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doubledouble's Introduction

DoubleDouble

Double-Double Arithmetic and Special Function Implements

Requirement

.NET 8.0

Install

Download DLL
Download Nuget

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MultiPrecision

Type

type mantissa bits significant digits
ddouble 104 30
limit bin dec
MaxValue 2^1024 1.79769e308
Normal MinValue 2^-968 4.00833e-292
Subnormal MinValue 2^-1074 4.94066e-324

Functions

function domain mantissa error bits note
ddouble.Sqrt(x) [0,+inf) 2
ddouble.Cbrt(x) (-inf,+inf) 2
ddouble.RootN(x, n) (-inf,+inf) 3
ddouble.Log2(x) (0,+inf) 2
ddouble.Log(x), ddouble.Log(x, b) (0,+inf) 3
ddouble.Log10(x) (0,+inf) 3
ddouble.Log1p(x) (-1,+inf) 3 log(1+x)
ddouble.Pow2(x) (-inf,+inf) 1
ddouble.Pow2m1(x) (-inf,+inf) 2 pow2(x)-1
ddouble.Pow(x, y) (-inf,+inf) 2
ddouble.Pow10(x) (-inf,+inf) 2
ddouble.Exp(x) (-inf,+inf) 2
ddouble.Expm1(x) (-inf,+inf) 2 exp(x)-1
ddouble.Sin(x) (-inf,+inf) 2
ddouble.Cos(x) (-inf,+inf) 2
ddouble.Tan(x) (-inf,+inf) 3
ddouble.SinPI(x) (-inf,+inf) 1 sin(πx)
ddouble.CosPI(x) (-inf,+inf) 1 cos(πx)
ddouble.TanPI(x) (-inf,+inf) 2 tan(πx)
ddouble.Sinh(x) (-inf,+inf) 2
ddouble.Cosh(x) (-inf,+inf) 2
ddouble.Tanh(x) (-inf,+inf) 2
ddouble.Asin(x) [-1,1] 2 Accuracy deteriorates near x=-1,1.
ddouble.Acos(x) [-1,1] 2 Accuracy deteriorates near x=-1,1.
ddouble.Atan(x) (-inf,+inf) 2
ddouble.Atan2(y, x) (-inf,+inf) 2
ddouble.Arsinh(x) (-inf,+inf) 2
ddouble.Arcosh(x) [1,+inf) 2
ddouble.Artanh(x) (-1,1) 4 Accuracy deteriorates near x=-1,1.
ddouble.Sinc(x, normalized) (-inf,+inf) 2 normalized: x -> πx
ddouble.Sinhc(x) (-inf,+inf) 3
ddouble.Gamma(x) (-inf,+inf) 2 Accuracy deteriorates near non-positive intergers.
If x is Natual number lass than 35, an exact integer value is returned.
ddouble.LogGamma(x) (0,+inf) 4
ddouble.Digamma(x) (-inf,+inf) 4 Near the positive root, polynomial interpolation is used.
ddouble.Polygamma(n, x) (-inf,+inf) 4 Accuracy deteriorates near non-positive intergers.
n ≤ 16
ddouble.InverseGamma(x) [sqrt(π)/2,+inf) 2 gamma^-1(x)
ddouble.RcpGamma(x) (-inf,+inf) 3 1/gamma(x)
ddouble.LowerIncompleteGamma(nu, x) [0,+inf) 4 nu ≤ 171.625
ddouble.UpperIncompleteGamma(nu, x) [0,+inf) 4 nu ≤ 171.625
ddouble.LowerIncompleteGammaRegularized(nu, x) [0,+inf) 4 nu ≤ 8192
ddouble.UpperIncompleteGammaRegularized(nu, x) [0,+inf) 4 nu ≤ 8192
ddouble.InverseLowerIncompleteGamma(nu, x) [0,1] 8 nu ≤ 8192
ddouble.InverseUpperIncompleteGamma(nu, x) [0,1] 8 nu ≤ 8192
ddouble.Beta(a, b) [0,+inf) 4
ddouble.LogBeta(a, b) [0,+inf) 4
ddouble.IncompleteBeta(x, a, b) [0,1] 4 Accuracy decreases when the radio of a,b is too large. a+b-max(a,b) ≤ 512
