Class java.math.BigDecimal
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Class java.math.BigDecimal
java.lang.Object
|
+----java.lang.Number
|
+----java.math.BigDecimal
- public class BigDecimal
- extends Number
Immutable, arbitrary-precision signed decimal numbers. A BigDecimal
consists of an arbitrary precision integer value and a non-negative
integer scale, which represents the number of decimal digits to the
right of the decimal point. (The number represented by the BigDecimal
is intVal/10**scale.) BigDecimals provide operations for basic arithmetic,
scale manipulation, comparison, format conversion and hashing.
The BigDecimal class gives its user complete control over rounding
behavior, forcing the user to explicitly specify a rounding behavior for
operations capable of discarding precision (divide and setScale). Eight
rounding modes are provided for this purpose.
Two types of operations are provided for manipulating the scale of a
BigDecimal: scaling/rounding operations and decimal point motion operations.
Scaling/Rounding operations (SetScale) return a BigDecimal whose value is
approximately (or exactly) equal to that of the operand, but whose scale is
the specified value; that is, they increase or decrease the precision
of the number with minimal effect on its value. Decimal point motion
operations (movePointLeft and movePointRight) return a BigDecimal created
from the operand by moving the decimal point a specified distance in the
specified direction; that is, they change a number's value without affecting
its precision.
- See Also:
- BigInteger
-
ROUND_CEILING
- If the BigDecimal is positive, behave as for ROUND_UP; if negative,
behave as for ROUND_DOWN.
-
ROUND_DOWN
- Never increment the digit prior to a discarded fraction (i.e.,
truncate).
-
ROUND_FLOOR
- If the BigDecimal is positive, behave as for ROUND_DOWN; if negative
behave as for ROUND_UP.
-
ROUND_HALF_DOWN
- Behave as for ROUND_UP if the discarded fraction is > .5; otherwise,
behave as for ROUND_DOWN.
-
ROUND_HALF_EVEN
- Behave as for ROUND_HALF_UP if the digit to the left of the discarded
fraction is odd; behave as for ROUND_HALF_DOWN if it's even.
-
ROUND_HALF_UP
- Behave as for ROUND_UP if the discarded fraction is >= .5; otherwise,
behave as for ROUND_DOWN.
-
ROUND_UNNECESSARY
- This "pseudo-rounding-mode" is actually an assertion that the requested
operation has an exact result, hence no rounding is necessary.
-
ROUND_UP
- Always increment the digit prior to a non-zero discarded fraction.
-
BigDecimal(BigInteger)
- Translates a BigInteger into a BigDecimal.
-
BigDecimal(BigInteger, int)
- Translates a BigInteger and a scale into a BigDecimal.
-
BigDecimal(double)
- Translates a double into a BigDecimal.
-
BigDecimal(String)
- Constructs a BigDecimal from a string containing an optional minus
sign followed by a sequence of zero or more decimal digits, optionally
followed by a fraction, which consists of a decimal point followed by
zero or more decimal digits.
-
abs()
- Returns a BigDecimal whose value is the absolute value of this
number, and whose scale is this.scale().
-
add(BigDecimal)
- Returns a BigDecimal whose value is (this + val), and whose scale is
MAX(this.scale(), val.scale).
-
compareTo(BigDecimal)
- Returns -1, 0 or 1 as this number is less than, equal to, or greater
than val.
-
divide(BigDecimal, int)
- Returns a BigDecimal whose value is (this / val), and whose scale
is this.scale().
-
divide(BigDecimal, int, int)
- Returns a BigDecimal whose value is (this / val), and whose scale
is as specified.
-
doubleValue()
- Converts the number to a double.
-
equals(Object)
- Returns true iff x is a BigDecimal whose value is equal to this number.
-
floatValue()
- Converts this number to a float.
-
hashCode()
- Computes a hash code for this object.
-
intValue()
- Converts this number to an int.
-
longValue()
- Converts this number to a long.
-
max(BigDecimal)
- Returns the BigDecimal whose value is the greater of this and val.
-
min(BigDecimal)
- Returns the BigDecimal whose value is the lesser of this and val.
