public class Complex
extends java.lang.Object
Although this code is written from scratch, I looked at several designs and borrowed elements from each of them:
Red (cxh) |
Yellow (eal) |
Modifier and Type | Field and Description |
---|---|
static double |
EPSILON
A small number ( = 1.0e-9).
|
static Complex |
I
A Complex number representing i.
|
double |
imag
The imaginary part.
|
static Complex |
NEGATIVE_INFINITY
A Complex number representing negative infinity, by which we mean
that both the real and imaginary parts are equal to
Double.NEGATIVE_INFINITY.
|
static Complex |
ONE
A Complex number representing one.
|
static Complex |
POSITIVE_INFINITY
A Complex number representing positive infinity, by which we mean
that both the real and imaginary parts are equal to
Double.POSITIVE_INFINITY.
|
double |
real
The real part.
|
static Complex |
ZERO
A Complex number representing zero.
|
Constructor and Description |
---|
Complex()
Deprecated.
Use Complex.ZERO instead.
|
Complex(double real)
Construct a Complex with a zero imaginary part.
|
Complex(double real,
double imag)
Construct a Complex with the specified real and imaginary parts.
|
Modifier and Type | Method and Description |
---|---|
static double |
abs(Complex x)
Return the magnitude or absolute value of the specified complex number.
|
Complex |
acos()
Return the principal arc cosine of this complex number.
|
static Complex |
acos(Complex z)
Return the principal arc cosine of the specified complex number.
|
Complex |
acosh()
Return the principal hyperbolic arc cosine of this
complex number.
|
static Complex |
acosh(Complex z)
Return the principal hyperbolic arc cosine of the given
complex number.
|
Complex |
add(Complex z)
Return the sum of this complex number and the argument z.
|
double |
angle()
Return the angle or argument of this complex number.
|
static double |
angle(Complex z)
Return the angle or argument of this complex number.
|
Complex |
asin()
Return the principal arc sine of this complex number.
|
static Complex |
asin(Complex z)
Return the principal arc sine of the given complex number.
|
Complex |
asinh()
Return the principal hyperbolic arc sine of this
complex number.
|
static Complex |
asinh(Complex z)
Return the principal hyperbolic arc sine of the given
complex number.
|
Complex |
atan()
Return the principal arc tangent of this complex
number.
|
static Complex |
atan(Complex z)
Return the principal arc tangent of the given complex
number.
|
Complex |
atanh()
Return the principal hyperbolic arc tangent of
this complex number.
|
static Complex |
atanh(Complex z)
Return the principal hyperbolic arc tangent of
the given complex number.
|
Complex |
conjugate()
Return the complex conjugate of this complex number.
|
static Complex |
conjugate(Complex z)
Return the complex conjugate of the specified complex number.
|
static Complex |
conjugate(double z)
Return the complex conjugate of the specified real number, which is
just the real number itself.
|
Complex |
cos()
Return the cosine of this complex number.
|
static Complex |
cos(Complex z)
Return the cosine of the given complex number.
|
Complex |
cosh()
Return the hyperbolic cosine of this complex
number.
|
static Complex |
cosh(Complex z)
Return the hyperbolic cosine of the given complex
number.
|
Complex |
cot()
Return the cotangent of this complex number.
|
static Complex |
cot(Complex z)
Return the cotangent of the given complex number.
|
Complex |
csc()
Return the cosecant of this complex number.
|
static Complex |
csc(Complex z)
Return the cosecant of the given complex number.
|
Complex |
divide(Complex divisor)
Divide this complex number by the argument, and return the result
in a new Complex object.
|
boolean |
equals(java.lang.Object z)
Return true if the real and imaginary parts of this complex number
are equal to those of the argument.
|
Complex |
exp()
Return the exponential of this complex number,
or ez,
where
z is this complex number. |
static Complex |
exp(Complex z)
Return the exponential of the specified complex number,
or ez,
where
z is the argument. |
int |
hashCode()
Return a hash code value for this Complex.
