Package org.apfloat

Class Apcomplex

java.lang.Object
java.lang.Number
org.apfloat.Apcomplex
All Implemented Interfaces:
Serializable, Formattable
Direct Known Subclasses:
Apfloat
public class Apcomplex extends Number implements Formattable, Serializable
Arbitrary precision complex number class. An apcomplex consists of a real and imaginary part of type Apfloat.

Note that although the Apcomplex class extends Number, the methods inherited from Number return the value of the real part of the complex number. Thus they are more meaningful for the Apfloat class and its subclasses.

Version:
1.13.0
Author:
Mikko Tommila
See Also:

  • Field Summary

    Fields
    Modifier and Type
    Field
    Description
    static final long
    DEFAULT
    Default precision.
    static final Apcomplex
    I
    Imaginary unit.
    static final long
    INFINITE
    Infinite precision or scale.
    static final Apint
    ONE
    Constant for one.
    static final Comparator<Apcomplex>
    REAL_ABS_IMAG_ORDER
    Comparator for ordering by real part, and in case of a tie, by the absolute value of the imaginary part.
    static final Comparator<Apcomplex>
    REAL_IMAG_ORDER
    Comparator for ordering by real part, and in case of a tie, by imaginary part.
    static final Apint
    ZERO
    Constant for zero.

  • Constructor Summary

    Constructors
    Modifier
    Constructor
    Description
    protected
    Apcomplex()
    Default constructor.
     
    Apcomplex(PushbackReader in)
    Reads an apcomplex from a reader.
     
    Apcomplex(String value)
    Constructs an apcomplex from a string.
     
    Apcomplex(Apfloat real)
    Construct a real apcomplex whose imaginary part is zero.
     
    Apcomplex(Apfloat real, Apfloat imag)
    Construct an apcomplex with the specified real and imaginary part.

  • Method Summary

    Modifier and Type
    Method
    Description
    Apcomplex
    add(Apcomplex z)
    Adds two apcomplex numbers.
    byte
    byteValue()
    Returns the value of the this number as a byte.
    byte
    byteValueExact()
    Returns the value of the this number as a byte, checking for lost information.
    Apcomplex
    conj()
    Returns the complex conjugate of this apcomplex.
    Apcomplex
    divide(Apcomplex z)
    Divides two apcomplex numbers.
    double
    doubleValue()
    Returns the value of the this number as a double.
    long
    equalDigits(Apcomplex z)
    Computes number of equal digits.
    boolean
    equals(Object obj)
    Compares this object to the specified object.
    float
    floatValue()
    Returns the value of the this number as a float.
    void
    formatTo(Formatter formatter, int flags, int width, int precision)
    Formats the object using the provided formatter.
    int
    hashCode()
    Returns a hash code for this apcomplex.
    Apfloat
    imag()
    Returns the imaginary part of this apcomplex.
    int
    intValue()
    Returns the value of the this number as an int.
    int
    intValueExact()
    Returns the value of the this number as an int, checking for lost information.
    boolean
    isInteger()
    Returns if this number has an integer value.
    boolean
    isZero()
    Returns if this number is zero.
    long
    longValue()
    Returns the value of the this number as a long.
    long
    longValueExact()
    Returns the value of the this number as a long, checking for lost information.
    Apcomplex
    multiply(Apcomplex z)
    Multiplies two apcomplex numbers.
    Apcomplex
    negate()
    Negative value.
    long
    precision()
    Returns the precision of this apcomplex.
    Apcomplex
    precision(long precision)
    Returns an apcomplex with the same value as this apcomplex accurate to the specified precision.
    int
    radix()
    Radix of this apcomplex.
    Apfloat
    real()
    Returns the real part of this apcomplex.
    long
    scale()
    Returns the scale of this apcomplex.
    short
    shortValue()
    Returns the value of the this number as a short.
    short
    shortValueExact()
    Returns the value of the this number as a short, checking for lost information.
    long
    size()
    Returns the size of this apcomplex.
    Apcomplex
    subtract(Apcomplex z)
    Subtracts two apcomplex numbers.
    boolean
    test(Apcomplex z)
    Tests two apcomplex numbers for equality.
    Apcomplex
    toRadix(int radix)
    Convert this apcomplex to the specified radix.
    String
    toString()
    Returns a string representation of this apcomplex.
    String
    toString(boolean pretty)
    Returns a string representation of this apcomplex.
    void
    writeTo(Writer out)
    Write a string representation of this apcomplex to a Writer.
    void
    writeTo(Writer out, boolean pretty)
    Write a string representation of this apcomplex to a Writer.

    Methods inherited from class java.lang.Object

    clone, finalize, getClass, notify, notifyAll, wait, wait, wait

  • Field Details

    • ZERO

      public static final Apint ZERO
      Constant for zero. It is safe to use ZERO in all addition, subtraction, multiplication, division and comparison operations regardless of the radix used.

