src/com/sun/org/apache/xpath/internal/objects/XNumber.java - platform/external/jetbrains/jdk8u_jaxp - Git at Google

 /*
  * reserved comment block
  * DO NOT REMOVE OR ALTER!
  */
 /*
  * Copyright 1999-2004 The Apache Software Foundation.
  *
  * 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.
  */
 /*
  * $Id: XNumber.java,v 1.2.4.2 2005/09/14 20:34:46 jeffsuttor Exp $
  */
 package com.sun.org.apache.xpath.internal.objects;

 import com.sun.org.apache.xpath.internal.ExpressionOwner;
 import com.sun.org.apache.xpath.internal.XPathContext;
 import com.sun.org.apache.xpath.internal.XPathVisitor;

 /**
  * This class represents an XPath number, and is capable of
  * converting the number to other types, such as a string.
  * @xsl.usage general
  */
 public class XNumber extends XObject
 {
     static final long serialVersionUID = -2720400709619020193L;

   /** Value of the XNumber object.
    *  @serial         */
   double m_val;

   /**
    * Construct a XNodeSet object.
    *
    * @param d Value of the object
    */
   public XNumber(double d)
   {
     super();

     m_val = d;
   }

   /**
    * Construct a XNodeSet object.
    *
    * @param num Value of the object
    */
   public XNumber(Number num)
   {

     super();

     m_val = num.doubleValue();
     setObject(num);
   }

   /**
    * Tell that this is a CLASS_NUMBER.
    *
    * @return node type CLASS_NUMBER
    */
   public int getType()
   {
     return CLASS_NUMBER;
   }

   /**
    * Given a request type, return the equivalent string.
    * For diagnostic purposes.
    *
    * @return type string "#NUMBER"
    */
   public String getTypeString()
   {
     return "#NUMBER";
   }

   /**
    * Cast result object to a number.
    *
    * @return the value of the XNumber object
    */
   public double num()
   {
     return m_val;
   }

   /**
    * Evaluate expression to a number.
    *
    * @return 0.0
    *
    * @throws javax.xml.transform.TransformerException
    */
   public double num(XPathContext xctxt)
     throws javax.xml.transform.TransformerException
   {

     return m_val;
   }

   /**
    * Cast result object to a boolean.
    *
    * @return false if the value is NaN or equal to 0.0
    */
   public boolean bool()
   {
     return (Double.isNaN(m_val) || (m_val == 0.0)) ? false : true;
   }

 //  /**
 //   * Cast result object to a string.
 //   *
 //   * @return "NaN" if the number is NaN, Infinity or -Infinity if
 //   * the number is infinite or the string value of the number.
 //   */
 //  private static final int PRECISION = 16;
 //  public String str()
 //  {
 //
 //    if (Double.isNaN(m_val))
 //    {
 //      return "NaN";
 //    }
 //    else if (Double.isInfinite(m_val))
 //    {
 //      if (m_val > 0)
 //        return "Infinity";
 //      else
 //        return "-Infinity";
 //    }
 //
 //    long longVal = (long)m_val;
 //    if ((double)longVal == m_val)
 //      return Long.toString(longVal);
 //
 //
 //    String s = Double.toString(m_val);
 //    int len = s.length();
 //
 //    if (s.charAt(len - 2) == '.' && s.charAt(len - 1) == '0')
 //    {
 //      return s.substring(0, len - 2);
 //    }
 //
 //    int exp = 0;
 //    int e = s.indexOf('E');
 //    if (e != -1)
 //    {
 //      exp = Integer.parseInt(s.substring(e + 1));
 //      s = s.substring(0,e);
 //      len = e;
 //    }
 //
 //    // Calculate Significant Digits:
 //    // look from start of string for first digit
 //    // look from end for last digit
 //    // significant digits = end - start + (0 or 1 depending on decimal location)
 //
 //    int decimalPos = -1;
 //    int start = (s.charAt(0) == '-') ? 1 : 0;
 //    findStart: for( ; start < len; start++ )
 //    {
 //      switch (s.charAt(start))
 //      {
 //      case '0':
 //        break;
 //      case '.':
 //        decimalPos = start;
 //        break;
 //      default:
 //        break findStart;
 //      }
 //    }
 //    int end = s.length() - 1;
 //    findEnd: for( ; end > start; end-- )
 //    {
 //      switch (s.charAt(end))
 //      {
 //      case '0':
 //        break;
 //      case '.':
 //        decimalPos = end;
 //        break;
 //      default:
 //        break findEnd;
 //      }
 //    }
 //
 //    int sigDig = end - start;
 //
 //    // clarify decimal location if it has not yet been found
 //    if (decimalPos == -1)
 //      decimalPos = s.indexOf('.');
 //
 //    // if decimal is not between start and end, add one to sigDig
 //    if (decimalPos < start || decimalPos > end)
 //      ++sigDig;
 //
 //    // reduce significant digits to PRECISION if necessary
 //    if (sigDig > PRECISION)
 //    {
 //      // re-scale BigDecimal in order to get significant digits = PRECISION
 //      BigDecimal num = new BigDecimal(s);
 //      int newScale = num.scale() - (sigDig - PRECISION);
 //      if (newScale < 0)
 //        newScale = 0;
 //      s = num.setScale(newScale, BigDecimal.ROUND_HALF_UP).toString();
 //
 //      // remove trailing '0's; keep track of decimalPos
 //      int truncatePoint = s.length();
 //      while (s.charAt(--truncatePoint) == '0')
 //        ;
 //
 //      if (s.charAt(truncatePoint) == '.')
 //      {
 //        decimalPos = truncatePoint;
 //      }
 //      else
 //      {
 //        decimalPos = s.indexOf('.');
 //        truncatePoint += 1;
 //      }
 //
 //      s = s.substring(0, truncatePoint);
 //      len = s.length();
 //    }
 //
 //    // Account for exponent by adding zeros as needed
 //    // and moving the decimal place
 //
 //    if (exp == 0)
 //       return s;
 //
 //    start = 0;
 //    String sign;
 //    if (s.charAt(0) == '-')
 //    {
 //      sign = "-";
 //      start++;
 //    }
 //    else
 //      sign = "";
 //
 //    String wholePart = s.substring(start, decimalPos);
 //    String decimalPart = s.substring(decimalPos + 1);
 //
 //    // get the number of digits right of the decimal
 //    int decimalLen = decimalPart.length();
 //
 //    if (exp >= decimalLen)
 //      return sign + wholePart + decimalPart + zeros(exp - decimalLen);
 //
 //    if (exp > 0)
 //      return sign + wholePart + decimalPart.substring(0, exp) + "."
 //             + decimalPart.substring(exp);
 //
 //    return sign + "0." + zeros(-1 - exp) + wholePart + decimalPart;
 //  }

   /**
    * Cast result object to a string.
    *
    * @return "NaN" if the number is NaN, Infinity or -Infinity if
    * the number is infinite or the string value of the number.
    */
   public String str()
   {

     if (Double.isNaN(m_val))
     {
       return "NaN";
     }
     else if (Double.isInfinite(m_val))
     {
       if (m_val > 0)
         return "Infinity";
       else
         return "-Infinity";
     }

     double num = m_val;
     String s = Double.toString(num);
     int len = s.length();

     if (s.charAt(len - 2) == '.' && s.charAt(len - 1) == '0')
     {
       s = s.substring(0, len - 2);

       if (s.equals("-0"))
         return "0";

       return s;
     }

     int e = s.indexOf('E');

     if (e < 0)
     {
       if (s.charAt(len - 1) == '0')
         return s.substring(0, len - 1);
       else
         return s;
     }

     int exp = Integer.parseInt(s.substring(e + 1));
     String sign;

     if (s.charAt(0) == '-')
     {
       sign = "-";
       s = s.substring(1);

       --e;
     }
     else
       sign = "";

     int nDigits = e - 2;

     if (exp >= nDigits)
       return sign + s.substring(0, 1) + s.substring(2, e)
              + zeros(exp - nDigits);

     // Eliminate trailing 0's - bugzilla 14241
     while (s.charAt(e-1) == '0')
       e--;

     if (exp > 0)
       return sign + s.substring(0, 1) + s.substring(2, 2 + exp) + "."
              + s.substring(2 + exp, e);

     return sign + "0." + zeros(-1 - exp) + s.substring(0, 1)
            + s.substring(2, e);
   }


   /**
    * Return a string of '0' of the given length
    *
    *
    * @param n Length of the string to be returned
    *
    * @return a string of '0' with the given length
    */
   static private String zeros(int n)
   {
     if (n < 1)
       return "";

     char[] buf = new char[n];

     for (int i = 0; i < n; i++)
     {
       buf[i] = '0';
     }

     return new String(buf);
   }

   /**
    * Return a java object that's closest to the representation
    * that should be handed to an extension.
    *
    * @return The value of this XNumber as a Double object
    */
   public Object object()
   {
     if(null == m_obj)
       setObject(new Double(m_val));
     return m_obj;
   }

   /**
    * Tell if two objects are functionally equal.
    *
    * @param obj2 Object to compare this to
    *
    * @return true if the two objects are equal
    *
    * @throws javax.xml.transform.TransformerException
    */
   public boolean equals(XObject obj2)
   {

     // In order to handle the 'all' semantics of
     // nodeset comparisons, we always call the
     // nodeset function.
     int t = obj2.getType();
     try
     {
             if (t == XObject.CLASS_NODESET)
               return obj2.equals(this);
             else if(t == XObject.CLASS_BOOLEAN)
               return obj2.bool() == bool();
                 else
                return m_val == obj2.num();
     }
     catch(javax.xml.transform.TransformerException te)
     {
       throw new com.sun.org.apache.xml.internal.utils.WrappedRuntimeException(te);
     }
   }

   /**
    * Tell if this expression returns a stable number that will not change during
    * iterations within the expression.  This is used to determine if a proximity
    * position predicate can indicate that no more searching has to occur.
    *
    *
    * @return true if the expression represents a stable number.
    */
   public boolean isStableNumber()
   {
     return true;
   }

   /**
    * @see com.sun.org.apache.xpath.internal.XPathVisitable#callVisitors(ExpressionOwner, XPathVisitor)
    */
   public void callVisitors(ExpressionOwner owner, XPathVisitor visitor)
   {
         visitor.visitNumberLiteral(owner, this);
   }


 }
	/*
	* reserved comment block
	* DO NOT REMOVE OR ALTER!
	*/
	/*
	* Copyright 1999-2004 The Apache Software Foundation.
	*
	* 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.
	*/
	/*
	* $Id: XNumber.java,v 1.2.4.2 2005/09/14 20:34:46 jeffsuttor Exp $
	*/
	package com.sun.org.apache.xpath.internal.objects;

	import com.sun.org.apache.xpath.internal.ExpressionOwner;
	import com.sun.org.apache.xpath.internal.XPathContext;
	import com.sun.org.apache.xpath.internal.XPathVisitor;

	/**
	* This class represents an XPath number, and is capable of
	* converting the number to other types, such as a string.
	* @xsl.usage general
	*/
	public class XNumber extends XObject
	{
	static final long serialVersionUID = -2720400709619020193L;

	/** Value of the XNumber object.
	* @serial */
	double m_val;

	/**
	* Construct a XNodeSet object.
	*
	* @param d Value of the object
	*/
	public XNumber(double d)
	{
	super();

	m_val = d;
	}

	/**
	* Construct a XNodeSet object.
	*
	* @param num Value of the object
	*/
	public XNumber(Number num)
	{

	super();

	m_val = num.doubleValue();
	setObject(num);
	}

	/**
	* Tell that this is a CLASS_NUMBER.
	*
	* @return node type CLASS_NUMBER
	*/
	public int getType()
	{
	return CLASS_NUMBER;
	}

	/**
	* Given a request type, return the equivalent string.
	* For diagnostic purposes.
	*
	* @return type string "#NUMBER"
	*/
	public String getTypeString()
	{
	return "#NUMBER";
	}

	/**
	* Cast result object to a number.
	*
	* @return the value of the XNumber object
	*/
	public double num()
	{
	return m_val;
	}

	/**
	* Evaluate expression to a number.
	*
	* @return 0.0
	*
	* @throws javax.xml.transform.TransformerException
	*/
	public double num(XPathContext xctxt)
	throws javax.xml.transform.TransformerException
	{

	return m_val;
	}

	/**
	* Cast result object to a boolean.
	*
	* @return false if the value is NaN or equal to 0.0
	*/
	public boolean bool()
	{
	return (Double.isNaN(m_val) \|\| (m_val == 0.0)) ? false : true;
	}

	// /**
	// * Cast result object to a string.
	// *
	// * @return "NaN" if the number is NaN, Infinity or -Infinity if
	// * the number is infinite or the string value of the number.
	// */
	// private static final int PRECISION = 16;
	// public String str()
	// {
	//
	// if (Double.isNaN(m_val))
	// {
	// return "NaN";
	// }
	// else if (Double.isInfinite(m_val))
	// {
	// if (m_val > 0)
	// return "Infinity";
	// else
	// return "-Infinity";
	// }
	//
	// long longVal = (long)m_val;
	// if ((double)longVal == m_val)
	// return Long.toString(longVal);
	//
	//
	// String s = Double.toString(m_val);
	// int len = s.length();
	//
	// if (s.charAt(len - 2) == '.' && s.charAt(len - 1) == '0')
	// {
	// return s.substring(0, len - 2);
	// }
	//
	// int exp = 0;
	// int e = s.indexOf('E');
	// if (e != -1)
	// {
	// exp = Integer.parseInt(s.substring(e + 1));
	// s = s.substring(0,e);
	// len = e;
	// }
	//
	// // Calculate Significant Digits:
	// // look from start of string for first digit
	// // look from end for last digit
	// // significant digits = end - start + (0 or 1 depending on decimal location)
	//
	// int decimalPos = -1;
	// int start = (s.charAt(0) == '-') ? 1 : 0;
	// findStart: for( ; start < len; start++ )
	// {
	// switch (s.charAt(start))
	// {
	// case '0':
	// break;
	// case '.':
	// decimalPos = start;
	// break;
	// default:
	// break findStart;
	// }
	// }
	// int end = s.length() - 1;
	// findEnd: for( ; end > start; end-- )
	// {
	// switch (s.charAt(end))
	// {
	// case '0':
	// break;
	// case '.':
	// decimalPos = end;
	// break;
	// default:
	// break findEnd;
	// }
	// }
	//
	// int sigDig = end - start;
	//
	// // clarify decimal location if it has not yet been found
	// if (decimalPos == -1)
	// decimalPos = s.indexOf('.');
	//
	// // if decimal is not between start and end, add one to sigDig
	// if (decimalPos < start \|\| decimalPos > end)
	// ++sigDig;
	//
	// // reduce significant digits to PRECISION if necessary
	// if (sigDig > PRECISION)
	// {
	// // re-scale BigDecimal in order to get significant digits = PRECISION
	// BigDecimal num = new BigDecimal(s);
	// int newScale = num.scale() - (sigDig - PRECISION);
	// if (newScale < 0)
	// newScale = 0;
	// s = num.setScale(newScale, BigDecimal.ROUND_HALF_UP).toString();
	//
	// // remove trailing '0's; keep track of decimalPos
	// int truncatePoint = s.length();
	// while (s.charAt(--truncatePoint) == '0')
	// ;
	//
	// if (s.charAt(truncatePoint) == '.')
	// {
	// decimalPos = truncatePoint;
	// }
	// else
	// {
	// decimalPos = s.indexOf('.');
	// truncatePoint += 1;
	// }
	//
	// s = s.substring(0, truncatePoint);
	// len = s.length();
	// }
	//
	// // Account for exponent by adding zeros as needed
	// // and moving the decimal place
	//
	// if (exp == 0)
	// return s;
	//
	// start = 0;
	// String sign;
	// if (s.charAt(0) == '-')
	// {
	// sign = "-";
	// start++;
	// }
	// else
	// sign = "";
	//
	// String wholePart = s.substring(start, decimalPos);
	// String decimalPart = s.substring(decimalPos + 1);
	//
	// // get the number of digits right of the decimal
	// int decimalLen = decimalPart.length();
	//
	// if (exp >= decimalLen)
	// return sign + wholePart + decimalPart + zeros(exp - decimalLen);
	//
	// if (exp > 0)
	// return sign + wholePart + decimalPart.substring(0, exp) + "."
	// + decimalPart.substring(exp);
	//
	// return sign + "0." + zeros(-1 - exp) + wholePart + decimalPart;
	// }

	/**
	* Cast result object to a string.
	*
	* @return "NaN" if the number is NaN, Infinity or -Infinity if
	* the number is infinite or the string value of the number.
	*/
	public String str()
	{

	if (Double.isNaN(m_val))
	{
	return "NaN";
	}
	else if (Double.isInfinite(m_val))
	{
	if (m_val > 0)
	return "Infinity";
	else
	return "-Infinity";
	}

	double num = m_val;
	String s = Double.toString(num);
	int len = s.length();

	if (s.charAt(len - 2) == '.' && s.charAt(len - 1) == '0')
	{
	s = s.substring(0, len - 2);

	if (s.equals("-0"))
	return "0";

	return s;
	}

	int e = s.indexOf('E');

	if (e < 0)
	{
	if (s.charAt(len - 1) == '0')
	return s.substring(0, len - 1);
	else
	return s;
	}

	int exp = Integer.parseInt(s.substring(e + 1));
	String sign;

	if (s.charAt(0) == '-')
	{
	sign = "-";
	s = s.substring(1);

	--e;
	}
	else
	sign = "";

	int nDigits = e - 2;

	if (exp >= nDigits)
	return sign + s.substring(0, 1) + s.substring(2, e)
	+ zeros(exp - nDigits);

	// Eliminate trailing 0's - bugzilla 14241
	while (s.charAt(e-1) == '0')
	e--;

	if (exp > 0)
	return sign + s.substring(0, 1) + s.substring(2, 2 + exp) + "."
	+ s.substring(2 + exp, e);

	return sign + "0." + zeros(-1 - exp) + s.substring(0, 1)
	+ s.substring(2, e);
	}


	/**
	* Return a string of '0' of the given length
	*
	*
	* @param n Length of the string to be returned
	*
	* @return a string of '0' with the given length
	*/
	static private String zeros(int n)
	{
	if (n < 1)
	return "";

	char[] buf = new char[n];

	for (int i = 0; i < n; i++)
	{
	buf[i] = '0';
	}

	return new String(buf);
	}

	/**
	* Return a java object that's closest to the representation
	* that should be handed to an extension.
	*
	* @return The value of this XNumber as a Double object
	*/
	public Object object()
	{
	if(null == m_obj)
	setObject(new Double(m_val));
	return m_obj;
	}

	/**
	* Tell if two objects are functionally equal.
	*
	* @param obj2 Object to compare this to
	*
	* @return true if the two objects are equal
	*
	* @throws javax.xml.transform.TransformerException
	*/
	public boolean equals(XObject obj2)
	{

	// In order to handle the 'all' semantics of
	// nodeset comparisons, we always call the
	// nodeset function.
	int t = obj2.getType();
	try
	{
	if (t == XObject.CLASS_NODESET)
	return obj2.equals(this);
	else if(t == XObject.CLASS_BOOLEAN)
	return obj2.bool() == bool();
	else
	return m_val == obj2.num();
	}
	catch(javax.xml.transform.TransformerException te)
	{
	throw new com.sun.org.apache.xml.internal.utils.WrappedRuntimeException(te);
	}
	}

	/**
	* Tell if this expression returns a stable number that will not change during
	* iterations within the expression. This is used to determine if a proximity
	* position predicate can indicate that no more searching has to occur.
	*
	*
	* @return true if the expression represents a stable number.
	*/
	public boolean isStableNumber()
	{
	return true;
	}

	/**
	* @see com.sun.org.apache.xpath.internal.XPathVisitable#callVisitors(ExpressionOwner, XPathVisitor)
	*/
	public void callVisitors(ExpressionOwner owner, XPathVisitor visitor)
	{
	visitor.visitNumberLiteral(owner, this);
	}


	}