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android / platform / art / c2c48ff / . / test / 442-checker-constant-folding / src / Main.java
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/*
* Copyright (C) 2014 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 assertFalse(boolean condition) {
if (condition) {
throw new Error();
}
}
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 three-register program exercising int constant folding
* on negation.
*/
// CHECK-START: int Main.IntNegation() constant_folding (before)
// CHECK-DAG: <<Const42:i\d+>> IntConstant 42
// CHECK-DAG: <<Neg:i\d+>> Neg [ <<Const42>> ]
// CHECK-DAG: Return [ <<Neg>> ]
// CHECK-START: int Main.IntNegation() constant_folding (after)
// CHECK-DAG: <<ConstN42:i\d+>> IntConstant -42
// CHECK-DAG: Return [ <<ConstN42>> ]
public static int IntNegation() {
int x, y;
x = 42;
y = -x;
return y;
}
/**
* Tiny three-register program exercising int constant folding
* on addition.
*/
// CHECK-START: int Main.IntAddition1() constant_folding (before)
// CHECK-DAG: <<Const1:i\d+>> IntConstant 1
// CHECK-DAG: <<Const2:i\d+>> IntConstant 2
// CHECK-DAG: <<Add:i\d+>> Add [ <<Const1>> <<Const2>> ]
// CHECK-DAG: Return [ <<Add>> ]
// CHECK-START: int Main.IntAddition1() constant_folding (after)
// CHECK-DAG: <<Const3:i\d+>> IntConstant 3
// CHECK-DAG: Return [ <<Const3>> ]
public static int IntAddition1() {
int a, b, c;
a = 1;
b = 2;
c = a + b;
return c;
}
/**
* Small three-register program exercising int constant folding
* on addition.
*/
// CHECK-START: int Main.IntAddition2() constant_folding (before)
// CHECK-DAG: <<Const1:i\d+>> IntConstant 1
// CHECK-DAG: <<Const2:i\d+>> IntConstant 2
// CHECK-DAG: <<Const5:i\d+>> IntConstant 5
// CHECK-DAG: <<Const6:i\d+>> IntConstant 6
// CHECK-DAG: <<Add1:i\d+>> Add [ <<Const1>> <<Const2>> ]
// CHECK-DAG: <<Add2:i\d+>> Add [ <<Const5>> <<Const6>> ]
// CHECK-DAG: <<Add3:i\d+>> Add [ <<Add1>> <<Add2>> ]
// CHECK-DAG: Return [ <<Add3>> ]
// CHECK-START: int Main.IntAddition2() constant_folding (after)
// CHECK-DAG: <<Const14:i\d+>> IntConstant 14
// CHECK-DAG: Return [ <<Const14>> ]
public static int IntAddition2() {
int a, b, c;
a = 1;
b = 2;
a += b;
b = 5;
c = 6;
b += c;
c = a + b;
return c;
}
/**
* Tiny three-register program exercising int constant folding
* on subtraction.
*/
// CHECK-START: int Main.IntSubtraction() constant_folding (before)
// CHECK-DAG: <<Const6:i\d+>> IntConstant 6
// CHECK-DAG: <<Const2:i\d+>> IntConstant 2
// CHECK-DAG: <<Sub:i\d+>> Sub [ <<Const6>> <<Const2>> ]
// CHECK-DAG: Return [ <<Sub>> ]
// CHECK-START: int Main.IntSubtraction() constant_folding (after)
// CHECK-DAG: <<Const4:i\d+>> IntConstant 4
// CHECK-DAG: Return [ <<Const4>> ]
public static int IntSubtraction() {
int a, b, c;
a = 6;
b = 2;
c = a - b;
return c;
}
/**
* Tiny three-register program exercising long constant folding
* on addition.
