/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ public class Main { public static void assertBooleanEquals(boolean expected, boolean result) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } public static void assertIntEquals(int expected, int result) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } public static void assertLongEquals(long expected, long result) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } public static void assertFloatEquals(float expected, float result) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } public static void assertDoubleEquals(double expected, double result) { if (expected != result) { throw new Error("Expected: " + expected + ", found: " + result); } } /** * Tiny programs exercising optimizations of arithmetic identities. */ // CHECK-START: long Main.Add0(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const0:j\d+]] LongConstant 0 // CHECK-DAG: [[Add:j\d+]] Add [ [[Const0]] [[Arg]] ] // CHECK-DAG: Return [ [[Add]] ] // CHECK-START: long Main.Add0(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.Add0(long) instruction_simplifier (after) // CHECK-NOT: Add public static long Add0(long arg) { return 0 + arg; } // CHECK-START: int Main.AndAllOnes(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[ConstF:i\d+]] IntConstant -1 // CHECK-DAG: [[And:i\d+]] And [ [[Arg]] [[ConstF]] ] // CHECK-DAG: Return [ [[And]] ] // CHECK-START: int Main.AndAllOnes(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: int Main.AndAllOnes(int) instruction_simplifier (after) // CHECK-NOT: And public static int AndAllOnes(int arg) { return arg & -1; } // CHECK-START: long Main.Div1(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const1:j\d+]] LongConstant 1 // CHECK-DAG: [[Div:j\d+]] Div [ [[Arg]] [[Const1]] ] // CHECK-DAG: Return [ [[Div]] ] // CHECK-START: long Main.Div1(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.Div1(long) instruction_simplifier (after) // CHECK-NOT: Div public static long Div1(long arg) { return arg / 1; } // CHECK-START: int Main.DivN1(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[ConstN1:i\d+]] IntConstant -1 // CHECK-DAG: [[Div:i\d+]] Div [ [[Arg]] [[ConstN1]] ] // CHECK-DAG: Return [ [[Div]] ] // CHECK-START: int Main.DivN1(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Arg]] ] // CHECK-DAG: Return [ [[Neg]] ] // CHECK-START: int Main.DivN1(int) instruction_simplifier (after) // CHECK-NOT: Div public static int DivN1(int arg) { return arg / -1; } // CHECK-START: long Main.Mul1(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const1:j\d+]] LongConstant 1 // CHECK-DAG: [[Mul:j\d+]] Mul [ [[Arg]] [[Const1]] ] // CHECK-DAG: Return [ [[Mul]] ] // CHECK-START: long Main.Mul1(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.Mul1(long) instruction_simplifier (after) // CHECK-NOT: Mul public static long Mul1(long arg) { return arg * 1; } // CHECK-START: int Main.MulN1(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[ConstN1:i\d+]] IntConstant -1 // CHECK-DAG: [[Mul:i\d+]] Mul [ [[Arg]] [[ConstN1]] ] // CHECK-DAG: Return [ [[Mul]] ] // CHECK-START: int Main.MulN1(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Arg]] ] // CHECK-DAG: Return [ [[Neg]] ] // CHECK-START: int Main.MulN1(int) instruction_simplifier (after) // CHECK-NOT: Mul public static int MulN1(int arg) { return arg * -1; } // CHECK-START: long Main.MulPowerOfTwo128(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const128:j\d+]] LongConstant 128 // CHECK-DAG: [[Mul:j\d+]] Mul [ [[Arg]] [[Const128]] ] // CHECK-DAG: Return [ [[Mul]] ] // CHECK-START: long Main.MulPowerOfTwo128(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const7:i\d+]] IntConstant 7 // CHECK-DAG: [[Shl:j\d+]] Shl [ [[Arg]] [[Const7]] ] // CHECK-DAG: Return [ [[Shl]] ] // CHECK-START: long Main.MulPowerOfTwo128(long) instruction_simplifier (after) // CHECK-NOT: Mul public static long MulPowerOfTwo128(long arg) { return arg * 128; } // CHECK-START: int Main.Or0(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Or:i\d+]] Or [ [[Arg]] [[Const0]] ] // CHECK-DAG: Return [ [[Or]] ] // CHECK-START: int Main.Or0(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: int Main.Or0(int) instruction_simplifier (after) // CHECK-NOT: Or public static int Or0(int arg) { return arg | 0; } // CHECK-START: long Main.OrSame(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Or:j\d+]] Or [ [[Arg]] [[Arg]] ] // CHECK-DAG: Return [ [[Or]] ] // CHECK-START: long Main.OrSame(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.OrSame(long) instruction_simplifier (after) // CHECK-NOT: Or public static long OrSame(long arg) { return arg | arg; } // CHECK-START: int Main.Shl0(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Shl:i\d+]] Shl [ [[Arg]] [[Const0]] ] // CHECK-DAG: Return [ [[Shl]] ] // CHECK-START: int Main.Shl0(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: int Main.Shl0(int) instruction_simplifier (after) // CHECK-NOT: Shl public static int Shl0(int arg) { return arg << 0; } // CHECK-START: int Main.Shl1(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Const1:i\d+]] IntConstant 1 // CHECK-DAG: [[Shl:i\d+]] Shl [ [[Arg]] [[Const1]] ] // CHECK-DAG: Return [ [[Shl]] ] // CHECK-START: int Main.Shl1(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Add:i\d+]] Add [ [[Arg]] [[Arg]] ] // CHECK-DAG: Return [ [[Add]] ] // CHECK-START: int Main.Shl1(int) instruction_simplifier (after) // CHECK-NOT: Shl public static int Shl1(int arg) { return arg << 1; } // CHECK-START: long Main.Shr0(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Shr:j\d+]] Shr [ [[Arg]] [[Const0]] ] // CHECK-DAG: Return [ [[Shr]] ] // CHECK-START: long Main.Shr0(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.Shr0(long) instruction_simplifier (after) // CHECK-NOT: Shr public static long Shr0(long arg) { return arg >> 0; } // CHECK-START: long Main.Sub0(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const0:j\d+]] LongConstant 0 // CHECK-DAG: [[Sub:j\d+]] Sub [ [[Arg]] [[Const0]] ] // CHECK-DAG: Return [ [[Sub]] ] // CHECK-START: long Main.Sub0(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.Sub0(long) instruction_simplifier (after) // CHECK-NOT: Sub public static long Sub0(long arg) { return arg - 0; } // CHECK-START: int Main.SubAliasNeg(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Sub:i\d+]] Sub [ [[Const0]] [[Arg]] ] // CHECK-DAG: Return [ [[Sub]] ] // CHECK-START: int Main.SubAliasNeg(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Arg]] ] // CHECK-DAG: Return [ [[Neg]] ] // CHECK-START: int Main.SubAliasNeg(int) instruction_simplifier (after) // CHECK-NOT: Sub public static int SubAliasNeg(int arg) { return 0 - arg; } // CHECK-START: long Main.UShr0(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[UShr:j\d+]] UShr [ [[Arg]] [[Const0]] ] // CHECK-DAG: Return [ [[UShr]] ] // CHECK-START: long Main.UShr0(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.UShr0(long) instruction_simplifier (after) // CHECK-NOT: UShr public static long UShr0(long arg) { return arg >>> 0; } // CHECK-START: int Main.Xor0(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Xor:i\d+]] Xor [ [[Arg]] [[Const0]] ] // CHECK-DAG: Return [ [[Xor]] ] // CHECK-START: int Main.Xor0(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: int Main.Xor0(int) instruction_simplifier (after) // CHECK-NOT: Xor public static int Xor0(int arg) { return arg ^ 0; } // CHECK-START: int Main.XorAllOnes(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[ConstF:i\d+]] IntConstant -1 // CHECK-DAG: [[Xor:i\d+]] Xor [ [[Arg]] [[ConstF]] ] // CHECK-DAG: Return [ [[Xor]] ] // CHECK-START: int Main.XorAllOnes(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Not:i\d+]] Not [ [[Arg]] ] // CHECK-DAG: Return [ [[Not]] ] // CHECK-START: int Main.XorAllOnes(int) instruction_simplifier (after) // CHECK-NOT: Xor public static int XorAllOnes(int arg) { return arg ^ -1; } /** * Test that addition or subtraction operation with both inputs negated are * optimized to use a single negation after the operation. * The transformation tested is implemented in * `InstructionSimplifierVisitor::TryMoveNegOnInputsAfterBinop`. */ // CHECK-START: int