|
static double |
imag(Complex z)
Return the imaginary part of the specified complex number.
|
static double |
imag(double z)
Return the imaginary part of the specified real number, which is 0.0.
|
boolean |
isCloseTo(Complex z)
Return true if the distance between this complex number and
the argument is less than or equal to EPSILON.
|
boolean |
isCloseTo(Complex z,
double distance)
Return true if the distance between this complex number and
the first argument is less than or equal to the second argument.
|
boolean |
isInfinite()
Return true if either the real or imaginary part is infinite.
|
static boolean |
isInfinite(Complex z)
Return true if either the real or imaginary part of the given
complex number is infinite.
|
boolean |
isNaN()
Return true if either the real or imaginary part is NaN.
|
static boolean |
isNaN(Complex z)
Return true if either the real or imaginary part of the given
Complex number is NaN.
|
Complex |
log()
Return the natural logarithm of this complex
number.
|
static Complex |
log(Complex z)
Return the natural logarithm of the specified complex
number.
|
double |
magnitude()
Return the magnitude or absolute value of this complex number.
|
static double |
magnitude(Complex z)
Return the magnitude or absolute value of the given complex number.
|
double |
magnitudeSquared()
Return the square of the magnitude of this complex number.
|
static double |
magnitudeSquared(Complex z)
Return the square of the magnitude of this complex number.
|
Complex |
multiply(Complex w)
Return a new complex number that is formed by multiplying this
complex number by the specified complex number.
|
Complex |
negate()
Negate this complex number.
|
static Complex |
polarToComplex(double magnitude,
double angle)
Return a new complex number with the specified magnitude and angle.
|
Complex |
pow(Complex y)
Return zy
where z is this complex number and y is the
argument, a Complex.
|
static Complex |
pow(Complex z,
Complex y)
Return a new complex number with value z y
where z is the first argument and y is the second
argument.
|
static Complex |
pow(Complex z,
double y)
Return a new complex number with value z y
where z is the first argument and y is the second
argument.
|
Complex |
pow(double y)
Return a new complex number with value z y
where z is this complex number and y is the
argument, a double.
|
static Complex |
pow(double z,
Complex y)
Return a new complex number with value z y
where z is the first argument and y is the second
argument.
|
static double |
real(Complex z)
Return the real part of the specified complex number.
|
static double |
real(double z)
Return the real part of the specified real number, which is the
real number itself.
|
Complex |
reciprocal()
Return the reciprocal of this complex number.
|
static Complex |
reciprocal(Complex z)
Return the reciprocal of this complex number.
|
static Complex[] |
roots(Complex z,
int n)
Return the nth roots of the given complex number in an
array.
|
Complex[] |
roots(int n)
Return the nth roots of this complex number in an array.
|
Complex |
scale(double scalar)
Return a new complex number with value equal to the product
of this complex number and the real argument.
|
Complex |
sec()
Return a new complex number with value equal to the secant
of this complex number.
|
static Complex |
sec(Complex z)
Return a new complex number with value equal to the secant
of the given complex number.
|
Complex |
sin()
Return a new complex number with value equal to the sine
of this complex number.
|
static Complex |
sin(Complex z)
Return a new complex number with value equal to the sine
of the given complex number.
|
Complex |
sinh()
Return a new complex number with value equal to the hyperbolic sine
of this complex number.
|
static Complex |
sinh(Complex z)
Return a new complex number with value equal to the hyperbolic sine
of this complex number.
|
Complex |
sqrt()
Return a new complex number with its value equal to the
the square root of this complex number.
|
static Complex |
sqrt(Complex z)
Return a new complex number with its value equal to the
the square root of the specified complex number.
|
Complex |
subtract(Complex w)
Return a new complex number formed by subtracting the specified
complex number from this complex number.
|
Complex |
tan()
Return a new complex number with value equal to the tangent
of this complex number.
