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java.lang

Class Float

java.lang.Object
|
+--java.lang.Number
   |
   +--java.lang.Float

All Implemented Interfaces:

Comparable, Serializable


public final class Float

extends Number

implements Comparable

Instances of class Float represent primitive float values. Additionally, this class provides various helper functions and variables related to floats.

Since:Authors:

Field Summary

static floatMAX_VALUE

The maximum positive value a double may represent is 3.4028235e+38f.
static floatMIN_VALUE

The minimum positive value a float may represent is 1.4e-45.
static floatNEGATIVE_INFINITY

The value of a float representation -1.0/0.0, negative infinity.
static floatNaN

All IEEE 754 values of NaN have the same value in Java.
static floatPOSITIVE_INFINITY

The value of a float representation 1.0/0.0, positive infinity.
static java.lang.ClassTYPE

The primitive type float is represented by this Class object.

Constructor Summary

Float(float value)

Create a Float from the primitive float specified.
Float(double value)

Create a Float from the primitive double specified.
Float(java.lang.String s)

Create a Float from the specified String.

Method Summary

bytebyteValue()

Return the value of this Float as a byte.
static intcompare(float x, float y)

Behaves like new Float(x).compareTo(new Float(y)); in other words this compares two floats, special casing NaN and zero, without the overhead of objects.
intcompareTo(java.lang.Float f)

Compare two Floats numerically by comparing their float values.
intcompareTo(java.lang.Object o)

Behaves like compareTo(Float) unless the Object is not an Float.
doubledoubleValue()

Return the value of this Float as a double
booleanequals(java.lang.Object obj)

Returns true if obj is an instance of Float and represents the same float value.
static intfloatToIntBits(float value)

Convert the float to the IEEE 754 floating-point "single format" bit layout.
static intfloatToRawIntBits(float value)

Convert the float to the IEEE 754 floating-point "single format" bit layout.
floatfloatValue()

Return the value of this Float.
inthashCode()

Return a hashcode representing this Object.
static floatintBitsToFloat(int bits)

Convert the argument in IEEE 754 floating-point "single format" bit layout to the corresponding float.
intintValue()

Return the value of this Integer as an int.
static booleanisInfinite(float v)

Return true if the float has a value equal to either NEGATIVE_INFINITY or POSITIVE_INFINITY, otherwise return false.
booleanisInfinite()

Return true if the value of this Float is the same as NEGATIVE_INFINITY or POSITIVE_INFINITY, otherwise return false.
static booleanisNaN(float v)

Return true if the float has the same value as NaN, otherwise return false.
booleanisNaN()

Return true if the value of this Float is the same as NaN, otherwise return false.
longlongValue()

Return the value of this Integer as a long.
static floatparseFloat(java.lang.String s)

Parse the specified String as a float.
shortshortValue()

Return the value of this Float as a short.
static java.lang.StringtoString(float f)

Convert the float to a String.
java.lang.StringtoString()

Convert the float value of this Float to a String.
static java.lang.FloatvalueOf(java.lang.String s)

Creates a new Float object using the String.

Field Details

MAX_VALUE

public static final float MAX_VALUE

The maximum positive value a double may represent is 3.4028235e+38f.


MIN_VALUE

public static final float MIN_VALUE

The minimum positive value a float may represent is 1.4e-45.


NEGATIVE_INFINITY

public static final float NEGATIVE_INFINITY

The value of a float representation -1.0/0.0, negative infinity.


NaN

public static final float NaN

All IEEE 754 values of NaN have the same value in Java.


POSITIVE_INFINITY

public static final float POSITIVE_INFINITY

The value of a float representation 1.0/0.0, positive infinity.


TYPE

public static final Class TYPE

The primitive type float is represented by this Class object.

Since:

Constructor Details

Float

public Float(double value)

Create a Float from the primitive double specified.

Parameters:


Float

public Float(float value)

Create a Float from the primitive float specified.

Parameters:


Float

public Float(java.lang.String s)

Create a Float from the specified String. This method calls Float.parseFloat().

Parameters:

Throws:

See Also:


Method Details

byteValue

public byte byteValue()

Return the value of this Float as a byte.

Since:Returns:


compare

public static int compare(float x, float y)

Behaves like new Float(x).compareTo(new Float(y)); in other words this compares two floats, special casing NaN and zero, without the overhead of objects.

Since:Parameters:

Returns:


compareTo

public int compareTo(java.lang.Float f)

Compare two Floats numerically by comparing their float values. The result is positive if the first is greater, negative if the second is greater, and 0 if the two are equal. However, this special cases NaN and signed zero as follows: NaN is considered greater than all other floats, including POSITIVE_INFINITY, and positive zero is considered greater than negative zero.

Since:Parameters:

Returns:


compareTo

public int compareTo(java.lang.Object o)

Behaves like compareTo(Float) unless the Object is not an Float.

Since:Parameters:

Returns:

Throws:

See Also:


doubleValue

public double doubleValue()

Return the value of this Float as a double

Returns:


equals

public boolean equals(java.lang.Object obj)

Returns true if obj is an instance of Float and represents the same float value. Unlike comparing two floats with ==, this treats two instances of Float.NaN as equal, but treats 0.0 and -0.0 as unequal.

Note that f1.equals(f2) is identical to floatToIntBits(f1.floatValue()) == floatToIntBits(f2.floatValue()).