Main.AddNegs1(int, int) instruction_simplifier (before) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Neg1:i\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Neg2:i\d+]] Neg [ [[Arg2]] ] // CHECK-DAG: [[Add:i\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK-DAG: Return [ [[Add]] ] // CHECK-START: int Main.AddNegs1(int, int) instruction_simplifier (after) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-NOT: Neg // CHECK-DAG: [[Add:i\d+]] Add [ [[Arg1]] [[Arg2]] ] // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Add]] ] // CHECK-DAG: Return [ [[Neg]] ] public static int AddNegs1(int arg1, int arg2) { return -arg1 + -arg2; } /** * This is similar to the test-case AddNegs1, but the negations have * multiple uses. * The transformation tested is implemented in * `InstructionSimplifierVisitor::TryMoveNegOnInputsAfterBinop`. * The current code won't perform the previous optimization. The * transformations do not look at other uses of their inputs. As they don't * know what will happen with other uses, they do not take the risk of * increasing the register pressure by creating or extending live ranges. */ // CHECK-START: int Main.AddNegs2(int, int) instruction_simplifier (before) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Neg1:i\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Neg2:i\d+]] Neg [ [[Arg2]] ] // CHECK-DAG: [[Add1:i\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK-DAG: [[Add2:i\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK-DAG: [[Or:i\d+]] Or [ [[Add1]] [[Add2]] ] // CHECK-DAG: Return [ [[Or]] ] // CHECK-START: int Main.AddNegs2(int, int) instruction_simplifier (after) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Neg1:i\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Neg2:i\d+]] Neg [ [[Arg2]] ] // CHECK-DAG: [[Add1:i\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK-DAG: [[Add2:i\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK-NOT: Neg // CHECK-DAG: [[Or:i\d+]] Or [ [[Add1]] [[Add2]] ] // CHECK-DAG: Return [ [[Or]] ] // CHECK-START: int Main.AddNegs2(int, int) GVN (after) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Neg1:i\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Neg2:i\d+]] Neg [ [[Arg2]] ] // CHECK-DAG: [[Add:i\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK-DAG: [[Or:i\d+]] Or [ [[Add]] [[Add]] ] // CHECK-DAG: Return [ [[Or]] ] public static int AddNegs2(int arg1, int arg2) { int temp1 = -arg1; int temp2 = -arg2; return (temp1 + temp2) | (temp1 + temp2); } /** * This follows test-cases AddNegs1 and AddNegs2. * The transformation tested is implemented in * `InstructionSimplifierVisitor::TryMoveNegOnInputsAfterBinop`. * The optimization should not happen if it moves an additional instruction in * the loop. */ // CHECK-START: long Main.AddNegs3(long, long) instruction_simplifier (before) // -------------- Arguments and initial negation operations. // CHECK-DAG: [[Arg1:j\d+]] ParameterValue // CHECK-DAG: [[Arg2:j\d+]] ParameterValue // CHECK-DAG: [[Neg1:j\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Neg2:j\d+]] Neg [ [[Arg2]] ] // CHECK: Goto // -------------- Loop // CHECK: SuspendCheck // CHECK: [[Add:j\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK: Goto // CHECK-START: long Main.AddNegs3(long, long) instruction_simplifier (after) // -------------- Arguments and initial negation operations. // CHECK-DAG: [[Arg1:j\d+]] ParameterValue // CHECK-DAG: [[Arg2:j\d+]] ParameterValue // CHECK-DAG: [[Neg1:j\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Neg2:j\d+]] Neg [ [[Arg2]] ] // CHECK: Goto // -------------- Loop // CHECK: SuspendCheck // CHECK: [[Add:j\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK-NOT: Neg // CHECK: Goto public static long AddNegs3(long arg1, long arg2) { long res = 0; long n_arg1 = -arg1; long n_arg2 = -arg2; for (long i = 0; i < 1; i++) { res += n_arg1 + n_arg2 + i; } return res; } /** * Test the simplification of an addition with a negated argument into a * subtraction. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitAdd`. */ // CHECK-START: long Main.AddNeg1(long, long) instruction_simplifier (before) // CHECK-DAG: [[Arg1:j\d+]] ParameterValue // CHECK-DAG: [[Arg2:j\d+]] ParameterValue // CHECK-DAG: [[Neg:j\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Add:j\d+]] Add [ [[Neg]] [[Arg2]] ] // CHECK-DAG: Return [ [[Add]] ] // CHECK-START: long Main.AddNeg1(long, long) instruction_simplifier (after) // CHECK-DAG: [[Arg1:j\d+]] ParameterValue // CHECK-DAG: [[Arg2:j\d+]] ParameterValue // CHECK-DAG: [[Sub:j\d+]] Sub [ [[Arg2]] [[Arg1]] ] // CHECK-DAG: Return [ [[Sub]] ] // CHECK-START: long Main.AddNeg1(long, long) instruction_simplifier (after) // CHECK-NOT: Neg // CHECK-NOT: Add public static long AddNeg1(long arg1, long arg2) { return -arg1 + arg2; } /** * This is similar to the test-case AddNeg1, but the negation has two uses. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitAdd`. * The current code won't perform the previous optimization. The * transformations do not look at other uses of their inputs. As they don't * know what will happen with other uses, they do not take the risk of * increasing the register pressure by creating or extending live ranges. */ // CHECK-START: long Main.AddNeg2(long, long) instruction_simplifier (before) // CHECK-DAG: [[Arg1:j\d+]] ParameterValue // CHECK-DAG: [[Arg2:j\d+]] ParameterValue // CHECK-DAG: [[Neg:j\d+]] Neg [ [[Arg2]] ] // CHECK-DAG: [[Add1:j\d+]] Add [ [[Arg1]] [[Neg]] ] // CHECK-DAG: [[Add2:j\d+]] Add [ [[Arg1]] [[Neg]] ] // CHECK-DAG: [[Res:j\d+]] Or [ [[Add1]] [[Add2]] ] // CHECK-DAG: Return [ [[Res]] ] // CHECK-START: long Main.AddNeg2(long, long) instruction_simplifier (after) // CHECK-DAG: [[Arg1:j\d+]] ParameterValue // CHECK-DAG: [[Arg2:j\d+]] ParameterValue // CHECK-DAG: [[Neg:j\d+]] Neg [ [[Arg2]] ] // CHECK-DAG: [[Add1:j\d+]] Add [ [[Arg1]] [[Neg]] ] // CHECK-DAG: [[Add2:j\d+]] Add [ [[Arg1]] [[Neg]] ] // CHECK-DAG: [[Res:j\d+]] Or [ [[Add1]] [[Add2]] ] // CHECK-DAG: Return [ [[Res]] ] // CHECK-START: long Main.AddNeg2(long, long) instruction_simplifier (after) // CHECK-NOT: Sub public static long AddNeg2(long arg1, long arg2) { long temp = -arg2; return (arg1 + temp) | (arg1 + temp); } /** * Test simplification of the `-(-var)` pattern. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitNeg`. */ // CHECK-START: long Main.NegNeg1(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Neg1:j\d+]] Neg [ [[Arg]] ] // CHECK-DAG: [[Neg2:j\d+]] Neg [ [[Neg1]] ] // CHECK-DAG: Return [ [[Neg2]] ] // CHECK-START: long Main.NegNeg1(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.NegNeg1(long) instruction_simplifier (after) // CHECK-NOT: Neg public static long NegNeg1(long arg) { return -(-arg); } /** * Test 'multi-step' simplification, where a first transformation yields a * new simplification possibility for the current instruction. * The transformations tested are implemented in `InstructionSimplifierVisitor::VisitNeg` * and in `InstructionSimplifierVisitor::VisitAdd`. */ // CHECK-START: int Main.NegNeg2(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Neg1:i\d+]] Neg [ [[Arg]] ] // CHECK-DAG: [[Neg2:i\d+]] Neg [ [[Neg1]] ] // CHECK-DAG: [[Add:i\d+]] Add [ [[Neg1]] [[Neg2]] ] // CHECK-DAG: Return [ [[Add]] ] // CHECK-START: int Main.NegNeg2(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Sub:i\d+]] Sub [ [[Arg]] [[Arg]] ] // CHECK-DAG: Return [ [[Sub]] ] // CHECK-START: int Main.NegNeg2(int) instruction_simplifier (after) // CHECK-NOT: Neg // CHECK-NOT: Add // CHECK-START: int Main.NegNeg2(int) constant_folding_after_inlining (after) // CHECK: [[Const0:i\d+]] IntConstant 0 // CHECK-NOT: Neg // CHECK-NOT: Add // CHECK: Return [ [[Const0]] ] public static int NegNeg2(int arg) { int temp = -arg; return temp + -temp; } /** * Test another 'multi-step' simplification, where a first transformation * yields a new simplification possibility for the current instruction. * The transformations tested are implemented in `InstructionSimplifierVisitor::VisitNeg` * and in `InstructionSimplifierVisitor::VisitSub`. */ // CHECK-START: long Main.NegNeg3(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[Const0:j\d+]] LongConstant 0 // CHECK-DAG: [[Neg:j\d+]] Neg [ [[Arg]] ] // CHECK-DAG: [[Sub:j\d+]] Sub [ [[Const0]] [[Neg]] ] // CHECK-DAG: Return [ [[Sub]] ] // CHECK-START: long Main.NegNeg3(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.NegNeg3(long) instruction_simplifier (after) // CHECK-NOT: Neg // CHECK-NOT: Sub public static long NegNeg3(long arg) { return 0 - -arg; } /** * Test that a negated subtraction is simplified to a subtraction with its * arguments reversed. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitNeg`. */ // CHECK-START: int Main.NegSub1(int, int) instruction_simplifier (before) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Sub:i\d+]] Sub [ [[Arg1]] [[Arg2]] ] // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Sub]] ] // CHECK-DAG: Return [ [[Neg]] ] // CHECK-START: int Main.NegSub1(int, int) instruction_simplifier (after) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Sub:i\d+]] Sub [ [[Arg2]] [[Arg1]] ] // CHECK-DAG: Return [ [[Sub]] ] // CHECK-START: int Main.NegSub1(int, int) instruction_simplifier (after) // CHECK-NOT: Neg public static int NegSub1(int arg1, int arg2) { return -(arg1 - arg2); } /** * This is similar to the test-case NegSub1, but the subtraction has * multiple uses. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitNeg`. * The current code won't perform the previous optimization. The * transformations do not look at other uses of their inputs. As they don't * know what will happen with other uses, they do not take the risk of * increasing the register pressure by creating or extending live ranges. */ // CHECK-START: int Main.NegSub2(int, int) instruction_simplifier (before) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Sub:i\d+]] Sub [ [[Arg1]] [[Arg2]] ] // CHECK-DAG: [[Neg1:i\d+]] Neg [ [[Sub]] ] // CHECK-DAG: [[Neg2:i\d+]] Neg [ [[Sub]] ] // CHECK-DAG: [[Or:i\d+]] Or [ [[Neg1]] [[Neg2]] ] // CHECK-DAG: Return [ [[Or]] ] // CHECK-START: int Main.NegSub2(int, int) instruction_simplifier (after) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Sub:i\d+]] Sub [ [[Arg1]] [[Arg2]] ] // CHECK-DAG: [[Neg1:i\d+]] Neg [ [[Sub]] ] // CHECK-DAG: [[Neg2:i\d+]] Neg [ [[Sub]] ] // CHECK-DAG: [[Or:i\d+]] Or [ [[Neg1]] [[Neg2]] ] // CHECK-DAG: Return [ [[Or]] ] public static int NegSub2(int arg1, int arg2) { int temp = arg1 - arg2; return -temp | -temp; } /** * Test simplification of the `~~var` pattern. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitNot`. */ // CHECK-START: long Main.NotNot1(long) instruction_simplifier (before) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: [[ConstF1:j\d+]] LongConstant -1 // CHECK-DAG: [[Xor1:j\d+]] Xor [ [[Arg]] [[ConstF1]] ] // CHECK-DAG: [[Xor2:j\d+]] Xor [ [[Xor1]] [[ConstF1]] ] // CHECK-DAG: Return [ [[Xor2]] ] // CHECK-START: long Main.NotNot1(long) instruction_simplifier (after) // CHECK-DAG: [[Arg:j\d+]] ParameterValue // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: long Main.NotNot1(long) instruction_simplifier (after) // CHECK-NOT: Xor public static long NotNot1(long arg) { return ~~arg; } // CHECK-START: int Main.NotNot2(int) instruction_simplifier (before) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[ConstF1:i\d+]] IntConstant -1 // CHECK-DAG: [[Xor1:i\d+]] Xor [ [[Arg]] [[ConstF1]] ] // CHECK-DAG: [[Xor2:i\d+]] Xor [ [[Xor1]] [[ConstF1]] ] // CHECK-DAG: [[Add:i\d+]] Add [ [[Xor1]] [[Xor2]] ] // CHECK-DAG: Return [ [[Add]] ] // CHECK-START: int Main.NotNot2(int) instruction_simplifier (after) // CHECK-DAG: [[Arg:i\d+]] ParameterValue // CHECK-DAG: [[Not:i\d+]] Not [ [[Arg]] ] // CHECK-DAG: [[Add:i\d+]] Add [ [[Not]] [[Arg]] ] // CHECK-DAG: Return [ [[Add]] ] // CHECK-START: int Main.NotNot2(int) instruction_simplifier (after) // CHECK-NOT: Xor public static int NotNot2(int arg) { int temp = ~arg; return temp + ~temp; } /** * Test the simplification of a subtraction with a negated argument. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitSub`. */ // CHECK-START: int Main.SubNeg1(int, int) instruction_simplifier (before) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Sub:i\d+]] Sub [ [[Neg]] [[Arg2]] ] // CHECK-DAG: Return [ [[Sub]] ] // CHECK-START: int Main.SubNeg1(int, int) instruction_simplifier (after) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Add:i\d+]] Add [ [[Arg1]] [[Arg2]] ] // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Add]] ] // CHECK-DAG: Return [ [[Neg]] ] // CHECK-START: int Main.SubNeg1(int, int) instruction_simplifier (after) // CHECK-NOT: Sub public static int SubNeg1(int arg1, int arg2) { return -arg1 - arg2; } /** * This is similar to the test-case SubNeg1, but the negation has * multiple uses. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitSub`. * The current code won't perform the previous optimization. The * transformations do not look at other uses of their inputs. As they don't * know what will happen with other uses, they do not take the risk of * increasing the register pressure by creating or extending live ranges. */ // CHECK-START: int Main.SubNeg2(int, int) instruction_simplifier (before) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Sub1:i\d+]] Sub [ [[Neg]] [[Arg2]] ] // CHECK-DAG: [[Sub2:i\d+]] Sub [ [[Neg]] [[Arg2]] ] // CHECK-DAG: [[Or:i\d+]] Or [ [[Sub1]] [[Sub2]] ] // CHECK-DAG: Return [ [[Or]] ] // CHECK-START: int Main.SubNeg2(int, int) instruction_simplifier (after) // CHECK-DAG: [[Arg1:i\d+]] ParameterValue // CHECK-DAG: [[Arg2:i\d+]] ParameterValue // CHECK-DAG: [[Neg:i\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: [[Sub1:i\d+]] Sub [ [[Neg]] [[Arg2]] ] // CHECK-DAG: [[Sub2:i\d+]] Sub [ [[Neg]] [[Arg2]] ] // CHECK-DAG: [[Or:i\d+]] Or [ [[Sub1]] [[Sub2]] ] // CHECK-DAG: Return [ [[Or]] ] // CHECK-START: int Main.SubNeg2(int, int) instruction_simplifier (after) // CHECK-NOT: Add public static int SubNeg2(int arg1, int arg2) { int temp = -arg1; return (temp - arg2) | (temp - arg2); } /** * This follows test-cases SubNeg1 and SubNeg2. * The transformation tested is implemented in `InstructionSimplifierVisitor::VisitSub`. * The optimization should not happen if it moves an additional instruction in * the loop. */ // CHECK-START: long Main.SubNeg3(long, long) instruction_simplifier (before) // -------------- Arguments and initial negation operation. // CHECK-DAG: [[Arg1:j\d+]] ParameterValue // CHECK-DAG: [[Arg2:j\d+]] ParameterValue // CHECK-DAG: [[Neg:j\d+]] Neg [ [[Arg1]] ] // CHECK: Goto // -------------- Loop // CHECK: SuspendCheck // CHECK: [[Sub:j\d+]] Sub [ [[Neg]] [[Arg2]] ] // CHECK: Goto // CHECK-START: long Main.SubNeg3(long, long) instruction_simplifier (after) // -------------- Arguments and initial negation operation. // CHECK-DAG: [[Arg1:j\d+]] ParameterValue // CHECK-DAG: [[Arg2:j\d+]] ParameterValue // CHECK-DAG: [[Neg:j\d+]] Neg [ [[Arg1]] ] // CHECK-DAG: Goto // -------------- Loop // CHECK: SuspendCheck // CHECK: [[Sub:j\d+]] Sub [ [[Neg]] [[Arg2]] ] // CHECK-NOT: Neg // CHECK: Goto public static long SubNeg3(long arg1, long arg2) { long res = 0; long temp = -arg1; for (long i = 0; i < 1; i++) { res += temp - arg2 - i; } return res; } // CHECK-START: int Main.EqualTrueRhs(boolean) instruction_simplifier (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[Const1:i\d+]] IntConstant 1 // CHECK-DAG: [[Cond:z\d+]] Equal [ [[Arg]] [[Const1]] ] // CHECK-DAG: If [ [[Cond]] ] // CHECK-START: int Main.EqualTrueRhs(boolean) instruction_simplifier (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: If [ [[Arg]] ] public static int EqualTrueRhs(boolean arg) { return (arg != true) ? 3 : 5; } // CHECK-START: int Main.EqualTrueLhs(boolean) instruction_simplifier (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[Const1:i\d+]] IntConstant 1 // CHECK-DAG: [[Cond:z\d+]] Equal [ [[Const1]] [[Arg]] ] // CHECK-DAG: If [ [[Cond]] ] // CHECK-START: int Main.EqualTrueLhs(boolean) instruction_simplifier (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: If [ [[Arg]] ] public static int EqualTrueLhs(boolean arg) { return (true != arg) ? 