ddouble.IncompleteBetaRegularized(x, a, b) [0,1] 4 Accuracy decreases when the radio of a,b is too large. a+b-max(a,b) ≤ 8192
ddouble.InverseIncompleteBeta(x, a, b) [0,1] 8 Accuracy decreases when the radio of a,b is too large. a+b-max(a,b) ≤ 8192
ddouble.Erf(x) (-inf,+inf) 3
ddouble.Erfc(x) (-inf,+inf) 3
ddouble.InverseErf(x) (-1,1) 3
ddouble.InverseErfc(x) (0,2) 3
ddouble.Erfcx(x) (-inf,+inf) 3
ddouble.Erfi(x) (-inf,+inf) 4
ddouble.DawsonF(x) (-inf,+inf) 4
ddouble.BesselJ(nu, x) [0,+inf) 8 Accuracy deteriorates near root.
abs(nu) ≤ 16
ddouble.BesselY(nu, x) [0,+inf) 8 Accuracy deteriorates near the root and
at non-interger nu very close (< 2^-25) to the integer.
abs(nu) ≤ 16
ddouble.BesselI(nu, x) [0,+inf) 6 Accuracy deteriorates near root.
abs(nu) ≤ 16
ddouble.BesselK(nu, x) [0,+inf) 6 Accuracy deteriorates with non-interger nu very close
(< 2^-25) to an integer.
abs(nu) ≤ 16
ddouble.StruveH(n, x) (-inf,+inf) 4 0 ≤ n ≤ 8
ddouble.StruveK(n, x) [0,+inf) 4 0 ≤ n ≤ 8
ddouble.StruveL(n, x) (-inf,+inf) 4 0 ≤ n ≤ 8
ddouble.StruveM(n, x) [0,+inf) 4 0 ≤ n ≤ 8
ddouble.AngerJ(n, x) (-inf,+inf) 6
ddouble.WeberE(n, x) (-inf,+inf) 6 0 ≤ n ≤ 8
ddouble.Jinc(x) (-inf,+inf) 3
ddouble.EllipticK(m) [0,1] 4 k: elliptic modulus, m=k^2
ddouble.EllipticE(m) [0,1] 4 k: elliptic modulus, m=k^2
ddouble.EllipticPi(n, m) [0,1] 4 k: elliptic modulus, m=k^2
ddouble.EllipticK(x, m) [0,2π] 4 k: elliptic modulus, m=k^2
ddouble.EllipticE(x, m) [0,2π] 4 k: elliptic modulus, m=k^2, incomplete elliptic integral
ddouble.EllipticPi(n, x, m) [0,2π] 4 k: elliptic modulus, m=k^2
Argument order follows wolfram. incomplete elliptic integral
ddouble.EllipticTheta(a, x, q) (-inf,+inf) 4 a=1...4, q ≤ 0.995, incomplete elliptic integral
ddouble.KeplerE(m, e, centered) (-inf,+inf) 6 inverse kepler's equation, e(eccentricity) ≤ 256
ddouble.Agm(a, b) [0,+inf) 2
ddouble.FresnelC(x) (-inf,+inf) 4
ddouble.FresnelS(x) (-inf,+inf) 4
ddouble.FresnelF(x) (-inf,+inf) 4
ddouble.FresnelG(x) (-inf,+inf) 4
ddouble.Ei(x) (-inf,+inf) 4 exponential integral
ddouble.Ein(x) (-inf,+inf) 4 complementary exponential integral
ddouble.Li(x) [0,+inf) 5 logarithmic integral li(x)=ei(log(x))
ddouble.Si(x, limit_zero) (-inf,+inf) 4 sin integral, limit_zero=true: si(x)
ddouble.Ci(x) [0,+inf) 4 cos integral
ddouble.Ti(x) (-inf,+inf) 4 arctan integral
ddouble.Shi(x) (-inf,+inf) 5 hyperbolic sin integral
ddouble.Chi(x) [0,+inf) 5 hyperbolic cos integral
ddouble.Clausen(x, normalized) (-inf,+inf) 3 Clausen function of order 2, Cl_2(x), normalized: x -> πx
ddouble.BarnesG(x) (-inf,+inf) 3
ddouble.LogBarnesG(x) (0,+inf) 3