*/
// CHECK-START: long Main.LongAddition() constant_folding (before)
// CHECK-DAG: <<Const1:j\d+>> LongConstant 1
// CHECK-DAG: <<Const2:j\d+>> LongConstant 2
// CHECK-DAG: <<Add:j\d+>> Add [ <<Const1>> <<Const2>> ]
// CHECK-DAG: Return [ <<Add>> ]
// CHECK-START: long Main.LongAddition() constant_folding (after)
// CHECK-DAG: <<Const3:j\d+>> LongConstant 3
// CHECK-DAG: Return [ <<Const3>> ]
public static long LongAddition() {
long a, b, c;
a = 1L;
b = 2L;
c = a + b;
return c;
}
/**
* Tiny three-register program exercising long constant folding
* on subtraction.
*/
// CHECK-START: long Main.LongSubtraction() constant_folding (before)
// CHECK-DAG: <<Const6:j\d+>> LongConstant 6
// CHECK-DAG: <<Const2:j\d+>> LongConstant 2
// CHECK-DAG: <<Sub:j\d+>> Sub [ <<Const6>> <<Const2>> ]
// CHECK-DAG: Return [ <<Sub>> ]
// CHECK-START: long Main.LongSubtraction() constant_folding (after)
// CHECK-DAG: <<Const4:j\d+>> LongConstant 4
// CHECK-DAG: Return [ <<Const4>> ]
public static long LongSubtraction() {
long a, b, c;
a = 6L;
b = 2L;
c = a - b;
return c;
}
/**
* Three-register program with a constant (static) condition.
*/
// CHECK-START: int Main.StaticCondition() constant_folding (before)
// CHECK-DAG: <<Const7:i\d+>> IntConstant 7
// CHECK-DAG: <<Const2:i\d+>> IntConstant 2
// CHECK-DAG: <<Cond:z\d+>> GreaterThanOrEqual [ <<Const7>> <<Const2>> ]
// CHECK-DAG: If [ <<Cond>> ]
// CHECK-START: int Main.StaticCondition() constant_folding (after)
// CHECK-DAG: <<Const1:i\d+>> IntConstant 1
// CHECK-DAG: If [ <<Const1>> ]
public static int StaticCondition() {
int a, b, c;
a = 7;
b = 2;
if (a < b)
c = a + b;
else
c = a - b;
return c;
}
/**
* Four-variable program with jumps leading to the creation of many
* blocks.
*
* The intent of this test is to ensure that all constant expressions
* are actually evaluated at compile-time, thanks to the reverse
* (forward) post-order traversal of the the dominator tree.
*/
// CHECK-START: int Main.JumpsAndConditionals(boolean) constant_folding (before)
// CHECK-DAG: <<Const2:i\d+>> IntConstant 2
// CHECK-DAG: <<Const5:i\d+>> IntConstant 5
// CHECK-DAG: <<Add:i\d+>> Add [ <<Const5>> <<Const2>> ]
// CHECK-DAG: <<Sub:i\d+>> Sub [ <<Const5>> <<Const2>> ]
// CHECK-DAG: <<Phi:i\d+>> Phi [ <<Add>> <<Sub>> ]
// CHECK-DAG: Return [ <<Phi>> ]
// CHECK-START: int Main.JumpsAndConditionals(boolean) constant_folding (after)
// CHECK-DAG: <<Const3:i\d+>> IntConstant 3
// CHECK-DAG: <<Const7:i\d+>> IntConstant 7
// CHECK-DAG: <<Phi:i\d+>> Phi [ <<Const7>> <<Const3>> ]
// CHECK-DAG: Return [ <<Phi>> ]
public static int JumpsAndConditionals(boolean cond) {
int a, b, c;
a = 5;
b = 2;
if (cond)
c = a + b;
else
c = a - b;
return c;
}
/**
* Test optimizations of arithmetic identities yielding a constant result.