Parameters:

  • obj - the object to compare
Returns:

  • whether the objects are semantically equal

floatToIntBits

public native static int floatToIntBits(float value)

Convert the float to the IEEE 754 floating-point "single format" bit layout. Bit 31 (the most significant) is the sign bit, bits 30-23 (masked by 0x7f800000) represent the exponent, and bits 22-0 (masked by 0x007fffff) are the mantissa. This function collapses all versions of NaN to 0x7fc00000. The result of this function can be used as the argument to Float.intBitsToFloat(int) to obtain the original float value.

Parameters:

  • value - the float to convert
Returns:

  • the bits of the float
See Also:


floatToRawIntBits

public native static int floatToRawIntBits(float value)

Convert the float to the IEEE 754 floating-point "single format" bit layout. Bit 31 (the most significant) is the sign bit, bits 30-23 (masked by 0x7f800000) represent the exponent, and bits 22-0 (masked by 0x007fffff) are the mantissa. This function leaves NaN alone, rather than collapsing to a canonical value. The result of this function can be used as the argument to Float.intBitsToFloat(int) to obtain the original float value.

Parameters:

  • value - the float to convert
Returns:

  • the bits of the float
See Also:


floatValue

public float floatValue()

Return the value of this Float.

Returns:

  • the float value

hashCode

public int hashCode()

Return a hashcode representing this Object. Float's hash code is calculated by calling floatToIntBits(floatValue()).

Returns:

  • this Object's hash code
See Also:


intBitsToFloat

public native static float intBitsToFloat(int bits)

Convert the argument in IEEE 754 floating-point "single format" bit layout to the corresponding float. Bit 31 (the most significant) is the sign bit, bits 30-23 (masked by 0x7f800000) represent the exponent, and bits 22-0 (masked by 0x007fffff) are the mantissa. This function leaves NaN alone, so that you can recover the bit pattern with Float.floatToRawIntBits(float).

Parameters:

  • bits - the bits to convert
Returns:

  • the float represented by the bits
See Also:


intValue

public int intValue()

Return the value of this Integer as an int.

Returns:

  • the int value

isInfinite

public boolean isInfinite()

Return true if the value of this Float is the same as NEGATIVE_INFINITY or POSITIVE_INFINITY, otherwise return false.

Returns:

  • whether this Float is (-/+) infinity

isInfinite

public static boolean isInfinite(float v)

Return true if the float has a value equal to either NEGATIVE_INFINITY or POSITIVE_INFINITY, otherwise return false.

Parameters:

  • v - the float to compare
Returns:

  • whether the argument is (-/+) infinity

isNaN

public boolean isNaN()

Return true if the value of this Float is the same as NaN, otherwise return false.

Returns:

  • whether this Float is NaN

isNaN

public static boolean isNaN(float v)

Return true if the float has the same value as NaN, otherwise return false.

Parameters:

  • v - the float to compare
Returns:

  • whether the argument is NaN

longValue

public long longValue()

Return the value of this Integer as a long.

Returns:

  • the long value

parseFloat

public static float parseFloat(java.lang.String s)

Parse the specified String as a float. The extended BNF grammar is as follows:
 DecodableString:
      ( [ - | + ] NaN )
    | ( [ - | + ] Infinity )
    | ( [ - | + ] FloatingPoint
              [ f | F | d
                | D] )
 FloatingPoint:
      ( { Digit }+ [ . { Digit } ]
              [ Exponent ] )
    | ( . { Digit }+ [ Exponent ] )
 Exponent:
      ( ( e | E )
              [ - | + ] { Digit }+ )
 Digit: '0' through '9'
 

NaN and infinity are special cases, to allow parsing of the output of toString. Otherwise, the result is determined by calculating n * 10exponent to infinite precision, then rounding to the nearest float. Remember that many numbers cannot be precisely represented in floating point. In case of overflow, infinity is used, and in case of underflow, signed zero is used. Unlike Integer.parseInt, this does not accept Unicode digits outside the ASCII range.

If an unexpected character is found in the String, a NumberFormatException will be thrown. Leading and trailing 'whitespace' is ignored via String.trim(), but spaces internal to the actual number are not allowed.

To parse numbers according to another format, consider using java.text.NumberFormat.

Since:
  • 1.2
Parameters:

  • s - the String to convert
Returns:

  • the float value of s
Throws:

See Also:


shortValue

public short shortValue()

Return the value of this Float as a short.

Since:
  • 1.1
Returns:

  • the short value

toString

public String toString()

Convert the float value of this Float to a String. This method calls Float.toString(float) to do its dirty work.

Returns:

  • the String representation
See Also:


toString

public static String toString(float f)

Convert the float to a String. Floating-point string representation is fairly complex: here is a rundown of the possible values. "[-]" indicates that a negative sign will be printed if the value (or exponent) is negative. "<number>" means a string of digits ('0' to '9'). "<digit>" means a single digit ('0' to '9').
Value of FloatString Representation
[+-] 0 [-]0.0
Between [+-] 10-3 and 107, exclusive [-]number.number
Other numeric value [-]<digit>.<number> E[-]<number>
[+-] infinity [-]Infinity
NaN NaN
Yes, negative zero is a possible value. Note that there is always a . and at least one digit printed after it: even if the number is 3, it will be printed as 3.0. After the ".", all digits will be printed except trailing zeros. The result is rounded to the shortest decimal number which will parse back to the same float.

To create other output formats, use java.text.NumberFormat.

Parameters:

  • f - the float to convert
Returns:

  • the String representing the float

valueOf

public static Float valueOf(java.lang.String s)

Creates a new Float object using the String.

Parameters:

  • s - the String to convert
Returns:

  • the new Float
Throws:

See Also: