This is gsl-ref.info, produced by makeinfo version 4.13 from gsl-ref.texi. INFO-DIR-SECTION Software libraries START-INFO-DIR-ENTRY * gsl-ref: (gsl-ref). GNU Scientific Library - Reference END-INFO-DIR-ENTRY Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011 The GSL Team. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with the Invariant Sections being "GNU General Public License" and "Free Software Needs Free Documentation", the Front-Cover text being "A GNU Manual", and with the Back-Cover Text being (a) (see below). A copy of the license is included in the section entitled "GNU Free Documentation License". (a) The Back-Cover Text is: "You have the freedom to copy and modify this GNU Manual."  File: gsl-ref.info, Node: Function Index, Next: Variable Index, Prev: GNU Free Documentation License, Up: Top Function Index ************** [index] * Menu: * cblas_caxpy: Level 1 CBLAS Functions. (line 92) * cblas_ccopy: Level 1 CBLAS Functions. (line 89) * cblas_cdotc_sub: Level 1 CBLAS Functions. (line 23) * cblas_cdotu_sub: Level 1 CBLAS Functions. (line 20) * cblas_cgbmv: Level 2 CBLAS Functions. (line 99) * cblas_cgemm: Level 3 CBLAS Functions. (line 81) * cblas_cgemv: Level 2 CBLAS Functions. (line 93) * cblas_cgerc: Level 2 CBLAS Functions. (line 269) * cblas_cgeru: Level 2 CBLAS Functions. (line 265) * cblas_chbmv: Level 2 CBLAS Functions. (line 256) * cblas_chemm: Level 3 CBLAS Functions. (line 151) * cblas_chemv: Level 2 CBLAS Functions. (line 251) * cblas_cher: Level 2 CBLAS Functions. (line 273) * cblas_cher2: Level 2 CBLAS Functions. (line 282) * cblas_cher2k: Level 3 CBLAS Functions. (line 162) * cblas_cherk: Level 3 CBLAS Functions. (line 156) * cblas_chpmv: Level 2 CBLAS Functions. (line 261) * cblas_chpr: Level 2 CBLAS Functions. (line 277) * cblas_chpr2: Level 2 CBLAS Functions. (line 287) * cblas_cscal: Level 1 CBLAS Functions. (line 134) * cblas_csscal: Level 1 CBLAS Functions. (line 140) * cblas_cswap: Level 1 CBLAS Functions. (line 86) * cblas_csymm: Level 3 CBLAS Functions. (line 87) * cblas_csyr2k: Level 3 CBLAS Functions. (line 98) * cblas_csyrk: Level 3 CBLAS Functions. (line 92) * cblas_ctbmv: Level 2 CBLAS Functions. (line 109) * cblas_ctbsv: Level 2 CBLAS Functions. (line 124) * cblas_ctpmv: Level 2 CBLAS Functions. (line 114) * cblas_ctpsv: Level 2 CBLAS Functions. (line 129) * cblas_ctrmm: Level 3 CBLAS Functions. (line 104) * cblas_ctrmv: Level 2 CBLAS Functions. (line 104) * cblas_ctrsm: Level 3 CBLAS Functions. (line 110) * cblas_ctrsv: Level 2 CBLAS Functions. (line 119) * cblas_dasum: Level 1 CBLAS Functions. (line 41) * cblas_daxpy: Level 1 CBLAS Functions. (line 83) * cblas_dcopy: Level 1 CBLAS Functions. (line 80) * cblas_ddot: Level 1 CBLAS Functions. (line 17) * cblas_dgbmv: Level 2 CBLAS Functions. (line 58) * cblas_dgemm: Level 3 CBLAS Functions. (line 46) * cblas_dgemv: Level 2 CBLAS Functions. (line 52) * cblas_dger: Level 2 CBLAS Functions. (line 228) * cblas_dnrm2: Level 1 CBLAS Functions. (line 38) * cblas_drot: Level 1 CBLAS Functions. (line 122) * cblas_drotg: Level 1 CBLAS Functions. (line 116) * cblas_drotm: Level 1 CBLAS Functions. (line 125) * cblas_drotmg: Level 1 CBLAS Functions. (line 119) * cblas_dsbmv: Level 2 CBLAS Functions. (line 218) * cblas_dscal: Level 1 CBLAS Functions. (line 131) * cblas_dsdot: Level 1 CBLAS Functions. (line 11) * cblas_dspmv: Level 2 CBLAS Functions. (line 223) * cblas_dspr: Level 2 CBLAS Functions. (line 236) * cblas_dspr2: Level 2 CBLAS Functions. (line 246) * cblas_dswap: Level 1 CBLAS Functions. (line 77) * cblas_dsymm: Level 3 CBLAS Functions. (line 52) * cblas_dsymv: Level 2 CBLAS Functions. (line 213) * cblas_dsyr: Level 2 CBLAS Functions. (line 232) * cblas_dsyr2: Level 2 CBLAS Functions. (line 241) * cblas_dsyr2k: Level 3 CBLAS Functions. (line 63) * cblas_dsyrk: Level 3 CBLAS Functions. (line 57) * cblas_dtbmv: Level 2 CBLAS Functions. (line 68) * cblas_dtbsv: Level 2 CBLAS Functions. (line 83) * cblas_dtpmv: Level 2 CBLAS Functions. (line 73) * cblas_dtpsv: Level 2 CBLAS Functions. (line 88) * cblas_dtrmm: Level 3 CBLAS Functions. (line 69) * cblas_dtrmv: Level 2 CBLAS Functions. (line 63) * cblas_dtrsm: Level 3 CBLAS Functions. (line 75) * cblas_dtrsv: Level 2 CBLAS Functions. (line 78) * cblas_dzasum: Level 1 CBLAS Functions. (line 53) * cblas_dznrm2: Level 1 CBLAS Functions. (line 50) * cblas_icamax: Level 1 CBLAS Functions. (line 62) * cblas_idamax: Level 1 CBLAS Functions. (line 59) * cblas_isamax: Level 1 CBLAS Functions. (line 56) * cblas_izamax: Level 1 CBLAS Functions. (line 65) * cblas_sasum: Level 1 CBLAS Functions. (line 35) * cblas_saxpy: Level 1 CBLAS Functions. (line 74) * cblas_scasum: Level 1 CBLAS Functions. (line 47) * cblas_scnrm2: Level 1 CBLAS Functions. (line 44) * cblas_scopy: Level 1 CBLAS Functions. (line 71) * cblas_sdot: Level 1 CBLAS Functions. (line 14) * cblas_sdsdot: Level 1 CBLAS Functions. (line 8) * cblas_sgbmv: Level 2 CBLAS Functions. (line 16) * cblas_sgemm: Level 3 CBLAS Functions. (line 11) * cblas_sgemv: Level 2 CBLAS Functions. (line 10) * cblas_sger: Level 2 CBLAS Functions. (line 190) * cblas_snrm2: Level 1 CBLAS Functions. (line 32) * cblas_srot: Level 1 CBLAS Functions. (line 110) * cblas_srotg: Level 1 CBLAS Functions. (line 104) * cblas_srotm: Level 1 CBLAS Functions. (line 113) * cblas_srotmg: Level 1 CBLAS Functions. (line 107) * cblas_ssbmv: Level 2 CBLAS Functions. (line 180) * cblas_sscal: Level 1 CBLAS Functions. (line 128) * cblas_sspmv: Level 2 CBLAS Functions. (line 185) * cblas_sspr: Level 2 CBLAS Functions. (line 198) * cblas_sspr2: Level 2 CBLAS Functions. (line 208) * cblas_sswap: Level 1 CBLAS Functions. (line 68) * cblas_ssymm: Level 3 CBLAS Functions. (line 17) * cblas_ssymv: Level 2 CBLAS Functions. (line 175) * cblas_ssyr: Level 2 CBLAS Functions. (line 194) * cblas_ssyr2: Level 2 CBLAS Functions. (line 203) * cblas_ssyr2k: Level 3 CBLAS Functions. (line 28) * cblas_ssyrk: Level 3 CBLAS Functions. (line 22) * cblas_stbmv: Level 2 CBLAS Functions. (line 26) * cblas_stbsv: Level 2 CBLAS Functions. (line 41) * cblas_stpmv: Level 2 CBLAS Functions. (line 31) * cblas_stpsv: Level 2 CBLAS Functions. (line 46) * cblas_strmm: Level 3 CBLAS Functions. (line 34) * cblas_strmv: Level 2 CBLAS Functions. (line 21) * cblas_strsm: Level 3 CBLAS Functions. (line 40) * cblas_strsv: Level 2 CBLAS Functions. (line 36) * cblas_xerbla: Level 3 CBLAS Functions. (line 182) * cblas_zaxpy: Level 1 CBLAS Functions. (line 101) * cblas_zcopy: Level 1 CBLAS Functions. (line 98) * cblas_zdotc_sub: Level 1 CBLAS Functions. (line 29) * cblas_zdotu_sub: Level 1 CBLAS Functions. (line 26) * cblas_zdscal: Level 1 CBLAS Functions. (line 143) * cblas_zgbmv: Level 2 CBLAS Functions. (line 140) * cblas_zgemm: Level 3 CBLAS Functions. (line 116) * cblas_zgemv: Level 2 CBLAS Functions. (line 134) * cblas_zgerc: Level 2 CBLAS Functions. (line 310) * cblas_zgeru: Level 2 CBLAS Functions. (line 306) * cblas_zhbmv: Level 2 CBLAS Functions. (line 297) * cblas_zhemm: Level 3 CBLAS Functions. (line 168) * cblas_zhemv: Level 2 CBLAS Functions. (line 292) * cblas_zher: Level 2 CBLAS Functions. (line 314) * cblas_zher2: Level 2 CBLAS Functions. (line 323) * cblas_zher2k: Level 3 CBLAS Functions. (line 179) * cblas_zherk: Level 3 CBLAS Functions. (line 173) * cblas_zhpmv: Level 2 CBLAS Functions. (line 302) * cblas_zhpr: Level 2 CBLAS Functions. (line 318) * cblas_zhpr2: Level 2 CBLAS Functions. (line 328) * cblas_zscal: Level 1 CBLAS Functions. (line 137) * cblas_zswap: Level 1 CBLAS Functions. (line 95) * cblas_zsymm: Level 3 CBLAS Functions. (line 122) * cblas_zsyr2k: Level 3 CBLAS Functions. (line 133) * cblas_zsyrk: Level 3 CBLAS Functions. (line 127) * cblas_ztbmv: Level 2 CBLAS Functions. (line 150) * cblas_ztbsv: Level 2 CBLAS Functions. (line 165) * cblas_ztpmv: Level 2 CBLAS Functions. (line 155) * cblas_ztpsv: Level 2 CBLAS Functions. (line 170) * cblas_ztrmm: Level 3 CBLAS Functions. (line 139) * cblas_ztrmv: Level 2 CBLAS Functions. (line 145) * cblas_ztrsm: Level 3 CBLAS Functions. (line 145) * cblas_ztrsv: Level 2 CBLAS Functions. (line 160) * gsl_acosh: Elementary Functions. (line 33) * gsl_asinh: Elementary Functions. (line 37) * gsl_atanh: Elementary Functions. (line 41) * gsl_blas_caxpy: Level 1 GSL BLAS Interface. (line 94) * gsl_blas_ccopy: Level 1 GSL BLAS Interface. (line 83) * gsl_blas_cdotc: Level 1 GSL BLAS Interface. (line 29) * gsl_blas_cdotu: Level 1 GSL BLAS Interface. (line 22) * gsl_blas_cgemm: Level 3 GSL BLAS Interface. (line 18) * gsl_blas_cgemv: Level 2 GSL BLAS Interface. (line 16) * gsl_blas_cgerc: Level 2 GSL BLAS Interface. (line 110) * gsl_blas_cgeru: Level 2 GSL BLAS Interface. (line 101) * gsl_blas_chemm: Level 3 GSL BLAS Interface. (line 52) * gsl_blas_chemv: Level 2 GSL BLAS Interface. (line 82) * gsl_blas_cher: Level 2 GSL BLAS Interface. (line 129) * gsl_blas_cher2: Level 2 GSL BLAS Interface. (line 155) * gsl_blas_cher2k: Level 3 GSL BLAS Interface. (line 177) * gsl_blas_cherk: Level 3 GSL BLAS Interface. (line 137) * gsl_blas_cscal: Level 1 GSL BLAS Interface. (line 103) * gsl_blas_csscal: Level 1 GSL BLAS Interface. (line 107) * gsl_blas_cswap: Level 1 GSL BLAS Interface. (line 74) * gsl_blas_csymm: Level 3 GSL BLAS Interface. (line 37) * gsl_blas_csyr2k: Level 3 GSL BLAS Interface. (line 160) * gsl_blas_csyrk: Level 3 GSL BLAS Interface. (line 123) * gsl_blas_ctrmm: Level 3 GSL BLAS Interface. (line 74) * gsl_blas_ctrmv: Level 2 GSL BLAS Interface. (line 33) * gsl_blas_ctrsm: Level 3 GSL BLAS Interface. (line 98) * gsl_blas_ctrsv: Level 2 GSL BLAS Interface. (line 54) * gsl_blas_dasum: Level 1 GSL BLAS Interface. (line 47) * gsl_blas_daxpy: Level 1 GSL BLAS Interface. (line 92) * gsl_blas_dcopy: Level 1 GSL BLAS Interface. (line 81) * gsl_blas_ddot: Level 1 GSL BLAS Interface. (line 17) * gsl_blas_dgemm: Level 3 GSL BLAS Interface. (line 13) * gsl_blas_dgemv: Level 2 GSL BLAS Interface. (line 12) * gsl_blas_dger: Level 2 GSL BLAS Interface. (line 98) * gsl_blas_dnrm2: Level 1 GSL BLAS Interface. (line 36) * gsl_blas_drot: Level 1 GSL BLAS Interface. (line 128) * gsl_blas_drotg: Level 1 GSL BLAS Interface. (line 116) * gsl_blas_drotm: Level 1 GSL BLAS Interface. (line 143) * gsl_blas_drotmg: Level 1 GSL BLAS Interface. (line 135) * gsl_blas_dscal: Level 1 GSL BLAS Interface. (line 101) * gsl_blas_dsdot: Level 1 GSL BLAS Interface. (line 15) * gsl_blas_dswap: Level 1 GSL BLAS Interface. (line 72) * gsl_blas_dsymm: Level 3 GSL BLAS Interface. (line 33) * gsl_blas_dsymv: Level 2 GSL BLAS Interface. (line 71) * gsl_blas_dsyr: Level 2 GSL BLAS Interface. (line 120) * gsl_blas_dsyr2: Level 2 GSL BLAS Interface. (line 144) * gsl_blas_dsyr2k: Level 3 GSL BLAS Interface. (line 155) * gsl_blas_dsyrk: Level 3 GSL BLAS Interface. (line 119) * gsl_blas_dtrmm: Level 3 GSL BLAS Interface. (line 70) * gsl_blas_dtrmv: Level 2 GSL BLAS Interface. (line 30) * gsl_blas_dtrsm: Level 3 GSL BLAS Interface. (line 94) * gsl_blas_dtrsv: Level 2 GSL BLAS Interface. (line 51) * gsl_blas_dzasum: Level 1 GSL BLAS Interface. (line 52) * gsl_blas_dznrm2: Level 1 GSL BLAS Interface. (line 41) * gsl_blas_icamax: Level 1 GSL BLAS Interface. (line 60) * gsl_blas_idamax: Level 1 GSL BLAS Interface. (line 58) * gsl_blas_isamax: Level 1 GSL BLAS Interface. (line 57) * gsl_blas_izamax: Level 1 GSL BLAS Interface. (line 62) * gsl_blas_sasum: Level 1 GSL BLAS Interface. (line 46) * gsl_blas_saxpy: Level 1 GSL BLAS Interface. (line 90) * gsl_blas_scasum: Level 1 GSL BLAS Interface. (line 51) * gsl_blas_scnrm2: Level 1 GSL BLAS Interface. (line 40) * gsl_blas_scopy: Level 1 GSL BLAS Interface. (line 80) * gsl_blas_sdot: Level 1 GSL BLAS Interface. (line 13) * gsl_blas_sdsdot: Level 1 GSL BLAS Interface. (line 8) * gsl_blas_sgemm: Level 3 GSL BLAS Interface. (line 10) * gsl_blas_sgemv: Level 2 GSL BLAS Interface. (line 9) * gsl_blas_sger: Level 2 GSL BLAS Interface. (line 96) * gsl_blas_snrm2: Level 1 GSL BLAS Interface. (line 35) * gsl_blas_srot: Level 1 GSL BLAS Interface. (line 126) * gsl_blas_srotg: Level 1 GSL BLAS Interface. (line 114) * gsl_blas_srotm: Level 1 GSL BLAS Interface. (line 141) * gsl_blas_srotmg: Level 1 GSL BLAS Interface. (line 133) * gsl_blas_sscal: Level 1 GSL BLAS Interface. (line 100) * gsl_blas_sswap: Level 1 GSL BLAS Interface. (line 71) * gsl_blas_ssymm: Level 3 GSL BLAS Interface. (line 30) * gsl_blas_ssymv: Level 2 GSL BLAS Interface. (line 68) * gsl_blas_ssyr: Level 2 GSL BLAS Interface. (line 118) * gsl_blas_ssyr2: Level 2 GSL BLAS Interface. (line 142) * gsl_blas_ssyr2k: Level 3 GSL BLAS Interface. (line 152) * gsl_blas_ssyrk: Level 3 GSL BLAS Interface. (line 116) * gsl_blas_strmm: Level 3 GSL BLAS Interface. (line 67) * gsl_blas_strmv: Level 2 GSL BLAS Interface. (line 27) * gsl_blas_strsm: Level 3 GSL BLAS Interface. (line 91) * gsl_blas_strsv: Level 2 GSL BLAS Interface. (line 48) * gsl_blas_zaxpy: Level 1 GSL BLAS Interface. (line 96) * gsl_blas_zcopy: Level 1 GSL BLAS Interface. (line 85) * gsl_blas_zdotc: Level 1 GSL BLAS Interface. (line 31) * gsl_blas_zdotu: Level 1 GSL BLAS Interface. (line 24) * gsl_blas_zdscal: Level 1 GSL BLAS Interface. (line 109) * gsl_blas_zgemm: Level 3 GSL BLAS Interface. (line 22) * gsl_blas_zgemv: Level 2 GSL BLAS Interface. (line 20) * gsl_blas_zgerc: Level 2 GSL BLAS Interface. (line 113) * gsl_blas_zgeru: Level 2 GSL BLAS Interface. (line 104) * gsl_blas_zhemm: Level 3 GSL BLAS Interface. (line 56) * gsl_blas_zhemv: Level 2 GSL BLAS Interface. (line 85) * gsl_blas_zher: Level 2 GSL BLAS Interface. (line 131) * gsl_blas_zher2: Level 2 GSL BLAS Interface. (line 158) * gsl_blas_zher2k: Level 3 GSL BLAS Interface. (line 181) * gsl_blas_zherk: Level 3 GSL BLAS Interface. (line 140) * gsl_blas_zscal: Level 1 GSL BLAS Interface. (line 105) * gsl_blas_zswap: Level 1 GSL BLAS Interface. (line 76) * gsl_blas_zsymm: Level 3 GSL BLAS Interface. (line 41) * gsl_blas_zsyr2k: Level 3 GSL BLAS Interface. (line 164) * gsl_blas_zsyrk: Level 3 GSL BLAS Interface. (line 126) * gsl_blas_ztrmm: Level 3 GSL BLAS Interface. (line 78) * gsl_blas_ztrmv: Level 2 GSL BLAS Interface. (line 36) * gsl_blas_ztrsm: Level 3 GSL BLAS Interface. (line 102) * gsl_blas_ztrsv: Level 2 GSL BLAS Interface. (line 57) * gsl_block_alloc: Block allocation. (line 15) * gsl_block_calloc: Block allocation. (line 25) * gsl_block_fprintf: Reading and writing blocks. (line 27) * gsl_block_fread: Reading and writing blocks. (line 17) * gsl_block_free: Block allocation. (line 29) * gsl_block_fscanf: Reading and writing blocks. (line 34) * gsl_block_fwrite: Reading and writing blocks. (line 10) * gsl_bspline_alloc: Initializing the B-splines solver. (line 12) * gsl_bspline_deriv_alloc: Initializing the B-splines solver. (line 22) * gsl_bspline_deriv_eval: Evaluation of B-spline basis function derivatives. (line 9) * gsl_bspline_deriv_eval_nonzero: Evaluation of B-spline basis function derivatives. (line 24) * gsl_bspline_deriv_free: Initializing the B-splines solver. (line 28) * gsl_bspline_eval: Evaluation of B-spline basis functions. (line 8) * gsl_bspline_eval_nonzero: Evaluation of B-spline basis functions. (line 19) * gsl_bspline_free: Initializing the B-splines solver. (line 18) * gsl_bspline_greville_abscissa: Obtaining Greville abscissae for B-spline basis functions. (line 19) * gsl_bspline_knots: Constructing the knots vector. (line 8) * gsl_bspline_knots_uniform: Constructing the knots vector. (line 13) * gsl_bspline_ncoeffs: Evaluation of B-spline basis functions. (line 29) * gsl_cdf_beta_P: The Beta Distribution. (line 22) * gsl_cdf_beta_Pinv: The Beta Distribution. (line 24) * gsl_cdf_beta_Q: The Beta Distribution. (line 23) * gsl_cdf_beta_Qinv: The Beta Distribution. (line 25) * gsl_cdf_binomial_P: The Binomial Distribution. (line 27) * gsl_cdf_binomial_Q: The Binomial Distribution. (line 29) * gsl_cdf_cauchy_P: The Cauchy Distribution. (line 23) * gsl_cdf_cauchy_Pinv: The Cauchy Distribution. (line 25) * gsl_cdf_cauchy_Q: The Cauchy Distribution. (line 24) * gsl_cdf_cauchy_Qinv: The Cauchy Distribution. (line 26) * gsl_cdf_chisq_P: The Chi-squared Distribution. (line 30) * gsl_cdf_chisq_Pinv: The Chi-squared Distribution. (line 32) * gsl_cdf_chisq_Q: The Chi-squared Distribution. (line 31) * gsl_cdf_chisq_Qinv: The Chi-squared Distribution. (line 33) * gsl_cdf_exponential_P: The Exponential Distribution. (line 22) * gsl_cdf_exponential_Pinv: The Exponential Distribution. (line 24) * gsl_cdf_exponential_Q: The Exponential Distribution. (line 23) * gsl_cdf_exponential_Qinv: The Exponential Distribution. (line 25) * gsl_cdf_exppow_P: The Exponential Power Distribution. (line 25) * gsl_cdf_exppow_Q: The Exponential Power Distribution. (line 26) * gsl_cdf_fdist_P: The F-distribution. (line 35) * gsl_cdf_fdist_Pinv: The F-distribution. (line 38) * gsl_cdf_fdist_Q: The F-distribution. (line 36) * gsl_cdf_fdist_Qinv: The F-distribution. (line 40) * gsl_cdf_flat_P: The Flat (Uniform) Distribution. (line 21) * gsl_cdf_flat_Pinv: The Flat (Uniform) Distribution. (line 23) * gsl_cdf_flat_Q: The Flat (Uniform) Distribution. (line 22) * gsl_cdf_flat_Qinv: The Flat (Uniform) Distribution. (line 24) * gsl_cdf_gamma_P: The Gamma Distribution. (line 35) * gsl_cdf_gamma_Pinv: The Gamma Distribution. (line 37) * gsl_cdf_gamma_Q: The Gamma Distribution. (line 36) * gsl_cdf_gamma_Qinv: The Gamma Distribution. (line 38) * gsl_cdf_gaussian_P: The Gaussian Distribution. (line 42) * gsl_cdf_gaussian_Pinv: The Gaussian Distribution. (line 44) * gsl_cdf_gaussian_Q: The Gaussian Distribution. (line 43) * gsl_cdf_gaussian_Qinv: The Gaussian Distribution. (line 45) * gsl_cdf_geometric_P: The Geometric Distribution. (line 26) * gsl_cdf_geometric_Q: The Geometric Distribution. (line 27) * gsl_cdf_gumbel1_P: The Type-1 Gumbel Distribution. (line 22) * gsl_cdf_gumbel1_Pinv: The Type-1 Gumbel Distribution. (line 24) * gsl_cdf_gumbel1_Q: The Type-1 Gumbel Distribution. (line 23) * gsl_cdf_gumbel1_Qinv: The Type-1 Gumbel Distribution. (line 25) * gsl_cdf_gumbel2_P: The Type-2 Gumbel Distribution. (line 22) * gsl_cdf_gumbel2_Pinv: The Type-2 Gumbel Distribution. (line 24) * gsl_cdf_gumbel2_Q: The Type-2 Gumbel Distribution. (line 23) * gsl_cdf_gumbel2_Qinv: The Type-2 Gumbel Distribution. (line 25) * gsl_cdf_hypergeometric_P: The Hypergeometric Distribution. (line 31) * gsl_cdf_hypergeometric_Q: The Hypergeometric Distribution. (line 33) * gsl_cdf_laplace_P: The Laplace Distribution. (line 20) * gsl_cdf_laplace_Pinv: The Laplace Distribution. (line 22) * gsl_cdf_laplace_Q: The Laplace Distribution. (line 21) * gsl_cdf_laplace_Qinv: The Laplace Distribution. (line 23) * gsl_cdf_logistic_P: The Logistic Distribution. (line 21) * gsl_cdf_logistic_Pinv: The Logistic Distribution. (line 23) * gsl_cdf_logistic_Q: The Logistic Distribution. (line 22) * gsl_cdf_logistic_Qinv: The Logistic Distribution. (line 24) * gsl_cdf_lognormal_P: The Lognormal Distribution. (line 24) * gsl_cdf_lognormal_Pinv: The Lognormal Distribution. (line 28) * gsl_cdf_lognormal_Q: The Lognormal Distribution. (line 26) * gsl_cdf_lognormal_Qinv: The Lognormal Distribution. (line 30) * gsl_cdf_negative_binomial_P: The Negative Binomial Distribution. (line 26) * gsl_cdf_negative_binomial_Q: The Negative Binomial Distribution. (line 28) * gsl_cdf_pareto_P: The Pareto Distribution. (line 22) * gsl_cdf_pareto_Pinv: The Pareto Distribution. (line 24) * gsl_cdf_pareto_Q: The Pareto Distribution. (line 23) * gsl_cdf_pareto_Qinv: The Pareto Distribution. (line 25) * gsl_cdf_pascal_P: The Pascal Distribution. (line 25) * gsl_cdf_pascal_Q: The Pascal Distribution. (line 27) * gsl_cdf_poisson_P: The Poisson Distribution. (line 22) * gsl_cdf_poisson_Q: The Poisson Distribution. (line 23) * gsl_cdf_rayleigh_P: The Rayleigh Distribution. (line 21) * gsl_cdf_rayleigh_Pinv: The Rayleigh Distribution. (line 23) * gsl_cdf_rayleigh_Q: The Rayleigh Distribution. (line 22) * gsl_cdf_rayleigh_Qinv: The Rayleigh Distribution. (line 24) * gsl_cdf_tdist_P: The t-distribution. (line 30) * gsl_cdf_tdist_Pinv: The t-distribution. (line 32) * gsl_cdf_tdist_Q: The t-distribution. (line 31) * gsl_cdf_tdist_Qinv: The t-distribution. (line 33) * gsl_cdf_ugaussian_P: The Gaussian Distribution. (line 50) * gsl_cdf_ugaussian_Pinv: The Gaussian Distribution. (line 52) * gsl_cdf_ugaussian_Q: The Gaussian Distribution. (line 51) * gsl_cdf_ugaussian_Qinv: The Gaussian Distribution. (line 53) * gsl_cdf_weibull_P: The Weibull Distribution. (line 22) * gsl_cdf_weibull_Pinv: The Weibull Distribution. (line 24) * gsl_cdf_weibull_Q: The Weibull Distribution. (line 23) * gsl_cdf_weibull_Qinv: The Weibull Distribution. (line 25) * gsl_cheb_alloc: Creation and Calculation of Chebyshev Series. (line 7) * gsl_cheb_calc_deriv: Derivatives and Integrals. (line 14) * gsl_cheb_calc_integ: Derivatives and Integrals. (line 21) * gsl_cheb_coeffs: Auxiliary Functions for Chebyshev Series. (line 14) * gsl_cheb_eval: Chebyshev Series Evaluation. (line 8) * gsl_cheb_eval_err: Chebyshev Series Evaluation. (line 12) * gsl_cheb_eval_n: Chebyshev Series Evaluation. (line 19) * gsl_cheb_eval_n_err: Chebyshev Series Evaluation. (line 25) * gsl_cheb_free: Creation and Calculation of Chebyshev Series. (line 11) * gsl_cheb_init: Creation and Calculation of Chebyshev Series. (line 15) * gsl_cheb_order: Auxiliary Functions for Chebyshev Series. (line 10) * gsl_cheb_size: Auxiliary Functions for Chebyshev Series. (line 13) * gsl_combination_alloc: Combination allocation. (line 8) * gsl_combination_calloc: Combination allocation. (line 17) * gsl_combination_data: Combination properties. (line 14) * gsl_combination_fprintf: Reading and writing combinations. (line 29) * gsl_combination_fread: Reading and writing combinations. (line 19) * gsl_combination_free: Combination allocation. (line 31) * gsl_combination_fscanf: Reading and writing combinations. (line 38) * gsl_combination_fwrite: Reading and writing combinations. (line 11) * gsl_combination_get: Accessing combination elements. (line 11) * gsl_combination_init_first: Combination allocation. (line 23) * gsl_combination_init_last: Combination allocation. (line 27) * gsl_combination_k: Combination properties. (line 10) * gsl_combination_memcpy: Combination allocation. (line 35) * gsl_combination_n: Combination properties. (line 7) * gsl_combination_next: Combination functions. (line 7) * gsl_combination_prev: Combination functions. (line 15) * gsl_combination_valid: Combination properties. (line 18) * gsl_complex_abs: Properties of complex numbers. (line 11) * gsl_complex_abs2: Properties of complex numbers. (line 14) * gsl_complex_add: Complex arithmetic operators. (line 7) * gsl_complex_add_imag: Complex arithmetic operators. (line 39) * gsl_complex_add_real: Complex arithmetic operators. (line 23) * gsl_complex_arccos: Inverse Complex Trigonometric Functions. (line 20) * gsl_complex_arccos_real: Inverse Complex Trigonometric Functions. (line 25) * gsl_complex_arccosh: Inverse Complex Hyperbolic Functions. (line 12) * gsl_complex_arccosh_real: Inverse Complex Hyperbolic Functions. (line 19) * gsl_complex_arccot: Inverse Complex Trigonometric Functions. (line 53) * gsl_complex_arccoth: Inverse Complex Hyperbolic Functions. (line 40) * gsl_complex_arccsc: Inverse Complex Trigonometric Functions. (line 45) * gsl_complex_arccsc_real: Inverse Complex Trigonometric Functions. (line 49) * gsl_complex_arccsch: Inverse Complex Hyperbolic Functions. (line 36) * gsl_complex_arcsec: Inverse Complex Trigonometric Functions. (line 37) * gsl_complex_arcsec_real: Inverse Complex Trigonometric Functions. (line 41) * gsl_complex_arcsech: Inverse Complex Hyperbolic Functions. (line 32) * gsl_complex_arcsin: Inverse Complex Trigonometric Functions. (line 7) * gsl_complex_arcsin_real: Inverse Complex Trigonometric Functions. (line 12) * gsl_complex_arcsinh: Inverse Complex Hyperbolic Functions. (line 7) * gsl_complex_arctan: Inverse Complex Trigonometric Functions. (line 32) * gsl_complex_arctanh: Inverse Complex Hyperbolic Functions. (line 23) * gsl_complex_arctanh_real: Inverse Complex Hyperbolic Functions. (line 28) * gsl_complex_arg: Properties of complex numbers. (line 7) * gsl_complex_conjugate: Complex arithmetic operators. (line 55) * gsl_complex_cos: Complex Trigonometric Functions. (line 11) * gsl_complex_cosh: Complex Hyperbolic Functions. (line 11) * gsl_complex_cot: Complex Trigonometric Functions. (line 27) * gsl_complex_coth: Complex Hyperbolic Functions. (line 27) * gsl_complex_csc: Complex Trigonometric Functions. (line 23) * gsl_complex_csch: Complex Hyperbolic Functions. (line 23) * gsl_complex_div: Complex arithmetic operators. (line 19) * gsl_complex_div_imag: Complex arithmetic operators. (line 51) * gsl_complex_div_real: Complex arithmetic operators. (line 35) * gsl_complex_exp: Elementary Complex Functions. (line 25) * gsl_complex_inverse: Complex arithmetic operators. (line 59) * gsl_complex_log: Elementary Complex Functions. (line 29) * gsl_complex_log10: Elementary Complex Functions. (line 34) * gsl_complex_log_b: Elementary Complex Functions. (line 39) * gsl_complex_logabs: Properties of complex numbers. (line 18) * gsl_complex_mul: Complex arithmetic operators. (line 15) * gsl_complex_mul_imag: Complex arithmetic operators. (line 47) * gsl_complex_mul_real: Complex arithmetic operators. (line 31) * gsl_complex_negative: Complex arithmetic operators. (line 63) * gsl_complex_polar: Representation of complex numbers. (line 30) * gsl_complex_poly_complex_eval: Polynomial Evaluation. (line 23) * gsl_complex_pow: Elementary Complex Functions. (line 16) * gsl_complex_pow_real: Elementary Complex Functions. (line 21) * gsl_complex_rect: Representation of complex numbers. (line 25) * gsl_complex_sec: Complex Trigonometric Functions. (line 19) * gsl_complex_sech: Complex Hyperbolic Functions. (line 19) * gsl_complex_sin: Complex Trigonometric Functions. (line 7) * gsl_complex_sinh: Complex Hyperbolic Functions. (line 7) * gsl_complex_sqrt: Elementary Complex Functions. (line 7) * gsl_complex_sqrt_real: Elementary Complex Functions. (line 12) * gsl_complex_sub: Complex arithmetic operators. (line 11) * gsl_complex_sub_imag: Complex arithmetic operators. (line 43) * gsl_complex_sub_real: Complex arithmetic operators. (line 27) * gsl_complex_tan: Complex Trigonometric Functions. (line 15) * gsl_complex_tanh: Complex Hyperbolic Functions. (line 15) * gsl_deriv_backward: Numerical Differentiation functions. (line 42) * gsl_deriv_central: Numerical Differentiation functions. (line 8) * gsl_deriv_forward: Numerical Differentiation functions. (line 24) * gsl_dht_alloc: Discrete Hankel Transform Functions. (line 7) * gsl_dht_apply: Discrete Hankel Transform Functions. (line 24) * gsl_dht_free: Discrete Hankel Transform Functions. (line 20) * gsl_dht_init: Discrete Hankel Transform Functions. (line 11) * gsl_dht_k_sample: Discrete Hankel Transform Functions. (line 37) * gsl_dht_new: Discrete Hankel Transform Functions. (line 16) * gsl_dht_x_sample: Discrete Hankel Transform Functions. (line 32) * gsl_eigen_gen: Real Generalized Nonsymmetric Eigensystems. (line 75) * gsl_eigen_gen_alloc: Real Generalized Nonsymmetric Eigensystems. (line 43) * gsl_eigen_gen_free: Real Generalized Nonsymmetric Eigensystems. (line 48) * gsl_eigen_gen_params: Real Generalized Nonsymmetric Eigensystems. (line 52) * gsl_eigen_gen_QZ: Real Generalized Nonsymmetric Eigensystems. (line 92) * gsl_eigen_genherm: Complex Generalized Hermitian-Definite Eigensystems. (line 30) * gsl_eigen_genherm_alloc: Complex Generalized Hermitian-Definite Eigensystems. (line 19) * gsl_eigen_genherm_free: Complex Generalized Hermitian-Definite Eigensystems. (line 25) * gsl_eigen_genhermv: Complex Generalized Hermitian-Definite Eigensystems. (line 48) * gsl_eigen_genhermv_alloc: Complex Generalized Hermitian-Definite Eigensystems. (line 37) * gsl_eigen_genhermv_free: Complex Generalized Hermitian-Definite Eigensystems. (line 43) * gsl_eigen_genhermv_sort: Sorting Eigenvalues and Eigenvectors. (line 51) * gsl_eigen_gensymm: Real Generalized Symmetric-Definite Eigensystems. (line 34) * gsl_eigen_gensymm_alloc: Real Generalized Symmetric-Definite Eigensystems. (line 24) * gsl_eigen_gensymm_free: Real Generalized Symmetric-Definite Eigensystems. (line 30) * gsl_eigen_gensymmv: Real Generalized Symmetric-Definite Eigensystems. (line 52) * gsl_eigen_gensymmv_alloc: Real Generalized Symmetric-Definite Eigensystems. (line 41) * gsl_eigen_gensymmv_free: Real Generalized Symmetric-Definite Eigensystems. (line 47) * gsl_eigen_gensymmv_sort: Sorting Eigenvalues and Eigenvectors. (line 44) * gsl_eigen_genv: Real Generalized Nonsymmetric Eigensystems. (line 108) * gsl_eigen_genv_alloc: Real Generalized Nonsymmetric Eigensystems. (line 98) * gsl_eigen_genv_free: Real Generalized Nonsymmetric Eigensystems. (line 103) * gsl_eigen_genv_QZ: Real Generalized Nonsymmetric Eigensystems. (line 124) * gsl_eigen_genv_sort: Sorting Eigenvalues and Eigenvectors. (line 59) * gsl_eigen_herm: Complex Hermitian Matrices. (line 20) * gsl_eigen_herm_alloc: Complex Hermitian Matrices. (line 11) * gsl_eigen_herm_free: Complex Hermitian Matrices. (line 16) * gsl_eigen_hermv: Complex Hermitian Matrices. (line 40) * gsl_eigen_hermv_alloc: Complex Hermitian Matrices. (line 30) * gsl_eigen_hermv_free: Complex Hermitian Matrices. (line 35) * gsl_eigen_hermv_sort: Sorting Eigenvalues and Eigenvectors. (line 28) * gsl_eigen_nonsymm: Real Nonsymmetric Matrices. (line 62) * gsl_eigen_nonsymm_alloc: Real Nonsymmetric Matrices. (line 19) * gsl_eigen_nonsymm_free: Real Nonsymmetric Matrices. (line 25) * gsl_eigen_nonsymm_params: Real Nonsymmetric Matrices. (line 29) * gsl_eigen_nonsymm_Z: Real Nonsymmetric Matrices. (line 75) * gsl_eigen_nonsymmv: Real Nonsymmetric Matrices. (line 100) * gsl_eigen_nonsymmv_alloc: Real Nonsymmetric Matrices. (line 80) * gsl_eigen_nonsymmv_free: Real Nonsymmetric Matrices. (line 86) * gsl_eigen_nonsymmv_params: Real Nonsymmetric Matrices. (line 90) * gsl_eigen_nonsymmv_sort: Sorting Eigenvalues and Eigenvectors. (line 35) * gsl_eigen_nonsymmv_Z: Real Nonsymmetric Matrices. (line 114) * gsl_eigen_symm: Real Symmetric Matrices. (line 23) * gsl_eigen_symm_alloc: Real Symmetric Matrices. (line 14) * gsl_eigen_symm_free: Real Symmetric Matrices. (line 19) * gsl_eigen_symmv: Real Symmetric Matrices. (line 41) * gsl_eigen_symmv_alloc: Real Symmetric Matrices. (line 32) * gsl_eigen_symmv_free: Real Symmetric Matrices. (line 37) * gsl_eigen_symmv_sort: Sorting Eigenvalues and Eigenvectors. (line 8) * GSL_ERROR: Using GSL error reporting in your own functions. (line 16) * GSL_ERROR_VAL: Using GSL error reporting in your own functions. (line 36) * gsl_expm1: Elementary Functions. (line 18) * gsl_fcmp: Approximate Comparison of Floating Point Numbers. (line 13) * gsl_fft_complex_backward: Mixed-radix FFT routines for complex data. (line 130) * gsl_fft_complex_forward: Mixed-radix FFT routines for complex data. (line 122) * gsl_fft_complex_inverse: Mixed-radix FFT routines for complex data. (line 134) * gsl_fft_complex_radix2_backward: Radix-2 FFT routines for complex data. (line 23) * gsl_fft_complex_radix2_dif_backward: Radix-2 FFT routines for complex data. (line 43) * gsl_fft_complex_radix2_dif_forward: Radix-2 FFT routines for complex data. (line 38) * gsl_fft_complex_radix2_dif_inverse: Radix-2 FFT routines for complex data. (line 45) * gsl_fft_complex_radix2_dif_transform: Radix-2 FFT routines for complex data. (line 41) * gsl_fft_complex_radix2_forward: Radix-2 FFT routines for complex data. (line 18) * gsl_fft_complex_radix2_inverse: Radix-2 FFT routines for complex data. (line 25) * gsl_fft_complex_radix2_transform: Radix-2 FFT routines for complex data. (line 21) * gsl_fft_complex_transform: Mixed-radix FFT routines for complex data. (line 126) * gsl_fft_complex_wavetable_alloc: Mixed-radix FFT routines for complex data. (line 47) * gsl_fft_complex_wavetable_free: Mixed-radix FFT routines for complex data. (line 66) * gsl_fft_complex_workspace_alloc: Mixed-radix FFT routines for complex data. (line 107) * gsl_fft_complex_workspace_free: Mixed-radix FFT routines for complex data. (line 112) * gsl_fft_halfcomplex_radix2_backward: Radix-2 FFT routines for real data. (line 59) * gsl_fft_halfcomplex_radix2_inverse: Radix-2 FFT routines for real data. (line 57) * gsl_fft_halfcomplex_radix2_unpack: Radix-2 FFT routines for real data. (line 68) * gsl_fft_halfcomplex_transform: Mixed-radix FFT routines for real data. (line 125) * gsl_fft_halfcomplex_unpack: Mixed-radix FFT routines for real data. (line 155) * gsl_fft_halfcomplex_wavetable_alloc: Mixed-radix FFT routines for real data. (line 76) * gsl_fft_halfcomplex_wavetable_free: Mixed-radix FFT routines for real data. (line 97) * gsl_fft_real_radix2_transform: Radix-2 FFT routines for real data. (line 15) * gsl_fft_real_transform: Mixed-radix FFT routines for real data. (line 122) * gsl_fft_real_unpack: Mixed-radix FFT routines for real data. (line 139) * gsl_fft_real_wavetable_alloc: Mixed-radix FFT routines for real data. (line 74) * gsl_fft_real_wavetable_free: Mixed-radix FFT routines for real data. (line 95) * gsl_fft_real_workspace_alloc: Mixed-radix FFT routines for real data. (line 106) * gsl_fft_real_workspace_free: Mixed-radix FFT routines for real data. (line 112) * gsl_finite: Infinities and Not-a-number. (line 26) * gsl_fit_linear: Linear regression. (line 13) * gsl_fit_linear_est: Linear regression. (line 45) * gsl_fit_mul: Linear fitting without a constant term. (line 13) * gsl_fit_mul_est: Linear fitting without a constant term. (line 38) * gsl_fit_wlinear: Linear regression. (line 30) * gsl_fit_wmul: Linear fitting without a constant term. (line 25) * gsl_frexp: Elementary Functions. (line 49) * gsl_heapsort: Sorting objects. (line 18) * gsl_heapsort_index: Sorting objects. (line 59) * gsl_histogram2d_accumulate: Updating and accessing 2D histogram elements. (line 27) * gsl_histogram2d_add: 2D Histogram Operations. (line 13) * gsl_histogram2d_alloc: 2D Histogram allocation. (line 16) * gsl_histogram2d_clone: Copying 2D Histograms. (line 14) * gsl_histogram2d_cov: 2D Histogram Statistics. (line 53) * gsl_histogram2d_div: 2D Histogram Operations. (line 33) * gsl_histogram2d_equal_bins_p: 2D Histogram Operations. (line 8) * gsl_histogram2d_find: Searching 2D histogram ranges. (line 11) * gsl_histogram2d_fprintf: Reading and writing 2D histograms. (line 30) * gsl_histogram2d_fread: Reading and writing 2D histograms. (line 19) * gsl_histogram2d_free: 2D Histogram allocation. (line 38) * gsl_histogram2d_fscanf: Reading and writing 2D histograms. (line 66) * gsl_histogram2d_fwrite: Reading and writing 2D histograms. (line 11) * gsl_histogram2d_get: Updating and accessing 2D histogram elements. (line 33) * gsl_histogram2d_get_xrange: Updating and accessing 2D histogram elements. (line 40) * gsl_histogram2d_get_yrange: Updating and accessing 2D histogram elements. (line 42) * gsl_histogram2d_increment: Updating and accessing 2D histogram elements. (line 14) * gsl_histogram2d_max_bin: 2D Histogram Statistics. (line 12) * gsl_histogram2d_max_val: 2D Histogram Statistics. (line 7) * gsl_histogram2d_memcpy: Copying 2D Histograms. (line 8) * gsl_histogram2d_min_bin: 2D Histogram Statistics. (line 23) * gsl_histogram2d_min_val: 2D Histogram Statistics. (line 18) * gsl_histogram2d_mul: 2D Histogram Operations. (line 26) * gsl_histogram2d_nx: Updating and accessing 2D histogram elements. (line 56) * gsl_histogram2d_ny: Updating and accessing 2D histogram elements. (line 59) * gsl_histogram2d_pdf_alloc: Resampling from 2D histograms. (line 43) * gsl_histogram2d_pdf_free: Resampling from 2D histograms. (line 58) * gsl_histogram2d_pdf_init: Resampling from 2D histograms. (line 51) * gsl_histogram2d_pdf_sample: Resampling from 2D histograms. (line 63) * gsl_histogram2d_reset: Updating and accessing 2D histogram elements. (line 65) * gsl_histogram2d_scale: 2D Histogram Operations. (line 40) * gsl_histogram2d_set_ranges: 2D Histogram allocation. (line 27) * gsl_histogram2d_set_ranges_uniform: 2D Histogram allocation. (line 33) * gsl_histogram2d_shift: 2D Histogram Operations. (line 45) * gsl_histogram2d_sub: 2D Histogram Operations. (line 19) * gsl_histogram2d_sum: 2D Histogram Statistics. (line 59) * gsl_histogram2d_xmax: Updating and accessing 2D histogram elements. (line 54) * gsl_histogram2d_xmean: 2D Histogram Statistics. (line 29) * gsl_histogram2d_xmin: Updating and accessing 2D histogram elements. (line 55) * gsl_histogram2d_xsigma: 2D Histogram Statistics. (line 41) * gsl_histogram2d_ymax: Updating and accessing 2D histogram elements. (line 57) * gsl_histogram2d_ymean: 2D Histogram Statistics. (line 35) * gsl_histogram2d_ymin: Updating and accessing 2D histogram elements. (line 58) * gsl_histogram2d_ysigma: 2D Histogram Statistics. (line 47) * gsl_histogram_accumulate: Updating and accessing histogram elements. (line 27) * gsl_histogram_add: Histogram Operations. (line 13) * gsl_histogram_alloc: Histogram allocation. (line 15) * gsl_histogram_bins: Updating and accessing histogram elements. (line 54) * gsl_histogram_clone: Copying Histograms. (line 14) * gsl_histogram_div: Histogram Operations. (line 32) * gsl_histogram_equal_bins_p: Histogram Operations. (line 8) * gsl_histogram_find: Searching histogram ranges. (line 11) * gsl_histogram_fprintf: Reading and writing histograms. (line 29) * gsl_histogram_fread: Reading and writing histograms. (line 18) * gsl_histogram_free: Histogram allocation. (line 62) * gsl_histogram_fscanf: Reading and writing histograms. (line 53) * gsl_histogram_fwrite: Reading and writing histograms. (line 11) * gsl_histogram_get: Updating and accessing histogram elements. (line 33) * gsl_histogram_get_range: Updating and accessing histogram elements. (line 40) * gsl_histogram_increment: Updating and accessing histogram elements. (line 12) * gsl_histogram_max: Updating and accessing histogram elements. (line 52) * gsl_histogram_max_bin: Histogram Statistics. (line 11) * gsl_histogram_max_val: Histogram Statistics. (line 7) * gsl_histogram_mean: Histogram Statistics. (line 25) * gsl_histogram_memcpy: Copying Histograms. (line 8) * gsl_histogram_min: Updating and accessing histogram elements. (line 53) * gsl_histogram_min_bin: Histogram Statistics. (line 20) * gsl_histogram_min_val: Histogram Statistics. (line 16) * gsl_histogram_mul: Histogram Operations. (line 25) * gsl_histogram_pdf_alloc: The histogram probability distribution struct. (line 36) * gsl_histogram_pdf_free: The histogram probability distribution struct. (line 50) * gsl_histogram_pdf_init: The histogram probability distribution struct. (line 44) * gsl_histogram_pdf_sample: The histogram probability distribution struct. (line 55) * gsl_histogram_reset: Updating and accessing histogram elements. (line 60) * gsl_histogram_scale: Histogram Operations. (line 38) * gsl_histogram_set_ranges: Histogram allocation. (line 25) * gsl_histogram_set_ranges_uniform: Histogram allocation. (line 50) * gsl_histogram_shift: Histogram Operations. (line 42) * gsl_histogram_sigma: Histogram Statistics. (line 31) * gsl_histogram_sub: Histogram Operations. (line 19) * gsl_histogram_sum: Histogram Statistics. (line 38) * gsl_hypot: Elementary Functions. (line 23) * gsl_hypot3: Elementary Functions. (line 29) * gsl_ieee_env_setup: Setting up your IEEE environment. (line 24) * gsl_ieee_fprintf_double: Representation of floating point numbers. (line 57) * gsl_ieee_fprintf_float: Representation of floating point numbers. (line 55) * gsl_ieee_printf_double: Representation of floating point numbers. (line 84) * gsl_ieee_printf_float: Representation of floating point numbers. (line 83) * GSL_IMAG: Representation of complex numbers. (line 36) * gsl_integration_cquad: CQUAD doubly-adaptive integration. (line 37) * gsl_integration_cquad_workspace_alloc: CQUAD doubly-adaptive integration. (line 22) * gsl_integration_cquad_workspace_free: CQUAD doubly-adaptive integration. (line 31) * gsl_integration_glfixed: Fixed order Gauss-Legendre integration. (line 24) * gsl_integration_glfixed_point: Fixed order Gauss-Legendre integration. (line 30) * gsl_integration_glfixed_table_alloc: Fixed order Gauss-Legendre integration. (line 16) * gsl_integration_glfixed_table_free: Fixed order Gauss-Legendre integration. (line 37) * gsl_integration_qag: QAG adaptive integration. (line 28) * gsl_integration_qagi: QAGI adaptive integration on infinite intervals. (line 10) * gsl_integration_qagil: QAGI adaptive integration on infinite intervals. (line 41) * gsl_integration_qagiu: QAGI adaptive integration on infinite intervals. (line 27) * gsl_integration_qagp: QAGP adaptive integration with known singular points. (line 10) * gsl_integration_qags: QAGS adaptive integration with singularities. (line 19) * gsl_integration_qawc: QAWC adaptive integration for Cauchy principal values. (line 10) * gsl_integration_qawf: QAWF adaptive integration for Fourier integrals. (line 12) * gsl_integration_qawo: QAWO adaptive integration for oscillatory functions. (line 59) * gsl_integration_qawo_table_alloc: QAWO adaptive integration for oscillatory functions. (line 14) * gsl_integration_qawo_table_free: QAWO adaptive integration for oscillatory functions. (line 52) * gsl_integration_qawo_table_set: QAWO adaptive integration for oscillatory functions. (line 42) * gsl_integration_qawo_table_set_length: QAWO adaptive integration for oscillatory functions. (line 47) * gsl_integration_qaws: QAWS adaptive integration for singular functions. (line 53) * gsl_integration_qaws_table_alloc: QAWS adaptive integration for singular functions. (line 14) * gsl_integration_qaws_table_free: QAWS adaptive integration for singular functions. (line 45) * gsl_integration_qaws_table_set: QAWS adaptive integration for singular functions. (line 40) * gsl_integration_qng: QNG non-adaptive Gauss-Kronrod integration. (line 13) * gsl_integration_workspace_alloc: QAG adaptive integration. (line 17) * gsl_integration_workspace_free: QAG adaptive integration. (line 22) * gsl_interp_accel_alloc: Index Look-up and Acceleration. (line 20) * gsl_interp_accel_find: Index Look-up and Acceleration. (line 27) * gsl_interp_accel_free: Index Look-up and Acceleration. (line 40) * gsl_interp_accel_reset: Index Look-up and Acceleration. (line 35) * gsl_interp_akima: Interpolation Types. (line 36) * gsl_interp_akima_periodic: Interpolation Types. (line 40) * gsl_interp_alloc: Interpolation Functions. (line 11) * gsl_interp_bsearch: Index Look-up and Acceleration. (line 14) * gsl_interp_cspline: Interpolation Types. (line 20) * gsl_interp_cspline_periodic: Interpolation Types. (line 26) * gsl_interp_eval: Evaluation of Interpolating Functions. (line 9) * gsl_interp_eval_deriv: Evaluation of Interpolating Functions. (line 21) * gsl_interp_eval_deriv2: Evaluation of Interpolating Functions. (line 31) * gsl_interp_eval_deriv2_e: Evaluation of Interpolating Functions. (line 34) * gsl_interp_eval_deriv_e: Evaluation of Interpolating Functions. (line 24) * gsl_interp_eval_e: Evaluation of Interpolating Functions. (line 12) * gsl_interp_eval_integ: Evaluation of Interpolating Functions. (line 41) * gsl_interp_eval_integ_e: Evaluation of Interpolating Functions. (line 44) * gsl_interp_free: Interpolation Functions. (line 25) * gsl_interp_init: Interpolation Functions. (line 16) * gsl_interp_linear: Interpolation Types. (line 9) * gsl_interp_min_size: Interpolation Types. (line 58) * gsl_interp_name: Interpolation Types. (line 46) * gsl_interp_polynomial: Interpolation Types. (line 13) * gsl_interp_type_min_size: Interpolation Types. (line 60) * GSL_IS_EVEN: Testing for Odd and Even Numbers. (line 11) * GSL_IS_ODD: Testing for Odd and Even Numbers. (line 7) * gsl_isinf: Infinities and Not-a-number. (line 22) * gsl_isnan: Infinities and Not-a-number. (line 19) * gsl_ldexp: Elementary Functions. (line 45) * gsl_linalg_balance_matrix: Balancing. (line 19) * gsl_linalg_bidiag_decomp: Bidiagonalization. (line 17) * gsl_linalg_bidiag_unpack: Bidiagonalization. (line 29) * gsl_linalg_bidiag_unpack2: Bidiagonalization. (line 37) * gsl_linalg_bidiag_unpack_B: Bidiagonalization. (line 44) * gsl_linalg_cholesky_decomp: Cholesky Decomposition. (line 19) * gsl_linalg_cholesky_invert: Cholesky Decomposition. (line 56) * gsl_linalg_cholesky_solve: Cholesky Decomposition. (line 37) * gsl_linalg_cholesky_svx: Cholesky Decomposition. (line 47) * gsl_linalg_complex_cholesky_decomp: Cholesky Decomposition. (line 21) * gsl_linalg_complex_cholesky_invert: Cholesky Decomposition. (line 58) * gsl_linalg_complex_cholesky_solve: Cholesky Decomposition. (line 40) * gsl_linalg_complex_cholesky_svx: Cholesky Decomposition. (line 49) * gsl_linalg_complex_householder_hm: Householder Transformations. (line 29) * gsl_linalg_complex_householder_hv: Householder Transformations. (line 45) * gsl_linalg_complex_householder_mh: Householder Transformations. (line 37) * gsl_linalg_complex_householder_transform: Householder Transformations. (line 20) * gsl_linalg_complex_LU_decomp: LU Decomposition. (line 22) * gsl_linalg_complex_LU_det: LU Decomposition. (line 86) * gsl_linalg_complex_LU_invert: LU Decomposition. (line 74) * gsl_linalg_complex_LU_lndet: LU Decomposition. (line 94) * gsl_linalg_complex_LU_refine: LU Decomposition. (line 64) * gsl_linalg_complex_LU_sgndet: LU Decomposition. (line 102) * gsl_linalg_complex_LU_solve: LU Decomposition. (line 44) * gsl_linalg_complex_LU_svx: LU Decomposition. (line 52) * gsl_linalg_hermtd_decomp: Tridiagonal Decomposition of Hermitian Matrices. (line 16) * gsl_linalg_hermtd_unpack: Tridiagonal Decomposition of Hermitian Matrices. (line 29) * gsl_linalg_hermtd_unpack_T: Tridiagonal Decomposition of Hermitian Matrices. (line 36) * gsl_linalg_hessenberg_decomp: Hessenberg Decomposition of Real Matrices. (line 18) * gsl_linalg_hessenberg_set_zero: Hessenberg Decomposition of Real Matrices. (line 44) * gsl_linalg_hessenberg_unpack: Hessenberg Decomposition of Real Matrices. (line 29) * gsl_linalg_hessenberg_unpack_accum: Hessenberg Decomposition of Real Matrices. (line 36) * gsl_linalg_hesstri_decomp: Hessenberg-Triangular Decomposition of Real Matrices. (line 19) * gsl_linalg_HH_solve: Householder solver for linear systems. (line 8) * gsl_linalg_HH_svx: Householder solver for linear systems. (line 14) * gsl_linalg_householder_hm: Householder Transformations. (line 27) * gsl_linalg_householder_hv: Householder Transformations. (line 43) * gsl_linalg_householder_mh: Householder Transformations. (line 35) * gsl_linalg_householder_transform: Householder Transformations. (line 18) * gsl_linalg_LU_decomp: LU Decomposition. (line 20) * gsl_linalg_LU_det: LU Decomposition. (line 84) * gsl_linalg_LU_invert: LU Decomposition. (line 71) * gsl_linalg_LU_lndet: LU Decomposition. (line 92) * gsl_linalg_LU_refine: LU Decomposition. (line 60) * gsl_linalg_LU_sgndet: LU Decomposition. (line 100) * gsl_linalg_LU_solve: LU Decomposition. (line 41) * gsl_linalg_LU_svx: LU Decomposition. (line 50) * gsl_linalg_QR_decomp: QR Decomposition. (line 21) * gsl_linalg_QR_lssolve: QR Decomposition. (line 55) * gsl_linalg_QR_QRsolve: QR Decomposition. (line 106) * gsl_linalg_QR_QTmat: QR Decomposition. (line 80) * gsl_linalg_QR_QTvec: QR Decomposition. (line 65) * gsl_linalg_QR_Qvec: QR Decomposition. (line 73) * gsl_linalg_QR_Rsolve: QR Decomposition. (line 88) * gsl_linalg_QR_Rsvx: QR Decomposition. (line 94) * gsl_linalg_QR_solve: QR Decomposition. (line 38) * gsl_linalg_QR_svx: QR Decomposition. (line 46) * gsl_linalg_QR_unpack: QR Decomposition. (line 101) * gsl_linalg_QR_update: QR Decomposition. (line 112) * gsl_linalg_QRPT_decomp: QR Decomposition with Column Pivoting. (line 20) * gsl_linalg_QRPT_decomp2: QR Decomposition with Column Pivoting. (line 42) * gsl_linalg_QRPT_QRsolve: QR Decomposition with Column Pivoting. (line 63) * gsl_linalg_QRPT_Rsolve: QR Decomposition with Column Pivoting. (line 78) * gsl_linalg_QRPT_Rsvx: QR Decomposition with Column Pivoting. (line 83) * gsl_linalg_QRPT_solve: QR Decomposition with Column Pivoting. (line 49) * gsl_linalg_QRPT_svx: QR Decomposition with Column Pivoting. (line 55) * gsl_linalg_QRPT_update: QR Decomposition with Column Pivoting. (line 70) * gsl_linalg_R_solve: QR Decomposition. (line 119) * gsl_linalg_R_svx: QR Decomposition. (line 124) * gsl_linalg_solve_cyc_tridiag: Tridiagonal Systems. (line 43) * gsl_linalg_solve_symm_cyc_tridiag: Tridiagonal Systems. (line 57) * gsl_linalg_solve_symm_tridiag: Tridiagonal Systems. (line 30) * gsl_linalg_solve_tridiag: Tridiagonal Systems. (line 16) * gsl_linalg_SV_decomp: Singular Value Decomposition. (line 39) * gsl_linalg_SV_decomp_jacobi: Singular Value Decomposition. (line 58) * gsl_linalg_SV_decomp_mod: Singular Value Decomposition. (line 52) * gsl_linalg_SV_solve: Singular Value Decomposition. (line 66) * gsl_linalg_symmtd_decomp: Tridiagonal Decomposition of Real Symmetric Matrices. (line 15) * gsl_linalg_symmtd_unpack: Tridiagonal Decomposition of Real Symmetric Matrices. (line 27) * gsl_linalg_symmtd_unpack_T: Tridiagonal Decomposition of Real Symmetric Matrices. (line 34) * gsl_log1p: Elementary Functions. (line 13) * gsl_matrix_add: Matrix operations. (line 9) * gsl_matrix_add_constant: Matrix operations. (line 40) * gsl_matrix_alloc: Matrix allocation. (line 15) * gsl_matrix_calloc: Matrix allocation. (line 22) * gsl_matrix_column: Creating row and column views. (line 26) * gsl_matrix_const_column: Creating row and column views. (line 28) * gsl_matrix_const_diagonal: Creating row and column views. (line 65) * gsl_matrix_const_ptr: Accessing matrix elements. (line 38) * gsl_matrix_const_row: Creating row and column views. (line 16) * gsl_matrix_const_subcolumn: Creating row and column views. (line 53) * gsl_matrix_const_subdiagonal: Creating row and column views. (line 78) * gsl_matrix_const_submatrix: Matrix views. (line 22) * gsl_matrix_const_subrow: Creating row and column views. (line 40) * gsl_matrix_const_superdiagonal: Creating row and column views. (line 90) * gsl_matrix_const_view_array: Matrix views. (line 54) * gsl_matrix_const_view_array_with_tda: Matrix views. (line 79) * gsl_matrix_const_view_vector: Matrix views. (line 105) * gsl_matrix_const_view_vector_with_tda: Matrix views. (line 130) * gsl_matrix_diagonal: Creating row and column views. (line 63) * gsl_matrix_div_elements: Matrix operations. (line 29) * gsl_matrix_equal: Matrix properties. (line 22) * gsl_matrix_fprintf: Reading and writing matrices. (line 28) * gsl_matrix_fread: Reading and writing matrices. (line 18) * gsl_matrix_free: Matrix allocation. (line 26) * gsl_matrix_fscanf: Reading and writing matrices. (line 35) * gsl_matrix_fwrite: Reading and writing matrices. (line 11) * gsl_matrix_get: Accessing matrix elements. (line 22) * gsl_matrix_get_col: Copying rows and columns. (line 21) * gsl_matrix_get_row: Copying rows and columns. (line 15) * gsl_matrix_isneg: Matrix properties. (line 13) * gsl_matrix_isnonneg: Matrix properties. (line 14) * gsl_matrix_isnull: Matrix properties. (line 11) * gsl_matrix_ispos: Matrix properties. (line 12) * gsl_matrix_max: Finding maximum and minimum elements of matrices. (line 9) * gsl_matrix_max_index: Finding maximum and minimum elements of matrices. (line 21) * gsl_matrix_memcpy: Copying matrices. (line 8) * gsl_matrix_min: Finding maximum and minimum elements of matrices. (line 12) * gsl_matrix_min_index: Finding maximum and minimum elements of matrices. (line 28) * gsl_matrix_minmax: Finding maximum and minimum elements of matrices. (line 16) * gsl_matrix_minmax_index: Finding maximum and minimum elements of matrices. (line 35) * gsl_matrix_mul_elements: Matrix operations. (line 22) * gsl_matrix_ptr: Accessing matrix elements. (line 36) * gsl_matrix_row: Creating row and column views. (line 14) * gsl_matrix_scale: Matrix operations. (line 35) * gsl_matrix_set: Accessing matrix elements. (line 29) * gsl_matrix_set_all: Initializing matrix elements. (line 7) * gsl_matrix_set_col: Copying rows and columns. (line 33) * gsl_matrix_set_identity: Initializing matrix elements. (line 13) * gsl_matrix_set_row: Copying rows and columns. (line 27) * gsl_matrix_set_zero: Initializing matrix elements. (line 10) * gsl_matrix_sub: Matrix operations. (line 15) * gsl_matrix_subcolumn: Creating row and column views. (line 51) * gsl_matrix_subdiagonal: Creating row and column views. (line 76) * gsl_matrix_submatrix: Matrix views. (line 20) * gsl_matrix_subrow: Creating row and column views. (line 38) * gsl_matrix_superdiagonal: Creating row and column views. (line 88) * gsl_matrix_swap: Copying matrices. (line 12) * gsl_matrix_swap_columns: Exchanging rows and columns. (line 16) * gsl_matrix_swap_rowcol: Exchanging rows and columns. (line 21) * gsl_matrix_swap_rows: Exchanging rows and columns. (line 11) * gsl_matrix_transpose: Exchanging rows and columns. (line 33) * gsl_matrix_transpose_memcpy: Exchanging rows and columns. (line 27) * gsl_matrix_view_array: Matrix views. (line 52) * gsl_matrix_view_array_with_tda: Matrix views. (line 76) * gsl_matrix_view_vector: Matrix views. (line 103) * gsl_matrix_view_vector_with_tda: Matrix views. (line 127) * GSL_MAX: Maximum and Minimum functions. (line 11) * GSL_MAX_DBL: Maximum and Minimum functions. (line 19) * GSL_MAX_INT: Maximum and Minimum functions. (line 33) * GSL_MAX_LDBL: Maximum and Minimum functions. (line 41) * GSL_MIN: Maximum and Minimum functions. (line 15) * GSL_MIN_DBL: Maximum and Minimum functions. (line 26) * gsl_min_fminimizer_alloc: Initializing the Minimizer. (line 8) * gsl_min_fminimizer_brent: Minimization Algorithms. (line 32) * gsl_min_fminimizer_f_lower: Minimization Iteration. (line 47) * gsl_min_fminimizer_f_minimum: Minimization Iteration. (line 43) * gsl_min_fminimizer_f_upper: Minimization Iteration. (line 45) * gsl_min_fminimizer_free: Initializing the Minimizer. (line 40) * gsl_min_fminimizer_goldensection: Minimization Algorithms. (line 14) * gsl_min_fminimizer_iterate: Minimization Iteration. (line 13) * gsl_min_fminimizer_name: Initializing the Minimizer. (line 44) * gsl_min_fminimizer_quad_golden: Minimization Algorithms. (line 48) * gsl_min_fminimizer_set: Initializing the Minimizer. (line 24) * gsl_min_fminimizer_set_with_values: Initializing the Minimizer. (line 35) * gsl_min_fminimizer_x_lower: Minimization Iteration. (line 38) * gsl_min_fminimizer_x_minimum: Minimization Iteration. (line 31) * gsl_min_fminimizer_x_upper: Minimization Iteration. (line 36) * GSL_MIN_INT: Maximum and Minimum functions. (line 34) * GSL_MIN_LDBL: Maximum and Minimum functions. (line 43) * gsl_min_test_interval: Minimization Stopping Parameters. (line 20) * gsl_monte_miser_alloc: MISER. (line 47) * gsl_monte_miser_free: MISER. (line 70) * gsl_monte_miser_init: MISER. (line 52) * gsl_monte_miser_integrate: MISER. (line 60) * gsl_monte_miser_params_get: MISER. (line 78) * gsl_monte_miser_params_set: MISER. (line 83) * gsl_monte_plain_alloc: PLAIN Monte Carlo. (line 30) * gsl_monte_plain_free: PLAIN Monte Carlo. (line 52) * gsl_monte_plain_init: PLAIN Monte Carlo. (line 34) * gsl_monte_plain_integrate: PLAIN Monte Carlo. (line 42) * gsl_monte_vegas_alloc: VEGAS. (line 51) * gsl_monte_vegas_chisq: VEGAS. (line 112) * gsl_monte_vegas_free: VEGAS. (line 78) * gsl_monte_vegas_init: VEGAS. (line 56) * gsl_monte_vegas_integrate: VEGAS. (line 64) * gsl_monte_vegas_params_get: VEGAS. (line 130) * gsl_monte_vegas_params_set: VEGAS. (line 135) * gsl_monte_vegas_runval: VEGAS. (line 121) * gsl_multifit_covar: Computing the covariance matrix of best fit parameters. (line 8) * gsl_multifit_fdfsolver_alloc: Initializing the Nonlinear Least-Squares Solver. (line 18) * gsl_multifit_fdfsolver_free: Initializing the Nonlinear Least-Squares Solver. (line 48) * gsl_multifit_fdfsolver_iterate: Iteration of the Minimization Algorithm. (line 16) * gsl_multifit_fdfsolver_lmder: Minimization Algorithms using Derivatives. (line 65) * gsl_multifit_fdfsolver_lmsder: Minimization Algorithms using Derivatives. (line 13) * gsl_multifit_fdfsolver_name: Initializing the Nonlinear Least-Squares Solver. (line 54) * gsl_multifit_fdfsolver_position: Iteration of the Minimization Algorithm. (line 45) * gsl_multifit_fdfsolver_set: Initializing the Nonlinear Least-Squares Solver. (line 42) * gsl_multifit_fsolver_alloc: Initializing the Nonlinear Least-Squares Solver. (line 8) * gsl_multifit_fsolver_free: Initializing the Nonlinear Least-Squares Solver. (line 46) * gsl_multifit_fsolver_iterate: Iteration of the Minimization Algorithm. (line 14) * gsl_multifit_fsolver_name: Initializing the Nonlinear Least-Squares Solver. (line 52) * gsl_multifit_fsolver_position: Iteration of the Minimization Algorithm. (line 43) * gsl_multifit_fsolver_set: Initializing the Nonlinear Least-Squares Solver. (line 37) * gsl_multifit_gradient: Search Stopping Parameters for Minimization Algorithms. (line 46) * gsl_multifit_linear: Multi-parameter fitting. (line 53) * gsl_multifit_linear_alloc: Multi-parameter fitting. (line 43) * gsl_multifit_linear_est: Multi-parameter fitting. (line 111) * gsl_multifit_linear_free: Multi-parameter fitting. (line 48) * gsl_multifit_linear_residuals: Multi-parameter fitting. (line 118) * gsl_multifit_linear_svd: Multi-parameter fitting. (line 89) * gsl_multifit_linear_usvd: Multi-parameter fitting. (line 101) * gsl_multifit_test_delta: Search Stopping Parameters for Minimization Algorithms. (line 21) * gsl_multifit_test_gradient: Search Stopping Parameters for Minimization Algorithms. (line 32) * gsl_multifit_wlinear: Multi-parameter fitting. (line 74) * gsl_multifit_wlinear_svd: Multi-parameter fitting. (line 93) * gsl_multifit_wlinear_usvd: Multi-parameter fitting. (line 105) * gsl_multimin_fdfminimizer_alloc: Initializing the Multidimensional Minimizer. (line 13) * gsl_multimin_fdfminimizer_conjugate_fr: Multimin Algorithms with Derivatives. (line 12) * gsl_multimin_fdfminimizer_conjugate_pr: Multimin Algorithms with Derivatives. (line 29) * gsl_multimin_fdfminimizer_free: Initializing the Multidimensional Minimizer. (line 47) * gsl_multimin_fdfminimizer_gradient: Multimin Iteration. (line 36) * gsl_multimin_fdfminimizer_iterate: Multimin Iteration. (line 13) * gsl_multimin_fdfminimizer_minimum: Multimin Iteration. (line 32) * gsl_multimin_fdfminimizer_name: Initializing the Multidimensional Minimizer. (line 53) * gsl_multimin_fdfminimizer_restart: Multimin Iteration. (line 45) * gsl_multimin_fdfminimizer_set: Initializing the Multidimensional Minimizer. (line 24) * gsl_multimin_fdfminimizer_steepest_descent: Multimin Algorithms with Derivatives. (line 57) * gsl_multimin_fdfminimizer_vector_bfgs: Multimin Algorithms with Derivatives. (line 37) * gsl_multimin_fdfminimizer_vector_bfgs2: Multimin Algorithms with Derivatives. (line 36) * gsl_multimin_fdfminimizer_x: Multimin Iteration. (line 28) * gsl_multimin_fminimizer_alloc: Initializing the Multidimensional Minimizer. (line 15) * gsl_multimin_fminimizer_free: Initializing the Multidimensional Minimizer. (line 49) * gsl_multimin_fminimizer_iterate: Multimin Iteration. (line 15) * gsl_multimin_fminimizer_minimum: Multimin Iteration. (line 34) * gsl_multimin_fminimizer_name: Initializing the Multidimensional Minimizer. (line 55) * gsl_multimin_fminimizer_nmsimplex: Multimin Algorithms without Derivatives. (line 11) * gsl_multimin_fminimizer_nmsimplex2: Multimin Algorithms without Derivatives. (line 10) * gsl_multimin_fminimizer_nmsimplex2rand: Multimin Algorithms without Derivatives. (line 50) * gsl_multimin_fminimizer_set: Initializing the Multidimensional Minimizer. (line 40) * gsl_multimin_fminimizer_size: Multimin Iteration. (line 38) * gsl_multimin_fminimizer_x: Multimin Iteration. (line 30) * gsl_multimin_test_gradient: Multimin Stopping Criteria. (line 20) * gsl_multimin_test_size: Multimin Stopping Criteria. (line 34) * gsl_multiroot_fdfsolver_alloc: Initializing the Multidimensional Solver. (line 29) * gsl_multiroot_fdfsolver_dx: Iteration of the multidimensional solver. (line 50) * gsl_multiroot_fdfsolver_f: Iteration of the multidimensional solver. (line 43) * gsl_multiroot_fdfsolver_free: Initializing the Multidimensional Solver. (line 56) * gsl_multiroot_fdfsolver_gnewton: Algorithms using Derivatives. (line 92) * gsl_multiroot_fdfsolver_hybridj: Algorithms using Derivatives. (line 67) * gsl_multiroot_fdfsolver_hybridsj: Algorithms using Derivatives. (line 14) * gsl_multiroot_fdfsolver_iterate: Iteration of the multidimensional solver. (line 16) * gsl_multiroot_fdfsolver_name: Initializing the Multidimensional Solver. (line 62) * gsl_multiroot_fdfsolver_newton: Algorithms using Derivatives. (line 73) * gsl_multiroot_fdfsolver_root: Iteration of the multidimensional solver. (line 36) * gsl_multiroot_fdfsolver_set: Initializing the Multidimensional Solver. (line 47) * gsl_multiroot_fsolver_alloc: Initializing the Multidimensional Solver. (line 13) * gsl_multiroot_fsolver_broyden: Algorithms without Derivatives. (line 45) * gsl_multiroot_fsolver_dnewton: Algorithms without Derivatives. (line 26) * gsl_multiroot_fsolver_dx: Iteration of the multidimensional solver. (line 48) * gsl_multiroot_fsolver_f: Iteration of the multidimensional solver. (line 41) * gsl_multiroot_fsolver_free: Initializing the Multidimensional Solver. (line 54) * gsl_multiroot_fsolver_hybrid: Algorithms without Derivatives. (line 22) * gsl_multiroot_fsolver_hybrids: Algorithms without Derivatives. (line 14) * gsl_multiroot_fsolver_iterate: Iteration of the multidimensional solver. (line 14) * gsl_multiroot_fsolver_name: Initializing the Multidimensional Solver. (line 60) * gsl_multiroot_fsolver_root: Iteration of the multidimensional solver. (line 34) * gsl_multiroot_fsolver_set: Initializing the Multidimensional Solver. (line 45) * gsl_multiroot_test_delta: Search Stopping Parameters for the multidimensional solver. (line 22) * gsl_multiroot_test_residual: Search Stopping Parameters for the multidimensional solver. (line 33) * gsl_multiset_alloc: Multiset allocation. (line 7) * gsl_multiset_calloc: Multiset allocation. (line 15) * gsl_multiset_data: Multiset properties. (line 13) * gsl_multiset_fprintf: Reading and writing multisets. (line 28) * gsl_multiset_fread: Reading and writing multisets. (line 18) * gsl_multiset_free: Multiset allocation. (line 29) * gsl_multiset_fscanf: Reading and writing multisets. (line 36) * gsl_multiset_fwrite: Reading and writing multisets. (line 11) * gsl_multiset_get: Accessing multiset elements. (line 10) * gsl_multiset_init_first: Multiset allocation. (line 21) * gsl_multiset_init_last: Multiset allocation. (line 25) * gsl_multiset_k: Multiset properties. (line 10) * gsl_multiset_memcpy: Multiset allocation. (line 33) * gsl_multiset_n: Multiset properties. (line 7) * gsl_multiset_next: Multiset functions. (line 7) * gsl_multiset_prev: Multiset functions. (line 15) * gsl_multiset_valid: Multiset properties. (line 17) * gsl_ntuple_bookdata: Writing ntuples. (line 11) * gsl_ntuple_close: Closing an ntuple file. (line 7) * gsl_ntuple_create: Creating ntuples. (line 8) * gsl_ntuple_open: Opening an existing ntuple file. (line 8) * gsl_ntuple_project: Histogramming ntuple values. (line 38) * gsl_ntuple_read: Reading ntuples. (line 7) * gsl_ntuple_write: Writing ntuples. (line 7) * gsl_odeiv2_control_alloc: Adaptive Step-size Control. (line 75) * gsl_odeiv2_control_errlevel: Adaptive Step-size Control. (line 118) * gsl_odeiv2_control_free: Adaptive Step-size Control. (line 87) * gsl_odeiv2_control_hadjust: Adaptive Step-size Control. (line 93) * gsl_odeiv2_control_init: Adaptive Step-size Control. (line 82) * gsl_odeiv2_control_name: Adaptive Step-size Control. (line 107) * gsl_odeiv2_control_scaled_new: Adaptive Step-size Control. (line 63) * gsl_odeiv2_control_set_driver: Adaptive Step-size Control. (line 124) * gsl_odeiv2_control_standard_new: Adaptive Step-size Control. (line 12) * gsl_odeiv2_control_y_new: Adaptive Step-size Control. (line 46) * gsl_odeiv2_control_yp_new: Adaptive Step-size Control. (line 54) * gsl_odeiv2_driver_alloc_scaled_new: Driver. (line 24) * gsl_odeiv2_driver_alloc_standard_new: Driver. (line 19) * gsl_odeiv2_driver_alloc_y_new: Driver. (line 12) * gsl_odeiv2_driver_alloc_yp_new: Driver. (line 15) * gsl_odeiv2_driver_apply: Driver. (line 48) * gsl_odeiv2_driver_apply_fixed_step: Driver. (line 65) * gsl_odeiv2_driver_free: Driver. (line 74) * gsl_odeiv2_driver_reset: Driver. (line 71) * gsl_odeiv2_driver_set_hmax: Driver. (line 38) * gsl_odeiv2_driver_set_hmin: Driver. (line 33) * gsl_odeiv2_driver_set_nmax: Driver. (line 43) * gsl_odeiv2_evolve_alloc: Evolution. (line 11) * gsl_odeiv2_evolve_apply: Evolution. (line 18) * gsl_odeiv2_evolve_apply_fixed_step: Evolution. (line 56) * gsl_odeiv2_evolve_free: Evolution. (line 69) * gsl_odeiv2_evolve_reset: Evolution. (line 64) * gsl_odeiv2_evolve_set_driver: Evolution. (line 74) * gsl_odeiv2_step_alloc: Stepping Functions. (line 12) * gsl_odeiv2_step_apply: Stepping Functions. (line 54) * gsl_odeiv2_step_bsimp: Stepping Functions. (line 124) * gsl_odeiv2_step_free: Stepping Functions. (line 24) * gsl_odeiv2_step_msadams: Stepping Functions. (line 129) * gsl_odeiv2_step_msbdf: Stepping Functions. (line 137) * gsl_odeiv2_step_name: Stepping Functions. (line 29) * gsl_odeiv2_step_order: Stepping Functions. (line 39) * gsl_odeiv2_step_reset: Stepping Functions. (line 19) * gsl_odeiv2_step_rk1imp: Stepping Functions. (line 106) * gsl_odeiv2_step_rk2: Stepping Functions. (line 88) * gsl_odeiv2_step_rk2imp: Stepping Functions. (line 112) * gsl_odeiv2_step_rk4: Stepping Functions. (line 91) * gsl_odeiv2_step_rk4imp: Stepping Functions. (line 118) * gsl_odeiv2_step_rk8pd: Stepping Functions. (line 103) * gsl_odeiv2_step_rkck: Stepping Functions. (line 100) * gsl_odeiv2_step_rkf45: Stepping Functions. (line 96) * gsl_odeiv2_step_set_driver: Stepping Functions. (line 45) * gsl_permutation_alloc: Permutation allocation. (line 7) * gsl_permutation_calloc: Permutation allocation. (line 15) * gsl_permutation_canonical_cycles: Permutations in cyclic form. (line 71) * gsl_permutation_canonical_to_linear: Permutations in cyclic form. (line 53) * gsl_permutation_data: Permutation properties. (line 10) * gsl_permutation_fprintf: Reading and writing permutations. (line 29) * gsl_permutation_fread: Reading and writing permutations. (line 19) * gsl_permutation_free: Permutation allocation. (line 24) * gsl_permutation_fscanf: Reading and writing permutations. (line 38) * gsl_permutation_fwrite: Reading and writing permutations. (line 11) * gsl_permutation_get: Accessing permutation elements. (line 11) * gsl_permutation_init: Permutation allocation. (line 20) * gsl_permutation_inverse: Permutation functions. (line 11) * gsl_permutation_inversions: Permutations in cyclic form. (line 58) * gsl_permutation_linear_cycles: Permutations in cyclic form. (line 66) * gsl_permutation_linear_to_canonical: Permutations in cyclic form. (line 48) * gsl_permutation_memcpy: Permutation allocation. (line 28) * gsl_permutation_mul: Applying Permutations. (line 37) * gsl_permutation_next: Permutation functions. (line 15) * gsl_permutation_prev: Permutation functions. (line 23) * gsl_permutation_reverse: Permutation functions. (line 7) * gsl_permutation_size: Permutation properties. (line 7) * gsl_permutation_swap: Accessing permutation elements. (line 18) * gsl_permutation_valid: Permutation properties. (line 14) * gsl_permute: Applying Permutations. (line 8) * gsl_permute_inverse: Applying Permutations. (line 13) * gsl_permute_vector: Applying Permutations. (line 18) * gsl_permute_vector_inverse: Applying Permutations. (line 27) * gsl_poly_complex_eval: Polynomial Evaluation. (line 18) * gsl_poly_complex_solve: General Polynomial Equations. (line 27) * gsl_poly_complex_solve_cubic: Cubic Equations. (line 26) * gsl_poly_complex_solve_quadratic: Quadratic Equations. (line 32) * gsl_poly_complex_workspace_alloc: General Polynomial Equations. (line 13) * gsl_poly_complex_workspace_free: General Polynomial Equations. (line 23) * gsl_poly_dd_eval: Divided Difference Representation of Polynomials. (line 20) * gsl_poly_dd_init: Divided Difference Representation of Polynomials. (line 12) * gsl_poly_dd_taylor: Divided Difference Representation of Polynomials. (line 27) * gsl_poly_eval: Polynomial Evaluation. (line 13) * gsl_poly_eval_derivs: Polynomial Evaluation. (line 28) * gsl_poly_solve_cubic: Cubic Equations. (line 8) * gsl_poly_solve_quadratic: Quadratic Equations. (line 8) * gsl_pow_2: Small integer powers. (line 20) * gsl_pow_3: Small integer powers. (line 21) * gsl_pow_4: Small integer powers. (line 22) * gsl_pow_5: Small integer powers. (line 23) * gsl_pow_6: Small integer powers. (line 24) * gsl_pow_7: Small integer powers. (line 25) * gsl_pow_8: Small integer powers. (line 26) * gsl_pow_9: Small integer powers. (line 27) * gsl_pow_int: Small integer powers. (line 12) * gsl_pow_uint: Small integer powers. (line 13) * gsl_qrng_alloc: Quasi-random number generator initialization. (line 8) * gsl_qrng_clone: Saving and resorting quasi-random number generator state. (line 13) * gsl_qrng_free: Quasi-random number generator initialization. (line 15) * gsl_qrng_get: Sampling from a quasi-random number generator. (line 7) * gsl_qrng_halton: Quasi-random number generator algorithms. (line 19) * gsl_qrng_init: Quasi-random number generator initialization. (line 18) * gsl_qrng_memcpy: Saving and resorting quasi-random number generator state. (line 8) * gsl_qrng_name: Auxiliary quasi-random number generator functions. (line 7) * gsl_qrng_niederreiter_2: Quasi-random number generator algorithms. (line 9) * gsl_qrng_reversehalton: Quasi-random number generator algorithms. (line 20) * gsl_qrng_size: Auxiliary quasi-random number generator functions. (line 10) * gsl_qrng_sobol: Quasi-random number generator algorithms. (line 14) * gsl_qrng_state: Auxiliary quasi-random number generator functions. (line 11) * gsl_ran_bernoulli: The Bernoulli Distribution. (line 8) * gsl_ran_bernoulli_pdf: The Bernoulli Distribution. (line 17) * gsl_ran_beta: The Beta Distribution. (line 8) * gsl_ran_beta_pdf: The Beta Distribution. (line 16) * gsl_ran_binomial: The Binomial Distribution. (line 9) * gsl_ran_binomial_pdf: The Binomial Distribution. (line 20) * gsl_ran_bivariate_gaussian: The Bivariate Gaussian Distribution. (line 9) * gsl_ran_bivariate_gaussian_pdf: The Bivariate Gaussian Distribution. (line 21) * gsl_ran_cauchy: The Cauchy Distribution. (line 7) * gsl_ran_cauchy_pdf: The Cauchy Distribution. (line 17) * gsl_ran_chisq: The Chi-squared Distribution. (line 15) * gsl_ran_chisq_pdf: The Chi-squared Distribution. (line 24) * gsl_ran_choose: Shuffling and Sampling. (line 36) * gsl_ran_dir_2d: Spherical Vector Distributions. (line 12) * gsl_ran_dir_2d_trig_method: Spherical Vector Distributions. (line 14) * gsl_ran_dir_3d: Spherical Vector Distributions. (line 33) * gsl_ran_dir_nd: Spherical Vector Distributions. (line 42) * gsl_ran_dirichlet: The Dirichlet Distribution. (line 8) * gsl_ran_dirichlet_lnpdf: The Dirichlet Distribution. (line 32) * gsl_ran_dirichlet_pdf: The Dirichlet Distribution. (line 26) * gsl_ran_discrete: General Discrete Distributions. (line 62) * gsl_ran_discrete_free: General Discrete Distributions. (line 74) * gsl_ran_discrete_pdf: General Discrete Distributions. (line 67) * gsl_ran_discrete_preproc: General Discrete Distributions. (line 52) * gsl_ran_exponential: The Exponential Distribution. (line 8) * gsl_ran_exponential_pdf: The Exponential Distribution. (line 16) * gsl_ran_exppow: The Exponential Power Distribution. (line 8) * gsl_ran_exppow_pdf: The Exponential Power Distribution. (line 19) * gsl_ran_fdist: The F-distribution. (line 16) * gsl_ran_fdist_pdf: The F-distribution. (line 29) * gsl_ran_flat: The Flat (Uniform) Distribution. (line 8) * gsl_ran_flat_pdf: The Flat (Uniform) Distribution. (line 16) * gsl_ran_gamma: The Gamma Distribution. (line 9) * gsl_ran_gamma_knuth: The Gamma Distribution. (line 25) * gsl_ran_gamma_pdf: The Gamma Distribution. (line 29) * gsl_ran_gaussian: The Gaussian Distribution. (line 7) * gsl_ran_gaussian_pdf: The Gaussian Distribution. (line 20) * gsl_ran_gaussian_ratio_method: The Gaussian Distribution. (line 29) * gsl_ran_gaussian_tail: The Gaussian Tail Distribution. (line 8) * gsl_ran_gaussian_tail_pdf: The Gaussian Tail Distribution. (line 27) * gsl_ran_gaussian_ziggurat: The Gaussian Distribution. (line 27) * gsl_ran_geometric: The Geometric Distribution. (line 8) * gsl_ran_geometric_pdf: The Geometric Distribution. (line 20) * gsl_ran_gumbel1: The Type-1 Gumbel Distribution. (line 8) * gsl_ran_gumbel1_pdf: The Type-1 Gumbel Distribution. (line 16) * gsl_ran_gumbel2: The Type-2 Gumbel Distribution. (line 8) * gsl_ran_gumbel2_pdf: The Type-2 Gumbel Distribution. (line 16) * gsl_ran_hypergeometric: The Hypergeometric Distribution. (line 8) * gsl_ran_hypergeometric_pdf: The Hypergeometric Distribution. (line 24) * gsl_ran_landau: The Landau Distribution. (line 8) * gsl_ran_landau_pdf: The Landau Distribution. (line 19) * gsl_ran_laplace: The Laplace Distribution. (line 7) * gsl_ran_laplace_pdf: The Laplace Distribution. (line 15) * gsl_ran_levy: The Levy alpha-Stable Distributions. (line 9) * gsl_ran_levy_skew: The Levy skew alpha-Stable Distribution. (line 9) * gsl_ran_logarithmic: The Logarithmic Distribution. (line 8) * gsl_ran_logarithmic_pdf: The Logarithmic Distribution. (line 17) * gsl_ran_logistic: The Logistic Distribution. (line 7) * gsl_ran_logistic_pdf: The Logistic Distribution. (line 15) * gsl_ran_lognormal: The Lognormal Distribution. (line 8) * gsl_ran_lognormal_pdf: The Lognormal Distribution. (line 17) * gsl_ran_multinomial: The Multinomial Distribution. (line 8) * gsl_ran_multinomial_lnpdf: The Multinomial Distribution. (line 35) * gsl_ran_multinomial_pdf: The Multinomial Distribution. (line 29) * gsl_ran_negative_binomial: The Negative Binomial Distribution. (line 8) * gsl_ran_negative_binomial_pdf: The Negative Binomial Distribution. (line 19) * gsl_ran_pareto: The Pareto Distribution. (line 8) * gsl_ran_pareto_pdf: The Pareto Distribution. (line 16) * gsl_ran_pascal: The Pascal Distribution. (line 8) * gsl_ran_pascal_pdf: The Pascal Distribution. (line 18) * gsl_ran_poisson: The Poisson Distribution. (line 8) * gsl_ran_poisson_pdf: The Poisson Distribution. (line 17) * gsl_ran_rayleigh: The Rayleigh Distribution. (line 7) * gsl_ran_rayleigh_pdf: The Rayleigh Distribution. (line 15) * gsl_ran_rayleigh_tail: The Rayleigh Tail Distribution. (line 8) * gsl_ran_rayleigh_tail_pdf: The Rayleigh Tail Distribution. (line 18) * gsl_ran_sample: Shuffling and Sampling. (line 64) * gsl_ran_shuffle: Shuffling and Sampling. (line 16) * gsl_ran_tdist: The t-distribution. (line 15) * gsl_ran_tdist_pdf: The t-distribution. (line 24) * gsl_ran_ugaussian: The Gaussian Distribution. (line 35) * gsl_ran_ugaussian_pdf: The Gaussian Distribution. (line 36) * gsl_ran_ugaussian_ratio_method: The Gaussian Distribution. (line 37) * gsl_ran_ugaussian_tail: The Gaussian Tail Distribution. (line 34) * gsl_ran_ugaussian_tail_pdf: The Gaussian Tail Distribution. (line 35) * gsl_ran_weibull: The Weibull Distribution. (line 8) * gsl_ran_weibull_pdf: The Weibull Distribution. (line 16) * GSL_REAL: Representation of complex numbers. (line 35) * gsl_rng_alloc: Random number generator initialization. (line 7) * gsl_rng_borosh13: Other random number generators. (line 175) * gsl_rng_clone: Copying random number generator state. (line 17) * gsl_rng_cmrg: Random number generator algorithms. (line 97) * gsl_rng_coveyou: Other random number generators. (line 203) * gsl_rng_env_setup: Random number environment variables. (line 12) * gsl_rng_fishman18: Other random number generators. (line 176) * gsl_rng_fishman20: Other random number generators. (line 177) * gsl_rng_fishman2x: Other random number generators. (line 192) * gsl_rng_fread: Reading and writing random number generator state. (line 18) * gsl_rng_free: Random number generator initialization. (line 46) * gsl_rng_fwrite: Reading and writing random number generator state. (line 10) * gsl_rng_get: Sampling from a random number generator. (line 12) * gsl_rng_gfsr4: Random number generator algorithms. (line 172) * gsl_rng_knuthran: Other random number generators. (line 168) * gsl_rng_knuthran2: Other random number generators. (line 158) * gsl_rng_knuthran2002: Other random number generators. (line 167) * gsl_rng_lecuyer21: Other random number generators. (line 178) * gsl_rng_max: Auxiliary random number generator functions. (line 20) * gsl_rng_memcpy: Copying random number generator state. (line 12) * gsl_rng_min: Auxiliary random number generator functions. (line 24) * gsl_rng_minstd: Other random number generators. (line 114) * gsl_rng_mrg: Random number generator algorithms. (line 119) * gsl_rng_mt19937: Random number generator algorithms. (line 20) * gsl_rng_name: Auxiliary random number generator functions. (line 11) * gsl_rng_r250: Other random number generators. (line 60) * gsl_rng_rand: Unix random number generators. (line 18) * gsl_rng_rand48: Unix random number generators. (line 58) * gsl_rng_random_bsd: Unix random number generators. (line 27) * gsl_rng_random_glibc2: Unix random number generators. (line 29) * gsl_rng_random_libc5: Unix random number generators. (line 28) * gsl_rng_randu: Other random number generators. (line 105) * gsl_rng_ranf: Other random number generators. (line 23) * gsl_rng_ranlux: Random number generator algorithms. (line 70) * gsl_rng_ranlux389: Random number generator algorithms. (line 71) * gsl_rng_ranlxd1: Random number generator algorithms. (line 64) * gsl_rng_ranlxd2: Random number generator algorithms. (line 65) * gsl_rng_ranlxs0: Random number generator algorithms. (line 45) * gsl_rng_ranlxs1: Random number generator algorithms. (line 46) * gsl_rng_ranlxs2: Random number generator algorithms. (line 47) * gsl_rng_ranmar: Other random number generators. (line 54) * gsl_rng_set: Random number generator initialization. (line 26) * gsl_rng_size: Auxiliary random number generator functions. (line 31) * gsl_rng_slatec: Other random number generators. (line 141) * gsl_rng_state: Auxiliary random number generator functions. (line 30) * gsl_rng_taus: Random number generator algorithms. (line 136) * gsl_rng_taus2: Random number generator algorithms. (line 137) * gsl_rng_transputer: Other random number generators. (line 96) * gsl_rng_tt800: Other random number generators. (line 75) * gsl_rng_types_setup: Auxiliary random number generator functions. (line 41) * gsl_rng_uni: Other random number generators. (line 134) * gsl_rng_uni32: Other random number generators. (line 135) * gsl_rng_uniform: Sampling from a random number generator. (line 19) * gsl_rng_uniform_int: Sampling from a random number generator. (line 38) * gsl_rng_uniform_pos: Sampling from a random number generator. (line 29) * gsl_rng_vax: Other random number generators. (line 87) * gsl_rng_waterman14: Other random number generators. (line 179) * gsl_rng_zuf: Other random number generators. (line 145) * gsl_root_fdfsolver_alloc: Initializing the Solver. (line 23) * gsl_root_fdfsolver_free: Initializing the Solver. (line 49) * gsl_root_fdfsolver_iterate: Root Finding Iteration. (line 14) * gsl_root_fdfsolver_name: Initializing the Solver. (line 55) * gsl_root_fdfsolver_newton: Root Finding Algorithms using Derivatives. (line 16) * gsl_root_fdfsolver_root: Root Finding Iteration. (line 35) * gsl_root_fdfsolver_secant: Root Finding Algorithms using Derivatives. (line 30) * gsl_root_fdfsolver_set: Initializing the Solver. (line 44) * gsl_root_fdfsolver_steffenson: Root Finding Algorithms using Derivatives. (line 61) * gsl_root_fsolver_alloc: Initializing the Solver. (line 8) * gsl_root_fsolver_bisection: Root Bracketing Algorithms. (line 17) * gsl_root_fsolver_brent: Root Bracketing Algorithms. (line 50) * gsl_root_fsolver_falsepos: Root Bracketing Algorithms. (line 33) * gsl_root_fsolver_free: Initializing the Solver. (line 48) * gsl_root_fsolver_iterate: Root Finding Iteration. (line 13) * gsl_root_fsolver_name: Initializing the Solver. (line 53) * gsl_root_fsolver_root: Root Finding Iteration. (line 33) * gsl_root_fsolver_set: Initializing the Solver. (line 38) * gsl_root_fsolver_x_lower: Root Finding Iteration. (line 40) * gsl_root_fsolver_x_upper: Root Finding Iteration. (line 42) * gsl_root_test_delta: Search Stopping Parameters. (line 44) * gsl_root_test_interval: Search Stopping Parameters. (line 21) * gsl_root_test_residual: Search Stopping Parameters. (line 53) * GSL_SET_COMPLEX: Representation of complex numbers. (line 40) * gsl_set_error_handler: Error Handlers. (line 44) * gsl_set_error_handler_off: Error Handlers. (line 68) * GSL_SET_IMAG: Representation of complex numbers. (line 50) * GSL_SET_REAL: Representation of complex numbers. (line 49) * gsl_sf_airy_Ai: Airy Functions. (line 7) * gsl_sf_airy_Ai_deriv: Derivatives of Airy Functions. (line 7) * gsl_sf_airy_Ai_deriv_e: Derivatives of Airy Functions. (line 9) * gsl_sf_airy_Ai_deriv_scaled: Derivatives of Airy Functions. (line 20) * gsl_sf_airy_Ai_deriv_scaled_e: Derivatives of Airy Functions. (line 22) * gsl_sf_airy_Ai_e: Airy Functions. (line 9) * gsl_sf_airy_Ai_scaled: Airy Functions. (line 19) * gsl_sf_airy_Ai_scaled_e: Airy Functions. (line 21) * gsl_sf_airy_Bi: Airy Functions. (line 13) * gsl_sf_airy_Bi_deriv: Derivatives of Airy Functions. (line 13) * gsl_sf_airy_Bi_deriv_e: Derivatives of Airy Functions. (line 15) * gsl_sf_airy_Bi_deriv_scaled: Derivatives of Airy Functions. (line 28) * gsl_sf_airy_Bi_deriv_scaled_e: Derivatives of Airy Functions. (line 30) * gsl_sf_airy_Bi_e: Airy Functions. (line 15) * gsl_sf_airy_Bi_scaled: Airy Functions. (line 26) * gsl_sf_airy_Bi_scaled_e: Airy Functions. (line 28) * gsl_sf_airy_zero_Ai: Zeros of Airy Functions. (line 7) * gsl_sf_airy_zero_Ai_deriv: Zeros of Derivatives of Airy Functions. (line 7) * gsl_sf_airy_zero_Ai_deriv_e: Zeros of Derivatives of Airy Functions. (line 9) * gsl_sf_airy_zero_Ai_e: Zeros of Airy Functions. (line 9) * gsl_sf_airy_zero_Bi: Zeros of Airy Functions. (line 13) * gsl_sf_airy_zero_Bi_deriv: Zeros of Derivatives of Airy Functions. (line 13) * gsl_sf_airy_zero_Bi_deriv_e: Zeros of Derivatives of Airy Functions. (line 15) * gsl_sf_airy_zero_Bi_e: Zeros of Airy Functions. (line 15) * gsl_sf_angle_restrict_pos: Restriction Functions. (line 16) * gsl_sf_angle_restrict_pos_e: Restriction Functions. (line 17) * gsl_sf_angle_restrict_symm: Restriction Functions. (line 7) * gsl_sf_angle_restrict_symm_e: Restriction Functions. (line 8) * gsl_sf_atanint: Arctangent Integral. (line 7) * gsl_sf_atanint_e: Arctangent Integral. (line 8) * gsl_sf_bessel_I0: Regular Modified Cylindrical Bessel Functions. (line 7) * gsl_sf_bessel_I0_e: Regular Modified Cylindrical Bessel Functions. (line 8) * gsl_sf_bessel_i0_scaled: Regular Modified Spherical Bessel Functions. (line 11) * gsl_sf_bessel_I0_scaled: Regular Modified Cylindrical Bessel Functions. (line 32) * gsl_sf_bessel_i0_scaled_e: Regular Modified Spherical Bessel Functions. (line 13) * gsl_sf_bessel_I0_scaled_e: Regular Modified Cylindrical Bessel Functions. (line 34) * gsl_sf_bessel_I1: Regular Modified Cylindrical Bessel Functions. (line 12) * gsl_sf_bessel_I1_e: Regular Modified Cylindrical Bessel Functions. (line 13) * gsl_sf_bessel_i1_scaled: Regular Modified Spherical Bessel Functions. (line 17) * gsl_sf_bessel_I1_scaled: Regular Modified Cylindrical Bessel Functions. (line 38) * gsl_sf_bessel_i1_scaled_e: Regular Modified Spherical Bessel Functions. (line 19) * gsl_sf_bessel_I1_scaled_e: Regular Modified Cylindrical Bessel Functions. (line 40) * gsl_sf_bessel_i2_scaled: Regular Modified Spherical Bessel Functions. (line 23) * gsl_sf_bessel_i2_scaled_e: Regular Modified Spherical Bessel Functions. (line 25) * gsl_sf_bessel_il_scaled: Regular Modified Spherical Bessel Functions. (line 29) * gsl_sf_bessel_il_scaled_array: Regular Modified Spherical Bessel Functions. (line 36) * gsl_sf_bessel_il_scaled_e: Regular Modified Spherical Bessel Functions. (line 31) * gsl_sf_bessel_In: Regular Modified Cylindrical Bessel Functions. (line 17) * gsl_sf_bessel_In_array: Regular Modified Cylindrical Bessel Functions. (line 24) * gsl_sf_bessel_In_e: Regular Modified Cylindrical Bessel Functions. (line 19) * gsl_sf_bessel_In_scaled: Regular Modified Cylindrical Bessel Functions. (line 44) * gsl_sf_bessel_In_scaled_array: Regular Modified Cylindrical Bessel Functions. (line 51) * gsl_sf_bessel_In_scaled_e: Regular Modified Cylindrical Bessel Functions. (line 46) * gsl_sf_bessel_Inu: Regular Modified Bessel Functions - Fractional Order. (line 7) * gsl_sf_bessel_Inu_e: Regular Modified Bessel Functions - Fractional Order. (line 9) * gsl_sf_bessel_Inu_scaled: Regular Modified Bessel Functions - Fractional Order. (line 13) * gsl_sf_bessel_Inu_scaled_e: Regular Modified Bessel Functions - Fractional Order. (line 15) * gsl_sf_bessel_j0: Regular Spherical Bessel Functions. (line 7) * gsl_sf_bessel_J0: Regular Cylindrical Bessel Functions. (line 7) * gsl_sf_bessel_j0_e: Regular Spherical Bessel Functions. (line 8) * gsl_sf_bessel_J0_e: Regular Cylindrical Bessel Functions. (line 8) * gsl_sf_bessel_j1: Regular Spherical Bessel Functions. (line 12) * gsl_sf_bessel_J1: Regular Cylindrical Bessel Functions. (line 12) * gsl_sf_bessel_j1_e: Regular Spherical Bessel Functions. (line 13) * gsl_sf_bessel_J1_e: Regular Cylindrical Bessel Functions. (line 13) * gsl_sf_bessel_j2: Regular Spherical Bessel Functions. (line 17) * gsl_sf_bessel_j2_e: Regular Spherical Bessel Functions. (line 18) * gsl_sf_bessel_jl: Regular Spherical Bessel Functions. (line 22) * gsl_sf_bessel_jl_array: Regular Spherical Bessel Functions. (line 29) * gsl_sf_bessel_jl_e: Regular Spherical Bessel Functions. (line 24) * gsl_sf_bessel_jl_steed_array: Regular Spherical Bessel Functions. (line 37) * gsl_sf_bessel_Jn: Regular Cylindrical Bessel Functions. (line 17) * gsl_sf_bessel_Jn_array: Regular Cylindrical Bessel Functions. (line 24) * gsl_sf_bessel_Jn_e: Regular Cylindrical Bessel Functions. (line 19) * gsl_sf_bessel_Jnu: Regular Bessel Function - Fractional Order. (line 7) * gsl_sf_bessel_Jnu_e: Regular Bessel Function - Fractional Order. (line 9) * gsl_sf_bessel_K0: Irregular Modified Cylindrical Bessel Functions. (line 7) * gsl_sf_bessel_K0_e: Irregular Modified Cylindrical Bessel Functions. (line 8) * gsl_sf_bessel_k0_scaled: Irregular Modified Spherical Bessel Functions. (line 11) * gsl_sf_bessel_K0_scaled: Irregular Modified Cylindrical Bessel Functions. (line 33) * gsl_sf_bessel_k0_scaled_e: Irregular Modified Spherical Bessel Functions. (line 13) * gsl_sf_bessel_K0_scaled_e: Irregular Modified Cylindrical Bessel Functions. (line 35) * gsl_sf_bessel_K1: Irregular Modified Cylindrical Bessel Functions. (line 12) * gsl_sf_bessel_K1_e: Irregular Modified Cylindrical Bessel Functions. (line 13) * gsl_sf_bessel_k1_scaled: Irregular Modified Spherical Bessel Functions. (line 17) * gsl_sf_bessel_K1_scaled: Irregular Modified Cylindrical Bessel Functions. (line 39) * gsl_sf_bessel_k1_scaled_e: Irregular Modified Spherical Bessel Functions. (line 19) * gsl_sf_bessel_K1_scaled_e: Irregular Modified Cylindrical Bessel Functions. (line 41) * gsl_sf_bessel_k2_scaled: Irregular Modified Spherical Bessel Functions. (line 23) * gsl_sf_bessel_k2_scaled_e: Irregular Modified Spherical Bessel Functions. (line 25) * gsl_sf_bessel_kl_scaled: Irregular Modified Spherical Bessel Functions. (line 29) * gsl_sf_bessel_kl_scaled_array: Irregular Modified Spherical Bessel Functions. (line 36) * gsl_sf_bessel_kl_scaled_e: Irregular Modified Spherical Bessel