test/415-optimizing-arith-neg/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.
  */

 // Note that $opt$ is a marker for the optimizing compiler to test
 // it does compile the method, and that $noinline$ is a marker to
 // test that it does not inline it.
 public class Main {

   public static void assertEquals(int expected, int result) {
     if (expected != result) {
       throw new Error("Expected: " + expected + ", found: " + result);
     }
   }

   public static void assertEquals(long expected, long result) {
     if (expected != result) {
       throw new Error("Expected: " + expected + ", found: " + result);
     }
   }

   public static void assertEquals(float expected, float result) {
     if (expected != result) {
       throw new Error("Expected: " + expected + ", found: " + result);
     }
   }

   public static void assertEquals(String expected, float result) {
     if (!expected.equals(new Float(result).toString())) {
       throw new Error("Expected: " + expected + ", found: " + result);
     }
   }

   public static void assertEquals(double expected, double result) {
     if (expected != result) {
       throw new Error("Expected: " + expected + ", found: " + result);
     }
   }

   public static void assertEquals(String expected, double result) {
     if (!expected.equals(new Double(result).toString())) {
       throw new Error("Expected: " + expected + ", found: " + result);
     }
   }

   public static void assertIsNaN(float result) {
     if (!Float.isNaN(result)) {
       throw new Error("Expected NaN: " + result);
     }
   }

   public static void assertIsNaN(double result) {
     if (!Double.isNaN(result)) {
       throw new Error("Expected NaN: " + result);
     }
   }

   public static void main(String[] args) {
     negInt();
     $opt$noinline$InplaceNegOneInt(1);

     negLong();
     $opt$noinline$InplaceNegOneLong(1L);

     negFloat();
     negDouble();
   }

   private static void negInt() {
     assertEquals(-1, $opt$noinline$NegInt(1));
     assertEquals(1, $opt$noinline$NegInt(-1));
     assertEquals(0, $opt$noinline$NegInt(0));
     assertEquals(51, $opt$noinline$NegInt(-51));
     assertEquals(-51, $opt$noinline$NegInt(51));
     assertEquals(2147483647, $opt$noinline$NegInt(-2147483647));  // -(2^31 - 1)
     assertEquals(-2147483647, $opt$noinline$NegInt(2147483647));  // 2^31 - 1
     // From the Java 7 SE Edition specification:
     // http://docs.oracle.com/javase/specs/jls/se7/html/jls-15.html#jls-15.15.4
     //
     //   For integer values, negation is the same as subtraction from
     //   zero.  The Java programming language uses two's-complement
     //   representation for integers, and the range of two's-complement
     //   values is not symmetric, so negation of the maximum negative
     //   int or long results in that same maximum negative number.
     //   Overflow occurs in this case, but no exception is thrown.
     //   For all integer values x, -x equals (~x)+1.''
     assertEquals(-2147483648, $opt$noinline$NegInt(-2147483648)); // -(2^31)
   }

   private static void negLong() {
     assertEquals(-1L, $opt$noinline$NegLong(1L));
     assertEquals(1L, $opt$noinline$NegLong(-1L));
     assertEquals(0L, $opt$noinline$NegLong(0L));
     assertEquals(51L, $opt$noinline$NegLong(-51L));
     assertEquals(-51L, $opt$noinline$NegLong(51L));

     assertEquals(2147483647L, $opt$noinline$NegLong(-2147483647L));  // -(2^31 - 1)
     assertEquals(-2147483647L, $opt$noinline$NegLong(2147483647L));  // (2^31 - 1)
     assertEquals(2147483648L, $opt$noinline$NegLong(-2147483648L));  // -(2^31)
     assertEquals(-2147483648L, $opt$noinline$NegLong(2147483648L));  // 2^31

     assertEquals(9223372036854775807L, $opt$noinline$NegLong(-9223372036854775807L));  // -(2^63 - 1)
     assertEquals(-9223372036854775807L, $opt$noinline$NegLong(9223372036854775807L));  // 2^63 - 1
     // See remark regarding the negation of the maximum negative
     // (long) value in negInt().
     assertEquals(-9223372036854775808L, $opt$noinline$NegLong(-9223372036854775808L)); // -(2^63)
   }

   private static void negFloat() {
      assertEquals("-0.0", $opt$noinline$NegFloat(0F));
      assertEquals("0.0", $opt$noinline$NegFloat(-0F));
      assertEquals(-1F, $opt$noinline$NegFloat(1F));
      assertEquals(1F, $opt$noinline$NegFloat(-1F));
      assertEquals(51F, $opt$noinline$NegFloat(-51F));
      assertEquals(-51F, $opt$noinline$NegFloat(51F));