-
movePointLeft(int)
- Returns a BigDecimal which is equivalent to this one with the decimal
point moved n places to the left.
-
movePointRight(int)
- Moves the decimal point the specified number of places to the right.
-
multiply(BigDecimal)
- Returns a BigDecimal whose value is (this * val), and whose scale is
this.scale() + val.scale.
-
negate()
- Returns a BigDecimal whose value is -1 * this, and whose scale is
this.scale().
-
scale()
- Returns the scale of this number.
-
setScale(int)
- Returns a BigDecimal whose scale is the specified value, and whose
value is exactly equal to this number's.
-
setScale(int, int)
- Returns a BigDecimal whose scale is the specified value, and whose
integer value is determined by multiplying or dividing this BigDecimal's
integer value by the appropriate power of ten to maintain the overall
value.
-
signum()
- Returns the signum function of this number (i.e., -1, 0 or 1 as
the value of this number is negative, zero or positive).
-
subtract(BigDecimal)
- Returns a BigDecimal whose value is (this - val), and whose scale is
MAX(this.scale(), val.scale).
-
toBigInteger()
- Converts this number to a BigInteger.
-
toString()
- Returns the string representation of this number.
-
valueOf(long)
- Returns a BigDecimal with the given value and a scale of zero.
-
valueOf(long, int)
- Returns a BigDecimal with a value of (val/10**scale).
ROUND_UP
public final static int ROUND_UP
- Always increment the digit prior to a non-zero discarded fraction.
Note that this rounding mode never decreases the magnitude.
(Rounds away from zero.)
ROUND_DOWN
public final static int ROUND_DOWN
- Never increment the digit prior to a discarded fraction (i.e.,
truncate). Note that this rounding mode never increases the magnitude.
(Rounds towards zero.)
ROUND_CEILING
public final static int ROUND_CEILING
- If the BigDecimal is positive, behave as for ROUND_UP; if negative,
behave as for ROUND_DOWN. Note that this rounding mode never decreases
the value. (Rounds towards positive infinity.)
ROUND_FLOOR
public final static int ROUND_FLOOR
- If the BigDecimal is positive, behave as for ROUND_DOWN; if negative
behave as for ROUND_UP. Note that this rounding mode never increases
the value. (Rounds towards negative infinity.)
ROUND_HALF_UP
public final static int ROUND_HALF_UP
- Behave as for ROUND_UP if the discarded fraction is >= .5; otherwise,
behave as for ROUND_DOWN. (Rounds towards "nearest neighbor" unless
both neighbors are equidistant, in which case rounds up.)
ROUND_HALF_DOWN
public final static int ROUND_HALF_DOWN
- Behave as for ROUND_UP if the discarded fraction is > .5; otherwise,
behave as for ROUND_DOWN. (Rounds towards "nearest neighbor" unless
both neighbors are equidistant, in which case rounds down.)
ROUND_HALF_EVEN
public final static int ROUND_HALF_EVEN
- Behave as for ROUND_HALF_UP if the digit to the left of the discarded
fraction is odd; behave as for ROUND_HALF_DOWN if it's even. (Rounds
towards the "nearest neighbor" unless both neighbors are equidistant,
in which case, rounds towards the even neighbor.)
ROUND_UNNECESSARY
public final static int ROUND_UNNECESSARY
- This "pseudo-rounding-mode" is actually an assertion that the requested
operation has an exact result, hence no rounding is necessary. If this
rounding mode is specified on an operation that yields an inexact result,
an arithmetic exception is thrown.
BigDecimal
public BigDecimal(String val) throws NumberFormatException
- Constructs a BigDecimal from a string containing an optional minus
sign followed by a sequence of zero or more decimal digits, optionally
followed by a fraction, which consists of a decimal point followed by
zero or more decimal digits. The string must contain at least one
digit in the integer or fractional part. The scale of the resulting
BigDecimal will be the number of digits to the right of the decimal
point in the string, or 0 if the string contains no decimal point.
The character-to-digit mapping is provided by Character.digit.
Any extraneous characters (including whitespace) will result in
a NumberFormatException.
BigDecimal
public BigDecimal(double val) throws NumberFormatException
- Translates a double into a BigDecimal. The scale of the BigDecimal
is the smallest value such that (10**scale * val) is an integer.
A double whose value is -infinity, +infinity or NaN will result in a
NumberFormatException.
BigDecimal
public BigDecimal(BigInteger val)
- Translates a BigInteger into a BigDecimal. The scale of the BigDecimal
is zero.
BigDecimal
public BigDecimal(BigInteger val,
int scale) throws NumberFormatException
- Translates a BigInteger and a scale into a BigDecimal. The value
of the BigDecimal is (BigInteger/10**scale). A negative scale
will result in a NumberFormatException.
valueOf
public static BigDecimal valueOf(long val,
int scale) throws NumberFormatException
- Returns a BigDecimal with a value of (val/10**scale). This factory
is provided in preference to a (long) constructor because it allows
for reuse of frequently used BigDecimals (like 0 and 1), obviating
the need for exported constants. A negative scale will result in a
NumberFormatException.
valueOf
public static BigDecimal valueOf(long val)
- Returns a BigDecimal with the given value and a scale of zero.
This factory is provided in preference to a (long) constructor
because it allows for reuse of frequently used BigDecimals (like
0 and 1), obviating the need for exported constants.
add
public BigDecimal add(BigDecimal val)
- Returns a BigDecimal whose value is (this + val), and whose scale is
MAX(this.scale(), val.scale).
subtract
public BigDecimal subtract(BigDecimal val)
- Returns a BigDecimal whose value is (this - val), and whose scale is
MAX(this.scale(), val.scale).
multiply
public BigDecimal multiply(BigDecimal val)
- Returns a BigDecimal whose value is (this * val), and whose scale is
this.scale() + val.scale.
divide
public BigDecimal divide(BigDecimal val,
int scale,
int roundingMode) throws ArithmeticException, IllegalArgumentException
- Returns a BigDecimal whose value is (this / val), and whose scale
is as specified. If rounding must be performed to generate a
result with the given scale, the specified rounding mode is
applied. Throws an ArithmeticException if val == 0, scale < 0,
or the rounding mode is ROUND_UNNECESSARY and the specified scale
is insufficient to represent the result of the division exactly.
Throws an IllegalArgumentException if roundingMode does not
represent a valid rounding mode.
divide
public BigDecimal divide(BigDecimal val,
int roundingMode) throws ArithmeticException, IllegalArgumentException
- Returns a BigDecimal whose value is (this / val), and whose scale
is this.scale(). If rounding must be performed to generate a
result with the given scale, the specified rounding mode is
applied. Throws an ArithmeticException if val == 0. Throws
an IllegalArgumentException if roundingMode does not represent a
valid rounding mode.
abs
public BigDecimal abs()
- Returns a BigDecimal whose value is the absolute value of this
number, and whose scale is this.scale().
negate
public BigDecimal negate()
- Returns a BigDecimal whose value is -1 * this, and whose scale is
this.scale().
signum
public int signum()
- Returns the signum function of this number (i.e., -1, 0 or 1 as
the value of this number is negative, zero or positive).
scale
public int scale()
- Returns the scale of this number.
setScale
public BigDecimal setScale(int scale,
int roundingMode) throws ArithmeticException, IllegalArgumentException
- Returns a BigDecimal whose scale is the specified value, and whose
integer value is determined by multiplying or dividing this BigDecimal's
integer value by the appropriate power of ten to maintain the overall
value. If the scale is reduced by the operation, the integer value
must be divided (rather than multiplied), and precision may be lost;
in this case, the specified rounding mode is applied to the division.
Throws an ArithmeticException if scale is negative, or the rounding
mode is ROUND_UNNECESSARY and it is impossible to perform the
specified scaling operation without loss of precision. Throws an
IllegalArgumentException if roundingMode does not represent a valid
rounding mode.
setScale
public BigDecimal setScale(int scale) throws ArithmeticException, IllegalArgumentException
- Returns a BigDecimal whose scale is the specified value, and whose
value is exactly equal to this number's. Throws an ArithmeticException
if this is not possible. This call is typically used to increase
the scale, in which case it is guaranteed that there exists a BigDecimal
of the specified scale and the correct value. The call can also be used
to reduce the scale if the caller knows that the number has sufficiently
many zeros at the end of its fractional part (i.e., factors of ten in
its integer value) to allow for the rescaling without loss of precision.
Note that this call returns the same result as the two argument version
of setScale, but saves the caller the trouble of specifying a rounding
mode in cases where it is irrelevant.
movePointLeft
public BigDecimal movePointLeft(int n)
- Returns a BigDecimal which is equivalent to this one with the decimal
point moved n places to the left. If n is non-negative, the call merely
adds n to the scale. If n is negative, the call is equivalent to
movePointRight(-n). (The BigDecimal returned by this call has value
(this * 10**-n) and scale MAX(this.scale()+n, 0).)
movePointRight
public BigDecimal movePointRight(int n)
- Moves the decimal point the specified number of places to the right.
If this number's scale is >= n, the call merely subtracts n from the
scale; otherwise, it sets the scale to zero, and multiplies the integer
value by 10 ** (n - this.scale). If n is negative, the call is
equivalent to movePointLeft(-n). (The BigDecimal returned by this call
has value (this * 10**n) and scale MAX(this.scale()-n, 0).)
compareTo
public int compareTo(BigDecimal val)
- Returns -1, 0 or 1 as this number is less than, equal to, or greater
than val. Two BigDecimals that are equal in value but have a
different scale (e.g., 2.0, 2.00) are considered equal by this method.
This method is provided in preference to individual methods for each
of the six boolean comparison operators (<, ==, >, >=, !=, <=). The
suggested idiom for performing these comparisons is: (x.compareTo(y)
0), where is one of the six comparison operators.
equals
public boolean equals(Object x)
- Returns true iff x is a BigDecimal whose value is equal to this number.
This method is provided so that BigDecimals can be used as hash keys.
Unlike compareTo, this method considers two BigDecimals equal only
if they are equal in value and scale.
- Overrides:
- equals in class Object
min
public BigDecimal min(BigDecimal val)
- Returns the BigDecimal whose value is the lesser of this and val.
If the values are equal (as defined by the compareTo operator),
either may be returned.
max
public BigDecimal max(BigDecimal val)
- Returns the BigDecimal whose value is the greater of this and val.
If the values are equal (as defined by the compareTo operator),
either may be returned.
hashCode
public int hashCode()
- Computes a hash code for this object. Note that two BigDecimals
that are numerically equal but differ in scale (e.g., 2.0, 2.00) will
not generally have the same hash code.
- Overrides:
- hashCode in class Object
toString
public String toString()
- Returns the string representation of this number. The digit-to-
character mapping provided by Character.forDigit is used. The minus
sign and decimal point are used to indicate sign and scale. (This
representation is compatible with the (String, int) constructor.)
- Overrides:
- toString in class Object
toBigInteger
public BigInteger toBigInteger()
- Converts this number to a BigInteger. Standard narrowing primitive
conversion as per The Java Language Specification. In particular,
note that any fractional part of this number will be truncated.
intValue
public int intValue()
- Converts this number to an int. Standard narrowing primitive conversion
as per The Java Language Specification. In particular, note that any
fractional part of this number will be truncated.
- Overrides:
- intValue in class Number
longValue
public long longValue()
- Converts this number to a long. Standard narrowing primitive conversion
as per The Java Language Specification. In particular, note that any
fractional part of this number will be truncated.
- Overrides:
- longValue in class Number
floatValue
public float floatValue()
- Converts this number to a float. Similar to the double-to-float
narrowing primitive conversion defined in The Java Language
Specification: if the number has too great a magnitude to represent
as a float, it will be converted to infinity or negative infinity,
as appropriate.
- Overrides:
- floatValue in class Number
doubleValue
public double doubleValue()
- Converts the number to a double. Similar to the double-to-float
narrowing primitive conversion defined in The Java Language
Specification: if the number has too great a magnitude to represent
as a double, it will be converted to infinity or negative infinity,
as appropriate.
- Overrides:
- doubleValue in class Number
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