinline$LongDivRemByMinus18(long v) { long q = v / -18L; long r = v % -18L; return new long[] {q, r}; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$LongRemDivBy18(long) instruction_simplifier (before) /// CHECK: Rem /// CHECK: Div // /// CHECK-START: long Main.$noinline$LongRemDivBy18(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub private static long $noinline$LongRemDivBy18(long v) { long r = v % 18L; long q = v / 18L; return (q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long[] Main.$noinline$LongDivRemBy5(long) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long[] Main.$noinline$LongDivRemBy5(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Shl /// CHECK-NEXT: Add /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long[] Main.$noinline$LongDivRemBy5(long) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #1 /// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63 /// CHECK: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsl #2 /// CHECK: sub x{{\d+}}, x{{\d+}}, x{{\d+}} private static long[] $noinline$LongDivRemBy5(long v) { long q = v / 5L; long r = v % 5L; return new long[] {q, r}; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long[] Main.$noinline$LongDivRemByMinus5(long) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long[] Main.$noinline$LongDivRemByMinus5(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long[] Main.$noinline$LongDivRemByMinus5(long) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #1 /// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63 /// CHECK: msub x{{\d+}}, x{{\d+}}, x{{\d+}}, x{{\d+}} private static long[] $noinline$LongDivRemByMinus5(long v) { long q = v / -5L; long r = v % -5L; return new long[] {q, r}; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long[] Main.$noinline$LongDivRemBy7(long) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long[] Main.$noinline$LongDivRemBy7(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Shl /// CHECK-NEXT: Sub /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long[] Main.$noinline$LongDivRemBy7(long) instruction_simplifier_arm64 (after) /// CHECK: Div /// CHECK-NEXT: DataProcWithShifterOp /// CHECK-NEXT: Add // /// CHECK-START-ARM64: long[] Main.$noinline$LongDivRemBy7(long) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #1 /// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63 /// CHECK: sub x{{\d+}}, x{{\d+}}, x{{\d+}}, lsl #3 /// CHECK: add x{{\d+}}, x{{\d+}}, x{{\d+}} // /// CHECK-START-ARM: long[] Main.$noinline$LongDivRemBy7(long) instruction_simplifier_arm (after) /// CHECK: Div /// CHECK-NEXT: DataProcWithShifterOp /// CHECK-NEXT: Add // /// CHECK-START-ARM: long[] Main.$noinline$LongDivRemBy7(long) disassembly (after) /// CHECK: blx lr // CHECK: lsl ip, r{{\d}}, #3 // CHECK-NEXT: orr ip, r{{\d}}, lsr #29 // CHECK-NEXT: sub r{{\d}}, r{{\d}}, r{{\d}}, lsl #3 // CHECK-NEXT: sbc{{s?}} r{{\d}}, r{{\d}}, ip /// CHECK: add{{s?}} r{{\d}}, r{{\d}} /// CHECK-NEXT: adc{{s?}} r{{\d}}, r{{\d}} private static long[] $noinline$LongDivRemBy7(long v) { long q = v / 7L; long r = v % 7L; return new long[] {q, r}; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long[] Main.$noinline$LongDivRemByMinus7(long) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long[] Main.$noinline$LongDivRemByMinus7(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long[] Main.$noinline$LongDivRemByMinus7(long) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #1 /// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63 /// CHECK: msub x{{\d+}}, x{{\d+}}, x{{\d+}}, x{{\d+}} private static long[] $noinline$LongDivRemByMinus7(long v) { long q = v / -7L; long r = v % -7L; return new long[] {q, r}; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long[] Main.$noinline$LongDivRemByMaxLong(long) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long[] Main.$noinline$LongDivRemByMaxLong(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Shl /// CHECK-NEXT: Sub /// CHECK-NEXT: Sub // /// CHECK-START-ARM64: long[] Main.$noinline$LongDivRemByMaxLong(long) instruction_simplifier_arm64 (after) /// CHECK: Div /// CHECK-NEXT: DataProcWithShifterOp /// CHECK-NEXT: Add // /// CHECK-START-ARM64: long[] Main.$noinline$LongDivRemByMaxLong(long) disassembly (after) /// CHECK: asr x{{\d+}}, x{{\d+}}, #61 /// CHECK-NEXT: add x{{\d+}}, x{{\d+}}, x{{\d+}}, lsr #63 /// CHECK: sub x{{\d+}}, x{{\d+}}, x{{\d+}}, lsl #63 /// CHECK: add x{{\d+}}, x{{\d+}}, x{{\d+}} // /// CHECK-START-ARM: long[] Main.