      assertEquals(-0.1F, $opt$noinline$NegFloat(0.1F));
      assertEquals(0.1F, $opt$noinline$NegFloat(-0.1F));
      assertEquals(343597.38362F, $opt$noinline$NegFloat(-343597.38362F));
      assertEquals(-343597.38362F, $opt$noinline$NegFloat(343597.38362F));

      assertEquals(-Float.MIN_NORMAL, $opt$noinline$NegFloat(Float.MIN_NORMAL));
      assertEquals(Float.MIN_NORMAL, $opt$noinline$NegFloat(-Float.MIN_NORMAL));
      assertEquals(-Float.MIN_VALUE, $opt$noinline$NegFloat(Float.MIN_VALUE));
      assertEquals(Float.MIN_VALUE, $opt$noinline$NegFloat(-Float.MIN_VALUE));
      assertEquals(-Float.MAX_VALUE, $opt$noinline$NegFloat(Float.MAX_VALUE));
      assertEquals(Float.MAX_VALUE, $opt$noinline$NegFloat(-Float.MAX_VALUE));

      assertEquals(Float.NEGATIVE_INFINITY, $opt$noinline$NegFloat(Float.POSITIVE_INFINITY));
      assertEquals(Float.POSITIVE_INFINITY, $opt$noinline$NegFloat(Float.NEGATIVE_INFINITY));
      assertIsNaN($opt$noinline$NegFloat(Float.NaN));
   }

   private static void negDouble() {
      assertEquals("-0.0", $opt$noinline$NegDouble(0D));
      assertEquals("0.0", $opt$noinline$NegDouble(-0D));
      assertEquals(-1D, $opt$noinline$NegDouble(1D));
      assertEquals(1D, $opt$noinline$NegDouble(-1D));
      assertEquals(51D, $opt$noinline$NegDouble(-51D));
      assertEquals(-51D, $opt$noinline$NegDouble(51D));

      assertEquals(-0.1D, $opt$noinline$NegDouble(0.1D));
      assertEquals(0.1D, $opt$noinline$NegDouble(-0.1D));
      assertEquals(343597.38362D, $opt$noinline$NegDouble(-343597.38362D));
      assertEquals(-343597.38362D, $opt$noinline$NegDouble(343597.38362D));

      assertEquals(-Double.MIN_NORMAL, $opt$noinline$NegDouble(Double.MIN_NORMAL));
      assertEquals(Double.MIN_NORMAL, $opt$noinline$NegDouble(-Double.MIN_NORMAL));
      assertEquals(-Double.MIN_VALUE, $opt$noinline$NegDouble(Double.MIN_VALUE));
      assertEquals(Double.MIN_VALUE, $opt$noinline$NegDouble(-Double.MIN_VALUE));
      assertEquals(-Double.MAX_VALUE, $opt$noinline$NegDouble(Double.MAX_VALUE));
      assertEquals(Double.MAX_VALUE, $opt$noinline$NegDouble(-Double.MAX_VALUE));

      assertEquals(Double.NEGATIVE_INFINITY, $opt$noinline$NegDouble(Double.POSITIVE_INFINITY));
      assertEquals(Double.POSITIVE_INFINITY, $opt$noinline$NegDouble(Double.NEGATIVE_INFINITY));
      assertIsNaN($opt$noinline$NegDouble(Double.NaN));
   }


   static boolean doThrow = false;

   private static void $opt$noinline$InplaceNegOneInt(int a) {
     if (doThrow) {
       // Try defeating inlining.
       throw new Error();
     }
     a = -a;
     assertEquals(-1, a);
   }

   private static void $opt$noinline$InplaceNegOneLong(long a) {
     if (doThrow) {
       // Try defeating inlining.
       throw new Error();
     }
     a = -a;
     assertEquals(-1L, a);
   }

   private static int $opt$noinline$NegInt(int a){
     if (doThrow) {
       // Try defeating inlining.
       throw new Error();
     }
     return -a;
   }

   private static long $opt$noinline$NegLong(long a){
     if (doThrow) {
       // Try defeating inlining.
       throw new Error();
     }
     return -a;
   }

   private static float $opt$noinline$NegFloat(float a){
     if (doThrow) {
       // Try defeating inlining.
       throw new Error();
     }
     return -a;
   }

   private static double $opt$noinline$NegDouble(double a){
     if (doThrow) {
       // Try defeating inlining.
       throw new Error();
     }
     return -a;
   }
 }
	/*
	* 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.
	*/

