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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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.
 */
package org.apache.commons.lang.math;

import java.io.Serializable;

/**
 *  

FloatRange represents an inclusive range of floats.

* * @author Apache Software Foundation * @since 2.0 * @version $Id: FloatRange.java 905636 2010-02-02 14:03:32Z niallp $ * * @deprecated Commons Lang 2 is in maintenance mode. Commons Lang 3 should be used instead. */ @Deprecated(since = "2021-04-30") public final class FloatRange extends Range implements Serializable { /** * Required for serialization support. * * @see java.io.Serializable */ private static final long serialVersionUID = 71849363892750L; /** * The minimum number in this range (inclusive). */ private final float min; /** * The maximum number in this range (inclusive). */ private final float max; /** * Cached output minObject (class is immutable). */ private transient Float minObject = null; /** * Cached output maxObject (class is immutable). */ private transient Float maxObject = null; /** * Cached output hashCode (class is immutable). */ private transient int hashCode = 0; /** * Cached output toString (class is immutable). */ private transient String toString = null; /** *

Constructs a new FloatRange using the specified * number as both the minimum and maximum in this range.

* * @param number the number to use for this range * @throws IllegalArgumentException if the number is NaN */ public FloatRange(float number) { super(); if (Float.isNaN(number)) { throw new IllegalArgumentException("The number must not be NaN"); } this.min = number; this.max = number; } /** *

Constructs a new FloatRange using the specified * number as both the minimum and maximum in this range.

* * @param number the number to use for this range, must not * be null * @throws IllegalArgumentException if the number is null * @throws IllegalArgumentException if the number is NaN */ public FloatRange(Number number) { super(); if (number == null) { throw new IllegalArgumentException("The number must not be null"); } this.min = number.floatValue(); this.max = number.floatValue(); if (Float.isNaN(min) || Float.isNaN(max)) { throw new IllegalArgumentException("The number must not be NaN"); } if (number instanceof Float) { this.minObject = (Float) number; this.maxObject = (Float) number; } } /** *

Constructs a new FloatRange with the specified * minimum and maximum numbers (both inclusive).

* *

The arguments may be passed in the order (min,max) or (max,min). The * getMinimum and getMaximum methods will return the correct values.

* * @param number1 first number that defines the edge of the range, inclusive * @param number2 second number that defines the edge of the range, inclusive * @throws IllegalArgumentException if either number is NaN */ public FloatRange(float number1, float number2) { super(); if (Float.isNaN(number1) || Float.isNaN(number2)) { throw new IllegalArgumentException("The numbers must not be NaN"); } if (number2 < number1) { this.min = number2; this.max = number1; } else { this.min = number1; this.max = number2; } } /** *

Constructs a new FloatRange with the specified * minimum and maximum numbers (both inclusive).

* *

The arguments may be passed in the order (min,max) or (max,min). The * getMinimum and getMaximum methods will return the correct values.

* * @param number1 first number that defines the edge of the range, inclusive * @param number2 second number that defines the edge of the range, inclusive * @throws IllegalArgumentException if either number is null * @throws IllegalArgumentException if either number is NaN */ public FloatRange(Number number1, Number number2) { super(); if (number1 == null || number2 == null) { throw new IllegalArgumentException("The numbers must not be null"); } float number1val = number1.floatValue(); float number2val = number2.floatValue(); if (Float.isNaN(number1val) || Float.isNaN(number2val)) { throw new IllegalArgumentException("The numbers must not be NaN"); } if (number2val < number1val) { this.min = number2val; this.max = number1val; if (number2 instanceof Float) { this.minObject = (Float) number2; } if (number1 instanceof Float) { this.maxObject = (Float) number1; } } else { this.min = number1val; this.max = number2val; if (number1 instanceof Float) { this.minObject = (Float) number1; } if (number2 instanceof Float) { this.maxObject = (Float) number2; } } } // Accessors // -------------------------------------------------------------------- /** *

Returns the minimum number in this range.

* * @return the minimum number in this range */ public Number getMinimumNumber() { if (minObject == null) { minObject = new Float(min); } return minObject; } /** *

Gets the minimum number in this range as a long.