    • ONE

      public static final Apint ONE
      Constant for one. Note that this number is created using the initial default radix. It is safe to use ONE in all multiplication, division and equality comparison operations regardless of the radix used. However, in subtraction and addition it only works with numbers in the same radix.

    • I

      public static final Apcomplex I
      Imaginary unit. That is, Apcomplex(ZERO, ONE). It is safe to use I in all multiplication, division and equality comparison operations regardless of the radix used. In addition and subtraction it only works with numbers in the same radix.

    • INFINITE

      public static final long INFINITE
      Infinite precision or scale. Can be used as the precision argument when constructing apfloats.
      See Also:

    • DEFAULT

      public static final long DEFAULT
      Default precision. Can be used as an argument when constructing apfloats.
      See Also:

    • REAL_IMAG_ORDER

      public static final Comparator<Apcomplex> REAL_IMAG_ORDER
      Comparator for ordering by real part, and in case of a tie, by imaginary part.

    • REAL_ABS_IMAG_ORDER

      public static final Comparator<Apcomplex> REAL_ABS_IMAG_ORDER
      Comparator for ordering by real part, and in case of a tie, by the absolute value of the imaginary part. If a tie persists, order by imaginary part.

  • Constructor Details

    • Apcomplex

      protected Apcomplex()
      Default constructor. To be used only by subclasses that overload all needed methods.

    • Apcomplex

      public Apcomplex(Apfloat real)
      Construct a real apcomplex whose imaginary part is zero.
      Parameters:
      real - The real part of the number.

    • Apcomplex

      public Apcomplex(Apfloat real, Apfloat imag) throws IllegalArgumentException
      Construct an apcomplex with the specified real and imaginary part.
      Parameters:
      real - The real part of the number.
      imag - The imaginary part of the number.
      Throws:
      IllegalArgumentException - If the real part and imaginary part are not zero but have different radixes.

    • Apcomplex

      public Apcomplex(String value) throws NumberFormatException, ApfloatRuntimeException
      Constructs an apcomplex from a string.

      The input must be of one of the formats

      realPart
      "(" [whitespace] realPart [whitespace] ")"
      "(" [whitespace] realPart [whitespace] "," [whitespace] imaginaryPart [whitespace] ")"

      Parameters:
      value - The input string.
      Throws:
      NumberFormatException - If the number is invalid.
      ApfloatRuntimeException

    • Apcomplex

      public Apcomplex(PushbackReader in) throws IOException, NumberFormatException, ApfloatRuntimeException
      Reads an apcomplex from a reader. The constructor stops reading at the first character it doesn't understand. The reader must thus be a PushbackReader so that the invalid character can be returned back to the stream.

      The input must be of one of the formats

      realPart
      "(" [whitespace] realPart [whitespace] ")"
      "(" [whitespace] realPart [whitespace] "," [whitespace] imaginaryPart [whitespace] ")"

      Parameters:
      in - The input stream.
      Throws:
      IOException - In case of I/O error reading from the stream.
      NumberFormatException - If the number is invalid.
      ApfloatRuntimeException

  • Method Details

    • radix

      public int radix()
      Radix of this apcomplex.
      Returns:
      Radix of this apcomplex.

    • real

      public Apfloat real()
      Returns the real part of this apcomplex.
      Returns:
      The real part of this apcomplex.

    • imag

      public Apfloat imag()
      Returns the imaginary part of this apcomplex.
      Returns:
      The imaginary part of this apcomplex.

    • conj

      public Apcomplex conj() throws ApfloatRuntimeException
      Returns the complex conjugate of this apcomplex.
      Returns:
      x - i y, where this apcomplex is x + i y.
      Throws:
      ApfloatRuntimeException

    • precision

      public long precision() throws ApfloatRuntimeException
      Returns the precision of this apcomplex.
      Returns:
      The precision of this apcomplex in number of digits of the radix in which it's presented.
      Throws:
      ApfloatRuntimeException

    • precision

      public Apcomplex precision(long precision) throws IllegalArgumentException, ApfloatRuntimeException
      Returns an apcomplex with the same value as this apcomplex accurate to the specified precision.

      If the requested precision less than this number's current precision, the functionality is quite obvious: the precision is simply truncated, and e.g. comparison and equality checking will work as expected. Some rounding errors in e.g. addition and subtraction may still occur, as "invisible" trailing digits can remain in the number.

      If the requested precision more than this number's current precision, the functionality is quite undefined: the digits up to this number's current precision are guaranteed to be the same, but the "new" digits are undefined: they may be zero, or they may be digits that have been previously discarded with a call to precision() with a smaller number of digits, or they may be something else, or any combination of these.

