Uses of Class
org.apfloat.Apint

Packages that use Apint

Package	Description
org.apfloat	The apfloat Application Programming Interface (API).
org.apfloat.calc	Arbitrary precision calculator interactive application.

Uses of Apint in org.apfloat

Classes in org.apfloat that implement interfaces with type arguments of type Apint

Modifier and Type	Class	Description
private static class	ContinuedFractionHelper.ContinuedFractionIterator<T extends Apfloat>

Fields in org.apfloat declared as Apint

Modifier and Type	Field	Description
private Apint	Aprational.denominator
private Apint	ContinuedFractionHelper.ContinuedFractionIterator.i
private Apint	LambertWHelper.minusOne
private Apint	Aprational.numerator
Apint	HypergeometricHelper.Hypergeometric2F1Helper.one
private Apint	HypergeometricHelper.one
private Apint	LambertWHelper.one
private Apint	ZetaHelper.one
static final Apint	Apcomplex.ONE	Constant for one.
(package private) static final Apint[]	Apcomplex.ONES
final Apint	GCDHelper.Matrix.r11
final Apint	GCDHelper.Matrix.r12
final Apint	GCDHelper.Matrix.r21
final Apint	GCDHelper.Matrix.r22
private Apint	LambertWHelper.three
private Apint	BesselHelper.two
private Apint	LambertWHelper.two
private Apint	ZetaHelper.two
private Apint	HypergeometricHelper.zero
static final Apint	Apcomplex.ZERO	Constant for zero.
(package private) static final Apint[]	Apcomplex.ZEROS