* *

This conversion can lose information for large values or decimals.

* * @return the minimum number in this range */ public long getMinimumLong() { return (long) min; } /** *

Gets the minimum number in this range as a int.

* *

This conversion can lose information for large values or decimals.

* * @return the minimum number in this range */ public int getMinimumInteger() { return (int) min; } /** *

Gets the minimum number in this range as a double.

* * @return the minimum number in this range */ public double getMinimumDouble() { return min; } /** *

Gets the minimum number in this range as a float.

* * @return the minimum number in this range */ public float getMinimumFloat() { return min; } /** *

Returns the maximum number in this range.

* * @return the maximum number in this range */ public Number getMaximumNumber() { if (maxObject == null) { maxObject = new Float(max); } return maxObject; } /** *

Gets the maximum number in this range as a long.

* *

This conversion can lose information for large values or decimals.

* * @return the maximum number in this range */ public long getMaximumLong() { return (long) max; } /** *

Gets the maximum number in this range as a int.

* *

This conversion can lose information for large values or decimals.

* * @return the maximum number in this range */ public int getMaximumInteger() { return (int) max; } /** *

Gets the maximum number in this range as a double.

* * @return the maximum number in this range */ public double getMaximumDouble() { return max; } /** *

Gets the maximum number in this range as a float.

* * @return the maximum number in this range */ public float getMaximumFloat() { return max; } // Tests // -------------------------------------------------------------------- /** *

Tests whether the specified number occurs within * this range using float comparison.

* *

null is handled and returns false.

* * @param number the number to test, may be null * @return true if the specified number occurs within this range */ public boolean containsNumber(Number number) { if (number == null) { return false; } return containsFloat(number.floatValue()); } /** *

Tests whether the specified float occurs within * this range using float comparison.

* *

This implementation overrides the superclass for performance as it is * the most common case.

* * @param value the float to test * @return true if the specified number occurs within this * range by float comparison */ public boolean containsFloat(float value) { return value >= min && value <= max; } // Range tests // -------------------------------------------------------------------- /** *

Tests whether the specified range occurs entirely within this range * using float comparison.

* *

null is handled and returns false.

* * @param range the range to test, may be null * @return true if the specified range occurs entirely within this range * @throws IllegalArgumentException if the range is not of this type */ public boolean containsRange(Range range) { if (range == null) { return false; } return containsFloat(range.getMinimumFloat()) && containsFloat(range.getMaximumFloat()); } /** *

Tests whether the specified range overlaps with this range * using float comparison.

* *

null is handled and returns false.

* * @param range the range to test, may be null * @return true if the specified range overlaps with this range */ public boolean overlapsRange(Range range) { if (range == null) { return false; } return range.containsFloat(min) || range.containsFloat(max) || containsFloat(range.getMinimumFloat()); } // Basics // -------------------------------------------------------------------- /** *

Compares this range to another object to test if they are equal.

. * *

To be equal, the class, minimum and maximum must be equal.

* * @param obj the reference object with which to compare * @return true if this object is equal */ public boolean equals(Object obj) { if (obj == this) { return true; } if (obj instanceof FloatRange == false) { return false; } FloatRange range = (FloatRange) obj; return (Float.floatToIntBits(min) == Float.floatToIntBits(range.min) && Float.floatToIntBits(max) == Float.floatToIntBits(range.max)); } /** *

Gets a hashCode for the range.

* * @return a hash code value for this object */ public int hashCode() { if (hashCode == 0) { hashCode = 17; hashCode = 37 * hashCode + getClass().hashCode(); hashCode = 37 * hashCode + Float.floatToIntBits(min); hashCode = 37 * hashCode + Float.floatToIntBits(max); } return hashCode; } /** *

Gets the range as a String.

* *

The format of the String is 'Range[min,max]'.

* * @return the String representation of this range */ public String toString() { if (toString == null) { StringBuffer buf = new StringBuffer(32); buf.append("Range["); buf.append(min); buf.append(','); buf.append(max); buf.append(']'); toString = buf.toString(); } return toString; } }




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