void abram0_values ( int *n_data, double *x, double *fx );
void abram1_values ( int *n_data, double *x, double *fx );
void abram2_values ( int *n_data, double *x, double *fx );
void agm_values ( int *n_data, double *a, double *b, double *fx );
void airy_ai_values ( int *n_data, double *x, double *ai );
void airy_ai_int_values ( int *n_data, double *x, double *fx );
void airy_ai_prime_values ( int *n_data, double *x, double *aip );
void airy_bi_values ( int *n_data, double *x, double *bi );
void airy_bi_int_values ( int *n_data, double *x, double *fx );
void airy_bi_prime_values ( int *n_data, double *x, double *bip );
void airy_cai_values ( int *n_data, double complex *x, double complex *cai );
void airy_cbi_values ( int *n_data, double complex *x, double complex *cbi );
void airy_gi_values ( int *n_data, double *x, double *fx );
void airy_hi_values ( int *n_data, double *x, double *fx );
void arccos_values ( int *n_data, double *x, double *fx );
void arccosh_values ( int *n_data, double *x, double *fx );
void arcsin_values ( int *n_data, double *x, double *fx );
void arcsinh_values ( int *n_data, double *x, double *fx );
void arctan_values ( int *n_data, double *x, double *fx );
void arctan_int_values ( int *n_data, double *x, double *fx );
void arctan2_values ( int *n_data, double *x, double *y, double *f );;
void arctanh_values ( int *n_data, double *x, double *fx );
void bei0_values ( int *n_data, double *x, double *fx );
void bei1_values ( int *n_data, double *x, double *fx );
void bell_values ( int *n_data, int *n, int *c );
void ber0_values ( int *n_data, double *x, double *fx );
void ber1_values ( int *n_data, double *x, double *fx );
void bernoulli_number_values ( int *n_data, int *n, double *c );
void bernoulli_poly_values ( int *n_data, int *n, double *x, double *fx );
void bernstein_poly_01_values ( int *n_data, int *n, int *k, double *x, 
  double *b );
void bessel_i0_int_values ( int *n_data, double *x, double *fx );
void bessel_i0_spherical_values ( int *n_data, double *x, double *fx );
void bessel_i0_values ( int *n_data, double *x, double *fx );
void bessel_i1_spherical_values ( int *n_data, double *x, double *fx );
void bessel_i1_values ( int *n_data, double *x, double *fx );
void bessel_in_values ( int *n_data, int *nu, double *x, double *fx );
void bessel_ix_values ( int *n_data, double *nu, double *x, double *fx );
void bessel_j_spherical_values ( int *n_data, int *n, double *x, double *fx );
void bessel_j0_int_values ( int *n_data, double *x, double *fx );
void bessel_j0_spherical_values ( int *n_data, double *x, double *fx );
void bessel_j0_zero_values ( int *n_data, int *k, double *fx );
void bessel_j0_values ( int *n_data, double *x, double *fx );
void bessel_j1_spherical_values ( int *n_data, double *x, double *fx );
void bessel_j1_values ( int *n_data, double *x, double *fx );
void bessel_jn_values ( int *n_data, int *nu, double *x, double *fx );
void bessel_jx_values ( int *n_data, double *nu, double *x, double *fx );
void bessel_k0_values ( int *n_data, double *x, double *fx );
void bessel_k0_int_values ( int *n_data, double *x, double *fx );
void bessel_k1_values ( int *n_data, double *x, double *fx );
void bessel_kn_values ( int *n_data, int *nu, double *x, double *fx );
void bessel_kx_values ( int *n_data, double *nu, double *x, double *fx );
void bessel_y0_int_values ( int *n_data, double *x, double *fx );
void bessel_y0_spherical_values ( int *n_data, double *x, double *fx );
void bessel_y0_values ( int *n_data, double *x, double *fx );
void bessel_y1_spherical_values ( int *n_data, double *x, double *fx );