      These limitations allow various performance optimizations to be made.

      Parameters:
      precision - Precision of the new apcomplex.
      Returns:
      An apcomplex with the specified precision and same value as this apcomplex.
      Throws:
      IllegalArgumentException - If precision is <= 0.
      ApfloatRuntimeException
      Since:
      1.2

    • scale

      public long scale() throws ApfloatRuntimeException
      Returns the scale of this apcomplex. The scale is the maximum of the scale of the real part and imaginary part.

      Zero has a scale of -INFINITE.

      Returns:
      The exponent of this apcomplex in number of digits of the radix in which it's presented.
      Throws:
      ApfloatRuntimeException
      See Also:

    • size

      public long size() throws ApfloatRuntimeException
      Returns the size of this apcomplex. The size is the maximum of the size of the real part and imaginary part.

      Zero has a size of 0.

      Returns:
      The number of digits in this number, from the most significant digit to the least significant nonzero digit, in the radix in which it's presented.
      Throws:
      ApfloatRuntimeException
      Since:
      1.6
      See Also:

    • isZero

      public boolean isZero() throws ApfloatRuntimeException
      Returns if this number is zero.
      Returns:
      If this number is zero.
      Throws:
      ApfloatRuntimeException
      Since:
      1.13.0

    • isInteger

      public boolean isInteger() throws ApfloatRuntimeException
      Returns if this number has an integer value. Note that this does not necessarily mean that this object is an instance of Apint. Neither does it mean that the precision is infinite.

      A complex number needs to have a zero imaginary part to be an integer.

      Returns:
      If this number's value is an integer.
      Throws:
      ApfloatRuntimeException
      Since:
      1.9.0

    • negate

      public Apcomplex negate() throws ApfloatRuntimeException
      Negative value.
      Returns:
      -this.
      Throws:
      ApfloatRuntimeException
      Since:
      1.1

    • add

      public Apcomplex add(Apcomplex z) throws ApfloatRuntimeException
      Adds two apcomplex numbers.
      Parameters:
      z - The number to be added to this number.
      Returns:
      this + z.
      Throws:
      ApfloatRuntimeException

    • subtract

      public Apcomplex subtract(Apcomplex z) throws ApfloatRuntimeException
      Subtracts two apcomplex numbers.
      Parameters:
      z - The number to be subtracted from this number.
      Returns:
      this - z.
      Throws:
      ApfloatRuntimeException

    • multiply

      public Apcomplex multiply(Apcomplex z) throws ApfloatRuntimeException
      Multiplies two apcomplex numbers.
      Parameters:
      z - The number to be multiplied by this number.
      Returns:
      this * z.
      Throws:
      ApfloatRuntimeException

    • divide

      public Apcomplex divide(Apcomplex z) throws ArithmeticException, ApfloatRuntimeException
      Divides two apcomplex numbers.
      Parameters:
      z - The number by which this number is to be divided.
      Returns:
      this / z.
      Throws:
      ArithmeticException - In case the divisor is zero.
      ApfloatRuntimeException

    • doubleValue

      public double doubleValue()
      Returns the value of the this number as a double. Only takes the real part of this number.
      Specified by:
      doubleValue in class Number
      Returns:
      The numeric value represented by this object after conversion to type double.
      See Also:

    • floatValue

      public float floatValue()
      Returns the value of the this number as a float. Only takes the real part of this number.
      Specified by:
      floatValue in class Number
      Returns:
      The numeric value represented by this object after conversion to type float.
      See Also:

    • byteValue

      public byte byteValue()
      Returns the value of the this number as a byte. Only takes the real part of this number.
      Overrides:
      byteValue in class Number
      Returns:
      The numeric value represented by this object after conversion to type byte.
      See Also:

    • shortValue

      public short shortValue()
      Returns the value of the this number as a short. Only takes the real part of this number.
      Overrides:
      shortValue in class Number
      Returns:
      The numeric value represented by this object after conversion to type short.
      See Also:

    • intValue

      public int intValue()
      Returns the value of the this number as an int. Only takes the real part of this number.
      Specified by:
      intValue in class Number
      Returns:
      The numeric value represented by this object after conversion to type int.
      See Also:

    • longValue

      public long longValue()
      Returns the value of the this number as a long. Only takes the real part of this number.
      Specified by:
      longValue in class Number
      Returns:
      The numeric value represented by this object after conversion to type long.
      See Also:

    • byteValueExact

      public byte byteValueExact() throws ArithmeticException
      Returns the value of the this number as a byte, checking for lost information. If the value of this number is out of the range of the byte type, then an ArithmeticException is thrown.
      Returns:
      The numeric value represented by this object after conversion to type byte.
      Throws:
      ArithmeticException - If the value of this will not exactly fit in a byte or has a nonzero fractional part.
      Since:
      1.9.0