3 : 5; } // CHECK-START: int Main.EqualFalseRhs(boolean) instruction_simplifier (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Cond:z\d+]] Equal [ [[Arg]] [[Const0]] ] // CHECK-DAG: If [ [[Cond]] ] // CHECK-START: int Main.EqualFalseRhs(boolean) instruction_simplifier (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[NotArg:z\d+]] BooleanNot [ [[Arg]] ] // CHECK-DAG: If [ [[NotArg]] ] public static int EqualFalseRhs(boolean arg) { return (arg != false) ? 3 : 5; } // CHECK-START: int Main.EqualFalseLhs(boolean) instruction_simplifier (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Cond:z\d+]] Equal [ [[Const0]] [[Arg]] ] // CHECK-DAG: If [ [[Cond]] ] // CHECK-START: int Main.EqualFalseLhs(boolean) instruction_simplifier (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[NotArg:z\d+]] BooleanNot [ [[Arg]] ] // CHECK-DAG: If [ [[NotArg]] ] public static int EqualFalseLhs(boolean arg) { return (false != arg) ? 3 : 5; } // CHECK-START: int Main.NotEqualTrueRhs(boolean) instruction_simplifier (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[Const1:i\d+]] IntConstant 1 // CHECK-DAG: [[Cond:z\d+]] NotEqual [ [[Arg]] [[Const1]] ] // CHECK-DAG: If [ [[Cond]] ] // CHECK-START: int Main.NotEqualTrueRhs(boolean) instruction_simplifier (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[NotArg:z\d+]] BooleanNot [ [[Arg]] ] // CHECK-DAG: If [ [[NotArg]] ] public static int NotEqualTrueRhs(boolean arg) { return (arg == true) ? 3 : 5; } // CHECK-START: int Main.NotEqualTrueLhs(boolean) instruction_simplifier (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[Const1:i\d+]] IntConstant 1 // CHECK-DAG: [[Cond:z\d+]] NotEqual [ [[Const1]] [[Arg]] ] // CHECK-DAG: If [ [[Cond]] ] // CHECK-START: int Main.NotEqualTrueLhs(boolean) instruction_simplifier (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[NotArg:z\d+]] BooleanNot [ [[Arg]] ] // CHECK-DAG: If [ [[NotArg]] ] public static int NotEqualTrueLhs(boolean arg) { return (true == arg) ? 3 : 5; } // CHECK-START: int Main.NotEqualFalseRhs(boolean) instruction_simplifier (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Cond:z\d+]] NotEqual [ [[Arg]] [[Const0]] ] // CHECK-DAG: If [ [[Cond]] ] // CHECK-START: int Main.NotEqualFalseRhs(boolean) instruction_simplifier (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: If [ [[Arg]] ] public static int NotEqualFalseRhs(boolean arg) { return (arg == false) ? 3 : 5; } // CHECK-START: int Main.NotEqualFalseLhs(boolean) instruction_simplifier (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[Const0:i\d+]] IntConstant 0 // CHECK-DAG: [[Cond:z\d+]] NotEqual [ [[Const0]] [[Arg]] ] // CHECK-DAG: If [ [[Cond]] ] // CHECK-START: int Main.NotEqualFalseLhs(boolean) instruction_simplifier (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: If [ [[Arg]] ] public static int NotEqualFalseLhs(boolean arg) { return (false == arg) ? 3 : 5; } /* * Test simplification of double Boolean negation. Note that sometimes * both negations can be removed but we only expect the simplifier to * remove the second. */ // CHECK-START: boolean Main.NotNotBool(boolean) instruction_simplifier_after_types (before) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: [[NotArg:z\d+]] BooleanNot [ [[Arg]] ] // CHECK-DAG: [[NotNotArg:z\d+]] BooleanNot [ [[NotArg]] ] // CHECK-DAG: Return [ [[NotNotArg]] ] // CHECK-START: boolean Main.NotNotBool(boolean) instruction_simplifier_after_types (after) // CHECK-DAG: [[Arg:z\d+]] ParameterValue // CHECK-DAG: BooleanNot [ [[Arg]] ] // CHECK-DAG: Return [ [[Arg]] ] // CHECK-START: boolean Main.NotNotBool(boolean) instruction_simplifier_after_types (after) // CHECK: BooleanNot // CHECK-NOT: BooleanNot public static boolean NegateValue(boolean arg) { return !arg; } public static boolean NotNotBool(boolean arg) { return !