$noinline$LongDivRemByMaxLong(long) instruction_simplifier_arm (after) /// CHECK: Div /// CHECK-NEXT: DataProcWithShifterOp /// CHECK-NEXT: Add // /// CHECK-START-ARM: long[] Main.$noinline$LongDivRemByMaxLong(long) disassembly (after) /// CHECK: blx lr // CHECK: sub r{{\d}}, r{{\d}}, r{{\d}}, lsl #31 // CHECK-NEXT: mov{{s?}} r{{\d}}, r{{\d}} /// CHECK: add{{s?}} r{{\d}}, r{{\d}} /// CHECK-NEXT: adc{{s?}} r{{\d}}, r{{\d}} private static long[] $noinline$LongDivRemByMaxLong(long v) { long q = v / Long.MAX_VALUE; long r = v % Long.MAX_VALUE; return new long[] {q, r}; } // A test case to check: // HDiv with the same inputs as HRem but in another basic block is not reused. // /// CHECK-START: long Main.$noinline$LongDivRemBy18(long, boolean) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$LongDivRemBy18(long, boolean) instruction_simplifier (after) /// CHECK: Div /// CHECK: Rem private static long $noinline$LongDivRemBy18(long v, boolean do_division) { long result = 0; if (do_division) { long q = v / 18L; result = q << 32; } long r = v % 18L; return result | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$LongDivRem(long, long) instruction_simplifier$after_gvn (before) /// CHECK: Div /// CHECK-NEXT: Rem // /// CHECK-START: long Main.$noinline$LongDivRem(long, long) instruction_simplifier$after_gvn (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub private static long $noinline$LongDivRem(long v, long s) { long q = v / s; long r = v % s; return (q << 32) | r; } // A test case to check: // If there is HDiv with the same inputs as HRem, it is reused. // /// CHECK-START: long Main.$noinline$LongRemDiv(long, long) instruction_simplifier$after_gvn (before) /// CHECK: Rem /// CHECK-NEXT: Div // /// CHECK-START: long Main.$noinline$LongRemDiv(long, long) instruction_simplifier$after_gvn (after) /// CHECK: Div /// CHECK-NEXT: Mul /// CHECK-NEXT: Sub private static long $noinline$LongRemDiv(long v, long s) { long r = v % s; long q = v / s; return (q << 32) | r; } // A test case to check: // HDiv with the same inputs as HRem but in another basic block is not reused. // /// CHECK-START: long Main.$noinline$LongDivRem(long, long, boolean) instruction_simplifier (before) /// CHECK: Div /// CHECK: Rem // /// CHECK-START: long Main.$noinline$LongDivRem(long, long, boolean) instruction_simplifier (after) /// CHECK: Div /// CHECK: Rem private static long $noinline$LongDivRem(long v, long s, boolean do_division) { long result = 0; if (do_division) { long q = v / s; result = q << 32; } long r = v % s; return result | r; } // A test case to check: // If HRem is in a loop, the instruction simplifier postpones its optimization till // loop analysis/optimizations are done. // /// CHECK-START: long Main.$noinline$LongRemBy18InLoop(long) instruction_simplifier (before) /// CHECK: Div loop:B{{\d+}} /// CHECK-NEXT: Rem loop:B{{\d+}} // /// CHECK-START: long Main.$noinline$LongRemBy18InLoop(long) instruction_simplifier (after) /// CHECK: Div loop:B{{\d+}} /// CHECK-NEXT: Rem loop:B{{\d+}} // /// CHECK-START: long Main.$noinline$LongRemBy18InLoop(long) instruction_simplifier$after_bce (before) /// CHECK: Div loop:B{{\d+}} /// CHECK-NEXT: Rem loop:B{{\d+}} // /// CHECK-START: long Main.$noinline$LongRemBy18InLoop(long) instruction_simplifier$after_bce (after) /// CHECK-NOT: Rem /// CHECK: Div loop:B{{\d+}} /// CHECK-NEXT: Mul loop:B{{\d+}} /// CHECK-NEXT: Sub loop:B{{\d+}} private static long $noinline$LongRemBy18InLoop(long v) { long[] values = new long[(int)v]; for (int i = 0; i < values.length; ++i) { long d = (long)i; long q = d / 18L; long r = d % 18L; values[i] = q + r; } return values[values.length - 1]; } // A test case to check: // HRem with a divisor of power 2 is not optimized by the instruction simplifier because // the case is optimized by the code generator. // /// CHECK-START: long Main.$noinline$LongRemByLongMin(long) instruction_simplifier (before) /// CHECK: Div /// CHECK-NEXT: Rem // /// CHECK-START: long Main.$noinline$LongRemByLongMin(long) instruction_simplifier (after) /// CHECK: Div /// CHECK-NEXT: Rem private static long $noinline$LongRemByLongMin(long v) { long q = v / Long.MIN_VALUE; long r = v % Long.MIN_VALUE; return q + r; } public static void main(String args[]) { remInt(); remLong(); } }