	// Note that $opt$ is a marker for the optimizing compiler to test
	// it does compile the method, and that $noinline$ is a marker to
	// test that it does not inline it.
	public class Main {

	public static void assertEquals(int expected, int result) {
	if (expected != result) {
	throw new Error("Expected: " + expected + ", found: " + result);
	}
	}

	public static void assertEquals(long expected, long result) {
	if (expected != result) {
	throw new Error("Expected: " + expected + ", found: " + result);
	}
	}

	public static void assertEquals(float expected, float result) {
	if (expected != result) {
	throw new Error("Expected: " + expected + ", found: " + result);
	}
	}

	public static void assertEquals(String expected, float result) {
	if (!expected.equals(new Float(result).toString())) {
	throw new Error("Expected: " + expected + ", found: " + result);
	}
	}

	public static void assertEquals(double expected, double result) {
	if (expected != result) {
	throw new Error("Expected: " + expected + ", found: " + result);
	}
	}

	public static void assertEquals(String expected, double result) {
	if (!expected.equals(new Double(result).toString())) {
	throw new Error("Expected: " + expected + ", found: " + result);
	}
	}

	public static void assertIsNaN(float result) {
	if (!Float.isNaN(result)) {
	throw new Error("Expected NaN: " + result);
	}
	}

	public static void assertIsNaN(double result) {
	if (!Double.isNaN(result)) {
	throw new Error("Expected NaN: " + result);
	}
	}

	public static void main(String[] args) {
	negInt();
	$opt$noinline$InplaceNegOneInt(1);

	negLong();
	$opt$noinline$InplaceNegOneLong(1L);

	negFloat();
	negDouble();
	}

	private static void negInt() {
	assertEquals(-1, $opt$noinline$NegInt(1));
	assertEquals(1, $opt$noinline$NegInt(-1));
	assertEquals(0, $opt$noinline$NegInt(0));
	assertEquals(51, $opt$noinline$NegInt(-51));
	assertEquals(-51, $opt$noinline$NegInt(51));
	assertEquals(2147483647, $opt$noinline$NegInt(-2147483647)); // -(2^31 - 1)
	assertEquals(-2147483647, $opt$noinline$NegInt(2147483647)); // 2^31 - 1
	// From the Java 7 SE Edition specification:
	// http://docs.oracle.com/javase/specs/jls/se7/html/jls-15.html#jls-15.15.4
	//
	// For integer values, negation is the same as subtraction from
	// zero. The Java programming language uses two's-complement
	// representation for integers, and the range of two's-complement
	// values is not symmetric, so negation of the maximum negative
	// int or long results in that same maximum negative number.
	// Overflow occurs in this case, but no exception is thrown.
	// For all integer values x, -x equals (~x)+1.''
	assertEquals(-2147483648, $opt$noinline$NegInt(-2147483648)); // -(2^31)
	}

	private static void negLong() {
	assertEquals(-1L, $opt$noinline$NegLong(1L));
	assertEquals(1L, $opt$noinline$NegLong(-1L));
	assertEquals(0L, $opt$noinline$NegLong(0L));
	assertEquals(51L, $opt$noinline$NegLong(-51L));
	assertEquals(-51L, $opt$noinline$NegLong(51L));

	assertEquals(2147483647L, $opt$noinline$NegLong(-2147483647L)); // -(2^31 - 1)
	assertEquals(-2147483647L, $opt$noinline$NegLong(2147483647L)); // (2^31 - 1)
	assertEquals(2147483648L, $opt$noinline$NegLong(-2147483648L)); // -(2^31)
	assertEquals(-2147483648L, $opt$noinline$NegLong(2147483648L)); // 2^31

	assertEquals(9223372036854775807L, $opt$noinline$NegLong(-9223372036854775807L)); // -(2^63 - 1)
	assertEquals(-9223372036854775807L, $opt$noinline$NegLong(9223372036854775807L)); // 2^63 - 1
	// See remark regarding the negation of the maximum negative
	// (long) value in negInt().
	assertEquals(-9223372036854775808L, $opt$noinline$NegLong(-9223372036854775808L)); // -(2^63)
	}

	private static void negFloat() {
	assertEquals("-0.0", $opt$noinline$NegFloat(0F));
	assertEquals("0.0", $opt$noinline$NegFloat(-0F));
	assertEquals(-1F, $opt$noinline$NegFloat(1F));
	assertEquals(1F, $opt$noinline$NegFloat(-1F));
	assertEquals(51F, $opt$noinline$NegFloat(-51F));
	assertEquals(-51F, $opt$noinline$NegFloat(51F));

	assertEquals(-0.1F, $opt$noinline$NegFloat(0.1F));
	assertEquals(0.1F, $opt$noinline$NegFloat(-0.1F));
	assertEquals(343597.38362F, $opt$noinline$NegFloat(-343597.38362F));
	assertEquals(-343597.38362F, $opt$noinline$NegFloat(343597.38362F));

	assertEquals(-Float.MIN_NORMAL, $opt$noinline$NegFloat(Float.MIN_NORMAL));
	assertEquals(Float.MIN_NORMAL, $opt$noinline$NegFloat(-Float.MIN_NORMAL));
	assertEquals(-Float.MIN_VALUE, $opt$noinline$NegFloat(Float.MIN_VALUE));
	assertEquals(Float.MIN_VALUE, $opt$noinline$NegFloat(-Float.MIN_VALUE));
	assertEquals(-Float.MAX_VALUE, $opt$noinline$NegFloat(Float.MAX_VALUE));
	assertEquals(Float.MAX_VALUE, $opt$noinline$NegFloat(-Float.MAX_VALUE));

	assertEquals(Float.NEGATIVE_INFINITY, $opt$noinline$NegFloat(Float.POSITIVE_INFINITY));
	assertEquals(Float.POSITIVE_INFINITY, $opt$noinline$NegFloat(Float.NEGATIVE_INFINITY));
	assertIsNaN($opt$noinline$NegFloat(Float.NaN));
	}

	private static void negDouble() {
	assertEquals("-0.0", $opt$noinline$NegDouble(0D));
	assertEquals("0.0", $opt$noinline$NegDouble(-0D));
	assertEquals(-1D, $opt$noinline$NegDouble(1D));
	assertEquals(1D, $opt$noinline$NegDouble(-1D));
	assertEquals(51D, $opt$noinline$NegDouble(-51D));
	assertEquals(-51D, $opt$noinline$NegDouble(51D));

	assertEquals(-0.1D, $opt$noinline$NegDouble(0.1D));
	assertEquals(0.1D, $opt$noinline$NegDouble(-0.1D));
	assertEquals(343597.38362D, $opt$noinline$NegDouble(-343597.38362D));
	assertEquals(-343597.38362D, $opt$noinline$NegDouble(343597.38362D));

	assertEquals(-Double.MIN_NORMAL, $opt$noinline$NegDouble(Double.MIN_NORMAL));
	assertEquals(Double.MIN_NORMAL, $opt$noinline$NegDouble(-Double.MIN_NORMAL));
	assertEquals(-Double.MIN_VALUE, $opt$noinline$NegDouble(Double.MIN_VALUE));
	assertEquals(Double.MIN_VALUE, $opt$noinline$NegDouble(-Double.MIN_VALUE));
	assertEquals(-Double.MAX_VALUE, $opt$noinline$NegDouble(Double.MAX_VALUE));
	assertEquals(Double.MAX_VALUE, $opt$noinline$NegDouble(-Double.MAX_VALUE));

	assertEquals(Double.NEGATIVE_INFINITY, $opt$noinline$NegDouble(Double.POSITIVE_INFINITY));
	assertEquals(Double.POSITIVE_INFINITY, $opt$noinline$NegDouble(Double.NEGATIVE_INFINITY));
	assertIsNaN($opt$noinline$NegDouble(Double.NaN));
	}


	static boolean doThrow = false;

	private static void $opt$noinline$InplaceNegOneInt(int a) {
	if (doThrow) {
	// Try defeating inlining.
	throw new Error();
	}
	a = -a;
	assertEquals(-1, a);
	}

	private static void $opt$noinline$InplaceNegOneLong(long a) {
	if (doThrow) {
	// Try defeating inlining.
	throw new Error();
	}
	a = -a;
	assertEquals(-1L, a);
	}

	private static int $opt$noinline$NegInt(int a){
	if (doThrow) {
	// Try defeating inlining.
	throw new Error();
	}
	return -a;
	}

	private static long $opt$noinline$NegLong(long a){
	if (doThrow) {
	// Try defeating inlining.
	throw new Error();
	}
	return -a;
	}

	private static float $opt$noinline$NegFloat(float a){
	if (doThrow) {
	// Try defeating inlining.
	throw new Error();
	}
	return -a;
	}

	private static double $opt$noinline$NegDouble(double a){
	if (doThrow) {
	// Try defeating inlining.
	throw new Error();
	}
	return -a;
	}
	}