ddouble.LambertW(x) [-1/e,+inf) 4
ddouble.AiryAi(x) (-inf,+inf) 5 Accuracy deteriorates near root.
ddouble.AiryBi(x) (-inf,+inf) 5 Accuracy deteriorates near root.
ddouble.ScorerGi(x) (-inf,+inf) 5 Accuracy deteriorates near root.
ddouble.ScorerHi(x) (-inf,+inf) 4
ddouble.JacobiSn(x, m) (-inf,+inf) 4 k: elliptic modulus, m=k^2
ddouble.JacobiCn(x, m) (-inf,+inf) 4 k: elliptic modulus, m=k^2
ddouble.JacobiDn(x, m) (-inf,+inf) 4 k: elliptic modulus, m=k^2
ddouble.JacobiAm(x, m) (-inf,+inf) 4 k: elliptic modulus, m=k^2
ddouble.JacobiArcSn(x, m) [-1,+1] 4 k: elliptic modulus, m=k^2
ddouble.JacobiArcCn(x, m) [-1,+1] 4 k: elliptic modulus, m=k^2
ddouble.JacobiArcDn(x, m) [0,1] 4 k: elliptic modulus, m=k^2
ddouble.CarlsonRD(x, y, z) [0,+inf) 4
ddouble.CarlsonRC(x, y) [0,+inf) 4
ddouble.CarlsonRF(x, y, z) [0,+inf) 4
ddouble.CarlsonRJ(x, y, z, rho) [0,+inf) 4
ddouble.CarlsonRG(x, y, z) [0,+inf) 4
ddouble.RiemannZeta(x) (-inf,+inf) 3
ddouble.HurwitzZeta(x, a) (1,+inf) 3 a ≥ 0
ddouble.DirichletEta(x) (-inf,+inf) 3
ddouble.Polylog(n, x) (-inf,1] 3 n ∈ [-4,8]
ddouble.OwenT(h, a) (-inf,+inf) 5
ddouble.Bump(x) (-inf,+inf) 4 C-infinity smoothness basis function, bump(x)=1/(exp(1/x-1/(1-x))+1)
ddouble.HermiteH(n, x) (-inf,+inf) 3 n ≤ 64
ddouble.LaguerreL(n, x) (-inf,+inf) 3 n ≤ 64
ddouble.LaguerreL(n, alpha, x) (-inf,+inf) 3 n ≤ 64, associated
ddouble.LegendreP(n, x) (-inf,+inf) 3 n ≤ 64
ddouble.LegendreP(n, m, x) [-1,1] 3 n ≤ 64, associated
ddouble.ChebyshevT(n, x) (-inf,+inf) 3 n ≤ 64
ddouble.ChebyshevU(n, x) (-inf,+inf) 3 n ≤ 64
ddouble.ZernikeR(n, m, x) [0,1] 3 n ≤ 64
ddouble.GegenbauerC(n, alpha, x) (-inf,+inf) 3 n ≤ 64
ddouble.JacobiP(n, alpha, beta, x) [-1,1] 3 n ≤ 64, alpha,beta > -1
ddouble.Bernoulli(n, x, centered) [0,1] 4 n ≤ 64, centered: x->x-1/2
ddouble.Cyclotomic(n, x) (-inf,+inf) 1 n ≤ 32
ddouble.MathieuA(n, q) (-inf,+inf) 4 n ≤ 16
ddouble.MathieuB(n, q) (-inf,+inf) 4 n ≤ 16
ddouble.MathieuC(n, q, x) (-inf,+inf) 4 n ≤ 16, Accuracy deteriorates when q is very large.
ddouble.MathieuS(n, q, x) (-inf,+inf) 4 n ≤ 16, Accuracy deteriorates when q is very large.
ddouble.EulerQ(q) (-1,1) 4
ddouble.LogEulerQ(q) (-1,1) 4
ddouble.Ldexp(x, y) (-inf,+inf) N/A
ddouble.Binomial(n, k) N/A 1 n ≤ 1000
ddouble.Hypot(x, y) N/A 2
ddouble.Min(x, y) N/A N/A
ddouble.Max(x, y) N/A N/A
ddouble.Clamp(v, min, max) N/A N/A
ddouble.CopySign(value, sign) N/A N/A
ddouble.Floor(x) N/A N/A
ddouble.Ceiling(x) N/A N/A
ddouble.Round(x) N/A N/A
ddouble.Truncate(x) N/A N/A
IEnumerable<ddouble>.Sum() N/A N/A
IEnumerable<ddouble>.Average() N/A N/A
IEnumerable<ddouble>.Min() N/A N/A
IEnumerable<ddouble>.Max() N/A N/A

