hotspot/src/jdk.vm.compiler/share/classes/org.graalvm.compiler.word/src/org/graalvm/compiler/word/Unsigned.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2012, 2012, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */
 package org.graalvm.compiler.word;

 public interface Unsigned extends ComparableWord {

     /**
      * Returns a Unsigned whose value is {@code (this + val)}.
      *
      * @param val value to be added to this Unsigned.
      * @return {@code this + val}
      */
     Unsigned add(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (this - val)}.
      *
      * @param val value to be subtracted from this Unsigned.
      * @return {@code this - val}
      */
     Unsigned subtract(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (this * val)}.
      *
      * @param val value to be multiplied by this Unsigned.
      * @return {@code this * val}
      */
     Unsigned multiply(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (this / val)}.
      *
      * @param val value by which this Unsigned is to be divided.
      * @return {@code this / val}
      */
     Unsigned unsignedDivide(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (this % val)}.
      *
      * @param val value by which this Unsigned is to be divided, and the remainder computed.
      * @return {@code this % val}
      */
     Unsigned unsignedRemainder(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (this << n)}.
      *
      * @param n shift distance, in bits.
      * @return {@code this << n}
      */
     Unsigned shiftLeft(Unsigned n);

     /**
      * Returns a Unsigned whose value is {@code (this >>> n)}. No sign extension is performed.
      *
      * @param n shift distance, in bits.
      * @return {@code this >> n}
      */
     Unsigned unsignedShiftRight(Unsigned n);

     /**
      * Returns a Unsigned whose value is {@code (this & val)}.
      *
      * @param val value to be AND'ed with this Unsigned.
      * @return {@code this & val}
      */
     Unsigned and(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (this | val)}.
      *
      * @param val value to be OR'ed with this Unsigned.
      * @return {@code this | val}
      */
     Unsigned or(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (this ^ val)}.
      *
      * @param val value to be XOR'ed with this Unsigned.
      * @return {@code this ^ val}
      */
     Unsigned xor(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (~this)}.
      *
      * @return {@code ~this}
      */
     Unsigned not();

     /**
      * Compares this Unsigned with the specified value.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this == val}
      */
     boolean equal(Unsigned val);

     /**
      * Compares this Unsigned with the specified value.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this != val}
      */
     boolean notEqual(Unsigned val);

     /**
      * Compares this Unsigned with the specified value.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this < val}
      */
     boolean belowThan(Unsigned val);

     /**
      * Compares this Unsigned with the specified value.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this <= val}
      */
     boolean belowOrEqual(Unsigned val);

     /**
      * Compares this Unsigned with the specified value.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this > val}
      */
     boolean aboveThan(Unsigned val);

     /**
      * Compares this Unsigned with the specified value.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this >= val}
      */
     boolean aboveOrEqual(Unsigned val);

     /**
      * Returns a Unsigned whose value is {@code (this + val)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to be added to this Unsigned.
      * @return {@code this + val}
      */
     Unsigned add(int val);

     /**
      * Returns a Unsigned whose value is {@code (this - val)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to be subtracted from this Unsigned.
      * @return {@code this - val}
      */
     Unsigned subtract(int val);

     /**
      * Returns a Unsigned whose value is {@code (this * val)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to be multiplied by this Unsigned.
      * @return {@code this * val}
      */
     Unsigned multiply(int val);

     /**
      * Returns a Unsigned whose value is {@code (this / val)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value by which this Unsigned is to be divided.
      * @return {@code this / val}
      */
     Unsigned unsignedDivide(int val);

     /**
      * Returns a Unsigned whose value is {@code (this % val)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value by which this Unsigned is to be divided, and the remainder computed.
      * @return {@code this % val}
      */
     Unsigned unsignedRemainder(int val);

     /**
      * Returns a Unsigned whose value is {@code (this << n)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param n shift distance, in bits.
      * @return {@code this << n}
      */
     Unsigned shiftLeft(int n);

     /**
      * Returns a Unsigned whose value is {@code (this >>> n)}. No sign extension is performed.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param n shift distance, in bits.
      * @return {@code this >> n}
      */
     Unsigned unsignedShiftRight(int n);

     /**
      * Returns a Unsigned whose value is {@code (this & val)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to be AND'ed with this Unsigned.
      * @return {@code this & val}
      */
     Unsigned and(int val);

     /**
      * Returns a Unsigned whose value is {@code (this | val)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to be OR'ed with this Unsigned.
      * @return {@code this | val}
      */
     Unsigned or(int val);

     /**
      * Returns a Unsigned whose value is {@code (this ^ val)}.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to be XOR'ed with this Unsigned.
      * @return {@code this ^ val}
      */
     Unsigned xor(int val);

     /**
      * Compares this Unsigned with the specified value.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this == val}
      */
     boolean equal(int val);

     /**
      * Compares this Unsigned with the specified value.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this != val}
      */
     boolean notEqual(int val);

     /**
      * Compares this Unsigned with the specified value.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this < val}
      */
     boolean belowThan(int val);

     /**
      * Compares this Unsigned with the specified value.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this <= val}
      */
     boolean belowOrEqual(int val);

     /**
      * Compares this Unsigned with the specified value.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this > val}
      */
     boolean aboveThan(int val);