Methods in org.apfloat that return Apint

Modifier and Type	Method	Description
(package private) Apint	Apint.abs()
static Apint	ApintMath.abs(Apint x)	Absolute value.
Apint	Apint.add(Apint x)	Adds two apints.
private static Apint[]	GCDHelper.binaryDivide(Apint a, Apint b)
private static Apint	HurwitzZetaHelper.binarySearch(Apcomplex s, Apcomplex a, long precision, long targetScale)
static Apint	ApintMath.binomial(long n, long k)	Binomial coefficient.
static Apint	ApintMath.binomial(long n, long k, int radix)	Binomial coefficient.
static Apint	ApintMath.binomial(Apint n, Apint k)	Binomial coefficient.
static Apint[]	ApintMath.cbrt(Apint x)	Cube root and remainder.
Apint	Apfloat.ceil()	Ceiling function.
static Apint	ApfloatMath.ceil(Apfloat x)	Ceiling function.
Apint	Apint.ceil()	Ceiling function.
Apint	Aprational.ceil()	Ceiling function.
private static Apint	GCDHelper.cmod(Apint a, Apint m)
static Apint[]	ApfloatMath.continuedFraction(Apfloat x, int n)	Generates the first n terms in the continued fraction representation of x.
static Apint[]	AprationalMath.continuedFraction(Aprational x, int n)	Generates the first n terms in the continued fraction representation of x.
static Apint	ApintMath.copySign(Apint x, Apint y)	Copy sign from one argument to another.
Apint	Apint.denominator()	Denominator of this aprational.
Apint	Aprational.denominator()	Denominator of this aprational.
static Apint[]	ApintMath.div(Apint x, Apint y)	Quotient and remainder.
Apint	Apint.divide(Apint x)	Divides two apints.
static Apint	ApintMath.doubleFactorial(long n)	Double factorial function.
static Apint	ApintMath.doubleFactorial(long n, int radix)	Double factorial function.
private static Apint	GCDHelper.elementaryGcd(Apint a, Apint b)
static Apint	ApintMath.factorial(long n)	Factorial function.
static Apint	ApintMath.factorial(long n, int radix)	Factorial function.
Apint	Apfloat.floor()	Floor function.
static Apint	ApfloatMath.floor(Apfloat x)	Floor function.
Apint	Apint.floor()	Floor function.
Apint	Aprational.floor()	Floor function.
Apint	Apint.frac()	Returns the fractional part.
static Apint	ApintMath.gcd(Apint a, Apint b)	Greatest common divisor.
static Apint	GCDHelper.gcd(Apint a, Apint b)
private static Apint[]	AprationalMath.harmonicNumber(Apint n, Apint m, long r)
static Apint	ApintMath.lcm(Apint a, Apint b)	Least common multiple.
static Apint	ApintMath.max(Apint x, Apint y)	Returns the greater of the two values.
static Apint	ApintMath.min(Apint x, Apint y)	Returns the smaller of the two values.
Apint	Apint.mod(Apint x)	Calculates the remainder when divided by an apint.
private static Apint	ApintMath.modInverse(Apint a, Apint m)
static Apint	ApintMath.modMultiply(Apint a, Apint b, Apint m)	Modular multiplication.
private static Apint	ApintMath.modMultiply(Apint x1, Apint x2, Apint y, Apfloat inverseY)
static Apint	ApintMath.modPow(Apint a, Apint b, Apint m)	Modular power.
Apint	Apint.multiply(Apint x)	Multiplies two apints.
private static Apint	GCDHelper.Matrix.multiplyAdd(Apint a, Apint b, Apint c, Apint d)
Apint	Apint.negate()	Negative value.
static Apint	ApintMath.negate(Apint x)	Deprecated. Use Apint.negate().
Apint	ContinuedFractionHelper.ContinuedFractionIterator.next()
Apint	Apint.numerator()	Numerator of this aprational.
Apint	Aprational.numerator()	Numerator of this aprational.
private static Apint	ApintMath.pochhammer(long n, long m, int radix)
private static Apint	ApintMath.pochhammer(Apint n, Apint m)
static Apint	ApintMath.pow(Apint x, long n)	Integer power.
private static Apint	GCDHelper.powerOfTwo(long n)
private static Apint	ApintMath.powXMinus1(Apint pow, Apint x, long n)
private static Apint	ApintMath.powXPlus1(Apint pow, Apint x, long n)
static Apint	ApintMath.product(Apint... x)	Product of numbers.
static Apint	ApintMath.random(long digits)	Generates a random number.
static Apint	ApintMath.random(long digits, int radix)	Generates a random number.
private static Apint	GCDHelper.recursiveGcd(Apint a, Apint b)
static Apint[]	ApintMath.root(Apint x, long n)	Positive integer root and remainder.
(package private) Apint	Apfloat.roundAway()
(package private) Apint	Apint.roundAway()
(package private) Apint	Aprational.roundAway()
static Apint	ApfloatMath.roundToInteger(Apfloat x, RoundingMode roundingMode)	Rounds x to integer using the specified rounding mode.
static Apint	AprationalMath.roundToInteger(Aprational x, RoundingMode roundingMode)	Rounds x to integer using the specified rounding mode.
static Apint	RoundingHelper.roundToInteger(Apfloat x, RoundingMode roundingMode)
static Apint	ApintMath.scale(Apint x, long scale)	Multiply by a power of the radix.
static Apint[]	ApintMath.sqrt(Apint x)	Square root and remainder.
Apint	Apint.subtract(Apint x)	Subtracts two apints.
static Apint	ApintMath.sum(Apint... x)	Sum of numbers.
Apint	Apint.toRadix(int radix)	Convert this apint to the specified radix.
Apint	Apfloat.truncate()	Truncates fractional part.
static Apint	ApfloatMath.truncate(Apfloat x)	Truncates fractional part.
Apint	Apint.truncate()	Truncates fractional part.
Apint	Aprational.truncate()	Truncates fractional part.

Methods in org.apfloat that return types with arguments of type Apint

Modifier and Type	Method	Description
static Iterator<Apint>	ContinuedFractionHelper.continuedFraction(Apfloat x)
static Iterator<Apint>	ContinuedFractionHelper.continuedFraction(Aprational x)

