gsl

---

Description:

A collection of numerical routines for scientific computing.

• Home: http://www.gnu.org/software/gsl/manual/html_node/
• C-Documentation: http://www.gnu.org/software/gsl/manual/html_node/
• Devhelp-Package download

Content:

Namespaces:

• Gsl

Classes:

• Block
• BlockComplex
• BsplineWorkspace
• ChebSeries
• Combination
• DHT
• EigenGenWorkspace
• EigenGenhermWorkspace
• EigenGenhermvWorkspace
• EigenGensymmWorkspace
• EigenGensymmvWorkspace
• EigenGenvWorkspace
• EigenHermWorkspace
• EigenHermvWorkspace
• EigenNonsymmWorkspace
• EigenNonsymmvWorkspace
• EigenSymmWorkspace
• EigenSymmvWorkspace
• FFTComplexWavetable
• FFTComplexWorkspace
• FFTHalfcomplexWavetable
• FFTRealWavetable
• FFTRealWorkspace
• Histogram
• Histogram2d
• Histogram2dPDF
• HistogramPDF
• IntegrationQAWOTable
• IntegrationQAWSTable
• IntegrationWorkspace
• Interp
• InterpAccel
• MathieuWorkspace
• Matrix
• MatrixComplex
• MinFminimizer
• MonteMiserState
• MontePlainState
• MonteVegasState
• MultifitFdfsolver
• MultifitFsolver
• MultifitLinearWorkspace
• MultiminFdfminimizer
• MultiminFminimizer
• MultirootFdfsolver
• MultirootFsolver
• NTuple
• OdeivControl
• OdeivEvolve
• OdeivStep
• Permutation
• PolyComplexWorkspace
• QRNG
• RNG
• RanDiscrete
• RootFdfsolver
• RootFsolver
• Spline
• SumLevinUWorkspace
• SumLevinUtruncWorkspace
• Vector
• VectorComplex
• Wavelet
• WaveletWorkspace

Structs:

• Complex
• Function
• FunctionFdf
• InterpType
• MatrixComplexView
• MatrixView
• MinFminimizerType
• MonteFunction
• MultifitFdfsolverType
• MultifitFsolverType
• MultifitFunction
• MultifitFunctionFdf
• MultiminFdfminimizerType
• MultiminFminimizerType
• MultiminFunction
• MultiminFunctionFdf
• MultirootFdfsolverType
• MultirootFsolverType
• MultirootFunction
• MultirootFunctionFdf
• NTupleSelectFn
• NTupleValueFn
• OdeivControlType
• OdeivStepType
• OdeivSystem
• QRNGType
• RNGType
• Result
• ResultE10
• RootFdfsolverType
• RootFsolverType
• SimanParams
• VectorComplexView
• VectorView
• WaveletType

Enums:

• ConstCGS
• ConstCGSM
• ConstMKS
• ConstMKSA
• ConstNum
• EigenSortType
• FFTDirection
• GaussRules
• MathConst
• Mode
• MonteVegasMode
• OdeivHadjustTypes
• QAWO
• Status
• WaveletDirection

Delegates:

• public delegate void ErrorHandler (string reason, string file, int line, int errno)
• public delegate void* InterpAlloc (size_t size)
• public delegate int InterpEval (void* t, double[] xa, double[] ya, size_t size, double x, unowned InterpAccel* i, out double y)
• public delegate int InterpEvalDeriv (void* t, double[] xa, double[] ya, size_t size, double x, unowned InterpAccel* i, out double y_p)
• public delegate int InterpEvalDeriv2 (void* t, double[] xa, double[] ya, size_t size, double x, unowned InterpAccel* i, out double y_pp)
• public delegate int InterpEvalInteg (void* t, double[] xa, double[] ya, size_t size, unowned InterpAccel* i, double a, double b, out double result)
• public delegate void InterpFree (void* t)
• public delegate int InterpInit (void* t, double[] xa, double[] ya, size_t size)
• public delegate int MinBracketingFunction (Function* f, double* x_minimum, double* f_minimum, double* x_lower, double* f_lower, double* x_upper, double* f_upper, size_t eval_max)
• public delegate int MinIterate (void* state, Function* f, double* x_minimum, double* f_minimum, double* x_lower, double* f_lower, double* x_upper, double* f_upper)
• public delegate int MinSet (void* state, Function* f, double xminimun, double f_minimum, double x_lower, double f_lower, double x_upper, double f_upper)
• public delegate double MonteFunc (double[] x_array, size_t dim, void* @params)
• public delegate int MultifitDf (Vector x, void* @params, Matrix df)
• public delegate int MultifitF (Vector x, void* @params, Vector f)
• public delegate int MultifitFAlloc (void* state, size_t n, size_t p)
• public delegate void MultifitFFree (void* state)
• public delegate int MultifitFIterate (void* state, MultifitFunction* function, Vector x, Vector f, Vector dx)
• public delegate int MultifitFSet (void* state, MultifitFunction* function, Vector x, Vector f, Vector dx)
• public delegate int MultifitFdf (Vector x, void* @params, Vector f, Matrix df)
• public delegate int MultifitFdfAlloc (void* state, size_t n, size_t p)
• public delegate void MultifitFdfFree (void* state)
• public delegate int MultifitFdfIterate (void* state, MultifitFunctionFdf fdf, Vector x, Vector f, Matrix J, Vector dx)
• public delegate int MultifitFdfSet (void* state, MultifitFunctionFdf fdf, Vector x, Vector f, Matrix J, Vector dx)
• public delegate void MultiminDf (Vector x, void* @params, Vector df)
• public delegate double MultiminF (Vector x, void* @params)
• public delegate int MultiminFAlloc (void* state, size_t n)
• public delegate int MultiminFFree (void* state)
• public delegate int MultiminFIterate (void* state, MultiminFunction* f, Vector x, double* size, double* fval)
• public delegate int MultiminFSet (void* state, MultiminFunction* f, Vector x, double* size)
• public delegate void MultiminFdf (Vector x, void* @params, double* f, Vector df)
• public delegate int MultiminFdfAlloc (void* state, size_t n)
• public delegate int MultiminFdfFree (void* state)
• public delegate int MultiminFdfIterate (void* state, MultiminFunctionFdf* fdf, Vector x, double* f, Vector gradient, Vector dx)
• public delegate int MultiminFdfRestart (void* state)
• public delegate int MultiminFdfSet (void* state, MultiminFunctionFdf* fdf, Vector x, double* f, Vector gradient, double step_size, double tol)
• public delegate int MultirootDF (Vector x, void* @params, Matrix df)
• public delegate int MultirootF (Vector x, void* @params, Vector f)
• public delegate int MultirootFAlloc (void* state, size_t n)
• public delegate int MultirootFDF (Vector x, void* @params, Vector f, Matrix df)
• public delegate void MultirootFFree (void* state)
• public delegate int MultirootFIterate (void* state, MultirootFunction* function, Vector x, Vector f, Vector dx)
• public delegate int MultirootFSet (void* state, MultirootFunction* function, Vector x, Vector f, Vector dx)
• public delegate int MultirootFdfAlloc (void* state, size_t n)
• public delegate int MultirootFdfFree (void* state)
• public delegate int MultirootFdfIterate (void* state, MultirootFunctionFdf* fdf, Vector x, Vector f, Matrix J, Vector dx)
• public delegate int MultirootFdfSet (void* state, MultirootFunctionFdf* fdf, Vector x, Vector f, Matrix J, Vector dx)
• public delegate int NTupleSelectFunc (void* ntuple_data, void* @params)
• public delegate double NTupleValueFunc (void* ntuple_data, void* @params)
• public delegate void* OdeivControlAlloc ()
• public delegate void OdeivControlFree (void* state)
• public delegate int OdeivControlHadjust (void* state, size_t dim, uint ord, double[] y, double[] yerr, double[] yp, double[] h)
• public delegate int OdeivControlInit (void* state, double eps_abs, double eps_rel, double a_y, double a_dydt)
• public delegate int OdeivFunction (double t, double[] y, double[] dydt, void* @params)
• public delegate int OdeivJacobian (double t, double[] y, double[] dfdy, double[] dfdt, void* @params)
• public delegate void* OdeivStepAlloc (size_t dim)
• public delegate int OdeivStepApply (void* state, size_t dim, double t, double h, double[] y, double[] yerr, double[] dydt_in, double[] dydt_out, OdeivSystem* dydt)
• public delegate void OdeivStepFree (void* state)
• public delegate uint OdeivStepOrder (void* state)
• public delegate int OdeivStepReset (void* state, size_t dim)
• public delegate int QRNGGetState2 (void* state, uint dimension, out double x)
• public delegate int QRNGInitState (void* state, uint dimension)
• public delegate size_t QRNGStateSize (uint dimension)
• public delegate double RNGGetDouble (void* state)
• public delegate ulong RNGGetState (void* state)
• public delegate void RNGSetState (void* state, ulong seed)
• public delegate int RootFdfsolverIterate (void* state, FunctionFdf* d, double* root)
• public delegate int RootFdfsolverSet (void* state, FunctionFdf* f, double* root)
• public delegate int RootFsolverIterate (void* state, Function* f, double* root, double* x_lower, double* x_upper)
• public delegate int RootFsolverSet (void* state, Function* f, double* root, double x_lower, double x_upper)
• public delegate void StreamHandler (string label, string file, int line, string reason)
• public delegate int WaveletInit (double** h1, double** g1, double** h2, double** g2, size_t* nc, size_t* offset, size_t member)
• public delegate double _Function (double x, void* @params)
• public delegate void _FunctionFdf (double x, void* @params, out double f, out double df)

