/* __ *\
** ________ ___ / / ___ Scala API **
** / __/ __// _ | / / / _ | (c) 2007-2008, LAMP/EPFL **
** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ **
** /____/\___/_/ |_/____/_/ | | **
** |/ **
\* */
// $Id: $
package scala
import java.math.{BigDecimal => BigDec, MathContext}
/**
* @author Stephane Micheloud
* @version 1.0
*/
object BigDecimal {
private val minCached = -256
private val maxCached = 256
private lazy val cache = new Array[BigDecimal](maxCached - minCached + 1)
private lazy val cacheP = new Array[Array[BigDecimal]](maxCached - minCached + 1)
object Precision extends Enumeration {
type Precision = Value
val DECIMAL128, DECIMAL32, DECIMAL64, UNLIMITED = Value
}
type Precision = Precision.Precision
private val mc = collection.immutable.ListMap.empty[Precision, MathContext] +
(Precision.DECIMAL128 -> MathContext.DECIMAL128) +
(Precision.DECIMAL32 -> MathContext.DECIMAL32) +
(Precision.DECIMAL64 -> MathContext.DECIMAL64) +
(Precision.UNLIMITED -> MathContext.UNLIMITED)
/** Constructs a <code>BigDecimal</code> whose value is equal to that of the
* specified <code>Integer</code> value.
*
* @param i the specified <code>Integer</code> value
* @param p the specified precision <code>p</code>
* @return the constructed <code>BigDecimal</code>
*/
def apply(i: Int, p: Precision): BigDecimal =
if (minCached <= i && i <= maxCached) {
val offset = i - minCached
var a = cacheP(offset)
if (a eq null) { a = new Array[BigDecimal](mc.size); cacheP(offset) = a }
var n = a(p.id)
if (n eq null) { n = new BigDecimal(BigDec.valueOf(i)); a(p.id) = n }
n
} else new BigDecimal(BigDec.valueOf(i))
/** Constructs a <code>BigDecimal</code> whose value is equal to that of the
* specified <code>Integer</code> value.
*
* @param i the specified integer value
* @return the constructed <code>BigDecimal</code>
*/
def apply(i: Int): BigDecimal =
if (minCached <= i && i <= maxCached) {
val offset = i - minCached
var n = cache(offset)
if (n eq null) { n = new BigDecimal(BigDec.valueOf(i)); cache(offset) = n }
n
} else new BigDecimal(BigDec.valueOf(i))
/** Constructs a <code>BigDecimal</code> whose value is equal to that of the
* specified <code>Long</code> value.
*
* @param l the specified long value
* @param p the specified precision
* @return the constructed <code>BigDecimal</code>
*/
def apply(l: Long, p: Precision): BigDecimal =
if (minCached <= l && l <= maxCached) apply(l.toInt, p)
else new BigDecimal(BigDec.valueOf(l))
/** Constructs a <code>BigDecimal</code> whose value is equal to that of the
* specified long value.
*
* @param l the specified long value
* @return the constructed <code>BigDecimal</code>
*/
def apply(l: Long): BigDecimal =
if (minCached <= l && l <= maxCached) apply(l.toInt)
else new BigDecimal(BigDec.valueOf(l))
/** Constructs a <code>BigDecimal</code> whose value is equal to that of the
* specified <code>Double</code> value.
*
* @param d the specified <code>Double</code> value
* @param p the specified precision
* @return the constructed <code>BigDecimal</code>
*/
def apply(d: Double, p: Precision): BigDecimal =
new BigDecimal(new BigDec(d, mc(p)))
/** Constructs a <code>BigDecimal</code> whose value is equal to that of the
* specified double value.
*
* @param d the specified <code>Double</code> value
* @return the constructed <code>BigDecimal</code>
*/
def apply(d: Double): BigDecimal =
new BigDecimal(BigDec.valueOf(d))
/** Translates a character array representation of a <code>BigDecimal</code>
* into a <code>BigDecimal</code>.
*/
def apply(x: Array[Char]): BigDecimal =
new BigDecimal(new BigDec(x))
/** Translates the decimal String representation of a <code>BigDecimal</code>
* into a <code>BigDecimal</code>.