Methods in org.apfloat with parameters of type Apint

Modifier and Type	Method	Description
static Apint	ApintMath.abs(Apint x)	Absolute value.
Apint	Apint.add(Apint x)	Adds two apints.
private static Apint[]	GCDHelper.binaryDivide(Apint a, Apint b)
static Apint	ApintMath.binomial(Apint n, Apint k)	Binomial coefficient.
static Apint[]	ApintMath.cbrt(Apint x)	Cube root and remainder.
private static Apint	GCDHelper.cmod(Apint a, Apint m)
int	Apint.compareTo(Apint x)	Compare this apint to the specified apint.
static Apint	ApintMath.copySign(Apint x, Apint y)	Copy sign from one argument to another.
static Apint[]	ApintMath.div(Apint x, Apint y)	Quotient and remainder.
Apint	Apint.divide(Apint x)	Divides two apints.
private static Apint	GCDHelper.elementaryGcd(Apint a, Apint b)
private static Apcomplex	ApcomplexMath.fresnelTerm(Apint one, Apfloat half, Apfloat invSqrtPi, Apcomplex iz2, Apcomplex iHalfPiZ2)
static Apint	ApintMath.gcd(Apint a, Apint b)	Greatest common divisor.
static Apint	GCDHelper.gcd(Apint a, Apint b)
private static GCDHelper.HalfGcdType	GCDHelper.halfBinaryGcd(Apint a, Apint b, long k)
static Aprational	AprationalMath.harmonicNumber(Apint n)	Harmonic number.
static Aprational	AprationalMath.harmonicNumber(Apint n, Apint r)	Generalized harmonic number.
private static Apint[]	AprationalMath.harmonicNumber(Apint n, Apint m, long r)
private static Apcomplex	HurwitzZetaHelper.I(Apcomplex s, Apcomplex a, Apint N)
private static boolean	RoundingHelper.isEven(Apint x)
static Apint	ApintMath.lcm(Apint a, Apint b)	Least common multiple.
static long	ApfloatHelper.longValueExact(Apint x)
static Apint	ApintMath.max(Apint x, Apint y)	Returns the greater of the two values.
static Apint	ApintMath.min(Apint x, Apint y)	Returns the smaller of the two values.
Apint	Apint.mod(Apint x)	Calculates the remainder when divided by an apint.
private static Apint	ApintMath.modInverse(Apint a, Apint m)
static Apint	ApintMath.modMultiply(Apint a, Apint b, Apint m)	Modular multiplication.
private static Apint	ApintMath.modMultiply(Apint x1, Apint x2, Apint y, Apfloat inverseY)
static Apint	ApintMath.modPow(Apint a, Apint b, Apint m)	Modular power.
Apint	Apint.multiply(Apint x)	Multiplies two apints.
private static Apint	GCDHelper.Matrix.multiplyAdd(Apint a, Apint b, Apint c, Apint d)
static Apint	ApintMath.negate(Apint x)	Deprecated. Use Apint.negate().
private static Apint	ApintMath.pochhammer(Apint n, Apint m)
static Aprational	AprationalMath.pochhammer(Aprational x, Apint n)	Pochhammer symbol.
static Apint	ApintMath.pow(Apint x, long n)	Integer power.
private static Apint	ApintMath.powXMinus1(Apint pow, Apint x, long n)
private static Apint	ApintMath.powXPlus1(Apint pow, Apint x, long n)
static Apint	ApintMath.product(Apint... x)	Product of numbers.
private static Apfloat	HurwitzZetaHelper.R(Apcomplex s, Apcomplex a, Apint N, long M)
private static Apint	GCDHelper.recursiveGcd(Apint a, Apint b)
static Apint[]	ApintMath.root(Apint x, long n)	Positive integer root and remainder.
static Apint	ApintMath.scale(Apint x, long scale)	Multiply by a power of the radix.
private static Apcomplex	ApcomplexMath.sphericalHarmonicY(Apint n, Apint m, Apcomplex ϑ, Apcomplex ϕ)
static Apint[]	ApintMath.sqrt(Apint x)	Square root and remainder.
Apint	Apint.subtract(Apint x)	Subtracts two apints.
protected abstract T	ContinuedFractionHelper.ContinuedFractionIterator.subtract(T x, Apint y)
static Apint	ApintMath.sum(Apint... x)	Sum of numbers.
private static Apcomplex	HurwitzZetaHelper.T(Apcomplex s, Apcomplex a, Apint N, long M)
boolean	Apint.test(Apint x)	Tests two apint numbers for equality.
static BigInteger	ApfloatHelper.toBigInteger(Apint x)
private static long	GCDHelper.v(Apint a)

Method parameters in org.apfloat with type arguments of type Apint

Modifier and Type	Method	Description
static Iterator<Aprational>	ContinuedFractionHelper.convergents(Iterator<Apint> continuedFraction, int radix)

Constructors in org.apfloat with parameters of type Apint

Modifier	Constructor	Description
	Aprational(Apint value)	Construct an integer aprational whose denominator is one.
	Aprational(Apint numerator, Apint denominator)	Construct an aprational with the specified numerator and denominator.
	Matrix(Apint r11, Apint r12, Apint r21, Apint r22)

Uses of Apint in org.apfloat.calc

Methods in org.apfloat.calc that return Apint

Modifier and Type	Method	Description
private Apint	ApfloatCalculatorImpl.AprationalFunctions.root(Apint x, long y)

Methods in org.apfloat.calc with parameters of type Apint

Modifier and Type	Method	Description
private Apint	ApfloatCalculatorImpl.AprationalFunctions.root(Apint x, long y)