d01 Chapter Introduction
NAG C Library Manual

# NAG Library Chapter Contentsd01 – Quadrature

### d01 Chapter Introduction

 FunctionName Mark ofIntroduction Purpose d01ajc Example Text 2 nag_1d_quad_gen One-dimensional adaptive quadrature, allowing for badly behaved integrandsNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01akc Example Text 2 nag_1d_quad_osc One-dimensional adaptive quadrature, suitable for oscillating functionsNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01alc Example Text 2 nag_1d_quad_brkpts One-dimensional adaptive quadrature, allowing for singularities at specified pointsNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01amc Example Text 2 nag_1d_quad_inf One-dimensional adaptive quadrature over infinite or semi-infinite intervalNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01anc Example Text 2 nag_1d_quad_wt_trig One-dimensional adaptive quadrature, finite interval, sine or cosine weight functionsNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01apc Example Text 2 nag_1d_quad_wt_alglog One-dimensional adaptive quadrature, weight function with end-point singularities of algebraic-logarithmic typeNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01aqc Example Text 2 nag_1d_quad_wt_cauchy One-dimensional adaptive quadrature, weight function $1/\left(x-c\right)$, Cauchy principal valueNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01asc Example Text 2 nag_1d_quad_inf_wt_trig One-dimensional adaptive quadrature, semi-infinite interval, sine or cosine weight functionNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01bac Example Text 2 nag_1d_quad_gauss One-dimensional Gaussian quadrature rule evaluationNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01bdc Example Text Example Data 23 nag_quad_1d_fin_smooth One-dimensional quadrature, non-adaptive, finite interval d01dac Example Text Example Data 23 nag_quad_2d_fin Two-dimensional quadrature, finite region d01fbc Example Text Example Data 23 nag_quad_md_gauss Multidimensional Gaussian quadrature over hyper-rectangle d01fcc Example Text 2 nag_multid_quad_adapt Multidimensional adaptive quadratureNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01fdc Example Text Example Data 23 nag_quad_md_sphere Multidimensional quadrature, Sag–Szekeres method, general product region or $n$-sphere d01gac Example Text Example Data 2 nag_1d_quad_vals One-dimensional integration of a function defined by data values only d01gbc Example Text 2 nag_multid_quad_monte_carlo Multidimensional quadrature, using Monte–Carlo methodNote: this function is scheduled for withdrawal at Mark 24, see Advice on Replacement Calls for Withdrawn/Superseded Functions for further information. d01gdc Example Text Example Data 23 nag_quad_md_numth_vec Multidimensional quadrature, general product region, number-theoretic method d01gyc Example Text Example Data 23 nag_quad_md_numth_coeff_prime Korobov optimal coefficients for use in nag_quad_md_numth_vec (d01gdc), when number of points is prime d01gzc Example Text Example Data 23 nag_quad_md_numth_coeff_2prime Korobov optimal coefficients for use in nag_quad_md_numth_vec (d01gdc), when number of points is product of two primes d01pac Example Text Example Data 23 nag_quad_md_simplex Multidimensional quadrature over an $n$-simplex d01sjc Example Text 5 nag_1d_quad_gen_1 One-dimensional adaptive quadrature, allowing for badly behaved integrands, thread-safe d01skc Example Text 5 nag_1d_quad_osc_1 One-dimensional adaptive quadrature, suitable for oscillating functions, thread-safe d01slc Example Text 5 nag_1d_quad_brkpts_1 One-dimensional adaptive quadrature, allowing for singularities at specified points, thread-safe d01smc Example Text 5 nag_1d_quad_inf_1 One-dimensional adaptive quadrature over infinite or semi-infinite interval, thread-safe d01snc Example Text 5 nag_1d_quad_wt_trig_1 One-dimensional adaptive quadrature, finite interval, sine or cosine weight functions, thread-safe d01spc Example Text 5 nag_1d_quad_wt_alglog_1 One-dimensional adaptive quadrature, weight function with end-point singularities of algebraic-logarithmic type, thread-safe d01sqc Example Text 5 nag_1d_quad_wt_cauchy_1 One-dimensional adaptive quadrature, weight function $1/\left(x-c\right)$, Cauchy principal value, thread-safe d01ssc Example Text 5 nag_1d_quad_inf_wt_trig_1 One-dimensional adaptive quadrature, semi-infinite interval, sine or cosine weight function, thread-safe d01tac Example Text 5 nag_1d_quad_gauss_1 One-dimensional Gaussian quadrature rule evaluation, thread-safe d01tbc Example Text Example Data 23 nag_quad_1d_gauss_wset Pre-computed weights and abscissae for Gaussian quadrature rules, restricted choice of rule d01tcc Example Text Example Data 23 nag_quad_1d_gauss_wgen Calculation of weights and abscissae for Gaussian quadrature rules, general choice of rule d01wcc Example Text 5 nag_multid_quad_adapt_1 Multidimensional adaptive quadrature, thread-safe d01xbc Example Text 5 nag_multid_quad_monte_carlo_1 Multidimensional quadrature, using Monte–Carlo method, thread-safe