void bessel_y1_values ( int *n_data, double *x, double *fx );
void bessel_yn_values ( int *n_data, int *nu, double *x, double *fx );
void bessel_yx_values ( int *n_data, double *nu, double *x, double *fx );
void beta_values ( int *n_data, double *x, double *y, double *fxy );
void beta_cdf_values ( int *n_data, double *a, double *b, double *x, double *fx );
void beta_inc_values ( int *n_data, double *a, double *b, double *x, double *fx ); 
void beta_log_values ( int *n_data, double *x, double *y, double *fxy );
void beta_noncentral_cdf_values ( int *n_data, double *a, double *b, 
  double *lambda, double *x, double *fx );
void beta_pdf_values ( int *n_data, double *a, double *b, double *x, double *fx );
void binomial_values ( int *n_data, int *a, int *b, int *fx );
void binomial_cdf_values ( int *n_data, int *a, double *b, int *x, double *fx );
void binomial_pdf_values ( int *n_data, int *a, double *b, int *x, double *fx );
void bivariate_normal_cdf_values ( int *n_data, double *x, double *y, 
  double *r, double *fxy );
void catalan_values ( int *n_data, int *n, int *c );
void cauchy_cdf_values ( int *n_data, double *mu, double *sigma, double *x,
  double *fx );
void cbrt_values ( int *n_data, double *x, double *fx );
void cheby_t_poly_values ( int *n_data, int *n, double *x, double *fx );
void cheby_t01_poly_values ( int *n_data, int *n, double *x, double *fx );
void cheby_u_poly_values ( int *n_data, int *n, double *x, double *fx );
void cheby_u01_poly_values ( int *n_data, int *n, double *x, double *fx );
void cheby_v_poly_values ( int *n_data, int *n, double *x, double *fx );
void cheby_v01_poly_values ( int *n_data, int *n, double *x, double *fx );
void cheby_w_poly_values ( int *n_data, int *n, double *x, double *fx );
void cheby_w01_poly_values ( int *n_data, int *n, double *x, double *fx );
void chi_values ( int *n_data, double *x, double *fx );
void chi_square_cdf_values ( int *n_data, int *a, double *x, double *fx );
void chi_square_pdf_values ( int *n_data, double *pdf, double *x, double *fx );
void chi_square_noncentral_cdf_values ( int *n_data, int *df, double *lambda,
  double *x, double *cdf ); 
void ci_values ( int *n_data, double *x, double *fx );
void cin_values ( int *n_data, double *x, double *fx );
void cinh_values ( int *n_data, double *x, double *fx );
void clausen_values ( int *n_data, double *x, double *fx );
void clebsch_gordan_values ( int *n_data, double *j1, double *j2, double *j3, 
  double *m1, double *m2, double *m3, double *fx );
void collatz_count_values ( int *n_data, int *n, int *count );
void cos_values ( int *n_data, double *x, double *fx );
void cos_degree_values ( int *n_data, double *x, double *fx );
void cos_power_int_values ( int *n_data, double *a, double *b, int *n, 
  double *fx );
void cosh_values ( int *n_data, double *x, double *fx );
void cot_values ( int *n_data, double *x, double *fx );
void cp_values ( int *n_data, double *tc, double *p, double *cp );
void datenum_values ( int *n_data, int *y, int *m, int *d, double *date_num );
void dawson_values ( int *n_data, double *x, double *fx );
void debye1_values ( int *n_data, double *x, double *fx );
void debye2_values ( int *n_data, double *x, double *fx );
void debye3_values ( int *n_data, double *x, double *fx );
void debye4_values ( int *n_data, double *x, double *fx );
void dielectric_values ( int *n_data, double *tc, double *p, double *eps );
void dilogarithm_values ( int *n_data, double *x, double *fx );
void e1_values ( int *n_data, double *x, double *fx );
void ei_values ( int *n_data, double *x, double *fx );