*/
def apply(x: String, p: Precision): BigDecimal =
new BigDecimal(new BigDec(x, mc(p)))
/** Translates the decimal String representation of a <code>BigDecimal</code>
* into a <code>BigDecimal</code>.
*/
def apply(x: String): BigDecimal =
new BigDecimal(new BigDec(x))
/** Constructs a <code>BigDecimal</code> whose value is equal to that of the
* specified <code>BigInt</code> value.
*
* @param x the specified <code>BigInt</code> value
* @param p the specified precision <code>p</code>
* @return the constructed <code>BigDecimal</code>
*/
def apply(x: BigInt, p: Precision): BigDecimal =
new BigDecimal(new BigDec(x.bigInteger, mc(p)))
/** Constructs a <code>BigDecimal</code> whose value is equal to that of the
* specified <code>BigInt</code> value.
*
* @param x the specified <code>BigInt</code> value
* @return the constructed <code>BigDecimal</code>
*/
def apply(x: BigInt): BigDecimal =
new BigDecimal(new BigDec(x.bigInteger))
/** Implicit conversion from <code>Int</code> to <code>BigDecimal</code>. */
implicit def int2bigDecimal(i: Int): BigDecimal = apply(i)
/** Implicit copnversion from <code>Long</code> to <code>BigDecimal</code>. */
implicit def long2bigDecimal(l: Long): BigDecimal = apply(l)
/** Implicit copnversion from <code>Double</code> to <code>BigDecimal</code>. */
implicit def double2bigDecimal(d: Double): BigDecimal = apply(d)
/** Implicit conversion from BigDecimal to <code>Ordered</code>. */
implicit def bigDecimal2ordered(x: BigDecimal): Ordered[BigDecimal] =
new Ordered[BigDecimal] with Proxy {
def self: Any = x;
def compare (y: BigDecimal): Int = x.bigDecimal.compareTo(y.bigDecimal)
}
}
/**
* @author Stephane Micheloud
* @version 1.0
*/
@serializable
class BigDecimal(val bigDecimal: BigDec) extends java.lang.Number {
/** Returns the hash code for this BigDecimal. */
override def hashCode(): Int = this.bigDecimal.hashCode()
/** Compares this BigDecimal with the specified value for equality.
*/
override def equals (that: Any): Boolean = that match {
case that: BigDecimal => this equals that
case that: java.lang.Double => this.bigDecimal.doubleValue == that.doubleValue
case that: java.lang.Float => this.bigDecimal.floatValue == that.floatValue
case that: java.lang.Number => this equals BigDecimal(that.longValue)
case that: java.lang.Character => this equals BigDecimal(that.charValue.asInstanceOf[Int])
case _ => false
}
/** Compares this BigDecimal with the specified BigDecimal for equality.
*/
def equals (that: BigDecimal): Boolean =
this.bigDecimal.compareTo(that.bigDecimal) == 0
/** Compares this BigDecimal with the specified BigDecimal
*/
def compare (that: BigDecimal): Int = this.bigDecimal.compareTo(that.bigDecimal)
/** Less-than-or-equals comparison of BigDecimals
*/
def <= (that: BigDecimal): Boolean = this.bigDecimal.compareTo(that.bigDecimal) <= 0
/** Greater-than-or-equals comparison of BigDecimals
*/
def >= (that: BigDecimal): Boolean = this.bigDecimal.compareTo(that.bigDecimal) >= 0
/** Less-than of BigDecimals
*/
def < (that: BigDecimal): Boolean = this.bigDecimal.compareTo(that.bigDecimal) < 0
/** Greater-than comparison of BigDecimals
*/
def > (that: BigDecimal): Boolean = this.bigDecimal.compareTo(that.bigDecimal) > 0
/** Addition of BigDecimals
*/
def + (that: BigDecimal): BigDecimal = new BigDecimal(this.bigDecimal.add(that.bigDecimal))
/** Subtraction of BigDecimals
*/
def - (that: BigDecimal): BigDecimal = new BigDecimal(this.bigDecimal.subtract(that.bigDecimal))
/** Multiplication of BigDecimals
*/
def * (that: BigDecimal): BigDecimal = new BigDecimal(this.bigDecimal.multiply(that.bigDecimal))
/** Division of BigDecimals
*/
def / (that: BigDecimal): BigDecimal = new BigDecimal(this.bigDecimal.divide(that.bigDecimal))
/** Remainder of BigDecimals
*/
def % (that: BigDecimal): BigDecimal = new BigDecimal(this.bigDecimal.remainder(that.bigDecimal))
/** Returns a pair of two BigDecimals containing (this / that) and (this % that).