Methods:

• public int find_bracket (Function* f, double* x_minimum, double* f_minimum, double* x_lower, double* f_lower, double* x_upper, double* f_upper, size_t eval_max)
• public int multimin_diff (MultiminFunction* f, Vector x, Vector g)
• public int multiroot_fdjacobian (MultirootFunction* F, Vector x, Vector f, double epsrel, Matrix jacobian)
• Airy

Methods:

• public double Ai (double x, Mode mode)
• public double Ai_deriv (double x, Mode mode)
• public int Ai_deriv_e (double x, Mode mode, out Result result)
• public double Ai_deriv_scaled (double x, Mode mode)
• public int Ai_deriv_scaled_e (double x, Mode mode, out Result result)
• public int Ai_e (double x, Mode mode, out Result result)
• public double Ai_scaled (double x, Mode mode)
• public int Ai_scaled_e (double x, Mode mode, out Result result)
• public double Bi (double x, Mode mode)
• public double Bi_deriv (double x, Mode mode)
• public int Bi_deriv_e (double x, Mode mode, out Result result)
• public double Bi_deriv_scaled (double x, Mode mode)
• public int Bi_deriv_scaled_e (double x, Mode mode, out Result result)
• public int Bi_e (double x, Mode mode, out Result result)
• public double Bi_scaled (double x, Mode mode)
• public int Bi_scaled_e (double x, Mode mode, out Result result)
• public double zero_Ai (uint s)
• public double zero_Ai_deriv (uint s)
• public int zero_Ai_deriv_e (uint s, out Result result)
• public int zero_Ai_e (uint s, out Result result)
• public double zero_Bi (uint s)
• public double zero_Bi_deriv (uint s)
• public int zero_Bi_deriv_e (uint s, out Result result)
• public int zero_Bi_e (uint s, out Result result)
• Bessel

Methods:

• public double I0 (double x)
• public int I0_e (double x, out Result result)
• public double I0_scaled (double x)
• public int I0_scaled_e (double x, out Result result)
• public double I1 (double x)
• public int I1_e (double x, out Result result)
• public double I1_scaled (double x)
• public int I1_scaled_e (double x, out Result result)
• public double In (int n, double x)
• public int In_array (int nmin, int nmax, double x, double[] result_array)
• public int In_e (int n, double x, out Result result)
• public double In_scaled (int n, double x)
• public int In_scaled_array (int nmin, int nmax, double x, double[] result_array)
• public int In_scaled_e (int n, double x, out Result result)
• public double Inu (double nu, double x)
• public int Inu_e (double nu, double x, out Result result)
• public double Inu_scaled (double nu, double x)
• public int Inu_scaled_e (double nu, double x, out Result result)
• public double J0 (double x)
• public int J0_e (double x, out Result result)
• public double J1 (double x)
• public int J1_e (double x, out Result result)
• public double Jn (int n, double x)
• public int Jn_array (int nmin, int nmax, double x, double[] result_array)
• public int Jn_e (int n, double x, out Result result)
• public double Jnu (double nu, double x)
• public int Jnu_e (double nu, double x, out Result result)
• public double K0 (double x)
• public int K0_e (double x, out Result result)
• public double K0_scaled (double x)
• public int K0_scaled_e (double x, out Result result)
• public double K1 (double x)
• public int K1_e (double x, out Result result)
• public double K1_scaled (double x)
• public int K1_scaled_e (double x, out Result result)
• public double Kn (int n, double x)
• public int Kn_array (int nmin, int nmax, double x, double[] result_array)
• public int Kn_e (int n, double x, out Result result)
• public double Kn_scaled (int n, double x)
• public int Kn_scaled_array (int nmin, int nmax, double x, double[] result_array)
• public int Kn_scaled_e (int n, double x, out Result result)
• public double Knu (double nu, double x)
• public int Knu_e (double nu, double x, out Result result)
• public double Knu_scaled (double nu, double x)
• public int Knu_scaled_e (double nu, double x, out Result result)
• public double Y0 (double x)
• public int Y0_e (double x, out Result result)
• public double Y1 (double x)
• public int Y1_e (double x, out Result result)
• public double Yn (int n, double x)
• public int Yn_array (int nmin, int nmax, double x, double[] result_array)
• public int Yn_e (int n, double x, out Result result)
• public double Ynu (double nu, double x)
• public int Ynu_e (double nu, double x, out Result result)
• public double i0_scaled (double x)
• public int i0_scaled_e (double x, out Result result)
• public double i1_scaled (double x)
• public int i1_scaled_e (double x, out Result result)
• public double i2_scaled (double x)
• public int i2_scaled_e (double x, out Result result)
• public double il_scaled (int l, double x)
• public int il_scaled_array (int lmax, double x, double[] result_array)
• public int il_scaled_e (int l, double x, out Result result)
• public double j0 (double x)
• public int j0_e (double x, out Result result)
• public double j1 (double x)
• public int j1_e (double x, out Result result)
• public double j2 (double x)
• public int j2_e (double x, out Result result)
• public double jl (int l, double x)
• public int jl_array (int lmax, double x, double[] result_array)
• public int jl_e (int l, double x, out Result result)
• public int jl_steed_array (int lmax, double x, double[] jl_x_array)
• public double k0_scaled (double x)
• public int k0_scaled_e (double x, out Result result)
• public double k1_scaled (double x)
• public int k1_scaled_e (double x, out Result result)
• public double k2_scaled (double x)
• public int k2_scaled_e (double x, out Result result)
• public double kl_scaled (int l, double x)
• public int kl_scaled_array (int lmax, double x, double[] result_array)
• public int kl_scaled_e (int l, double x, out Result result)
• public double lnKnu (double nu, double x)
• public int lnKnu_e (double nu, double x, out Result result)
• public int sequence_Jnu_e (double nu, Mode mode, size_t size, double[] v)
• public double y0 (double x)
• public int y0_e (double x, out Result result)
• public double y1 (double x)
• public int y1_e (double x, out Result result)
• public double y2 (double x)
• public int y2_e (double x, out Result result)
• public double yl (int l, double x)
• public int yl_array (int lmax, double x, double[] result_array)
• public int yl_e (int l, double x, out Result result)
• public double zero_J0 (uint s)
• public int zero_J0_e (uint s, out Result result)
• public double zero_J1 (uint s)
• public int zero_J1_e (uint s, out Result result)
• public double zero_Jnu (double nu, uint s)
• public int zero_Jnu_e (double nu, uint s, out Result result)
• Blas

Enums:

• Diag
• Order
• Side
• Transpose
• Uplo

Methods:

• public double dasum (Vector X)
• public int daxpy (double alpha, Vector X, Vector Y)
• public int dcopy (Vector X, Vector Y)
• public int ddot (Vector X, Vector Y, out double result)
• public int dgemm (Transpose transA, Transpose transB, double alpha, Matrix A, Matrix B, double beta, Matrix C)
• public int dgemv (Transpose transA, double alpha, Matrix A, Vector X, double beta, Vector Y)
• public int dger (double alpha, Vector X, Vector Y, Matrix A)
• public double dnrm2 (Vector X)
• public int drot (Vector X, Vector Y, double c, double s)
• public int drotg (double[] a, double[] b, double[] c, double[] s)
• public int drotm (Vector X, Vector Y, double[] P)
• public int drotmg (double[] d1, double[] d2, double[] b1, double b2, double[] P)
• public void dscal (double alpha, Vector X)
• public int dswap (Vector X, Vector Y)
• public int dsymm (Side side, Uplo uplo, double alpha, Matrix A, Matrix B, double beta, Matrix C)
• public int dsymv (Uplo uplo, double alpha, Matrix A, Vector X, double beta, Vector Y)
• public int dsyr (Uplo uplo, double alpha, Vector X, Matrix A)
• public int dsyr2 (Uplo uplo, double alpha, Vector X, Vector Y, Matrix A)
• public int dsyr2k (Uplo uplo, Transpose trans, double alpha, Matrix A, Matrix B, double beta, Matrix C)
• public int dsyrk (Uplo uplo, Transpose trans, double alpha, Matrix A, double beta, Matrix C)
• public int dtrmm (Side side, Uplo uplo, Transpose transA, Diag diag, double alpha, Matrix A, Matrix B)
• public int dtrmv (Uplo uplo, Transpose transA, Diag diag, Matrix A, Vector X)
• public int dtrsm (Side side, Uplo uplo, Transpose transA, Diag diag, double alpha, Matrix A, Matrix B)
• public int dtrsv (Uplo uplo, Transpose transA, Diag diag, Matrix A, Vector X)
• public double dzasum (VectorComplex X)
• public double dznrm2 (VectorComplex X)
• public size_t idamax (Vector X)
• public size_t izamax (VectorComplex X)
• public int zaxpy (Complex alpha, VectorComplex X, VectorComplex Y)
• public int zcopy (VectorComplex X, VectorComplex Y)
• public int zdotc (VectorComplex X, VectorComplex Y, out Complex result)
• public int zdotu (VectorComplex X, VectorComplex Y, out Complex result)
• public void zdscal (double alpha, VectorComplex X)
• public int zgemm (Transpose transA, Transpose transB, Complex alpha, MatrixComplex A, MatrixComplex B, Complex beta, MatrixComplex C)
• public int zgemv (Transpose transA, Complex alpha, MatrixComplex A, VectorComplex X, Complex beta, VectorComplex Y)
• public int zgerc (Complex alpha, VectorComplex X, VectorComplex Y, MatrixComplex A)
• public int zgeru (Complex alpha, VectorComplex X, VectorComplex Y, MatrixComplex A)
• public int zhemm (Side side, Uplo uplo, Complex alpha, MatrixComplex A, MatrixComplex B, Complex beta, MatrixComplex C)
• public int zhemv (Uplo uplo, Complex alpha, MatrixComplex A, VectorComplex X, Complex beta, VectorComplex Y)
• public int zher (Uplo uplo, double alpha, VectorComplex X, MatrixComplex A)
• public int zher2 (Uplo uplo, Complex alpha, VectorComplex X, VectorComplex Y, MatrixComplex A)
• public int zher2k (Uplo uplo, Transpose trans, Complex alpha, MatrixComplex A, MatrixComplex B, double beta, MatrixComplex C)
• public int zherk (Uplo uplo, Transpose trans, double alpha, MatrixComplex A, double beta, MatrixComplex C)
• public void zscal (Complex alpha, VectorComplex X)
• public int zswap (VectorComplex X, VectorComplex Y)
• public int zsymm (Side side, Uplo uplo, Complex alpha, MatrixComplex A, MatrixComplex B, Complex beta, MatrixComplex C)
• public int zsyr2k (Uplo uplo, Transpose trans, Complex alpha, MatrixComplex A, MatrixComplex B, Complex beta, MatrixComplex C)
• public int zsyrk (Uplo uplo, Transpose trans, Complex alpha, MatrixComplex A, Complex beta, MatrixComplex C)
• public int ztrmm (Side side, Uplo uplo, Transpose transA, Diag diag, Complex alpha, MatrixComplex A, MatrixComplex B)
• public int ztrmv (Uplo uplo, Transpose transA, Diag diag, MatrixComplex A, VectorComplex X)
• public int ztrsm (Side side, Uplo uplo, Transpose transA, Diag diag, Complex alpha, MatrixComplex A, MatrixComplex B)
• public int ztrsv (Uplo uplo, Transpose transA, Diag diag, MatrixComplex A, VectorComplex X)
• CDF