|
static Complex |
tan(Complex z)
Return a new complex number with value equal to the tangent
of the given complex number.
|
Complex |
tanh()
Return a new complex number with value equal to the hyperbolic tangent
of this complex number.
|
static Complex |
tanh(Complex z)
Return a new complex number with value equal to the hyperbolic tangent
of the given complex number.
|
java.lang.String |
toString()
Return a string representation of this Complex.
|
static java.lang.String |
toString(Complex value)
Return a string representation of the given Complex.
|
public final double real
public final double imag
public static double EPSILON
public static final Complex NEGATIVE_INFINITY
public static final Complex POSITIVE_INFINITY
public static final Complex ZERO
public static final Complex ONE
public static final Complex I
@Deprecated public Complex()
public Complex(double real)
real
- The real part.public Complex(double real, double imag)
real
- The real part.imag
- The imaginary part.public static double abs(Complex x)
x
- The specified number.public final Complex acos()
acos(z) = -i * log(z + i*sqrt(1 - z*z))where
z
is this complex number.public static Complex acos(Complex z)
acos(z) = -i * log(z + i*sqrt(1 - z*z))where
z
is this complex number.z
- A complex number.public final Complex acosh()
acosh(z) = log(z + sqrt(z*z - 1))where
z
is this complex number.public static Complex acosh(Complex z)
acosh(z) = log(z + sqrt(z*z - 1))where
z
is this complex number.z
- A complex number.public final Complex add(Complex z)
z
- A complex number.public final double angle()
public static double angle(Complex z)
z
- A complex number.public final Complex asin()
asin(z) = -i * log(i*z + sqrt(1 - z*z))where
z
is this complex number.public static Complex asin(Complex z)
asin(z) = -i * log(i*z + sqrt(1 - z*z))where
z
is this complex number.z
- A complex number.public final Complex asinh()
asinh(z) = log(z + sqrt(z*z + 1))where
z
is this complex number.public static Complex asinh(Complex z)
asinh(z) = log(z + sqrt(z*z + 1))where
z
is this complex number.z
- A complex number.public final Complex atan()
atan(z) = -i/2 * log((i-z)/(i+z))where
z
is this complex number.public static Complex atan(Complex z)
atan(z) = -i/2 * log((i-z)/(i+z))where
z
is this complex number.z
- A complex number.public final Complex atanh()
atanh(z) = 1/2 * log((1+z)/(1-z))where
z
is this complex number.public static Complex atanh(Complex z)
atanh(z) = 1/2 * log((1+z)/(1-z))where
z
is this complex number.z
- A complex number.public final Complex conjugate()
public static final Complex conjugate(Complex z)
z
- The specified complex number.public static final Complex conjugate(double z)
z
- The specified real number.public final Complex cos()
cos(z) = (exp(i*z) + exp(-i*z))/2where
z
is this complex number.public static Complex cos(Complex z)
cos(z) = (exp(i*z) + exp(-i*z))/2where
z
is this complex number.z
- A complex number.public final Complex cosh()
cosh(z) = (exp(z) + exp(-z))/2where
z
is this complex number.public static Complex cosh(Complex z)
cosh(z) = (exp(z) + exp(-z))/2where
z
is this complex number.z
- A complex number.public final Complex cot()
cot(z) = 1/tan(z)where
z
is this complex number.public static Complex cot(Complex z)
cot(z) = 1/tan(z)where
z
is this complex number.z
- A complex number.public Complex csc()
csc(z) = 1/sin(z)where
z
is this complex number.public static Complex csc(Complex z)
csc(z) = 1/sin(z)where
z
is this complex number.z
- A complex number.public final Complex divide(Complex divisor)
divisor
- The denominator in the division.public final boolean equals(java.lang.Object z)
equals
in class java.lang.Object
z
- The argument to which this number is being compared.public final Complex exp()
z
is this complex number.public static Complex exp(Complex z)
z
is the argument.z