Constants

constant value note
ddouble.PI 3.141592653589793238462... Pi
ddouble.E 2.718281828459045235360... Napier's E
ddouble.EulerGamma 0.577215664901532860606... Euler's Gamma
ddouble.Zeta3 1.202056903159594285399... ζ(3), Apery const.
ddouble.Zeta5 1.036927755143369926331... ζ(5)
ddouble.Zeta7 1.008349277381922826839... ζ(7)
ddouble.Zeta9 1.002008392826082214418... ζ(9)
ddouble.DigammaZero 1.461632144968362341263... Positive root of digamma
ddouble.ErdosBorwein 1.606695152415291763783... Erdös Borwein constant
ddouble.FeigenbaumDelta 4.669201609102990671853... Feigenbaum constant
ddouble.LemniscatePI 2.622057554292119810465... Lemniscate constant
ddouble.GlaisherA 1.282427129100622636875... Glaisher–Kinkelin constant
ddouble.CatalanG 0.915965594177219015055... Catalan's constant
ddouble.FransenRobinson 2.807770242028519365222... Fransén–Robinson constant
ddouble.KhinchinK 2.685452001065306445310... Khinchin's constant
ddouble.MeisselMertens 0.261497212847642783755... Meissel–Mertens constant
ddouble.LambertOmega 0.567143290409783873000... LambertW(1)
ddouble.LandauRamanujan 0.764223653589220662991... Landau–Ramanujan constant
ddouble.MillsTheta 1.306377883863080690469... Mills constant
ddouble.SoldnerMu 1.451369234883381050284... Ramanujan–Soldner constant
ddouble.SierpinskiK 0.822825249678847032995... Sierpiński's constant, Define follows wolfram.
ddouble.RcpFibonacci 3.359885666243177553172... Reciprocal Fibonacci constant
ddouble.Niven 1.705211140105367764289... Niven's constant
ddouble.GolombDickman 0.624329988543550870992... Golomb–Dickman constant

Sequence

sequence note
ddouble.TaylorSequence Taylor,1/n!
ddouble.Factorial Factorial,n!
ddouble.BernoulliSequence Bernoulli,B(2k)
ddouble.HarmonicNumber HarmonicNumber, H_n
ddouble.StieltjesGamma StieltjesGamma, γ_n

Casts

  • long (accurately)
ddouble v0 = 123;
long n0 = (long)v0;
  • double (accurately)
ddouble v1 = 0.5;
double n1 = (double)v1;
  • decimal (approximately)
ddouble v1 = 0.1m;
decimal n1 = (decimal)v1;
  • string (approximately)
ddouble v2 = "3.14e0";
string s0 = v2.ToString();
string s1 = v2.ToString("E8");
string s2 = $"{v2:E8}";

I/O

BinaryWriter, BinaryReader

Licence

MIT

Author

T.Yoshimura

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