Methods:

• public double beta_P (double x, double a, double b)
• public double beta_Pinv (double P, double a, double b)
• public double beta_Q (double x, double a, double b)
• public double beta_Qinv (double Q, double a, double b)
• public double binomial_P (uint k, double p, uint n)
• public double binomial_Q (uint k, double p, uint n)
• public double cauchy_P (double x, double a)
• public double cauchy_Pinv (double P, double a)
• public double cauchy_Q (double x, double a)
• public double cauchy_Qinv (double Q, double a)
• public double chisq_P (double x, double nu)
• public double chisq_Pinv (double P, double nu)
• public double chisq_Q (double x, double nu)
• public double chisq_Qinv (double Q, double nu)
• public double exponential_P (double x, double mu)
• public double exponential_Pinv (double P, double mu)
• public double exponential_Q (double x, double mu)
• public double exponential_Qinv (double Q, double mu)
• public double exppow_P (double x, double a, double b)
• public double exppow_Q (double x, double a, double b)
• public double fdist_P (double x, double nu1, double nu2)
• public double fdist_Pinv (double P, double nu1, double nu2)
• public double fdist_Q (double x, double nu1, double nu2)
• public double fdist_Qinv (double Q, double nu1, double nu2)
• public double flat_P (double x, double a, double b)
• public double flat_Pinv (double P, double a, double b)
• public double flat_Q (double x, double a, double b)
• public double flat_Qinv (double Q, double a, double b)
• public double gamma_P (double x, double a, double b)
• public double gamma_Pinv (double P, double a, double b)
• public double gamma_Q (double x, double a, double b)
• public double gamma_Qinv (double Q, double a, double b)
• public double gaussian_P (double x, double sigma)
• public double gaussian_Pinv (double P, double sigma)
• public double gaussian_Q (double x, double sigma)
• public double gaussian_Qinv (double Q, double sigma)
• public double geometric_P (uint k, double p)
• public double geometric_Q (uint k, double p)
• public double gumbel1_P (double x, double a, double b)
• public double gumbel1_Pinv (double P, double a, double b)
• public double gumbel1_Q (double x, double a, double b)
• public double gumbel1_Qinv (double Q, double a, double b)
• public double gumbel2_P (double x, double a, double b)
• public double gumbel2_Pinv (double P, double a, double b)
• public double gumbel2_Q (double x, double a, double b)
• public double gumbel2_Qinv (double Q, double a, double b)
• public double hypergeometric_P (uint k, uint n1, uint n2, uint t)
• public double hypergeometric_Q (uint k, uint n1, uint n2, uint t)
• public double laplace_P (double x, double a)
• public double laplace_Pinv (double P, double a)
• public double laplace_Q (double x, double a)
• public double laplace_Qinv (double Q, double a)
• public double logistic_P (double x, double a)
• public double logistic_Pinv (double P, double a)
• public double logistic_Q (double x, double a)
• public double logistic_Qinv (double Q, double a)
• public double lognormal_P (double x, double zeta, double sigma)
• public double lognormal_Pinv (double P, double zeta, double sigma)
• public double lognormal_Q (double x, double zeta, double sigma)
• public double lognormal_Qinv (double Q, double zeta, double sigma)
• public double negative_binomial_P (uint k, double p, double n)
• public double negative_binomial_Q (uint k, double p, double n)
• public double pareto_P (double x, double a, double b)
• public double pareto_Pinv (double P, double a, double b)
• public double pareto_Q (double x, double a, double b)
• public double pareto_Qinv (double Q, double a, double b)
• public double pascal_P (uint k, double p, uint n)
• public double pascal_Q (uint k, double p, uint n)
• public double poisson_P (uint k, double mu)
• public double poisson_Q (uint k, double mu)
• public double rayleigh_P (double x, double sigma)
• public double rayleigh_Pinv (double P, double sigma)
• public double rayleigh_Q (double x, double sigma)
• public double rayleigh_Qinv (double Q, double sigma)
• public double tdist_P (double x, double nu)
• public double tdist_Pinv (double P, double nu)
• public double tdist_Q (double x, double nu)
• public double tdist_Qinv (double Q, double nu)
• public double ugaussian_P (double x)
• public double ugaussian_Pinv (double P)
• public double ugaussian_Q (double x)
• public double ugaussian_Qinv (double Q)
• public double weibull_P (double x, double a, double b)
• public double weibull_Pinv (double P, double a, double b)
• public double weibull_Q (double x, double a, double b)
• public double weibull_Qinv (double Q, double a, double b)
• Clausen

Methods:

• public double clausen (double x)
• public int clausen_e (double x, out Result result)
• Coulomb

Methods:

• public int CL_array (double lmin, int kmax, double eta, double[] cl)
• public int CL_e (double l, double eta, out Result result)
• CoulombWave

Methods:

• public int FG_array (double l_min, int kmax, double eta, double x, double[] fc_array, double[] gc_array, out double f_exponent, out double g_exponent)
• public int FG_e (double eta, double x, double l_f, int k, out Result f, out Result fp, out Result g, out Result gp, out double exp_f, out double exp_g)
• public int FGp_array (double l_min, int kmax, double eta, double x, double[] fc_array, double[] fcp_array, double[] gc_array, double[] gcp_array, out double f_exponent, out double g_exponent)
• public int F_array (double l_min, int kmax, double eta, double x, double[] fc_array, out double f_exponent)
• public int sphF_array (double l_min, int kmax, double eta, double x, double[] fc_array, double[] f_exponent)
• Coupling

Methods:

• public double @3j (int two_ja, int two_jb, int two_jc, int two_ma, int two_mb, int two_mc)
• public int @3j_e (int two_ja, int two_jb, int two_jc, int two_ma, int two_mb, int two_mc, out Result result)
• public double @6j (int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf)
• public int @6j_e (int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf, out Result result)
• public double @9j (int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf, int two_jg, int two_jh, int two_ji)
• public int @9j_e (int two_ja, int two_jb, int two_jc, int two_jd, int two_je, int two_jf, int two_jg, int two_jh, int two_ji, out Result result)
• Dawson

Methods:

• public double dawson (double x)
• public int dawson_e (double x, out Result result)
• Debye

Methods:

• public double D1 (double x)
• public int D1_e (double x, out Result result)
• public double D2 (double x)
• public int D2_e (double x, out Result result)
• public double D3 (double x)
• public int D3_e (double x, out Result result)
• public double D4 (double x)
• public int D4_e (double x, out Result result)
• public double D5 (double x)
• public int D5_e (double x, out Result result)
• public double D6 (double x)
• public int D6_e (double x, out Result result)
• Deriv

Methods:

• public int backward (Function* f, double x, double h, out double result, out double abserr)
• public int central (Function* f, double x, double h, out double result, out double abserr)
• public int forward (Function* f, double x, double h, out double result, out double abserr)
• Dilog

Methods:

• public int complex_dilog_e (double r, double theta, out Result result_re, out Result result_im)
• public double dilog (double x)
• public int dilog_e (double x, out Result result)
• EigenSort

Methods:

• public int genhermv_sort (Vector eval, MatrixComplex evec, EigenSortType sort_type)
• public int gensymmv_sort (Vector eval, Matrix evec, EigenSortType sort_type)
• public int genv_sort (VectorComplex alpha, Vector beta, MatrixComplex evec, EigenSortType sort_type)
• public int hermv_sort (Vector eval, MatrixComplex evec, EigenSortType sort_type)
• public int nonsymmv_sort (VectorComplex eval, MatrixComplex evec, EigenSortType sort_type)
• public int symmv_sort (Vector eval, Matrix evec, EigenSortType sort_type)
• EllInt

Methods:

• public double D (double phi, double k, Mode mode)
• public int D_e (double phi, double k, Mode mode, out Result result)
• public double E (double phi, double k, Mode mode)
• public int E_e (double phi, double k, Mode mode, out Result result)
• public double Ecomp (double k, Mode mode)
• public int Ecomp_e (double k, Mode mode, out Result result)
• public double F (double phi, double k, Mode mode)
• public int F_e (double phi, double k, Mode mode, out Result result)
• public double Kcomp (double k, Mode mode)
• public int Kcomp_e (double k, Mode mode, out Result result)
• public double P (double phi, double k, double n, Mode mode)
• public int P_e (double phi, double k, double n, Mode mode, out Result result)
• public double Pcomp (double k, double n, Mode mode)
• public int Pcomp_e (double k, double n, Mode mode, out Result result)
• public double RC (double x, double y, Mode mode)
• public int RC_e (double x, double y, Mode mode, out Result result)
• public double RD (double x, double y, double z, Mode mode)
• public int RD_e (double x, double y, double z, Mode mode, out Result result)
• public double RF (double x, double y, double z, Mode mode)
• public int RF_e (double x, double y, double z, Mode mode, out Result result)
• public double RJ (double x, double y, double z, double p, Mode mode)
• public int RJ_e (double x, double y, double z, double p, Mode mode, out Result result)
• EllJac

Methods:

• public int e (double u, double m, out double sn, out double cn, out double dn)
• Erf

Methods:

• public double erf (double x)
• public double erf_Q (double x)
• public int erf_Q_e (double x, out Result result)
• public double erf_Z (double x)
• public int erf_Z_e (double x, out Result result)
• public int erf_e (double x, out Result result)
• public double erfc (double x)
• public int erfc_e (double x, out Result result)
• public double hazard (double x)
• public int hazard_e (double x, out Result result)
• public double log_erfc (double x)
• public int log_erfc_e (double x, out Result result)
• Error

Methods:

• public void error (string reason, string file, int line, int errno)
• public ErrorHandler set_error_handler (ErrorHandler? new_handler)
• public ErrorHandler set_error_handler_off ()
• public unowned string strerror (int errno)
• Exp

Methods:

• public double exp (double x)
• public int exp_e (double x, out Result result)
• public int exp_e10_e (double x, out ResultE10 result)
• public int exp_err_e (double x, double dx, out Result result)
• public int exp_err_e10_e (double x, double dx, out ResultE10 result)
• public double exp_mult (double x, double y)
• public int exp_mult_e (double x, double y, out Result result)
• public int exp_mult_e10_e (double x, double y, out ResultE10 result)
• public int exp_mult_err_e (double x, double dx, double y, double dy, out Result result)
• public int exp_mult_err_e10_e (double x, double dx, double y, double dy, out ResultE10 result)
• public double expm1 (double x)
• public int expm1_e (double x, out Result result)
• public double exprel (double x)
• public double exprel_2 (double x)
• public int exprel_2_e (double x, out Result result)
• public int exprel_e (double x, out Result result)
• public double exprel_n (int n, double x)
• public int exprel_n_e (int n, double x, out Result result)
• Expint

Methods:

• public double Chi (double x)
• public int Chi_e (double x, out Result result)
• public double Ci (double x)
• public int Ci_e (double x, out Result result)
• public double Shi (double x)
• public int Shi_e (double x, out Result result)
• public double Si (double x)
• public int Si_e (double x, out Result result)
• public double atanint (double x)
• public double atanint_e (double x, out Result result)
• public double expint_3 (double x)
• public int expint_3_e (double x, out Result result)
• public double expint_E1 (double x)
• public int expint_E1_e (double x, out Result result)
• public double expint_E2 (double x)
• public int expint_E2_e (double x, out Result result)
• public double expint_Ei (double x)
• public int expint_Ei_e (double x, out Result result)
• public double expint_En (int n, double x)
• public int expint_En_e (int n, double x, out Result result)
• FFTComplex

Methods:

• public int backward (double[] data, size_t stride, size_t n, FFTComplexWavetable wavetable, FFTComplexWorkspace work)
• public int forward (double[] data, size_t stride, size_t n, FFTComplexWavetable wavetable, FFTComplexWorkspace work)
• public int inverse (double[] data, size_t stride, size_t n, FFTComplexWavetable wavetable, FFTComplexWorkspace work)
• public int radix2_backward (double[] data, size_t stride, size_t n)
• public int radix2_dif_backward (double[] data, size_t stride, size_t n)
• public int radix2_dif_forward (double[] data, size_t stride, size_t n)
• public int radix2_dif_inverse (double[] data, size_t stride, size_t n)
• public int radix2_dif_transform (double[] data, size_t stride, size_t n, FFTDirection sign)
• public int radix2_forward (double[] data, size_t stride, size_t n)
• public int radix2_inverse (double[] data, size_t stride, size_t n)
• public int radix2_transform (double[] data, size_t stride, size_t n, FFTDirection sign)
• public int transform (double[] data, size_t stride, size_t n, FFTComplexWavetable wavetable, FFTComplexWorkspace work, FFTDirection sign)
• FFTHalfcomplex

Methods:

• public int backward (double[] data, size_t stride, size_t n, FFTHalfcomplexWavetable wavetable, FFTRealWorkspace work)
• public int inverse (double[] data, size_t stride, size_t n, FFTHalfcomplexWavetable wavetable, FFTRealWorkspace work)
• public int radix2_backward (double[] data, size_t stride, size_t n)
• public int radix2_inverse (double[] data, size_t stride, size_t n)
• public int radix2_transform (double[] data, size_t stride, size_t n)
• public int radix2_unpack (double[] halfcomplex_coefficient, double[] complex_coefficient, size_t stride, size_t n)
• public int transform (double[] data, size_t stride, size_t n, FFTHalfcomplexWavetable wavetable, FFTRealWorkspace work)
• public int unpack (double[] halfcomplex_coefficient, double[] complex_coefficient, size_t stride, size_t n)
• FFTReal

Methods:

• public int radix2_transform (double[] data, size_t stride, size_t n)
• public int transform (double[] data, size_t stride, size_t n, FFTRealWavetable wavetable, FFTRealWorkspace work)
• public int unpack (double[] real_coefficient, double[] complex_coeficient, size_t stride, size_t n)
• FermiDirac

Methods:

• public double @3half (double x)
• public int @3half_e (double x, out Result result)
• public double F0 (double x)
• public int F0_e (double x, out Result result)
• public double F1 (double x)
• public int F1_e (double x, out Result result)
• public double F2 (double x)
• public int F2_e (double x, out Result result)
• public double Fint (int j, double x)
• public int Fint_e (int j, double x, out Result result)
• public double half (double x)
• public int half_e (double x, out Result result)
• public double inc_0 (double x, double b)
• public int inc_0_e (double x, double b, out Result result)
• public double m1 (double x)
• public int m1_e (double x, out Result result)
• public double mhalf (double x)
• public int mhalf_e (double x, out Result result)
• Fit

Methods:

• public int linear (double[] x, size_t xstride, double[] y, size_t ystride, size_t n, out double c0, out double c1, out double cov00, out double cov01, out double cov11, out double sumsq)
• public int linear_est (double x, double c0, double c1, double cov00, double cov01, double cov11, out double y, out double y_err)
• public int mul (double[] x, size_t xstride, double[] y, size_t ystride, size_t n, out double c1, out double cov11, out double sumsq)
• public int mul_est (double x, double c1, double cov11, out double y, out double y_err)
• public int wlinear (double[] x, size_t xstride, double[] w, size_t wstride, double[] y, size_t ystride, size_t n, out double c0, out double c1, out double cov00, out double cov01, out double cov11, out double chisq)
• public int wmul (double[] x, size_t xstride, double[] w, size_t wstride, double[] y, size_t ystride, size_t n, out double c1, out double cov11, out double sumsq)
• GammaBeta

Methods:

• public double beta (double a, double b)
• public int beta_e (double a, double b, out Result result)
• public double beta_inc (double a, double b, double x)
• public int beta_inc_e (double a, double b, double x, out Result result)
• public double choose (uint n, uint m)
• public int choose_e (uint n, uint m, out Result result)
• public double doublefact (uint n)
• public int doublefact_e (uint n, out Result result)
• public double fact (uint n)
• public int fact_e (uint n, out Result result)
• public double gamma (double x)
• public int gamma_e (double x, out Result result)
• public double gamma_inc (double a, double x)
• public double gamma_inc_P (double a, double x)
• public int gamma_inc_P_e (double a, double x, out Result result)
• public double gamma_inc_Q (double a, double x)
• public int gamma_inc_Q_e (double a, double x, out Result result)
• public int gamma_inc_e (double a, double x, out Result result)
• public double gammainv (double x)
• public int gammainv_e (double x, out Result result)
• public double gammastar (double x)
• public int gammastar_e (double x, out Result result)
• public double lnbeta (double a, double b)
• public int lnbeta_e (double a, double b, out Result result)
• public double lnchoose (uint n, uint m)
• public int lnchoose_e (uint n, uint m, out Result result)
• public double lndoublefact (uint n)
• public int lndoublefact_e (uint n, out Result result)
• public double lnfact (uint n)
• public int lnfact_e (uint n, out Result result)
• public double lngamma (double x)
• public int lngamma_complex_e (double zr, double zi, out Result lnr, out Result arg)
• public int lngamma_e (double x, out Result result)
• public int lngamma_sgn_e (double x, out Result result, out double sgn)
• public double lnpoch (double a, double x)
• public int lnpoch_e (double a, double x, out Result result)
• public int lnpoch_sgn_e (double a, double x, out Result result, out double sgn)
• public double poch (double a, double x)
• public int poch_e (double a, double x, out Result result)
• public double pochrel (double a, double x)
• public int pochrel_e (double a, double x, out Result result)
• public double taylorcoeff (int n, double x)
• public int taylorcoeff_e (int n, double x, out Result result)
• GegenPoly