- A complex exponent.public int hashCode()
hashCode
in class java.lang.Object
public static double imag(Complex z)
z
- The complex number.public static double imag(double z)
z
- The complex number.public final boolean isCloseTo(Complex z)
z
- The number to compare against.EPSILON
public final boolean isCloseTo(Complex z, double distance)
z
- The number to compare against.distance
- The distance criterion.public final boolean isInfinite()
public static boolean isInfinite(Complex z)
z
- A complex number.public final boolean isNaN()
public static boolean isNaN(Complex z)
z
- A complex number.public final Complex log()
log(z) = log(abs(z)) + i * angle(z)where
z
is this complex number, abs(z)
is its magnitude, and angle(z)
is its angle.public static Complex log(Complex z)
log(z) = log(abs(z)) + i * angle(z)where
z
is this complex number, abs(z)
is its magnitude, and angle(z)
is its angle.z
- A complex number.public final double magnitude()
public static double magnitude(Complex z)
z
- A complex number.public double magnitudeSquared()
public static double magnitudeSquared(Complex z)
z
- A complex number.public Complex multiply(Complex w)
w
- The specified complex number.scale(double)
public final Complex negate()
public static Complex polarToComplex(double magnitude, double angle)
magnitude
- The magnitude.angle
- The angle.public Complex pow(double y)
y
- The exponent, which is a double.public static Complex pow(Complex z, double y)
z
- The number to be raised to a power.y
- The exponent.public final Complex pow(Complex y)
y
- The exponent, which is a complex number.public static Complex pow(Complex z, Complex y)
z
- The number to be raised to a power.y
- The exponent.public static Complex pow(double z, Complex y)
z
- The number to be raised to a power.y
- The exponent.public static double real(Complex z)
z
- The complex number.public static double real(double z)
z
- The complex number.public final Complex reciprocal()
public static Complex reciprocal(Complex z)
z
- A complex number.public final Complex[] roots(int n)
n
- An integer that must be greater than or equal to one.public static Complex[] roots(Complex z, int n)
z
- A complex number.n
- An integer that must be greater than or equal to one.public final Complex scale(double scalar)
scalar
- A real number.multiply(ptolemy.math.Complex)
public Complex sec()
sec(z) = 1/cos(z)where
z
is this complex number.public static Complex sec(Complex z)
sec(z) = 1/cos(z)where
z
is this complex number.z
- A complex number.public final Complex sin()
sin(z) = (exp(i*z) - exp(-i*z))/(2*i)where
z
is this complex number.public static Complex sin(Complex z)
sin(z) = (exp(i*z) - exp(-i*z))/(2*i)where
z
is this complex number.z
- A complex number.public final Complex sinh()
sinh(z) = (exp(z) - exp(-z))/2where
z
is this complex number.public static Complex sinh(Complex z)
sinh(z) = (exp(z) - exp(-z))/2where
z
is this complex number.z
- A complex number.public final Complex sqrt()
sqrt(z) = sqrt(mag(z))*(cos(angle(z)/2) + i * sin(angle(z)/2) )where
z
is this complex number.public static Complex sqrt(Complex z)
sqrt(z) = sqrt(mag(z))*(cos(angle(z)/2) + i * sin(angle(z)/2) )where
z
is this complex number.z
- A complex number.public final Complex subtract(Complex w)
w
- The number that is being subtracted.public final Complex tan()
tan(z) = sin(z)/cos(z)where
z
is this complex number.public static Complex tan(Complex z)
tan(z) = sin(z)/cos(z)where
z
is this complex number.z
- A complex number.public final Complex tanh()
tanh(z) = sinh(z)/cosh(z)where
z
is this complex number.public static Complex tanh(Complex z)
tanh(z) = sinh(z)/cosh(z)where
z
is this complex number.z
- A complex number.public final java.lang.String toString()
toString
in class java.lang.Object
public static java.lang.String toString(Complex value)
value
- The given value.