*/
def /% (that: BigDecimal): (BigDecimal, BigDecimal) = {
val dr = this.bigDecimal.divideAndRemainder(that.bigDecimal)
(new BigDecimal(dr(0)), new BigDecimal(dr(1)))
}
/** Returns the minimum of this and that
*/
def min (that: BigDecimal): BigDecimal = new BigDecimal(this.bigDecimal.min(that.bigDecimal))
/** Returns the maximum of this and that
*/
def max (that: BigDecimal): BigDecimal = new BigDecimal(this.bigDecimal.max(that.bigDecimal))
/** Returns a BigDecimal whose value is (<tt>this</tt> raised to the power of <tt>exp</tt>).
*/
def pow (exp: Int): BigDecimal = new BigDecimal(this.bigDecimal.pow(exp))
/** Returns a BigDecimal whose value is the negation of this BigDecimal
*/
def unary_- : BigDecimal = new BigDecimal(this.bigDecimal.negate())
/** Returns the absolute value of this BigDecimal
*/
def abs: BigDecimal = new BigDecimal(this.bigDecimal.abs())
/** Returns the sign of this BigDecimal, i.e.
* -1 if it is less than 0,
* +1 if it is greater than 0
* 0 if it is equal to 0
*/
def signum: Int = this.bigDecimal.signum()
/** Converts this BigDecimal to a <tt>byte</tt>.
* If the BigDecimal is too big to fit in a byte, only the low-order 8 bits are returned.
* Note that this conversion can lose information about the overall magnitude of the
* BigDecimal value as well as return a result with the opposite sign.
*/
override def byteValue = intValue.toByte
/** Converts this BigDecimal to a <tt>short</tt>.
* If the BigDecimal is too big to fit in a byte, only the low-order 16 bits are returned.
* Note that this conversion can lose information about the overall magnitude of the
* BigDecimal value as well as return a result with the opposite sign.
*/
override def shortValue = intValue.toShort
/** Converts this BigDecimal to a <tt>char</tt>.
* If the BigDecimal is too big to fit in a char, only the low-order 16 bits are returned.
* Note that this conversion can lose information about the overall magnitude of the
* BigDecimal value and that it always returns a positive result.
*/
def charValue = intValue.toChar
/** Converts this BigDecimal to an <tt>int</tt>.
* If the BigDecimal is too big to fit in a char, only the low-order 32 bits
* are returned. Note that this conversion can lose information about the
* overall magnitude of the BigDecimal value as well as return a result with
* the opposite sign.
*/
def intValue = this.bigDecimal.intValue
/** Converts this BigDecimal to a <tt>Long</tt>.
* If the BigDecimal is too big to fit in a char, only the low-order 64 bits
* are returned. Note that this conversion can lose information about the
* overall magnitude of the BigDecimal value as well as return a result with
* the opposite sign.
*/
def longValue = this.bigDecimal.longValue
/** Converts this BigDecimal to a <tt>float</tt>.
* if this BigDecimal has too great a magnitude to represent as a float,
* it will be converted to <code>Float.NEGATIVE_INFINITY</code> or
* <code>Float.POSITIVE_INFINITY</code> as appropriate.
*/
def floatValue = this.bigDecimal.floatValue
/** Converts this BigDecimal to a <tt>Double</tt>.
* if this BigDecimal has too great a magnitude to represent as a float,
* it will be converted to <code>Float.NEGATIVE_INFINITY</code> or
* <code>Float.POSITIVE_INFINITY</code> as appropriate.
*/
def doubleValue = this.bigDecimal.doubleValue
/** Returns the decimal String representation of this BigDecimal.
*/
override def toString(): String = this.bigDecimal.toString()
/** Returns a string representation of this BigDecimal without an exponent field.
*/
def toPlainString(): String = this.bigDecimal.toPlainString()
}