Methods:

• public double C1 (double lambda, double x)
• public double C1_e (double lambda, double x, out Result result)
• public double C2 (double lambda, double x)
• public double C2_e (double lambda, double x, out Result result)
• public double C3 (double lambda, double x)
• public double C3_e (double lambda, double x, out Result result)
• public double Cn (int n, double lambda, double x)
• public double Cn_e (int n, double lambda, double x, out Result result)
• public int array (int nmax, double lambda, double x, double[] result_array)
• Hydrogenic

Methods:

• public double hydrogenicR (int n, int l, double z, double r)
• public double hydrogenicR_1 (double z, double r)
• public int hydrogenicR_1_e (double z, double r, out Result result)
• public int hydrogenicR_e (int n, int l, double z, double r, out Result result)
• Hyperg

Methods:

• public double @0F1 (double c, double x)
• public int @0F1_e (double c, double x, out Result result)
• public double @1F1 (double a, double b, double x)
• public int @1F1_e (double a, double b, double x, out Result result)
• public double @1F1_int (int m, int n, double x)
• public int @1F1_int_e (int m, int n, double x, out Result result)
• public double @2F0 (double a, double b, double x)
• public int @2F0_e (double a, double b, double x, out Result result)
• public double @2F1 (double a, double b, double c, double x)
• public double @2F1_conj (double aR, double aI, double c, double x)
• public int @2F1_conj_e (double aR, double aI, double c, double x, out Result result)
• public double @2F1_conj_renorm (double aR, double aI, double c, double x)
• public int @2F1_conj_renorm_e (double aR, double aI, double c, double x, out Result result)
• public int @2F1_e (double a, double b, double c, double x, out Result result)
• public double @2F1_renorm (double a, double b, double c, double x)
• public int @2F1_renorm_e (double a, double b, double c, double x, out Result result)
• public double U (double a, double b, double x)
• public int U_e (double a, double b, double x, out Result result)
• public int U_e10_e (double a, double b, double x, out ResultE10 result)
• public double U_int (int m, int n, double x)
• public int U_int_e (int m, int n, double x, out Result result)
• public int U_int_e10_e (int m, int n, double x, out ResultE10 result)
• Integration

Methods:

• public int qag (Function* f, double a, double b, double epsabs, double epsrel, size_t limit, int key, IntegrationWorkspace workspace, out double result, out double abserr)
• public int qagi (Function* f, double epsabs, double epsrel, size_t limit, IntegrationWorkspace workspace, out double result, out double abserr)
• public int qagil (Function* f, double b, double epsabs, double epsrel, size_t limit, IntegrationWorkspace workspace, out double result, out double abserr)
• public int qagiu (Function* f, double a, double epsabs, double epsrel, size_t limit, IntegrationWorkspace workspace, out double result, out double abserr)
• public int qagp (Function* f, double[] pts, size_t npts, double epsabs, double epsrel, size_t limit, IntegrationWorkspace workspace, out double result, out double abserr)
• public int qags (Function* f, double a, double b, double epsabs, double epsrel, size_t limit, IntegrationWorkspace workspace, out double result, out double abserr)
• public int qawc (Function* f, double a, double b, double c, double epsabs, double epsrel, size_t limit, IntegrationWorkspace workspace, out double result, out double abserr)
• public int qawf (Function* f, double a, double epsabs, size_t limit, IntegrationWorkspace workspace, IntegrationWorkspace cycle_workspace, IntegrationQAWOTable wf, out double result, out double abserr)
• public int qawo (Function* f, double a, double epsabs, double epsrel, size_t limit, IntegrationWorkspace workspace, IntegrationQAWOTable wf, out double result, out double abserr)
• public int qaws (Function* f, double a, double b, IntegrationQAWSTable t, double epsabs, double epsrel, size_t limit, IntegrationWorkspace workspace, out double result, out double abserr)
• public void qcheb (Function* f, double a, double b, out double cheb12, out double cheb24)
• public void qk (int n, double[] xgk, double[] wg, double[] wgk, double[] fv1, double[] fv2, Function* f, double a, double b, out double result, out double abserr, out double resabs, out double resasc)
• public void qk15 (Function* f, double a, double b, out double result, out double abserr, out double resabs, out double resasc)
• public void qk21 (Function* f, double a, double b, out double result, out double abserr, out double resabs, out double resasc)
• public void qk31 (Function* f, double a, double b, out double result, out double abserr, out double resabs, out double resasc)
• public void qk41 (Function* f, double a, double b, out double result, out double abserr, out double resabs, out double resasc)
• public void qk51 (Function* f, double a, double b, out double result, out double abserr, out double resabs, out double resasc)
• public void qk61 (Function* f, double a, double b, out double result, out double abserr, out double resabs, out double resasc)
• public int qng (Function* f, double a, double b, double epsabs, double epsrel, out double result, out double abserr, out size_t neval)
• InterpTypes

Fields:

• public InterpType* akima
• public InterpType* akima_periodic
• public InterpType* cspline
• public InterpType* cspline_periodic
• public InterpType* linear
• public InterpType* polynomial
• Laguerre

Methods:

• public double L1 (double a, double x)
• public double L1_e (double a, double x, out Result result)
• public double L2 (double a, double x)
• public double L2_e (double a, double x, out Result result)
• public double L3 (double a, double x)
• public double L3_e (double a, double x, out Result result)
• public double Ln (int n, double a, double x)
• public double Ln_e (int n, double a, double x, out Result result)
• Lambert

Methods:

• public double W0 (double x)
• public int W0_e (double x, out Result result)
• public double Wm1 (double x)
• public int Wm1_e (double x, out Result result)
• LegendrePoly

Methods:

• public double H3d (int l, double lambda, double eta)
• public double H3d_0 (double lambda, double eta)
• public int H3d_0_e (double lambda, double eta, out Result result)
• public double H3d_1 (double lambda, double eta)
• public int H3d_1_e (double lambda, double eta, out Result result)
• public int H3d_array (int lmax, double lambda, double eta, double[] result_array)
• public int H3d_e (int l, double lambda, double eta, out Result result)
• public double P1 (double x)
• public int P1_e (double x, out Result result)
• public double P2 (double x)
• public int P2_e (double x, out Result result)
• public double P3 (double x)
• public int P3_e (double x, out Result result)
• public double Pl (int l, double x)
• public int Pl_array (int lmax, double x, double[] result_array)
• public int Pl_deriv_array (int lmax, double x, double[] result_array, double[] result_deriv_array)
• public int Pl_e (int l, double x, out Result result)
• public double Plm (int l, int m, double x)
• public int Plm_array (int lmax, int m, double x, double[] result_array)
• public int Plm_deriv_array (int lmax, int m, double x, double[] result_array, double[] result_deriv_array)
• public int Plm_e (int l, int m, double x, out Result result)
• public double Q0 (double x)
• public int Q0_e (double x, out Result result)
• public double Q1 (double x)
• public int Q1_e (double x, out Result result)
• public double Ql (int l, double x)
• public int Ql_e (int l, double x, out Result result)
• public int array_size (int lmax, int m)
• public double conicalP_0 (double lambda, double x)
• public int conicalP_0_e (double lambda, double x, out Result result)
• public double conicalP_1 (double lambda, double x)
• public int conicalP_1_e (double lambda, double x, out Result result)
• public double conicalP_cyl_reg (int m, double lambda, double x)
• public int conicalP_cyl_reg_e (int m, double lambda, double x, out Result result)
• public double conicalP_half (double lambda, double x)
• public int conicalP_half_e (double lambda, double x, out Result result)
• public double conicalP_mhalf (double lambda, double x)
• public int conicalP_mhalf_e (double lambda, double x, out Result result)
• public double conicalP_sph_reg (int l, double lambda, double x)
• public int conicalP_sph_reg_e (int l, double lambda, double x, out Result result)
• public double sphPlm (int l, int m, double x)
• public int sphPlm_array (int lmax, int m, double x, double[] result_array)
• public int sphPlm_deriv_array (int lmax, int m, double x, double[] result_array, double[] result_deriv_array)
• public int sphPlm_e (int l, int m, double x, out Result result)
• LinAlg

Methods:

• public int HH_solve (Matrix A, Vector b, Vector x)
• public int HH_svx (Matrix A, Vector x)
• public int LU_decomp (Matrix A, Permutation p, out int signum)
• public double LU_det (Matrix LU, int signum)
• public int LU_invert (Matrix LU, Permutation p, Matrix inverse)
• public double LU_lndet (Matrix LU)
• public int LU_refine (Matrix A, Matrix LU, Permutation p, Vector b, Vector x, Vector residual)
• public int LU_sgndet (Matrix LU, int signum)
• public int LU_solve (Matrix LU, Permutation p, Vector b, Vector x)
• public int LU_svx (Matrix LU, Permutation p, Vector x)
• public int QRPT_QRsolve (Matrix Q, Matrix R, Permutation p, Vector b, Vector x)
• public int QRPT_Rsolve (Matrix QR, Permutation p, Vector b, Vector x)
• public int QRPT_Rsvx (Matrix QR, Permutation p, Vector x)
• public int QRPT_decomp (Matrix A, Vector tau, Permutation p, out int signum, Vector norm)
• public int QRPT_decomp2 (Matrix A, Matrix q, Matrix r, Vector tau, Permutation p, out int signum, Vector norm)
• public int QRPT_solve (Matrix QR, Vector tau, Permutation p, Vector b, Vector x)
• public int QRPT_svx (Matrix QR, Vector tau, Permutation p, Vector x)
• public int QRPT_update (Matrix Q, Matrix R, Permutation p, Vector u, Vector v)
• public int QR_QRsolve (Matrix Q, Matrix R, Vector b, Vector x)
• public int QR_QTmat (Matrix QR, Vector tau, Matrix A)
• public int QR_QTvec (Matrix QR, Vector tau, Vector v)
• public int QR_Qvec (Matrix QR, Vector tau, Vector v)
• public int QR_Rsolve (Matrix QR, Vector b, Vector x)
• public int QR_Rsvx (Matrix QR, Vector x)
• public int QR_decomp (Matrix A, Vector tau)
• public int QR_lssolve (Matrix QR, Vector tau, Vector b, Vector x, Vector residual)
• public int QR_solve (Matrix QR, Vector tau, Vector b, Vector x)
• public int QR_svx (Matrix QR, Vector tau, Vector x)
• public int QR_unpack (Matrix QR, Vector tau, Matrix Q, Matrix R)
• public int QR_update (Matrix Q, Matrix R, Vector w, Vector v)
• public int R_solve (Matrix R, Vector b, Vector x)
• public int R_svx (Matrix R, Vector x)
• public int SV_decomp (Matrix A, Matrix V, Vector S, Vector work)
• public int SV_decomp_jacobi (Matrix A, Matrix V, Vector S)
• public int SV_decomp_mod (Matrix A, Matrix X, Matrix V, Vector S, Vector work)
• public int SV_solve (Matrix U, Matrix V, Vector S, Vector b, Vector x)
• public int balance_matrix (Matrix A, Vector D)
• public int bidiag_decomp (Matrix A, Vector tau_U, Vector tau_V)
• public int bidiag_unpack (Matrix A, Vector tau_U, Matrix U, Vector tau_V, Matrix V, Vector diag, Vector superdiag)
• public int bidiag_unpack2 (Matrix A, Vector tau_U, Vector tau_V, Matrix V)
• public int bidiag_unpack_B (Matrix A, Vector diag, Vector superdiag)
• public int cholesky_decomp (Matrix A)
• public int cholesky_solve (Matrix cholesky, Vector b, Vector x)
• public int cholesky_svx (Matrix cholesky, Vector x)
• public int complex_LU_decomp (MatrixComplex A, Permutation p, out int signum)
• public Complex complex_LU_det (MatrixComplex LU, int signum)
• public int complex_LU_invert (MatrixComplex LU, Permutation p, MatrixComplex inverse)
• public double complex_LU_lndet (MatrixComplex LU)
• public int complex_LU_refine (MatrixComplex A, MatrixComplex LU, Permutation p, VectorComplex b, VectorComplex x, VectorComplex residual)
• public Complex complex_LU_sgndet (MatrixComplex LU, int signum)
• public int complex_LU_solve (MatrixComplex LU, Permutation p, VectorComplex b, VectorComplex x)
• public int complex_LU_svx (MatrixComplex LU, Permutation p, VectorComplex x)
• public int complex_cholesky_decomp (MatrixComplex A)
• public int complex_cholesky_solve (MatrixComplex cholesky, VectorComplex b, VectorComplex x)
• public int complex_cholesky_svx (MatrixComplex cholesky, VectorComplex x)
• public int complex_householder_hm (Complex tau, VectorComplex V, MatrixComplex A)
• public int complex_householder_hv (Complex tau, VectorComplex V, VectorComplex w)
• public int complex_householder_mh (Complex tau, VectorComplex V, MatrixComplex A)
• public Complex complex_householder_transform (VectorComplex V)
• public int hermtd_decomp (MatrixComplex A, VectorComplex tau)
• public int hermtd_unpack (MatrixComplex A, VectorComplex tau, MatrixComplex Q, Vector diag, Vector subdiag)
• public int hermtd_unpack_T (MatrixComplex A, Vector diag, Vector subdiag)
• public int hessenberg_decomp (Matrix A, Vector tau)
• public int hessenberg_set_zero (Matrix H)
• public int hessenberg_unpack (Matrix H, Vector tau, Matrix U)
• public int hessenberg_unpack_accum (Matrix H, Vector tau, Matrix V)
• public int hesstri_decomp (Matrix A, Matrix B, Matrix U, Matrix V, Vector work)
• public int householder_hm (double tau, Vector v, Matrix A)
• public int householder_hv (double tau, Vector v, Vector w)
• public int householder_mh (double tau, Vector v, Matrix A)
• public int householder_transform (Vector v)
• public int solve_cyc_tridiag (Vector diag, Vector e, Vector f, Vector b, Vector x)
• public int solve_symm_cyc_tridiag (Vector diag, Vector e, Vector b, Vector x)
• public int solve_symm_tridiag (Vector diag, Vector e, Vector b, Vector x)
• public int solve_tridiag (Vector diag, Vector e, Vector f, Vector b, Vector x)
• public int symmtd_decomp (Matrix A, Vector tau)
• public int symmtd_unpack (Matrix A, Vector tau, Matrix Q, Vector diag, Vector subdiag)
• public int symmtd_unpack_T (Matrix A, Vector diag, Vector subdiag)
• Log

Methods:

• public int complex_log_e (double zr, double zi, out Result result, out Result theta)
• public double log (double x)
• public double log_1plusx (double x)
• public int log_1plusx_e (double x, out Result result)
• public double log_1plusx_mx (double x)
• public int log_1plusx_mx_e (double x, out Result result)
• public double log_abs (double x)
• public int log_abs_e (double x, out Result result)
• public int log_e (double x, out Result result)
• MinFminimizerTypes

Fields:

• public MinFminimizerType* brent
• public MinFminimizerType* goldensection
• MinTest

Methods:

• public int interval (double x_lower, double x_upper, double epsabs, double epsrel)
• Multifit

Methods:

• public int covar (Matrix J, double epsrel, Matrix covar)
• public int gradient (Matrix J, Vector f, Vector g)
• public int linear (Matrix X, Vector y, Vector c, Matrix cov, out double chisq, MultifitLinearWorkspace work)
• public int linear_est (Vector x, Vector c, Matrix cov, out double y, out double y_err)
• public int linear_residuals (Matrix X, Vector y, Vector c, Vector r)
• public int linear_svd (Matrix X, MultifitLinearWorkspace work)
• public int wlinear (Matrix X, Vector w, Vector y, Vector c, Matrix cov, out double chisq, MultifitLinearWorkspace work)
• public int wlinear_svd (Matrix X, Vector w, Vector y, double tol, out size_t rank, Vector c, Matrix cov, out double chisq, MultifitLinearWorkspace work)
• MultifitFdfsolverTypes

Fields:

• public MultifitFdfsolverType* lmder
• public MultifitFdfsolverType* lmsder
• MultifitTest

Methods:

• public int delta (Vector dx, Vector x, double epsabs, double epsrel)
• public int gradient (Vector g, double epsabs)
• MultiminFdfminimizerTypes

Fields:

• public MultiminFdfminimizerType* conjugate_fr
• public MultiminFdfminimizerType* conjugate_pr
• public MultiminFdfminimizerType* steepest_descent
• public MultiminFdfminimizerType* vector_bfgs
• public MultiminFdfminimizerType* vector_bfgs2
• MultiminFminimizerTypes

Fields:

• public MultiminFminimizerType* nmsimplex
• MultiminTest

Methods:

• public int gradient (Vector g, double epsabs)
• public int size (double size, double epsabs)
• Multiply

Methods:

• public int e (double x, double y, out Result result)
• public int err_e (double x, double dx, double y, double dy, out Result result)
• MultirootFdfsolverTypes

Fields:

• public MultirootFdfsolverType* gnewton
• public MultirootFdfsolverType* hybridj
• public MultirootFdfsolverType* hybridsj
• public MultirootFdfsolverType* newton
• MultirootFsolverTypes

Fields:

• public MultirootFsolverType* broyden
• public MultirootFsolverType* dnewton
• public MultirootFsolverType* hybrid
• public MultirootFsolverType* hybrids
• MultirootTest

Methods:

• public int delta (Vector dx, Vector x, double epsabs, double epsrel)
• public int residual (Vector f, double epsabs)
• OdeivStepTypes

Fields:

• public OdeivStepType* bsimp
• public OdeivStepType* gear1
• public OdeivStepType* gear2
• public OdeivStepType* rk2
• public OdeivStepType* rk2imp
• public OdeivStepType* rk2simp
• public OdeivStepType* rk4
• public OdeivStepType* rk4imp
• public OdeivStepType* rk8pd
• public OdeivStepType* rkck
• public OdeivStepType* rkf45
• Permute