*/
// CHECK-START: int Main.And0(int) constant_folding (before)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-DAG: <<And:i\d+>> And [ <<Arg>> <<Const0>> ]
// CHECK-DAG: Return [ <<And>> ]
// CHECK-START: int Main.And0(int) constant_folding (after)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-NOT: And
// CHECK-DAG: Return [ <<Const0>> ]
public static int And0(int arg) {
return arg & 0;
}
// CHECK-START: long Main.Mul0(long) constant_folding (before)
// CHECK-DAG: <<Arg:j\d+>> ParameterValue
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-DAG: <<Mul:j\d+>> Mul [ <<Arg>> <<Const0>> ]
// CHECK-DAG: Return [ <<Mul>> ]
// CHECK-START: long Main.Mul0(long) constant_folding (after)
// CHECK-DAG: <<Arg:j\d+>> ParameterValue
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-NOT: Mul
// CHECK-DAG: Return [ <<Const0>> ]
public static long Mul0(long arg) {
return arg * 0;
}
// CHECK-START: int Main.OrAllOnes(int) constant_folding (before)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<ConstF:i\d+>> IntConstant -1
// CHECK-DAG: <<Or:i\d+>> Or [ <<Arg>> <<ConstF>> ]
// CHECK-DAG: Return [ <<Or>> ]
// CHECK-START: int Main.OrAllOnes(int) constant_folding (after)
// CHECK-DAG: <<ConstF:i\d+>> IntConstant -1
// CHECK-NOT: Or
// CHECK-DAG: Return [ <<ConstF>> ]
public static int OrAllOnes(int arg) {
return arg | -1;
}
// CHECK-START: long Main.Rem0(long) constant_folding (before)
// CHECK-DAG: <<Arg:j\d+>> ParameterValue
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-DAG: <<DivZeroCheck:j\d+>> DivZeroCheck [ <<Arg>> ]
// CHECK-DAG: <<Rem:j\d+>> Rem [ <<Const0>> <<DivZeroCheck>> ]
// CHECK-DAG: Return [ <<Rem>> ]
// CHECK-START: long Main.Rem0(long) constant_folding (after)
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-NOT: Rem
// CHECK-DAG: Return [ <<Const0>> ]
public static long Rem0(long arg) {
return 0 % arg;
}
// CHECK-START: int Main.Rem1(int) constant_folding (before)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const1:i\d+>> IntConstant 1
// CHECK-DAG: <<Rem:i\d+>> Rem [ <<Arg>> <<Const1>> ]
// CHECK-DAG: Return [ <<Rem>> ]
// CHECK-START: int Main.Rem1(int) constant_folding (after)
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-NOT: Rem
// CHECK-DAG: Return [ <<Const0>> ]
public static int Rem1(int arg) {
return arg % 1;
}
// CHECK-START: long Main.RemN1(long) constant_folding (before)
// CHECK-DAG: <<Arg:j\d+>> ParameterValue
// CHECK-DAG: <<ConstN1:j\d+>> LongConstant -1
// CHECK-DAG: <<DivZeroCheck:j\d+>> DivZeroCheck [ <<Arg>> ]
// CHECK-DAG: <<Rem:j\d+>> Rem [ <<Arg>> <<DivZeroCheck>> ]
// CHECK-DAG: Return [ <<Rem>> ]
// CHECK-START: long Main.RemN1(long) constant_folding (after)
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-NOT: Rem
// CHECK-DAG: Return [ <<Const0>> ]
public static long RemN1(long arg) {
return arg % -1;
}
// CHECK-START: int Main.Shl0(int) constant_folding (before)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-DAG: <<Shl:i\d+>> Shl [ <<Const0>> <<Arg>> ]
// CHECK-DAG: Return [ <<Shl>> ]
// CHECK-START: int Main.Shl0(int) constant_folding (after)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-NOT: Shl
// CHECK-DAG: Return [ <<Const0>> ]
public static int Shl0(int arg) {
return 0 << arg;
}
// CHECK-START: long Main.Shr0(int) constant_folding (before)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-DAG: <<Shr:j\d+>> Shr [ <<Const0>> <<Arg>> ]
// CHECK-DAG: Return [ <<Shr>> ]
// CHECK-START: long Main.Shr0(int) constant_folding (after)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-NOT: Shr
// CHECK-DAG: Return [ <<Const0>> ]
public static long Shr0(int arg) {
return (long)0 >> arg;
}
// CHECK-START: long Main.SubSameLong(long) constant_folding (before)
// CHECK-DAG: <<Arg:j\d+>> ParameterValue
// CHECK-DAG: <<Sub:j\d+>> Sub [ <<Arg>> <<Arg>> ]
// CHECK-DAG: Return [ <<Sub>> ]
// CHECK-START: long Main.SubSameLong(long) constant_folding (after)
// CHECK-DAG: <<Arg:j\d+>> ParameterValue
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-NOT: Sub
// CHECK-DAG: Return [ <<Const0>> ]
public static long SubSameLong(long arg) {
return arg - arg;
}
// CHECK-START: int Main.UShr0(int) constant_folding (before)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-DAG: <<UShr:i\d+>> UShr [ <<Const0>> <<Arg>> ]
// CHECK-DAG: Return [ <<UShr>> ]
// CHECK-START: int Main.UShr0(int) constant_folding (after)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-NOT: UShr
// CHECK-DAG: Return [ <<Const0>> ]
public static int UShr0(int arg) {
return 0 >>> arg;
}
// CHECK-START: int Main.XorSameInt(int) constant_folding (before)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Xor:i\d+>> Xor [ <<Arg>> <<Arg>> ]
// CHECK-DAG: Return [ <<Xor>> ]
// CHECK-START: int Main.XorSameInt(int) constant_folding (after)
// CHECK-DAG: <<Arg:i\d+>> ParameterValue
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-NOT: Xor
// CHECK-DAG: Return [ <<Const0>> ]
public static int XorSameInt(int arg) {
return arg ^ arg;
}
// CHECK-START: boolean Main.CmpFloatGreaterThanNaN(float) constant_folding (before)
// CHECK-DAG: <<Arg:f\d+>> ParameterValue
// CHECK-DAG: <<ConstNan:f\d+>> FloatConstant nan
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-DAG: IntConstant 1
// CHECK-DAG: <<Cmp:i\d+>> Compare [ <<Arg>> <<ConstNan>> ]
// CHECK-DAG: <<Le:z\d+>> LessThanOrEqual [ <<Cmp>> <<Const0>> ]
// CHECK-DAG: If [ <<Le>> ]
// CHECK-START: boolean Main.CmpFloatGreaterThanNaN(float) constant_folding (after)
// CHECK-DAG: ParameterValue
// CHECK-DAG: FloatConstant nan
// CHECK-DAG: IntConstant 0
// CHECK-DAG: <<Const1:i\d+>> IntConstant 1
// CHECK-DAG: If [ <<Const1>> ]
// CHECK-START: boolean Main.CmpFloatGreaterThanNaN(float) constant_folding (after)
// CHECK-NOT: Compare
// CHECK-NOT: LessThanOrEqual
public static boolean CmpFloatGreaterThanNaN(float arg) {
return arg > Float.NaN;
}
// CHECK-START: boolean Main.CmpDoubleLessThanNaN(double) constant_folding (before)
// CHECK-DAG: <<Arg:d\d+>> ParameterValue
// CHECK-DAG: <<ConstNan:d\d+>> DoubleConstant nan
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-DAG: IntConstant 1
// CHECK-DAG: <<Cmp:i\d+>> Compare [ <<Arg>> <<ConstNan>> ]
// CHECK-DAG: <<Ge:z\d+>> GreaterThanOrEqual [ <<Cmp>> <<Const0>> ]
// CHECK-DAG: If [ <<Ge>> ]
// CHECK-START: boolean Main.CmpDoubleLessThanNaN(double) constant_folding (after)
// CHECK-DAG: ParameterValue
// CHECK-DAG: DoubleConstant nan
// CHECK-DAG: IntConstant 0
// CHECK-DAG: <<Const1:i\d+>> IntConstant 1
// CHECK-DAG: If [ <<Const1>> ]
// CHECK-START: boolean Main.CmpDoubleLessThanNaN(double) constant_folding (after)
// CHECK-NOT: Compare
// CHECK-NOT: GreaterThanOrEqual
public static boolean CmpDoubleLessThanNaN(double arg) {
return arg < Double.NaN;
}
// CHECK-START: int Main.ReturnInt33() constant_folding (before)
// CHECK-DAG: <<Const33:j\d+>> LongConstant 33
// CHECK-DAG: <<Convert:i\d+>> TypeConversion <<Const33>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: int Main.ReturnInt33() constant_folding (after)
// CHECK-DAG: <<Const33:i\d+>> IntConstant 33
// CHECK-DAG: Return [ <<Const33>> ]
public static int ReturnInt33() {
long imm = 33L;
return (int) imm;
}
// CHECK-START: int Main.ReturnIntMax() constant_folding (before)
// CHECK-DAG: <<ConstMax:f\d+>> FloatConstant 1e+34
// CHECK-DAG: <<Convert:i\d+>> TypeConversion <<ConstMax>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: int Main.ReturnIntMax() constant_folding (after)
// CHECK-DAG: <<ConstMax:i\d+>> IntConstant 2147483647
// CHECK-DAG: Return [ <<ConstMax>> ]
public static int ReturnIntMax() {
float imm = 1.0e34f;
return (int) imm;
}
// CHECK-START: int Main.ReturnInt0() constant_folding (before)
// CHECK-DAG: <<ConstNaN:d\d+>> DoubleConstant nan
// CHECK-DAG: <<Convert:i\d+>> TypeConversion <<ConstNaN>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: int Main.ReturnInt0() constant_folding (after)
// CHECK-DAG: <<Const0:i\d+>> IntConstant 0
// CHECK-DAG: Return [ <<Const0>> ]
public static int ReturnInt0() {
double imm = Double.NaN;
return (int) imm;
}
// CHECK-START: long Main.ReturnLong33() constant_folding (before)
// CHECK-DAG: <<Const33:i\d+>> IntConstant 33
// CHECK-DAG: <<Convert:j\d+>> TypeConversion <<Const33>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: long Main.ReturnLong33() constant_folding (after)
// CHECK-DAG: <<Const33:j\d+>> LongConstant 33
// CHECK-DAG: Return [ <<Const33>> ]
public static long ReturnLong33() {
int imm = 33;
return (long) imm;
}
// CHECK-START: long Main.ReturnLong34() constant_folding (before)
// CHECK-DAG: <<Const34:f\d+>> FloatConstant 34
// CHECK-DAG: <<Convert:j\d+>> TypeConversion <<Const34>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: long Main.ReturnLong34() constant_folding (after)
// CHECK-DAG: <<Const34:j\d+>> LongConstant 34
// CHECK-DAG: Return [ <<Const34>> ]
public static long ReturnLong34() {
float imm = 34.0f;
return (long) imm;
}
// CHECK-START: long Main.ReturnLong0() constant_folding (before)
// CHECK-DAG: <<ConstNaN:d\d+>> DoubleConstant nan
// CHECK-DAG: <<Convert:j\d+>> TypeConversion <<ConstNaN>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: long Main.ReturnLong0() constant_folding (after)
// CHECK-DAG: <<Const0:j\d+>> LongConstant 0
// CHECK-DAG: Return [ <<Const0>> ]
public static long ReturnLong0() {
double imm = -Double.NaN;
return (long) imm;
}
// CHECK-START: float Main.ReturnFloat33() constant_folding (before)
// CHECK-DAG: <<Const33:i\d+>> IntConstant 33
// CHECK-DAG: <<Convert:f\d+>> TypeConversion <<Const33>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: float Main.ReturnFloat33() constant_folding (after)
// CHECK-DAG: <<Const33:f\d+>> FloatConstant 33
// CHECK-DAG: Return [ <<Const33>> ]
public static float ReturnFloat33() {
int imm = 33;
return (float) imm;
}
// CHECK-START: float Main.ReturnFloat34() constant_folding (before)
// CHECK-DAG: <<Const34:j\d+>> LongConstant 34
// CHECK-DAG: <<Convert:f\d+>> TypeConversion <<Const34>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: float Main.ReturnFloat34() constant_folding (after)
// CHECK-DAG: <<Const34:f\d+>> FloatConstant 34
// CHECK-DAG: Return [ <<Const34>> ]
public static float ReturnFloat34() {
long imm = 34L;
return (float) imm;
}
// CHECK-START: float Main.ReturnFloat99P25() constant_folding (before)
// CHECK-DAG: <<Const:d\d+>> DoubleConstant 99.25
// CHECK-DAG: <<Convert:f\d+>> TypeConversion <<Const>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: float Main.ReturnFloat99P25() constant_folding (after)
// CHECK-DAG: <<Const:f\d+>> FloatConstant 99.25
// CHECK-DAG: Return [ <<Const>> ]
public static float ReturnFloat99P25() {
double imm = 99.25;
return (float) imm;
}
// CHECK-START: double Main.ReturnDouble33() constant_folding (before)
// CHECK-DAG: <<Const33:i\d+>> IntConstant 33
// CHECK-DAG: <<Convert:d\d+>> TypeConversion <<Const33>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: double Main.ReturnDouble33() constant_folding (after)
// CHECK-DAG: <<Const33:d\d+>> DoubleConstant 33
// CHECK-DAG: Return [ <<Const33>> ]
public static double ReturnDouble33() {
int imm = 33;
return (double) imm;
}
// CHECK-START: double Main.ReturnDouble34() constant_folding (before)
// CHECK-DAG: <<Const34:j\d+>> LongConstant 34
// CHECK-DAG: <<Convert:d\d+>> TypeConversion <<Const34>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: double Main.ReturnDouble34() constant_folding (after)
// CHECK-DAG: <<Const34:d\d+>> DoubleConstant 34
// CHECK-DAG: Return [ <<Const34>> ]
public static double ReturnDouble34() {
long imm = 34L;
return (double) imm;
}
// CHECK-START: double Main.ReturnDouble99P25() constant_folding (before)
// CHECK-DAG: <<Const:f\d+>> FloatConstant 99.25
// CHECK-DAG: <<Convert:d\d+>> TypeConversion <<Const>>
// CHECK-DAG: Return [ <<Convert>> ]
// CHECK-START: double Main.ReturnDouble99P25() constant_folding (after)
// CHECK-DAG: <<Const:d\d+>> DoubleConstant 99.25
// CHECK-DAG: Return [ <<Const>> ]
public static double ReturnDouble99P25() {
float imm = 99.25f;
return (double) imm;
}
public static void main(String[] args) {
assertIntEquals(IntNegation(), -42);
assertIntEquals(IntAddition1(), 3);
assertIntEquals(IntAddition2(), 14);
assertIntEquals(IntSubtraction(), 4);
assertLongEquals(LongAddition(), 3L);
assertLongEquals(LongSubtraction(), 4L);
assertIntEquals(StaticCondition(), 5);
assertIntEquals(JumpsAndConditionals(true), 7);
assertIntEquals(JumpsAndConditionals(false), 3);
int arbitrary = 123456; // Value chosen arbitrarily.
assertIntEquals(And0(arbitrary), 0);
assertLongEquals(Mul0(arbitrary), 0);
assertIntEquals(OrAllOnes(arbitrary), -1);
assertLongEquals(Rem0(arbitrary), 0);
assertIntEquals(Rem1(arbitrary), 0);
assertLongEquals(RemN1(arbitrary), 0);
assertIntEquals(Shl0(arbitrary), 0);
assertLongEquals(Shr0(arbitrary), 0);
assertLongEquals(SubSameLong(arbitrary), 0);
assertIntEquals(UShr0(arbitrary), 0);
assertIntEquals(XorSameInt(arbitrary), 0);
assertFalse(CmpFloatGreaterThanNaN(arbitrary));
assertFalse(CmpDoubleLessThanNaN(arbitrary));
assertIntEquals(ReturnInt33(), 33);
assertIntEquals(ReturnIntMax(), 2147483647);
assertIntEquals(ReturnInt0(), 0);
assertLongEquals(ReturnLong33(), 33);
assertLongEquals(ReturnLong34(), 34);
assertLongEquals(ReturnLong0(), 0);
assertFloatEquals(ReturnFloat33(), 33);
assertFloatEquals(ReturnFloat34(), 34);
assertFloatEquals(ReturnFloat99P25(), 99.25f);
assertDoubleEquals(ReturnDouble33(), 33);
assertDoubleEquals(ReturnDouble34(), 34);
assertDoubleEquals(ReturnDouble99P25(), 99.25);
}
}