void easter_gregorian_values ( int *n_data, int *d, int *m, int *y );
void easter_julian_values ( int *n_data, int *d, int *m, int *y );
void elliptic_ea_values ( int *n_data, double *x, double *fx );
void elliptic_ek_values ( int *n_data, double *x, double *fx );
void elliptic_em_values ( int *n_data, double *x, double *fx );
void elliptic_fa_values ( int *n_data, double *x, double *fx );
void elliptic_fk_values ( int *n_data, double *x, double *fx );
void elliptic_fm_values ( int *n_data, double *x, double *fx );
void elliptic_inc_ea_values ( int *n_data, double *phi, double *a, double *ea );
void elliptic_inc_ek_values ( int *n_data, double *phi, double *k, double *ek );
void elliptic_inc_em_values ( int *n_data, double *phi, double *m, double *em );
void elliptic_inc_fa_values ( int *n_data, double *phi, double *a, double *fa );
void elliptic_inc_fk_values ( int *n_data, double *phi, double *k, double *fk );
void elliptic_inc_fm_values ( int *n_data, double *phi, double *m, double *fm );
void elliptic_inc_pia_values ( int *n_data, double *phi, double *n, double *a, 
  double *pia );
void elliptic_inc_pik_values ( int *n_data, double *phi, double *n, double *k, 
  double *pik );
void elliptic_inc_pim_values ( int *n_data, double *phi, double *n, double *m, 
  double *pim );
void elliptic_pia_values ( int *n_data, double *n, double *a, double *pia );
void elliptic_pik_values ( int *n_data, double *n, double *k, double *pik );
void elliptic_pim_values ( int *n_data, double *n, double *m, double *pim );
void erf_values ( int *n_data, double *x, double *fx );
void erfc_values ( int *n_data, double *x, double *fx );
void euler_number_values ( int *n_data, int *n, int *c );
void euler_poly_values ( int *n_data, int *n, double *x, double *fx );
void exp_values ( int *n_data, double *x, double *fx );
void exp3_int_values ( int *n_data, double *x, double *fx );
void exponential_01_pdf_values ( int *n_data, double *x, double *fx );
void exponential_cdf_values ( int *n_data, double *lambda, double *x, 
  double *fx );
void exponential_pdf_values ( int *n_data, double *lambda, double *x, 
  double *fx );
void extreme_values_cdf_values ( int *n_data, double *alpha, double *beta, 
  double *x, double *fx );
void f_cdf_values ( int *n_data, int *a, int *b, double *x, double *fx );
void f_noncentral_cdf_values ( int *n_data, int *n1, int *n2, double *lambda, 
  double *x, double *fx );
void fresnel_cos_values ( int *n_data, double *x, double *fx );
void fresnel_sin_values ( int *n_data, double *x, double *fx );
void frobenius_number_data_values ( int *n_data, int order, int c[], int *f );
void frobenius_number_order_values ( int *n_data, int *order );
void frobenius_number_order2_values ( int *n_data, int *c1, int *c2, int *f );
void gamma_values ( int *n_data, double *x, double *fx );
void gamma_01_pdf_values ( int *n_data, double *alpha, double *x, double *fx );
void gamma_cdf_values ( int *n_data, double *mu, double *sigma, double *x,
  double *fx );
void gamma_inc_q_values ( int *n_data, double *a, double *x, double *fx );
void gamma_inc_p_values ( int *n_data, double *a, double *x, double *fx );
void gamma_inc_tricomi_values ( int *n_data, double *a, double *x, double *fx );
void gamma_inc_values ( int *n_data, double *a, double *x, double *fx );
void gamma_log_values ( int *n_data, double *x, double *fx );
void gamma_pdf_values ( int *n_data, double *beta, double *alpha, double *x, 
  double *fx );
void gegenbauer_poly_values ( int *n_data, int *n, double *a, double *x, 
  double *fx );
void geometric_cdf_values ( int *n_data, int *x, double *p, double *cdf );