(NegateValue(arg)); } // CHECK-START: float Main.Div2(float) instruction_simplifier (before) // CHECK-DAG: [[Arg:f\d+]] ParameterValue // CHECK-DAG: [[Const2:f\d+]] FloatConstant 2 // CHECK-DAG: [[Div:f\d+]] Div [ [[Arg]] [[Const2]] ] // CHECK-DAG: Return [ [[Div]] ] // CHECK-START: float Main.Div2(float) instruction_simplifier (after) // CHECK-DAG: [[Arg:f\d+]] ParameterValue // CHECK-DAG: [[ConstP5:f\d+]] FloatConstant 0.5 // CHECK-DAG: [[Mul:f\d+]] Mul [ [[Arg]] [[ConstP5]] ] // CHECK-DAG: Return [ [[Mul]] ] // CHECK-START: float Main.Div2(float) instruction_simplifier (after) // CHECK-NOT: Div public static float Div2(float arg) { return arg / 2.0f; } // CHECK-START: double Main.Div2(double) instruction_simplifier (before) // CHECK-DAG: [[Arg:d\d+]] ParameterValue // CHECK-DAG: [[Const2:d\d+]] DoubleConstant 2 // CHECK-DAG: [[Div:d\d+]] Div [ [[Arg]] [[Const2]] ] // CHECK-DAG: Return [ [[Div]] ] // CHECK-START: double Main.Div2(double) instruction_simplifier (after) // CHECK-DAG: [[Arg:d\d+]] ParameterValue // CHECK-DAG: [[ConstP5:d\d+]] DoubleConstant 0.5 // CHECK-DAG: [[Mul:d\d+]] Mul [ [[Arg]] [[ConstP5]] ] // CHECK-DAG: Return [ [[Mul]] ] // CHECK-START: double Main.Div2(double) instruction_simplifier (after) // CHECK-NOT: Div public static double Div2(double arg) { return arg / 2.0; } // CHECK-START: float Main.DivMP25(float) instruction_simplifier (before) // CHECK-DAG: [[Arg:f\d+]] ParameterValue // CHECK-DAG: [[ConstMP25:f\d+]] FloatConstant -0.25 // CHECK-DAG: [[Div:f\d+]] Div [ [[Arg]] [[ConstMP25]] ] // CHECK-DAG: Return [ [[Div]] ] // CHECK-START: float Main.DivMP25(float) instruction_simplifier (after) // CHECK-DAG: [[Arg:f\d+]] ParameterValue // CHECK-DAG: [[ConstM4:f\d+]] FloatConstant -4 // CHECK-DAG: [[Mul:f\d+]] Mul [ [[Arg]] [[ConstM4]] ] // CHECK-DAG: Return [ [[Mul]] ] // CHECK-START: float Main.DivMP25(float) instruction_simplifier (after) // CHECK-NOT: Div public static float DivMP25(float arg) { return arg / -0.25f; } // CHECK-START: double Main.DivMP25(double) instruction_simplifier (before) // CHECK-DAG: [[Arg:d\d+]] ParameterValue // CHECK-DAG: [[ConstMP25:d\d+]] DoubleConstant -0.25 // CHECK-DAG: [[Div:d\d+]] Div [ [[Arg]] [[ConstMP25]] ] // CHECK-DAG: Return [ [[Div]] ] // CHECK-START: double Main.DivMP25(double) instruction_simplifier (after) // CHECK-DAG: [[Arg:d\d+]] ParameterValue // CHECK-DAG: [[ConstM4:d\d+]] DoubleConstant -4 // CHECK-DAG: [[Mul:d\d+]] Mul [ [[Arg]] [[ConstM4]] ] // CHECK-DAG: Return [ [[Mul]] ] // CHECK-START: double Main.DivMP25(double) instruction_simplifier (after) // CHECK-NOT: Div public static double DivMP25(double arg) { return arg / -0.25f; } public static void main(String[] args) { int arg = 123456; assertLongEquals(Add0(arg), arg); assertIntEquals(AndAllOnes(arg), arg); assertLongEquals(Div1(arg), arg); assertIntEquals(DivN1(arg), -arg); assertLongEquals(Mul1(arg), arg); assertIntEquals(MulN1(arg), -arg); assertLongEquals(MulPowerOfTwo128(arg), (128 * arg)); assertIntEquals(Or0(arg), arg); assertLongEquals(OrSame(arg), arg); assertIntEquals(Shl0(arg), arg); assertLongEquals(Shr0(arg), arg); assertLongEquals(Sub0(arg), arg); assertIntEquals(SubAliasNeg(arg), -arg); assertLongEquals(UShr0(arg), arg); assertIntEquals(Xor0(arg), arg); assertIntEquals(XorAllOnes(arg), ~arg); assertIntEquals(AddNegs1(arg, arg + 1), -(arg + arg + 1)); assertIntEquals(AddNegs2(arg, arg + 1), -(arg + arg + 1)); assertLongEquals(AddNegs3(arg, arg + 1), -(2 * arg + 1)); assertLongEquals(AddNeg1(arg, arg + 1), 1); assertLongEquals(AddNeg2(arg, arg + 1), -1); assertLongEquals(NegNeg1(arg), arg); assertIntEquals(NegNeg2(arg), 0); assertLongEquals(NegNeg3(arg), arg); assertIntEquals(NegSub1(arg, arg + 1), 1); assertIntEquals(NegSub2(arg, arg + 1), 1); assertLongEquals(NotNot1(arg), arg); assertIntEquals(NotNot2(arg), -1); assertIntEquals(SubNeg1(arg, arg + 1), -(arg + arg + 1)); assertIntEquals(SubNeg2(arg, arg + 1), -(arg + arg + 1)); assertLongEquals(SubNeg3(arg, arg + 1), -(2 * arg + 1)); assertIntEquals(EqualTrueRhs(true), 5); assertIntEquals(EqualTrueLhs(true), 5); assertIntEquals(EqualFalseRhs(true), 3); assertIntEquals(EqualFalseLhs(true), 3); assertIntEquals(NotEqualTrueRhs(true), 3); assertIntEquals(NotEqualTrueLhs(true), 3); assertIntEquals(NotEqualFalseRhs(true), 5); assertIntEquals(NotEqualFalseLhs(true), 5); assertBooleanEquals(NotNotBool(true), true); assertBooleanEquals(NotNotBool(false), false); assertFloatEquals(Div2(100.0f), 50.0f); assertDoubleEquals(Div2(150.0), 75.0); assertFloatEquals(DivMP25(100.0f), -400.0f); assertDoubleEquals(DivMP25(150.0), -600.0); assertLongEquals(Shl1(100), 200); } }