Methods:

• public int permute (size_t* p, double[] data, size_t stride, size_t n)
• public int permute_inverse (size_t* p, double[] data, size_t stride, size_t n)
• PermuteComplex

Methods:

• public int permute (size_t* p, double[] data, size_t stride, size_t n)
• public int permute_inverse (size_t* p, double[] data, size_t stride, size_t n)
• PermuteVector

Methods:

• public int permute (Permutation p, Vector v)
• public int permute_inverse (Permutation p, Vector v)
• PermuteVectorComplex

Methods:

• public int permute (Permutation p, VectorComplex v)
• public int permute_inverse (Permutation p, VectorComplex v)
• Poly

Methods:

• public Complex complex_eval (double[] c, Complex z)
• public int complex_solve_cubic (double a, double b, double c, out Complex z0, out Complex z1, out Complex z2)
• public int complex_solve_quadratic (double a, double b, double c, out Complex z0, out Complex z1)
• public double dd_eval (double[] dd, double[] xa, size_t size, double x)
• public int dd_init (double[] dd, double[] xa, double[] ya, size_t size)
• public int dd_taylor (double[] c, double xp, double[] dd, double[] xa, size_t size, double[] w)
• public double eval (double[] c, double x)
• public Complex poly_complex_eval (Complex[] c, Complex z)
• public int solve_cubic (double a, double b, double c, out double x0, out double x1, out double x2)
• public int solve_quadratic (double a, double b, double c, out double x0, out double x1)
• Pow

Methods:

• public double pow_int (double x, int n)
• public int pow_int_e (double x, int n, out Result result)
• Psi

Methods:

• public double psi (double x)
• public double psi_1 (double x)
• public int psi_1_e (double x, out Result result)
• public double psi_1_int (int n)
• public int psi_1_int_e (int n, out Result result)
• public double psi_1piy (double y)
• public int psi_1piy_e (double y, out Result result)
• public int psi_e (double x, out Result result)
• public double psi_int (int n)
• public int psi_int_e (int n, out Result result)
• public double psi_n (int n, double x)
• public int psi_n_e (int n, double x, out Result result)
• QRNGAlgorithms

Fields:

• public QRNGType* halton
• public QRNGType* niederreiter_2
• public QRNGType* reversehalton
• public QRNGType* sobol
• RNGTypes

Fields:

• public RNGType* @default
• public RNGType* borosh13
• public RNGType* cmrg
• public RNGType* coveyou
• public ulong default_seed
• public RNGType* fishman18
• public RNGType* fishman20
• public RNGType* fishman2x
• public RNGType* gfsr4
• public RNGType* knuthran
• public RNGType* knuthran2
• public RNGType* knuthran2002
• public RNGType* lecuyer21
• public RNGType* minstd
• public RNGType* mrg
• public RNGType* mt19937
• public RNGType* mt19937_1998
• public RNGType* mt19937_1999
• public RNGType* r250
• public RNGType* ran0
• public RNGType* ran1
• public RNGType* ran2
• public RNGType* ran3
• public RNGType* rand
• public RNGType* rand48
• public RNGType* random128_bsd
• public RNGType* random128_glibc2
• public RNGType* random128_libc5
• public RNGType* random256_bsd
• public RNGType* random256_glibc2
• public RNGType* random256_libc5
• public RNGType* random32_bsd
• public RNGType* random32_glibc2
• public RNGType* random32_libc5
• public RNGType* random64_bsd
• public RNGType* random64_glibc2
• public RNGType* random64_libc5
• public RNGType* random8_bsd
• public RNGType* random8_glibc2
• public RNGType* random8_libc5
• public RNGType* random_bsd
• public RNGType* random_glibc2
• public RNGType* random_libc5
• public RNGType* randu
• public RNGType* ranf
• public RNGType* ranlux
• public RNGType* ranlux389
• public RNGType* ranlxd1
• public RNGType* ranlxd2
• public RNGType* ranlxs0
• public RNGType* ranlxs1
• public RNGType* ranlxs2
• public RNGType* ranmar
• public RNGType* slatec
• public RNGType* taus
• public RNGType* taus113
• public RNGType* taus2
• public RNGType* transputer
• public RNGType* tt800
• public RNGType* uni
• public RNGType* uni32
• public RNGType* vax
• public RNGType* waterman14
• public RNGType* zuf
• Randist

Methods:

• public uint bernoulli (RNG r, double p)
• public double bernoulli_pdf (uint k, double p)
• public double beta (RNG r, double a, double b)
• public double beta_pdf (double x, double a, double b)
• public uint binomial (RNG r, double p, uint n)
• public uint binomial_knuth (RNG r, double p, uint n)
• public double binomial_pdf (uint k, double p, uint n)
• public uint binomial_tpe (RNG r, double p, uint n)
• public void bivariate_gaussian (RNG r, double sigma_x, double sigma_y, double rho, out double x, out double y)
• public double bivariate_gaussian_pdf (double x, double y, double sigma_x, double sigma_y, double rho)
• public double cauchy (RNG r, double a)
• public double cauchy_pdf (double x, double a)
• public double chisq (RNG r, double nu)
• public double chisq_pdf (double x, double nu)
• public int choose (RNG r, void* dest, size_t k, void* src, size_t n, size_t size)
• public void dir_2d (RNG r, out double x, out double y)
• public void dir_2d_trig_method (RNG r, out double x, out double y)
• public void dir_3d (RNG r, out double x, out double y, out double z)
• public void dir_nd (RNG r, size_t n, out double x)
• public void dirichlet (RNG r, size_t K, out double alpha, out double theta)
• public double dirichlet_lnpdf (size_t K, out double alpha, out double theta)
• public double dirichlet_pdf (size_t K, out double alpha, out double theta)
• public double erlang (RNG r, double a, double n)
• public double erlang_pdf (double x, double a, double n)
• public double exponential (RNG r, double mu)
• public double exponential_pdf (double x, double mu)
• public double exppow (RNG r, double a, double b)
• public double exppow_pdf (double x, double a, double b)
• public double fdist (RNG r, double nu1, double nu2)
• public double fdist_pdf (double x, double nu1, double nu2)
• public double flat (RNG r, double a, double b)
• public double flat_pdf (double x, double a, double b)
• public double gamma (RNG r, double a, double b)
• public double gamma_int (RNG r, uint a)
• public double gamma_knuth (RNG r, double a, double b)
• public double gamma_mt (RNG r, double a, double b)
• public double gamma_pdf (double x, double a, double b)
• public double gaussian (RNG r, double sigma)
• public double gaussian_pdf (double x, double sigma)
• public double gaussian_ratio_method (RNG r, double sigma)
• public double gaussian_tail (RNG r, double a, double sigma)
• public double gaussian_tail_pdf (double x, double a, double sigma)
• public double gaussian_ziggurat (RNG r, double sigma)
• public uint geometric (RNG r, double p)
• public double geometric_pdf (uint k, double p)
• public double gumbel1 (RNG r, double a, double b)
• public double gumbel1_pdf (double x, double a, double b)
• public double gumbel2 (RNG r, double a, double b)
• public double gumbel2_pdf (double x, double a, double b)
• public uint hypergeometric (RNG r, uint n1, uint n2, uint t)
• public double hypergeometric_pdf (uint k, uint n1, uint n2, uint t)
• public double landau (RNG r)
• public double landau_pdf (double x)
• public double laplace (RNG r, double a)
• public double laplace_pdf (double x, double a)
• public double levy (RNG r, double c, double alpha)
• public double levy_skew (RNG r, double c, double alpha, double beta)
• public uint logarithmic (RNG r, double p)
• public double logarithmic_pdf (uint k, double p)
• public double logistic (RNG r, double a)
• public double logistic_pdf (double x, double a)
• public double lognormal (RNG r, double zeta, double sigma)
• public double lognormal_pdf (double x, double zeta, double sigma)
• public void multinomial (RNG r, size_t K, uint N, double[] p, uint[] n)
• public double multinomial_lnpdf (size_t K, double[] p, uint[] n)
• public double multinomial_pdf (size_t K, double[] p, uint[] n)
• public uint negative_binomial (RNG r, double p, double n)
• public double negative_binomial_pdf (uint k, double p, double n)
• public double pareto (RNG r, double a, double b)
• public double pareto_pdf (double x, double a, double b)
• public uint pascal (RNG r, double p, uint n)
• public double pascal_pdf (uint k, double p, uint n)
• public uint poisson (RNG r, double mu)
• public void poisson_array (RNG r, size_t n, uint[] array, double mu)
• public double poisson_pdf (uint k, double mu)
• public double rayleigh (RNG r, double sigma)
• public double rayleigh_pdf (double x, double sigma)
• public double rayleigh_tail (RNG r, double a, double sigma)
• public double rayleigh_tail_pdf (double x, double a, double sigma)
• public void sample (RNG r, void* dest, size_t k, void* src, size_t n, size_t size)
• public void shuffle (RNG r, void* b, size_t nmembm, size_t size)
• public double tdist (RNG r, double nu)
• public double tdist_pdf (double x, double nu)
• public double ugaussian (RNG r)
• public double ugaussian_pdf (double x)
• public double ugaussian_ratio_method (RNG r)
• public double ugaussian_tail (RNG r, double a)
• public double ugaussian_tail_pdf (double x, double a)
• public double weibull (RNG r, double a, double b)
• public double weibull_pdf (double x, double a, double b)
• RootFdfsolverTypes