    • shortValueExact

      public short shortValueExact() throws ArithmeticException
      Returns the value of the this number as a short, checking for lost information. If the value of this number is out of the range of the short type, then an ArithmeticException is thrown.
      Returns:
      The numeric value represented by this object after conversion to type short or has a nonzero fractional part.
      Throws:
      ArithmeticException - If the value of this will not exactly fit in a short.
      Since:
      1.9.0

    • intValueExact

      public int intValueExact() throws ArithmeticException
      Returns the value of the this number as an int, checking for lost information. If the value of this number is out of the range of the int type, then an ArithmeticException is thrown.
      Returns:
      The numeric value represented by this object after conversion to type int.
      Throws:
      ArithmeticException - If the value of this will not exactly fit in an int or has a nonzero fractional part.
      Since:
      1.9.0

    • longValueExact

      public long longValueExact() throws ArithmeticException
      Returns the value of the this number as a long, checking for lost information. If the value of this number is out of the range of the long type, then an ArithmeticException is thrown.
      Returns:
      The numeric value represented by this object after conversion to type long.
      Throws:
      ArithmeticException - If the value of this will not exactly fit in a long or has a nonzero fractional part.
      Since:
      1.9.0

    • equalDigits

      public long equalDigits(Apcomplex z) throws ApfloatRuntimeException
      Computes number of equal digits.

      Compares the digits of the numbers starting from the most significant digits. The exponent and sign are taken into consideration, so if either one doesn't match, the numbers are considered to have zero equal digits.

      For example, the numbers (12345, 123) and (123456, 12) have zero matching digits, and the numbers (12345, 12) and (12355, 13) have three matching digits.

      Parameters:
      z - Number to compare with.
      Returns:
      Number of matching digits in the radix in which the numbers are presented.
      Throws:
      ApfloatRuntimeException

    • toRadix

      public Apcomplex toRadix(int radix) throws NumberFormatException, ApfloatRuntimeException
      Convert this apcomplex to the specified radix.
      Parameters:
      radix - The radix.
      Returns:
      This number in the specified radix.
      Throws:
      NumberFormatException - If the radix is invalid.
      ApfloatRuntimeException
      Since:
      1.2

    • equals

      public boolean equals(Object obj)
      Compares this object to the specified object.

      Note: two apfloats are considered equal if they have an identical mantissa, but different precision.

      Overrides:
      equals in class Object
      Parameters:
      obj - The object to compare with.
      Returns:
      true if the objects are equal; false otherwise.

    • test

      public boolean test(Apcomplex z) throws ApfloatRuntimeException
      Tests two apcomplex numbers for equality. Returns false if the numbers are definitely known to be not equal. If true is returned, equality is unknown and should be verified by calling equals(Object). This method is usually significantly faster than calling equals(Object).
      Parameters:
      z - The number to test against.
      Returns:
      false if the numbers are definitely not equal, true if unknown.
      Throws:
      ApfloatRuntimeException
      Since:
      1.10.0

    • hashCode

      public int hashCode()
      Returns a hash code for this apcomplex.
      Overrides:
      hashCode in class Object
      Returns:
      The hash code value for this object.

    • toString

      public String toString()
      Returns a string representation of this apcomplex.
      Overrides:
      toString in class Object
      Returns:
      A string representing this object.

    • toString

      public String toString(boolean pretty) throws ApfloatRuntimeException
      Returns a string representation of this apcomplex.
      Parameters:
      pretty - true to use a fixed-point notation, false to use an exponential notation.
      Returns:
      A string representing this object.
      Throws:
      ApfloatRuntimeException

    • writeTo

      public void writeTo(Writer out) throws IOException, ApfloatRuntimeException
      Write a string representation of this apcomplex to a Writer.
      Parameters:
      out - The output Writer.
      Throws:
      IOException - In case of I/O error writing to the stream.
      ApfloatRuntimeException

    • writeTo

      public void writeTo(Writer out, boolean pretty) throws IOException, ApfloatRuntimeException
      Write a string representation of this apcomplex to a Writer.
      Parameters:
      out - The output Writer.
      pretty - true to use a fixed-point notation, false to use an exponential notation.
      Throws:
      IOException - In case of I/O error writing to the stream.
      ApfloatRuntimeException

    • formatTo

      public void formatTo(Formatter formatter, int flags, int width, int precision)
      Formats the object using the provided formatter.
      Specified by:
      formatTo in interface Formattable
      Parameters:
      formatter - The formatter.
      flags - The flags to modify the output format.
      width - The minimum number of characters to be written to the output, or -1 for no minimum.
      precision - The maximum number of characters to be written to the output, or -1 for no maximum.
      Since:
      1.3
      See Also: