test/442-checker-constant-folding/src/Main.java - platform/art - Git at Google

 /*
 * 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 {

   /**
    * 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;
   }

   public static void main(String[] args) {
     if (IntNegation() != -42) {
       throw new Error();
     }

     if (IntAddition1() != 3) {
       throw new Error();
     }

     if (IntAddition2() != 14) {
       throw new Error();
     }

     if (IntSubtraction() != 4) {
       throw new Error();
     }

     if (LongAddition() != 3L) {
       throw new Error();
     }

     if (LongSubtraction() != 4L) {
       throw new Error();
     }

     if (StaticCondition() != 5) {
       throw new Error();
     }

     if (JumpsAndConditionals(true) != 7) {
       throw new Error();
     }

     if (JumpsAndConditionals(false) != 3) {
       throw new Error();
     }
   }
 }
	/*
	* 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 {

	/**
	* 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;
	}

	public static void main(String[] args) {
	if (IntNegation() != -42) {
	throw new Error();
	}

	if (IntAddition1() != 3) {
	throw new Error();
	}

	if (IntAddition2() != 14) {
	throw new Error();
	}

	if (IntSubtraction() != 4) {
	throw new Error();
	}

	if (LongAddition() != 3L) {
	throw new Error();
	}

	if (LongSubtraction() != 4L) {
	throw new Error();
	}

	if (StaticCondition() != 5) {
	throw new Error();
	}

	if (JumpsAndConditionals(true) != 7) {
	throw new Error();
	}

	if (JumpsAndConditionals(false) != 3) {
	throw new Error();
	}
	}
	}