Fields:

• public RootFdfsolverType* newton
• public RootFdfsolverType* secant
• public RootFdfsolverType* steffenson
• RootFsolverTypes

Fields:

• public RootFsolverType* bisection
• public RootFsolverType* brent
• public RootFsolverType* falsepos
• RootTest

Methods:

• public int delta (double x1, double x0, double epsabs, double epsrel)
• public int interval (double x_lower, double x_upper, double epsabs, double epsrel)
• public int residual (double f, double epsabs)
• Siman

Delegates:

• public delegate double Efunc_t (void* xp)
• public delegate void copy_construct_t (void* xp)
• public delegate void copy_t (void* source, void* dest)
• public delegate void destroy_t (void* xp)
• public delegate double metric_t (void* xp, void* yp)
• public delegate void print_t (void* xp)
• public delegate void step_t (RNG r, void* xp, double step_size)

Methods:

• public void solve (RNG r, void* x0_p, Efunc_t Ef, step_t take_step, metric_t distance, print_t print_position, copy_t copyfunc, copy_construct_t copy_constructor, destroy_t destructor, size_t element_size, SimanParams @params)
• public void solve_many (RNG r, void* x0_p, Efunc_t Ef, step_t take_step, metric_t distance, print_t print_position, size_t element_size, SimanParams @params)
• Sort

Methods:

• public int largest (double[] dest, size_t k, double[] src, size_t stride, size_t n)
• public int largest_index (size_t[] p, size_t k, double[] src, size_t stride, size_t n)
• public int smallest (double[] dest, size_t k, double[] src, size_t stride, size_t n)
• public int smallest_index (size_t[] p, size_t k, double[] src, size_t stride, size_t n)
• public void sort (double[] data, size_t stride, size_t n)
• public void sort_index (size_t[] p, double[] data, size_t stride, size_t n)
• SortVector

Methods:

• public int largest (double[] dest, size_t k, Vector v)
• public int largest_index (size_t[] p, size_t k, Vector v)
• public int smallest (double[] dest, size_t k, Vector v)
• public int smallest_index (size_t[] p, size_t k, Vector v)
• public void sort (Vector v)
• public int sort_index (Permutation p, Vector v)
• Stats

Methods:

• public double absdev (double[] data, size_t stride, size_t n)
• public double absdev_m (double[] data, size_t stride, size_t n, double mean)
• public double correlation (double[] data1, size_t stride1, double[] data2, size_t stride2, size_t n)
• public double covariance (double[] data1, size_t stride1, double[] data2, size_t stride2, size_t n)
• public double covariance_m (double[] data1, size_t stride1, double[] data2, size_t stride2, size_t n, double mean1, double mean2)
• public double kurtosis (double[] data, size_t stride, size_t n)
• public double kurtosis_m_sd (double[] data, size_t stride, size_t n, double mean, double sd)
• public double lag1_autocorrelation (double[] data, size_t stride, size_t n)
• public double lag1_autocorrelation_m (double[] data, size_t stride, size_t n, double mean)
• public double max (double[] data, size_t stride, size_t n)
• public size_t max_index (double[] data, size_t stride, size_t n)
• public double mean (double[] data, size_t stride, size_t n)
• public double median_from_sorted_data (double[] sorted_data, size_t stride, size_t n)
• public double min (double[] data, size_t stride, size_t n)
• public size_t min_index (double[] data, size_t stride, size_t n)
• public void minmax (out double min, out double max, double[] data, size_t stride, size_t n)
• public void minmax_index (out size_t min, out size_t max, double[] data, size_t stride, size_t n)
• public double quantile_from_sorted_data (double[] sorted_data, size_t stride, size_t n, double f)
• public double sd (double[] data, size_t stride, size_t n)
• public double sd_m (double[] data, size_t stride, size_t n, double mean)
• public double sd_with_fixed_mean (double[] data, size_t stride, size_t n, double mean)
• public double skew (double[] data, size_t stride, size_t n)
• public double skew_m_sd (double[] data, size_t stride, size_t n, double mean, double sd)
• public double tss (double[] data, size_t stride, size_t n)
• public double tss_m (double[] data, size_t stride, size_t n, double mean)
• public double variance (double[] data, size_t stride, size_t n)
• public double variance_m (double[] data, size_t stride, size_t n, double mean)
• public double variance_with_fixed_mean (double[] data, size_t stride, size_t n, double mean)
• public double wabsdev (double[] w, size_t wstride, double[] data, size_t stride, size_t n)
• public double wabsdev_m (double[] w, size_t wstride, double[] data, size_t stride, size_t n, double wmean)
• public double wkurtosis (double[] w, size_t wstride, double[] data, size_t stride, size_t n)
• public double wkurtosis_m_sd (double[] w, size_t wstride, double[] data, size_t stride, size_t n, double wmean, double wsd)
• public double wmean (double[] w, size_t wstride, double[] data, size_t stride, size_t n)
• public double wsd (double[] w, size_t wstride, double[] data, size_t stride, size_t n)
• public double wsd_m (double[] w, size_t wstride, double[] data, size_t stride, size_t n, double wmean)
• public double wsd_with_fixed_mean (double[] w, size_t wstride, double[] data, size_t stride, size_t n, double wmean)
• public double wskew (double[] w, size_t wstride, double[] data, size_t stride, size_t n)
• public double wskew_m_sd (double[] w, size_t wstride, double[] data, size_t stride, size_t n, double wmean, double wsd)
• public double wtss (double[] w, size_t wstride, double[] data, size_t stride, size_t n)
• public double wtss_m (double[] w, size_t wstride, double[] data, size_t stride, size_t n, double mean)
• public double wvariance (double[] w, size_t wstride, double[] data, size_t stride, size_t n)
• public double wvariance_m (double[] w, size_t wstride, double[] data, size_t stride, size_t n, double wmean)
• public double wvariance_with_fixed_mean (double[] w, size_t wstride, double[] data, size_t stride, size_t n, double wmean)
• Stream

Methods:

• public void printf (string label, string file, int line, string reason)
• public FileStream set_stream (FileStream new_stream)
• public StreamHandler set_stream_handler (StreamHandler new_handler)
• SumLevinU

Methods:

• public int accel (double[] array, SumLevinUWorkspace w, out double sum_accel, out double abserr)
• public int minmax (double[] array, size_t min_terms, size_t max_terms, SumLevinUWorkspace w, out double sum_accel, out double abserr)
• public int step (double term, size_t n, size_t nmax, SumLevinUWorkspace w, out double sum_accel)
• SumLevinUtrunc

Methods:

• public int accel (double[] array, SumLevinUtruncWorkspace w, out double sum_accel, out double abserr_trunc)
• public int minmax (double[] array, size_t min_terms, size_t max_terms, SumLevinUtruncWorkspace w, out double sum_accel, out double abserr_trunc)
• public int step (double term, size_t n, SumLevinUtruncWorkspace w, out double sum_accel)
• Synchrotron

Methods:

• public double synchrotron_1 (double x)
• public int synchrotron_1_e (double x, out Result result)
• public double synchrotron_2 (double x)
• public double synchrotron_2_e (double x, out Result result)
• Transport

Methods:

• public double transport_2 (double x)
• public int transport_2_e (double x, out Result result)
• public double transport_3 (double x)
• public int transport_3_e (double x, out Result result)
• public double transport_4 (double x)
• public int transport_4_e (double x, out Result result)
• public double transport_5 (double x)
• public int transport_5_e (double x, out Result result)
• Trig

Methods:

• public double angle_restrict_pos (double theta)
• public int angle_restrict_pos_e (out double theta)
• public double angle_restrict_symm (double theta)
• public int angle_restrict_symm_e (out double theta)
• public double complex_cos_e (double zr, double zi, out Result czr, out Result czi)
• public double complex_logsin_e (double zr, double zi, out Result lszr, out Result lszi)
• public double complex_sin_e (double zr, double zi, out Result szr, out Result szi)
• public double cos (double x)
• public int cos_e (double x, out Result result)
• public int cos_err_e (double x, double dx, out Result result)
• public double hypot (double x, double y)
• public int hypot_e (double x, double y, out Result result)
• public double lncosh (double x)
• public int lncosh_e (double x, out Result result)
• public double lnsinh (double x)
• public int lnsinh_e (double x, out Result result)
• public int polar_to_rect (double r, double theta, out Result x, out Result y)
• public int rect_to_polar (double x, double y, out Result r, out Result theta)
• public double sin (double x)
• public int sin_e (double x, out Result result)
• public int sin_err_e (double x, double dx, out Result result)
• public double sinc (double x)
• public int sinc_e (double x, out Result result)
• WaveletTypes

Fields:

• public WaveletType* bspline
• public WaveletType* bspline_centered
• public WaveletType* daubechies
• public WaveletType* daubechies_centered
• public WaveletType* haar
• public WaveletType* haar_centered
• Zeta

Methods:

• public double eta (double s)
• public int eta_e (double s, out Result result)
• public double eta_int (int n)
• public int eta_int_e (int n, out Result result)
• public double hzeta (double s, double q)
• public int hzeta_e (double s, double q, out Result result)
• public double zeta (double s)
• public int zeta_e (double s, out Result result)
• public double zeta_int (int n)
• public int zeta_int_e (int n, out Result result)
• public double zetam1 (double s)
• public int zetam1_e (double s, out Result result)
• public double zetam1_int (int n)
• public int zetam1_int_e (int n, out Result result)