     /**
      * Compares this Unsigned with the specified value.
      * <p>
      * Note that the right operand is a signed value, while the operation is performed unsigned.
      * Therefore, the result is only well-defined for positive right operands.
      *
      * @param val value to which this Unsigned is to be compared.
      * @return {@code this >= val}
      */
     boolean aboveOrEqual(int val);
 }
	/*
	* Copyright (c) 2012, 2012, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/
	package org.graalvm.compiler.word;

	public interface Unsigned extends ComparableWord {

	/**
	* Returns a Unsigned whose value is {@code (this + val)}.
	*
	* @param val value to be added to this Unsigned.
	* @return {@code this + val}
	*/
	Unsigned add(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (this - val)}.
	*
	* @param val value to be subtracted from this Unsigned.
	* @return {@code this - val}
	*/
	Unsigned subtract(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (this * val)}.
	*
	* @param val value to be multiplied by this Unsigned.
	* @return {@code this * val}
	*/
	Unsigned multiply(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (this / val)}.
	*
	* @param val value by which this Unsigned is to be divided.
	* @return {@code this / val}
	*/
	Unsigned unsignedDivide(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (this % val)}.
	*
	* @param val value by which this Unsigned is to be divided, and the remainder computed.
	* @return {@code this % val}
	*/
	Unsigned unsignedRemainder(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (this << n)}.
	*
	* @param n shift distance, in bits.
	* @return {@code this << n}
	*/
	Unsigned shiftLeft(Unsigned n);

	/**
	* Returns a Unsigned whose value is {@code (this >>> n)}. No sign extension is performed.
	*
	* @param n shift distance, in bits.
	* @return {@code this >> n}
	*/
	Unsigned unsignedShiftRight(Unsigned n);

	/**
	* Returns a Unsigned whose value is {@code (this & val)}.
	*
	* @param val value to be AND'ed with this Unsigned.
	* @return {@code this & val}
	*/
	Unsigned and(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (this \| val)}.
	*
	* @param val value to be OR'ed with this Unsigned.
	* @return {@code this \| val}
	*/
	Unsigned or(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (this ^ val)}.
	*
	* @param val value to be XOR'ed with this Unsigned.
	* @return {@code this ^ val}
	*/
	Unsigned xor(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (~this)}.
	*
	* @return {@code ~this}
	*/
	Unsigned not();

	/**
	* Compares this Unsigned with the specified value.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this == val}
	*/
	boolean equal(Unsigned val);

	/**
	* Compares this Unsigned with the specified value.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this != val}
	*/
	boolean notEqual(Unsigned val);

	/**
	* Compares this Unsigned with the specified value.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this < val}
	*/
	boolean belowThan(Unsigned val);

	/**
	* Compares this Unsigned with the specified value.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this <= val}
	*/
	boolean belowOrEqual(Unsigned val);

	/**
	* Compares this Unsigned with the specified value.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this > val}
	*/
	boolean aboveThan(Unsigned val);

	/**
	* Compares this Unsigned with the specified value.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this >= val}
	*/
	boolean aboveOrEqual(Unsigned val);

	/**
	* Returns a Unsigned whose value is {@code (this + val)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to be added to this Unsigned.
	* @return {@code this + val}
	*/
	Unsigned add(int val);

	/**
	* Returns a Unsigned whose value is {@code (this - val)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to be subtracted from this Unsigned.
	* @return {@code this - val}
	*/
	Unsigned subtract(int val);

	/**
	* Returns a Unsigned whose value is {@code (this * val)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to be multiplied by this Unsigned.
	* @return {@code this * val}
	*/
	Unsigned multiply(int val);

	/**
	* Returns a Unsigned whose value is {@code (this / val)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value by which this Unsigned is to be divided.
	* @return {@code this / val}
	*/
	Unsigned unsignedDivide(int val);

	/**
	* Returns a Unsigned whose value is {@code (this % val)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value by which this Unsigned is to be divided, and the remainder computed.
	* @return {@code this % val}
	*/
	Unsigned unsignedRemainder(int val);

	/**
	* Returns a Unsigned whose value is {@code (this << n)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param n shift distance, in bits.
	* @return {@code this << n}
	*/
	Unsigned shiftLeft(int n);

	/**
	* Returns a Unsigned whose value is {@code (this >>> n)}. No sign extension is performed.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param n shift distance, in bits.
	* @return {@code this >> n}
	*/
	Unsigned unsignedShiftRight(int n);

	/**
	* Returns a Unsigned whose value is {@code (this & val)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to be AND'ed with this Unsigned.
	* @return {@code this & val}
	*/
	Unsigned and(int val);

	/**
	* Returns a Unsigned whose value is {@code (this \| val)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to be OR'ed with this Unsigned.
	* @return {@code this \| val}
	*/
	Unsigned or(int val);

	/**
	* Returns a Unsigned whose value is {@code (this ^ val)}.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to be XOR'ed with this Unsigned.
	* @return {@code this ^ val}
	*/
	Unsigned xor(int val);

	/**
	* Compares this Unsigned with the specified value.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this == val}
	*/
	boolean equal(int val);

	/**
	* Compares this Unsigned with the specified value.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this != val}
	*/
	boolean notEqual(int val);

	/**
	* Compares this Unsigned with the specified value.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this < val}
	*/
	boolean belowThan(int val);

	/**
	* Compares this Unsigned with the specified value.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this <= val}
	*/
	boolean belowOrEqual(int val);

	/**
	* Compares this Unsigned with the specified value.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this > val}
	*/
	boolean aboveThan(int val);

	/**
	* Compares this Unsigned with the specified value.
	* <p>
	* Note that the right operand is a signed value, while the operation is performed unsigned.
	* Therefore, the result is only well-defined for positive right operands.
	*
	* @param val value to which this Unsigned is to be compared.
	* @return {@code this >= val}
	*/
	boolean aboveOrEqual(int val);
	}