void goodwin_values ( int *n_data, double *x, double *fx );
void gud_values ( int *n_data, double *x, double *fx );
void hermite_function_values ( int *n_data, int *n, double *x, double *fx );
void hermite_poly_phys_values ( int *n_data, int *n, double *x, double *fx );
void hermite_poly_prob_values ( int *n_data, int *n, double *x, double *fx );
void hyper_1f1_values ( int *n_data, double *a, double *b, 
  double *x, double *fx );
void hyper_2f1_values ( int *n_data, double *a, double *b, double *c,
  double *x, double *fx );
void hypergeometric_cdf_values ( int *n_data, int *sam, int *suc, int *pop, 
  int *n, double *fx );
void hypergeometric_pdf_values ( int *n_data, int *sam, int *suc, int *pop, 
  int *n, double *fx );
void hypergeometric_u_values ( int *n_data, double *a, double *b, 
  double *x, double *fx );
void i0ml0_values ( int *n_data, double *x, double *fx );
void i1ml1_values ( int *n_data, double *x, double *fx );
void i4_factorial_values ( int *n_data, int *n, int *fn );
void i4_factorial2_values ( int *n_data, int *n, int *fn );
void i4_fall_values ( int *n_data, int *m, int *n, int *fmn );
void i4_rise_values ( int *n_data, int *m, int *n, int *fmn );
void int_values ( int *n_data, double *x, double *fx );
void inverse_chi_square_pdf_values ( int *n_data, double *df, double *x, 
  double *fx );
void inverse_gamma_pdf_values ( int *n_data, double *alpha, double *beta, 
  double *x, double *fx );
void jacobi_cn_values ( int *n_data, double *u, double *m, double *fx );
void jacobi_dn_values ( int *n_data, double *u, double *m, double *fx );
void jacobi_poly_values ( int *n_data, int *n, double *a, double *b, double *x, 
  double *fx );
void jacobi_sn_values ( int *n_data, double *u, double *m, double *fx );
void jed_ce_values ( int *n_data, double *jed, int *y, int *m, int *d, 
  double *f );
void jed_mjd_values ( int *n_data, double *jed, double *mjd );
void jed_rd_values ( int *n_data, double *jed, double *rd );
void jed_weekday_values ( int *n_data, double *jed, int *weekday );
void kei0_values ( int *n_data, double *x, double *fx );
void kei1_values ( int *n_data, double *x, double *fx );
void ker0_values ( int *n_data, double *x, double *fx );
void ker1_values ( int *n_data, double *x, double *fx );
void laguerre_associated_values ( int *n_data, int *n, int *m, double *x, 
  double *fx );
void laguerre_general_values ( int *n_data, int *n, double *a, double *x,
  double *fx );
void laguerre_polynomial_values ( int *n_data, int *n, double *x, double *fx );
void lambert_w_values ( int *n_data, double *x, double *fx );
void laplace_cdf_values ( int *n_data, double *mu, double *beta, double *x,
  double *fx );
void legendre_associated_values ( int *n_data, int *n, int *m, double *x, 
  double *fx );
void legendre_associated_normalized_sphere_values ( int *n_data, int *n, int *m, 
  double *x, double *fx );
void legendre_associated_normalized_values ( int *n_data, int *n, int *m, 
  double *x, double *fx );
void legendre_function_q_values ( int *n_data, int *n, double *x, double *fx );
void legendre_normalized_polynomial_values ( int *n_data, int *n, double *x, 
  double *fx );
void legendre_polynomial_values ( int *n_data, int *n, double *x, double *fx );
void legendre_shifted_polynomial_values ( int *n_data, int *n, double *x, 
 double *fx );
void lerch_values ( int *n_data, double *z, int *s, double *a, double *fx );
void lobachevsky_values ( int *n_data, double *x, double *fx );
void lobatto_polynomial_values ( int *n_data, int *n, double *x, double *fx );
void lobatto_polynomial_derivatives ( int *n_data, int *n, double *x, 
  double *fx );
void log_values ( int *n_data, double *x, double *fx );
void log_normal_cdf_values ( int *n_data, double *mu, double *sigma, 
  double *x, double *fx );
void log_series_cdf_values ( int *n_data, double *t, int *n, double *fx );
void log10_values ( int *n_data, double *x, double *fx );
void logarithmic_integral_values ( int *n_data, double *x, double *fx );
void logistic_cdf_values ( int *n_data, double *mu, double *beta, double *x,
  double *fx );
void mertens_values ( int *n_data, int *n, int *c );
void mittag_leffler_ea_values ( int *n_data, double *a, double *x, double *fx );
void mittag_leffler_eab_values ( int *n_data, double *a, double *b, double *x,
  double *fx );
void moebius_values ( int *n_data, int *n, int *c );
void multinomial_pdf_sizes ( int *n_data, int *m );
void multinomial_pdf_values ( int *n_data, int m, int *n, double p[], int x[],
  double *pdf );
void negative_binomial_cdf_values ( int *n_data, int *f, int *s, double *p, 
  double *cdf );
void nine_j_values ( int *n_data, double *j1, double *j2, double *j3, 
  double *j4, double *j5, double *j6, double *j7, double *j8, double *j9,
  double *fx );
void normal_01_cdf_values ( int *n_data, double *x, double *fx );
void normal_01_pdf_values ( int *n_data, double *x, double *fx );
void normal_cdf_values ( int *n_data, double *mu, double *sigma, double *x, 
  double *fx );
void normal_pdf_values ( int *n_data, double *mu, double *sigma, double *x, 
  double *fx );
void omega_values ( int *n_data, int *n, int *c );
void owen_values ( int *n_data, double *h, double *a, double *t );
void partition_count_values ( int *n_data, int *n, int *c );
void partition_distinct_count_values ( int *n_data, int *n, int *c );
void phi_values ( int *n_data, int *n, int *c );
void pi_values ( int *n_data, int *n, int *p );
void poisson_cdf_values ( int *n_data, double *a, int *x, double *fx );
void polylogarithm_values ( int *n_data, int *n, double *z, double *fx );
void polyomino_chiral_count_values ( int *n_data, int *order, 
  long long int *number );
void polyomino_fixed_count_values ( int *n_data, int *order, 
  long long int *number );
void polyomino_free_count_values ( int *n_data, int *order, 
  long long int *number );
void prandtl_values ( int *n_data, double *tc, double *p, double *pr );
void prime_values ( int *n_data, int *n, int *p );
void psat_values ( int *n_data, double *tc, double *p );
void psi_values ( int *n_data, double *x, double *fx );
void r8_factorial_values ( int *n_data, int *n, double *fn );
void r8_factorial_log_values ( int *n_data, int *n, double *fn );
void r8_factorial2_values ( int *n_data, int *n, double *f );
void r8_fall_values ( int *n_data, double *x, int *n, double *f );
void r8_rise_values ( int *n_data, double *x, int *n, double *f );
void rayleigh_cdf_values ( int *n_data, double *sigma, double *x, double *fx );
void scaled_inverse_chi_square_pdf_values ( int *n_data, double *df, double *xi, 
  double *x, double *fx );
void secvir_values ( int *n_data, double *tc, double *vir );
void shi_values ( int *n_data, double *x, double *fx );
void si_values ( int *n_data, double *x, double *fx );
void sigma_values ( int *n_data, int *n, int *c );
void sin_values ( int *n_data, double *x, double *fx );
void sin_degree_values ( int *n_data, double *x, double *fx );
void sin_power_int_values ( int *n_data, double *a, double *b, int *n, 
  double *fx );
void sinh_values ( int *n_data, double *x, double *fx );
void six_j_values ( int *n_data, double *j1, double *j2, double *j3, 
  double *j4, double *j5, double *j6, double *fx );
void sound_values ( int *n_data, double *tc, double *p, double *c );
void sphere_unit_area_values ( int *n_data, int *n, double *area );
void sphere_unit_volume_values ( int *n_data, int *n, double *volume );
void spherical_harmonic_values ( int *n_data, int *l, int *m, double *theta,
  double *phi, double *yr, double *yi );
void sqrt_values ( int *n_data, double *x, double *fx );
void stirling1_values ( int *n_data, int *n, int *m, int *fx );
void stirling2_values ( int *n_data, int *n, int *m, int *fx );
void stromgen_values ( int *n_data, double *x, double *fx );
void struve_h0_values ( int *n_data, double *x, double *fx );
void struve_h1_values ( int *n_data, double *x, double *fx );
void struve_l0_values ( int *n_data, double *x, double *fx );
void struve_l1_values ( int *n_data, double *x, double *fx );
void student_cdf_values ( int *n_data, double *c, double *x, double *fx );
void student_noncentral_cdf_values ( int *n_data, int *df, double *lambda, 
  double *x, double *fx );
void subfactorial_values ( int *n_data, int *n, int *fn );
void surten_values ( int *n_data, double *tc, double *sigma );
void synch1_values ( int *n_data, double *x, double *fx );
void synch2_values ( int *n_data, double *x, double *fx );
void tan_values ( int *n_data, double *x, double *fx );
void tanh_values ( int *n_data, double *x, double *fx );
void tau_values ( int *n_data, int *n, int *c );
void thercon_values ( int *n_data, double *tc, double *p, double *lambda );
void three_j_values ( int *n_data, double *j1, double *j2, double *j3, 
  double *m1, double *m2, double *m3, double *fx );
void timestamp ( void );
void tran02_values ( int *n_data, double *x, double *fx );
void tran03_values ( int *n_data, double *x, double *fx );
void tran04_values ( int *n_data, double *x, double *fx );
void tran05_values ( int *n_data, double *x, double *fx );
void tran06_values ( int *n_data, double *x, double *fx );
void tran07_values ( int *n_data, double *x, double *fx );
void tran08_values ( int *n_data, double *x, double *fx );
void tran09_values ( int *n_data, double *x, double *fx );
void trigamma_values ( int *n_data, double *x, double *fx );
void truncated_normal_ab_cdf_values ( int *n_data, double *mu, double *sigma, 
  double *a, double *b, double *x, double *fx );
void truncated_normal_ab_pdf_values ( int *n_data, double *mu, double *sigma, 
  double *a, double *b, double *x, double *fx );
void truncated_normal_a_cdf_values ( int *n_data, double *mu, double *sigma, 
  double *a, double *x, double *fx );
void truncated_normal_a_pdf_values ( int *n_data, double *mu, double *sigma, 
  double *a, double *x, double *fx );
void truncated_normal_b_cdf_values ( int *n_data, double *mu, double *sigma, 
  double *b, double *x, double *fx );
void truncated_normal_b_pdf_values ( int *n_data, double *mu, double *sigma, 
  double *b, double *x, double *fx );
void tsat_values ( int *n_data, double *p, double *tc );
void van_der_corput_values ( int *n_data, int *base, int *seed, double *value );
void viscosity_values ( int *n_data, double *tc, double *p, double *eta );
void von_mises_cdf_values ( int *n_data, double *a, double *b, double *x, 
  double *fx );
void weekday_values ( int *n_data, int *y, int *m, int *d, int *w );
void weibull_cdf_values ( int *n_data, double *alpha, double *beta, 
  double *x, double *fx );
void wright_omega_values ( int *n_data, double complex *z, double complex *fz );
void zeta_values ( int *n_data, int *n, double *zeta );
void zeta_m1_values ( int *n_data, double *p, double *zeta );