Functions. (line 31) * gsl_sf_bessel_Kn: Irregular Modified Cylindrical Bessel Functions. (line 17) * gsl_sf_bessel_Kn_array: Irregular Modified Cylindrical Bessel Functions. (line 24) * gsl_sf_bessel_Kn_e: Irregular Modified Cylindrical Bessel Functions. (line 19) * gsl_sf_bessel_Kn_scaled: Irregular Modified Cylindrical Bessel Functions. (line 45) * gsl_sf_bessel_Kn_scaled_array: Irregular Modified Cylindrical Bessel Functions. (line 52) * gsl_sf_bessel_Kn_scaled_e: Irregular Modified Cylindrical Bessel Functions. (line 47) * gsl_sf_bessel_Knu: Irregular Modified Bessel Functions - Fractional Order. (line 7) * gsl_sf_bessel_Knu_e: Irregular Modified Bessel Functions - Fractional Order. (line 9) * gsl_sf_bessel_Knu_scaled: Irregular Modified Bessel Functions - Fractional Order. (line 20) * gsl_sf_bessel_Knu_scaled_e: Irregular Modified Bessel Functions - Fractional Order. (line 22) * gsl_sf_bessel_lnKnu: Irregular Modified Bessel Functions - Fractional Order. (line 13) * gsl_sf_bessel_lnKnu_e: Irregular Modified Bessel Functions - Fractional Order. (line 15) * gsl_sf_bessel_sequence_Jnu_e: Regular Bessel Function - Fractional Order. (line 14) * gsl_sf_bessel_y0: Irregular Spherical Bessel Functions. (line 7) * gsl_sf_bessel_Y0: Irregular Cylindrical Bessel Functions. (line 7) * gsl_sf_bessel_y0_e: Irregular Spherical Bessel Functions. (line 8) * gsl_sf_bessel_Y0_e: Irregular Cylindrical Bessel Functions. (line 8) * gsl_sf_bessel_y1: Irregular Spherical Bessel Functions. (line 12) * gsl_sf_bessel_Y1: Irregular Cylindrical Bessel Functions. (line 12) * gsl_sf_bessel_y1_e: Irregular Spherical Bessel Functions. (line 13) * gsl_sf_bessel_Y1_e: Irregular Cylindrical Bessel Functions. (line 13) * gsl_sf_bessel_y2: Irregular Spherical Bessel Functions. (line 17) * gsl_sf_bessel_y2_e: Irregular Spherical Bessel Functions. (line 18) * gsl_sf_bessel_yl: Irregular Spherical Bessel Functions. (line 22) * gsl_sf_bessel_yl_array: Irregular Spherical Bessel Functions. (line 29) * gsl_sf_bessel_yl_e: Irregular Spherical Bessel Functions. (line 24) * gsl_sf_bessel_Yn: Irregular Cylindrical Bessel Functions. (line 17) * gsl_sf_bessel_Yn_array: Irregular Cylindrical Bessel Functions. (line 24) * gsl_sf_bessel_Yn_e: Irregular Cylindrical Bessel Functions. (line 19) * gsl_sf_bessel_Ynu: Irregular Bessel Functions - Fractional Order. (line 7) * gsl_sf_bessel_Ynu_e: Irregular Bessel Functions - Fractional Order. (line 9) * gsl_sf_bessel_zero_J0: Zeros of Regular Bessel Functions. (line 7) * gsl_sf_bessel_zero_J0_e: Zeros of Regular Bessel Functions. (line 9) * gsl_sf_bessel_zero_J1: Zeros of Regular Bessel Functions. (line 13) * gsl_sf_bessel_zero_J1_e: Zeros of Regular Bessel Functions. (line 15) * gsl_sf_bessel_zero_Jnu: Zeros of Regular Bessel Functions. (line 19) * gsl_sf_bessel_zero_Jnu_e: Zeros of Regular Bessel Functions. (line 21) * gsl_sf_beta: Beta Functions. (line 7) * gsl_sf_beta_e: Beta Functions. (line 9) * gsl_sf_beta_inc: Incomplete Beta Function. (line 7) * gsl_sf_beta_inc_e: Incomplete Beta Function. (line 9) * gsl_sf_Chi: Hyperbolic Integrals. (line 12) * gsl_sf_Chi_e: Hyperbolic Integrals. (line 13) * gsl_sf_choose: Factorials. (line 40) * gsl_sf_choose_e: Factorials. (line 42) * gsl_sf_Ci: Trigonometric Integrals. (line 12) * gsl_sf_Ci_e: Trigonometric Integrals. (line 13) * gsl_sf_clausen: Clausen Functions. (line 15) * gsl_sf_clausen_e: Clausen Functions. (line 16) * gsl_sf_complex_cos_e: Trigonometric Functions for Complex Arguments. (line 13) * gsl_sf_complex_dilog_e: Complex Argument. (line 8) * gsl_sf_complex_log_e: Logarithm and Related Functions. (line 21) * gsl_sf_complex_logsin_e: Trigonometric Functions for Complex Arguments. (line 18) * gsl_sf_complex_sin_e: Trigonometric Functions for Complex Arguments. (line 8) * gsl_sf_conicalP_0: Conical Functions. (line 23) * gsl_sf_conicalP_0_e: Conical Functions. (line 25) * gsl_sf_conicalP_1: Conical Functions. (line 29) * gsl_sf_conicalP_1_e: Conical Functions. (line 31) * gsl_sf_conicalP_cyl_reg: Conical Functions. (line 43) * gsl_sf_conicalP_cyl_reg_e: Conical Functions. (line 45) * gsl_sf_conicalP_half: Conical Functions. (line 11) * gsl_sf_conicalP_half_e: Conical Functions. (line 13) * gsl_sf_conicalP_mhalf: Conical Functions. (line 17) * gsl_sf_conicalP_mhalf_e: Conical Functions. (line 19) * gsl_sf_conicalP_sph_reg: Conical Functions. (line 36) * gsl_sf_conicalP_sph_reg_e: Conical Functions. (line 38) * gsl_sf_cos: Circular Trigonometric Functions. (line 11) * gsl_sf_cos_e: Circular Trigonometric Functions. (line 12) * gsl_sf_cos_err_e: Trigonometric Functions With Error Estimates. (line 15) * gsl_sf_coulomb_CL_array: Coulomb Wave Function Normalization Constant. (line 16) * gsl_sf_coulomb_CL_e: Coulomb Wave Function Normalization Constant. (line 11) * gsl_sf_coulomb_wave_F_array: Coulomb Wave Functions. (line 36) * gsl_sf_coulomb_wave_FG_array: Coulomb Wave Functions. (line 43) * gsl_sf_coulomb_wave_FG_e: Coulomb Wave Functions. (line 24) * gsl_sf_coulomb_wave_FGp_array: Coulomb Wave Functions. (line 52) * gsl_sf_coulomb_wave_sphF_array: Coulomb Wave Functions. (line 61) * gsl_sf_coupling_3j: 3-j Symbols. (line 8) * gsl_sf_coupling_3j_e: 3-j Symbols. (line 11) * gsl_sf_coupling_6j: 6-j Symbols. (line 8) * gsl_sf_coupling_6j_e: 6-j Symbols. (line 11) * gsl_sf_coupling_9j: 9-j Symbols. (line 9) * gsl_sf_coupling_9j_e: 9-j Symbols. (line 12) * gsl_sf_dawson: Dawson Function. (line 12) * gsl_sf_dawson_e: Dawson Function. (line 13) * gsl_sf_debye_1: Debye Functions. (line 14) * gsl_sf_debye_1_e: Debye Functions. (line 15) * gsl_sf_debye_2: Debye Functions. (line 19) * gsl_sf_debye_2_e: Debye Functions. (line 20) * gsl_sf_debye_3: Debye Functions. (line 24) * gsl_sf_debye_3_e: Debye Functions. (line 25) * gsl_sf_debye_4: Debye Functions. (line 29) * gsl_sf_debye_4_e: Debye Functions. (line 30) * gsl_sf_debye_5: Debye Functions. (line 34) * gsl_sf_debye_5_e: Debye Functions. (line 35) * gsl_sf_debye_6: Debye Functions. (line 39) * gsl_sf_debye_6_e: Debye Functions. (line 40) * gsl_sf_dilog: Real Argument. (line 7) * gsl_sf_dilog_e: Real Argument. (line 8) * gsl_sf_doublefact: Factorials. (line 20) * gsl_sf_doublefact_e: Factorials. (line 22) * gsl_sf_ellint_D: Legendre Form of Incomplete Elliptic Integrals. (line 36) * gsl_sf_ellint_D_e: Legendre Form of Incomplete Elliptic Integrals. (line 38) * gsl_sf_ellint_E: Legendre Form of Incomplete Elliptic Integrals. (line 17) * gsl_sf_ellint_E_e: Legendre Form of Incomplete Elliptic Integrals. (line 19) * gsl_sf_ellint_Ecomp: Legendre Form of Complete Elliptic Integrals. (line 15) * gsl_sf_ellint_Ecomp_e: Legendre Form of Complete Elliptic Integrals. (line 17) * gsl_sf_ellint_F: Legendre Form of Incomplete Elliptic Integrals. (line 8) * gsl_sf_ellint_F_e: Legendre Form of Incomplete Elliptic Integrals. (line 10) * gsl_sf_ellint_Kcomp: Legendre Form of Complete Elliptic Integrals. (line 7) * gsl_sf_ellint_Kcomp_e: Legendre Form of Complete Elliptic Integrals. (line 9) * gsl_sf_ellint_P: Legendre Form of Incomplete Elliptic Integrals. (line 26) * gsl_sf_ellint_P_e: Legendre Form of Incomplete Elliptic Integrals. (line 28) * gsl_sf_ellint_Pcomp: Legendre Form of Complete Elliptic Integrals. (line 24) * gsl_sf_ellint_Pcomp_e: Legendre Form of Complete Elliptic Integrals. (line 26) * gsl_sf_ellint_RC: Carlson Forms. (line 8) * gsl_sf_ellint_RC_e: Carlson Forms. (line 10) * gsl_sf_ellint_RD: Carlson Forms. (line 15) * gsl_sf_ellint_RD_e: Carlson Forms. (line 17) * gsl_sf_ellint_RF: Carlson Forms. (line 22) * gsl_sf_ellint_RF_e: Carlson Forms. (line 24) * gsl_sf_ellint_RJ: Carlson Forms. (line 29) * gsl_sf_ellint_RJ_e: Carlson Forms. (line 31) * gsl_sf_elljac_e: Elliptic Functions (Jacobi). (line 12) * gsl_sf_erf: Error Function. (line 7) * gsl_sf_erf_e: Error Function. (line 8) * gsl_sf_erf_Q: Probability functions. (line 15) * gsl_sf_erf_Q_e: Probability functions. (line 16) * gsl_sf_erf_Z: Probability functions. (line 10) * gsl_sf_erf_Z_e: Probability functions. (line 11) * gsl_sf_erfc: Complementary Error Function. (line 7) * gsl_sf_erfc_e: Complementary Error Function. (line 8) * gsl_sf_eta: Eta Function. (line 13) * gsl_sf_eta_e: Eta Function. (line 14) * gsl_sf_eta_int: Eta Function. (line 9) * gsl_sf_eta_int_e: Eta Function. (line 10) * gsl_sf_exp: Exponential Function. (line 7) * gsl_sf_exp_e: Exponential Function. (line 8) * gsl_sf_exp_e10_e: Exponential Function. (line 13) * gsl_sf_exp_err_e: Exponentiation With Error Estimate. (line 8) * gsl_sf_exp_err_e10_e: Exponentiation With Error Estimate. (line 12) * gsl_sf_exp_mult: Exponential Function. (line 19) * gsl_sf_exp_mult_e: Exponential Function. (line 21) * gsl_sf_exp_mult_e10_e: Exponential Function. (line 26) * gsl_sf_exp_mult_err_e: Exponentiation With Error Estimate. (line 18) * gsl_sf_exp_mult_err_e10_e: Exponentiation With Error Estimate. (line 23) * gsl_sf_expint_3: Ei_3(x). (line 7) * gsl_sf_expint_3_e: Ei_3(x). (line 8) * gsl_sf_expint_E1: Exponential Integral. (line 7) * gsl_sf_expint_E1_e: Exponential Integral. (line 8) * gsl_sf_expint_E2: Exponential Integral. (line 15) * gsl_sf_expint_E2_e: Exponential Integral. (line 16) * gsl_sf_expint_Ei: Ei(x). (line 7) * gsl_sf_expint_Ei_e: Ei(x). (line 8) * gsl_sf_expint_En: Exponential Integral. (line 24) * gsl_sf_expint_En_e: Exponential Integral. (line 26) * gsl_sf_expm1: Relative Exponential Functions. (line 7) * gsl_sf_expm1_e: Relative Exponential Functions. (line 8) * gsl_sf_exprel: Relative Exponential Functions. (line 12) * gsl_sf_exprel_2: Relative Exponential Functions. (line 19) * gsl_sf_exprel_2_e: Relative Exponential Functions. (line 20) * gsl_sf_exprel_e: Relative Exponential Functions. (line 13) * gsl_sf_exprel_n: Relative Exponential Functions. (line 26) * gsl_sf_exprel_n_e: Relative Exponential Functions. (line 28) * gsl_sf_fact: Factorials. (line 13) * gsl_sf_fact_e: Factorials. (line 14) * gsl_sf_fermi_dirac_0: Complete Fermi-Dirac Integrals. (line 20) * gsl_sf_fermi_dirac_0_e: Complete Fermi-Dirac Integrals. (line 22) * gsl_sf_fermi_dirac_1: Complete Fermi-Dirac Integrals. (line 26) * gsl_sf_fermi_dirac_1_e: Complete Fermi-Dirac Integrals. (line 28) * gsl_sf_fermi_dirac_2: Complete Fermi-Dirac Integrals. (line 32) * gsl_sf_fermi_dirac_2_e: Complete Fermi-Dirac Integrals. (line 34) * gsl_sf_fermi_dirac_3half: Complete Fermi-Dirac Integrals. (line 57) * gsl_sf_fermi_dirac_3half_e: Complete Fermi-Dirac Integrals. (line 59) * gsl_sf_fermi_dirac_half: Complete Fermi-Dirac Integrals. (line 51) * gsl_sf_fermi_dirac_half_e: Complete Fermi-Dirac Integrals. (line 53) * gsl_sf_fermi_dirac_inc_0: Incomplete Fermi-Dirac Integrals. (line 11) * gsl_sf_fermi_dirac_inc_0_e: Incomplete Fermi-Dirac Integrals. (line 13) * gsl_sf_fermi_dirac_int: Complete Fermi-Dirac Integrals. (line 38) * gsl_sf_fermi_dirac_int_e: Complete Fermi-Dirac Integrals. (line 40) * gsl_sf_fermi_dirac_m1: Complete Fermi-Dirac Integrals. (line 13) * gsl_sf_fermi_dirac_m1_e: Complete Fermi-Dirac Integrals. (line 15) * gsl_sf_fermi_dirac_mhalf: Complete Fermi-Dirac Integrals. (line 45) * gsl_sf_fermi_dirac_mhalf_e: Complete Fermi-Dirac Integrals. (line 47) * gsl_sf_gamma: Gamma Functions. (line 15) * gsl_sf_gamma_e: Gamma Functions. (line 16) * gsl_sf_gamma_inc: Incomplete Gamma Functions. (line 7) * gsl_sf_gamma_inc_e: Incomplete Gamma Functions. (line 9) * gsl_sf_gamma_inc_P: Incomplete Gamma Functions. (line 21) * gsl_sf_gamma_inc_P_e: Incomplete Gamma Functions. (line 23) * gsl_sf_gamma_inc_Q: Incomplete Gamma Functions. (line 14) * gsl_sf_gamma_inc_Q_e: Incomplete Gamma Functions. (line 16) * gsl_sf_gammainv: Gamma Functions. (line 50) * gsl_sf_gammainv_e: Gamma Functions. (line 51) * gsl_sf_gammastar: Gamma Functions. (line 41) * gsl_sf_gammastar_e: Gamma Functions. (line 42) * gsl_sf_gegenpoly_1: Gegenbauer Functions. (line 12) * gsl_sf_gegenpoly_1_e: Gegenbauer Functions. (line 16) * gsl_sf_gegenpoly_2: Gegenbauer Functions. (line 13) * gsl_sf_gegenpoly_2_e: Gegenbauer Functions. (line 18) * gsl_sf_gegenpoly_3: Gegenbauer Functions. (line 14) * gsl_sf_gegenpoly_3_e: Gegenbauer Functions. (line 20) * gsl_sf_gegenpoly_array: Gegenbauer Functions. (line 32) * gsl_sf_gegenpoly_n: Gegenbauer Functions. (line 24) * gsl_sf_gegenpoly_n_e: Gegenbauer Functions. (line 26) * gsl_sf_hazard: Probability functions. (line 28) * gsl_sf_hazard_e: Probability functions. (line 29) * gsl_sf_hydrogenicR: Normalized Hydrogenic Bound States. (line 14) * gsl_sf_hydrogenicR_1: Normalized Hydrogenic Bound States. (line 7) * gsl_sf_hydrogenicR_1_e: Normalized Hydrogenic Bound States. (line 9) * gsl_sf_hydrogenicR_e: Normalized Hydrogenic Bound States. (line 16) * gsl_sf_hyperg_0F1: Hypergeometric Functions. (line 11) * gsl_sf_hyperg_0F1_e: Hypergeometric Functions. (line 13) * gsl_sf_hyperg_1F1: Hypergeometric Functions. (line 22) * gsl_sf_hyperg_1F1_e: Hypergeometric Functions. (line 24) * gsl_sf_hyperg_1F1_int: Hypergeometric Functions. (line 16) * gsl_sf_hyperg_1F1_int_e: Hypergeometric Functions. (line 18) * gsl_sf_hyperg_2F0: Hypergeometric Functions. (line 86) * gsl_sf_hyperg_2F0_e: Hypergeometric Functions. (line 88) * gsl_sf_hyperg_2F1: Hypergeometric Functions. (line 53) * gsl_sf_hyperg_2F1_conj: Hypergeometric Functions. (line 65) * gsl_sf_hyperg_2F1_conj_e: Hypergeometric Functions. (line 67) * gsl_sf_hyperg_2F1_conj_renorm: Hypergeometric Functions. (line 79) * gsl_sf_hyperg_2F1_conj_renorm_e: Hypergeometric Functions. (line 81) * gsl_sf_hyperg_2F1_e: Hypergeometric Functions. (line 55) * gsl_sf_hyperg_2F1_renorm: Hypergeometric Functions. (line 72) * gsl_sf_hyperg_2F1_renorm_e: Hypergeometric Functions. (line 74) * gsl_sf_hyperg_U: Hypergeometric Functions. (line 40) * gsl_sf_hyperg_U_e: Hypergeometric Functions. (line 42) * gsl_sf_hyperg_U_e10_e: Hypergeometric Functions. (line 47) * gsl_sf_hyperg_U_int: Hypergeometric Functions. (line 28) * gsl_sf_hyperg_U_int_e: Hypergeometric Functions. (line 30) * gsl_sf_hyperg_U_int_e10_e: Hypergeometric Functions. (line 35) * gsl_sf_hypot: Circular Trigonometric Functions. (line 15) * gsl_sf_hypot_e: Circular Trigonometric Functions. (line 17) * gsl_sf_hzeta: Hurwitz Zeta Function. (line 10) * gsl_sf_hzeta_e: Hurwitz Zeta Function. (line 12) * gsl_sf_laguerre_1: Laguerre Functions. (line 17) * gsl_sf_laguerre_1_e: Laguerre Functions. (line 21) * gsl_sf_laguerre_2: Laguerre Functions. (line 18) * gsl_sf_laguerre_2_e: Laguerre Functions. (line 23) * gsl_sf_laguerre_3: Laguerre Functions. (line 19) * gsl_sf_laguerre_3_e: Laguerre Functions. (line 25) * gsl_sf_laguerre_n: Laguerre Functions. (line 30) * gsl_sf_laguerre_n_e: Laguerre Functions. (line 32) * gsl_sf_lambert_W0: Lambert W Functions. (line 14) * gsl_sf_lambert_W0_e: Lambert W Functions. (line 15) * gsl_sf_lambert_Wm1: Lambert W Functions. (line 19) * gsl_sf_lambert_Wm1_e: Lambert W Functions. (line 21) * gsl_sf_legendre_array_size: Associated Legendre Polynomials and Spherical Harmonics. (line 50) * gsl_sf_legendre_H3d: Radial Functions for Hyperbolic Space. (line 32) * gsl_sf_legendre_H3d_0: Radial Functions for Hyperbolic Space. (line 12) * gsl_sf_legendre_H3d_0_e: Radial Functions for Hyperbolic Space. (line 14) * gsl_sf_legendre_H3d_1: Radial Functions for Hyperbolic Space. (line 21) * gsl_sf_legendre_H3d_1_e: Radial Functions for Hyperbolic Space. (line 23) * gsl_sf_legendre_H3d_array: Radial Functions for Hyperbolic Space. (line 41) * gsl_sf_legendre_H3d_e: Radial Functions for Hyperbolic Space. (line 34) * gsl_sf_legendre_P1: Legendre Polynomials. (line 7) * gsl_sf_legendre_P1_e: Legendre Polynomials. (line 11) * gsl_sf_legendre_P2: Legendre Polynomials. (line 8) * gsl_sf_legendre_P2_e: Legendre Polynomials. (line 13) * gsl_sf_legendre_P3: Legendre Polynomials. (line 9) * gsl_sf_legendre_P3_e: Legendre Polynomials. (line 15) * gsl_sf_legendre_Pl: Legendre Polynomials. (line 19) * gsl_sf_legendre_Pl_array: Legendre Polynomials. (line 26) * gsl_sf_legendre_Pl_deriv_array: Legendre Polynomials. (line 28) * gsl_sf_legendre_Pl_e: Legendre Polynomials. (line 21) * gsl_sf_legendre_Plm: Associated Legendre Polynomials and Spherical Harmonics. (line 18) * gsl_sf_legendre_Plm_array: Associated Legendre Polynomials and Spherical Harmonics. (line 25) * gsl_sf_legendre_Plm_deriv_array: Associated Legendre Polynomials and Spherical Harmonics. (line 27) * gsl_sf_legendre_Plm_e: Associated Legendre Polynomials and Spherical Harmonics. (line 20) * gsl_sf_legendre_Q0: Legendre Polynomials. (line 32) * gsl_sf_legendre_Q0_e: Legendre Polynomials. (line 34) * gsl_sf_legendre_Q1: Legendre Polynomials. (line 38) * gsl_sf_legendre_Q1_e: Legendre Polynomials. (line 40) * gsl_sf_legendre_Ql: Legendre Polynomials. (line 44) * gsl_sf_legendre_Ql_e: Legendre Polynomials. (line 46) * gsl_sf_legendre_sphPlm: Associated Legendre Polynomials and Spherical Harmonics. (line 32) * gsl_sf_legendre_sphPlm_array: Associated Legendre Polynomials and Spherical Harmonics. (line 42) * gsl_sf_legendre_sphPlm_deriv_array: Associated Legendre Polynomials and Spherical Harmonics. (line 44) * gsl_sf_legendre_sphPlm_e: Associated Legendre Polynomials and Spherical Harmonics. (line 34) * gsl_sf_lnbeta: Beta Functions. (line 14) * gsl_sf_lnbeta_e: Beta Functions. (line 16) * gsl_sf_lnchoose: Factorials. (line 46) * gsl_sf_lnchoose_e: Factorials. (line 48) * gsl_sf_lncosh: Hyperbolic Trigonometric Functions. (line 11) * gsl_sf_lncosh_e: Hyperbolic Trigonometric Functions. (line 12) * gsl_sf_lndoublefact: Factorials. (line 34) * gsl_sf_lndoublefact_e: Factorials. (line 36) * gsl_sf_lnfact: Factorials. (line 27) * gsl_sf_lnfact_e: Factorials. (line 29) * gsl_sf_lngamma: Gamma Functions. (line 23) * gsl_sf_lngamma_complex_e: Gamma Functions. (line 56) * gsl_sf_lngamma_e: Gamma Functions. (line 24) * gsl_sf_lngamma_sgn_e: Gamma Functions. (line 32) * gsl_sf_lnpoch: Pochhammer Symbol. (line 16) * gsl_sf_lnpoch_e: Pochhammer Symbol. (line 18) * gsl_sf_lnpoch_sgn_e: Pochhammer Symbol. (line 23) * gsl_sf_lnsinh: Hyperbolic Trigonometric Functions. (line 7) * gsl_sf_lnsinh_e: Hyperbolic Trigonometric Functions. (line 8) * gsl_sf_log: Logarithm and Related Functions. (line 11) * gsl_sf_log_1plusx: Logarithm and Related Functions. (line 26) * gsl_sf_log_1plusx_e: Logarithm and Related Functions. (line 27) * gsl_sf_log_1plusx_mx: Logarithm and Related Functions. (line 31) * gsl_sf_log_1plusx_mx_e: Logarithm and Related Functions. (line 33) * gsl_sf_log_abs: Logarithm and Related Functions. (line 15) * gsl_sf_log_abs_e: Logarithm and Related Functions. (line 16) * gsl_sf_log_e: Logarithm and Related Functions. (line 12) * gsl_sf_log_erfc: Log Complementary Error Function. (line 7) * gsl_sf_log_erfc_e: Log Complementary Error Function. (line 8) * gsl_sf_mathieu_a: Mathieu Function Characteristic Values. (line 8) * gsl_sf_mathieu_a_array: Mathieu Function Characteristic Values. (line 16) * gsl_sf_mathieu_alloc: Mathieu Function Workspace. (line 12) * gsl_sf_mathieu_b: Mathieu Function Characteristic Values. (line 10) * gsl_sf_mathieu_b_array: Mathieu Function Characteristic Values. (line 19) * gsl_sf_mathieu_ce: Angular Mathieu Functions. (line 8) * gsl_sf_mathieu_ce_array: Angular Mathieu Functions. (line 16) * gsl_sf_mathieu_free: Mathieu Function Workspace. (line 19) * gsl_sf_mathieu_Mc: Radial Mathieu Functions. (line 8) * gsl_sf_mathieu_Mc_array: Radial Mathieu Functions. (line 21) * gsl_sf_mathieu_Ms: Radial Mathieu Functions. (line 10) * gsl_sf_mathieu_Ms_array: Radial Mathieu Functions. (line 24) * gsl_sf_mathieu_se: Angular Mathieu Functions. (line 10) * gsl_sf_mathieu_se_array: Angular Mathieu Functions. (line 19) * gsl_sf_multiply_e: Elementary Operations. (line 12) * gsl_sf_multiply_err_e: Elementary Operations. (line 17) * gsl_sf_poch: Pochhammer Symbol. (line 7) * gsl_sf_poch_e: Pochhammer Symbol. (line 9) * gsl_sf_pochrel: Pochhammer Symbol. (line 29) * gsl_sf_pochrel_e: Pochhammer Symbol. (line 31) * gsl_sf_polar_to_rect: Conversion Functions. (line 8) * gsl_sf_pow_int: Power Function. (line 11) * gsl_sf_pow_int_e: Power Function. (line 13) * gsl_sf_psi: Digamma Function. (line 12) * gsl_sf_psi_1: Trigamma Function. (line 12) * gsl_sf_psi_1_e: Trigamma Function. (line 13) * gsl_sf_psi_1_int: Trigamma Function. (line 7) * gsl_sf_psi_1_int_e: Trigamma Function. (line 8) * gsl_sf_psi_1piy: Digamma Function. (line 17) * gsl_sf_psi_1piy_e: Digamma Function. (line 18) * gsl_sf_psi_e: Digamma Function. (line 13) * gsl_sf_psi_int: Digamma Function. (line 7) * gsl_sf_psi_int_e: Digamma Function. (line 8) * gsl_sf_psi_n: Polygamma Function. (line 7) * gsl_sf_psi_n_e: Polygamma Function. (line 9) * gsl_sf_rect_to_polar: Conversion Functions. (line 14) * gsl_sf_Shi: Hyperbolic Integrals. (line 7) * gsl_sf_Shi_e: Hyperbolic Integrals. (line 8) * gsl_sf_Si: Trigonometric Integrals. (line 7) * gsl_sf_Si_e: Trigonometric Integrals. (line 8) * gsl_sf_sin: Circular Trigonometric Functions. (line 7) * gsl_sf_sin_e: Circular Trigonometric Functions. (line 8) * gsl_sf_sin_err_e: Trigonometric Functions With Error Estimates. (line 8) * gsl_sf_sinc: Circular Trigonometric Functions. (line 21) * gsl_sf_sinc_e: Circular Trigonometric Functions. (line 22) * gsl_sf_synchrotron_1: Synchrotron Functions. (line 10) * gsl_sf_synchrotron_1_e: Synchrotron Functions. (line 12) * gsl_sf_synchrotron_2: Synchrotron Functions. (line 16) * gsl_sf_synchrotron_2_e: Synchrotron Functions. (line 18) * gsl_sf_taylorcoeff: Factorials. (line 52) * gsl_sf_taylorcoeff_e: Factorials. (line 54) * gsl_sf_transport_2: Transport Functions. (line 11) * gsl_sf_transport_2_e: Transport Functions. (line 13) * gsl_sf_transport_3: Transport Functions. (line 16) * gsl_sf_transport_3_e: Transport Functions. (line 18) * gsl_sf_transport_4: Transport Functions. (line 21) * gsl_sf_transport_4_e: Transport Functions. (line 23) * gsl_sf_transport_5: Transport Functions. (line 26) * gsl_sf_transport_5_e: Transport Functions. (line 28) * gsl_sf_zeta: Riemann Zeta Function. (line 15) * gsl_sf_zeta_e: Riemann Zeta Function. (line 16) * gsl_sf_zeta_int: Riemann Zeta Function. (line 10) * gsl_sf_zeta_int_e: Riemann Zeta Function. (line 11) * gsl_sf_zetam1: Riemann Zeta Function Minus One. (line 15) * gsl_sf_zetam1_e: Riemann Zeta Function Minus One. (line 16) * gsl_sf_zetam1_int: Riemann Zeta Function Minus One. (line 11) * gsl_sf_zetam1_int_e: Riemann Zeta Function Minus One. (line 12) * GSL_SIGN: Testing the Sign of Numbers. (line 7) * gsl_siman_solve: Simulated Annealing functions. (line 13) * gsl_sort: Sorting vectors. (line 24) * gsl_sort_index: Sorting vectors. (line 33) * gsl_sort_largest: Selecting the k smallest or largest elements. (line 25) * gsl_sort_largest_index: Selecting the k smallest or largest elements. (line 51) * gsl_sort_smallest: Selecting the k smallest or largest elements. (line 18) * gsl_sort_smallest_index: Selecting the k smallest or largest elements. (line 43) * gsl_sort_vector: Sorting vectors. (line 28) * gsl_sort_vector_index: Sorting vectors. (line 43) * gsl_sort_vector_largest: Selecting the k smallest or largest elements. (line 34) * gsl_sort_vector_largest_index: Selecting the k smallest or largest elements. (line 61) * gsl_sort_vector_smallest: Selecting the k smallest or largest elements. (line 32) * gsl_sort_vector_smallest_index: Selecting the k smallest or largest elements. (line 59) * gsl_spline_alloc: Higher-level Interface. (line 16) * gsl_spline_eval: Higher-level Interface. (line 29) * gsl_spline_eval_deriv: Higher-level Interface. (line 34) * gsl_spline_eval_deriv2: Higher-level Interface. (line 39) * gsl_spline_eval_deriv2_e: Higher-level Interface. (line 41) * gsl_spline_eval_deriv_e: Higher-level Interface. (line 36) * gsl_spline_eval_e: Higher-level Interface. (line 31) * gsl_spline_eval_integ: Higher-level Interface. (line 44) * gsl_spline_eval_integ_e: Higher-level Interface. (line 46) * gsl_spline_free: Higher-level Interface. (line 21) * gsl_spline_init: Higher-level Interface. (line 19) * gsl_spline_min_size: Higher-level Interface. (line 26) * gsl_spline_name: Higher-level Interface. (line 23) * gsl_stats_absdev: Absolute deviation. (line 8) * gsl_stats_absdev_m: Absolute deviation. (line 21) * gsl_stats_correlation: Correlation. (line 9) * gsl_stats_covariance: Covariance. (line 9) * gsl_stats_covariance_m: Covariance. (line 18) * gsl_stats_kurtosis: Higher moments (skewness and kurtosis). (line 31) * gsl_stats_kurtosis_m_sd: Higher moments (skewness and kurtosis). (line 42) * gsl_stats_lag1_autocorrelation: Autocorrelation. (line 8) * gsl_stats_lag1_autocorrelation_m: Autocorrelation. (line 18) * gsl_stats_max: Maximum and Minimum values. (line 14) * gsl_stats_max_index: Maximum and Minimum values. (line 39) * gsl_stats_mean: Mean and standard deviation and variance. (line 8) * gsl_stats_median_from_sorted_data: Median and Percentiles. (line 12) * gsl_stats_min: Maximum and Minimum values. (line 24) * gsl_stats_min_index: Maximum and Minimum values. (line 47) * gsl_stats_minmax: Maximum and Minimum values. (line 34) * gsl_stats_minmax_index: Maximum and Minimum values. (line 55) * gsl_stats_quantile_from_sorted_data: Median and Percentiles. (line 27) * gsl_stats_sd: Mean and standard deviation and variance. (line 46) * gsl_stats_sd_m: Mean and standard deviation and variance. (line 48) * gsl_stats_sd_with_fixed_mean: Mean and standard deviation and variance. (line 75) * gsl_stats_skew: Higher moments (skewness and kurtosis). (line 8) * gsl_stats_skew_m_sd: Higher moments (skewness and kurtosis). (line 21) * gsl_stats_tss: Mean and standard deviation and variance. (line 54) * gsl_stats_tss_m: Mean and standard deviation and variance. (line 56) * gsl_stats_variance: Mean and standard deviation and variance. (line 20) * gsl_stats_variance_m: Mean and standard deviation and variance. (line 38) * gsl_stats_variance_with_fixed_mean: Mean and standard deviation and variance. (line 65) * gsl_stats_wabsdev: Weighted Samples. (line 85) * gsl_stats_wabsdev_m: Weighted Samples. (line 94) * gsl_stats_wkurtosis: Weighted Samples. (line 112) * gsl_stats_wkurtosis_m_sd: Weighted Samples. (line 119) * gsl_stats_wmean: Weighted Samples. (line 16) * gsl_stats_wsd: Weighted Samples. (line 44) * gsl_stats_wsd_m: Weighted Samples. (line 50) * gsl_stats_wsd_with_fixed_mean: Weighted Samples. (line 67) * gsl_stats_wskew: Weighted Samples. (line 99) * gsl_stats_wskew_m_sd: Weighted Samples. (line 106) * gsl_stats_wtss: Weighted Samples. (line 73) * gsl_stats_wtss_m: Weighted Samples. (line 76) * gsl_stats_wvariance: Weighted Samples. (line 24) * gsl_stats_wvariance_m: Weighted Samples. (line 39) * gsl_stats_wvariance_with_fixed_mean: Weighted Samples. (line 56) * gsl_strerror: Error Codes. (line 38) * gsl_sum_levin_u_accel: Acceleration functions. (line 34) * gsl_sum_levin_u_alloc: Acceleration functions. (line 25) * gsl_sum_levin_u_free: Acceleration functions. (line 29) * gsl_sum_levin_utrunc_accel: Acceleration functions without error estimation. (line 35) * gsl_sum_levin_utrunc_alloc: Acceleration functions without error estimation. (line 24) * gsl_sum_levin_utrunc_free: Acceleration functions without error estimation. (line 30) * gsl_vector_add: Vector operations. (line 7) * gsl_vector_add_constant: Vector operations. (line 33) * gsl_vector_alloc: Vector allocation. (line 15) * gsl_vector_calloc: Vector allocation. (line 22) * gsl_vector_complex_const_imag: Vector views. (line 110) * gsl_vector_complex_const_real: Vector views. (line 99) * gsl_vector_complex_imag: Vector views. (line 108) * gsl_vector_complex_real: Vector views. (line 97) * gsl_vector_const_ptr: Accessing vector elements. (line 54) * gsl_vector_const_subvector: Vector views. (line 31) * gsl_vector_const_subvector_with_stride: Vector views. (line 62) * gsl_vector_const_view_array: Vector views. (line 121) * gsl_vector_const_view_array_with_stride: Vector views. (line 145) * gsl_vector_div: Vector operations. (line 23) * gsl_vector_equal: Vector properties. (line 20) * gsl_vector_fprintf: Reading and writing vectors. (line 28) * gsl_vector_fread: Reading and writing vectors. (line 18) * gsl_vector_free: Vector allocation. (line 26) * gsl_vector_fscanf: Reading and writing vectors. (line 35) * gsl_vector_fwrite: Reading and writing vectors. (line 11) * gsl_vector_get: Accessing vector elements. (line 40) * gsl_vector_isneg: Vector properties. (line 13) * gsl_vector_isnonneg: Vector properties. (line 14) * gsl_vector_isnull: Vector properties. (line 11) * gsl_vector_ispos: Vector properties. (line 12) * gsl_vector_max: Finding maximum and minimum elements of vectors. (line 9) * gsl_vector_max_index: Finding maximum and minimum elements of vectors. (line 20) * gsl_vector_memcpy: Copying vectors. (line 14) * gsl_vector_min: Finding maximum and minimum elements of vectors. (line 12) * gsl_vector_min_index: Finding maximum and minimum elements of vectors. (line 25) * gsl_vector_minmax: Finding maximum and minimum elements of vectors. (line 16) * gsl_vector_minmax_index: Finding maximum and minimum elements of vectors. (line 31) * gsl_vector_mul: Vector operations. (line 18) * gsl_vector_ptr: Accessing vector elements. (line 52) * gsl_vector_reverse: Exchanging elements. (line 15) * gsl_vector_scale: Vector operations. (line 28) * gsl_vector_set: Accessing vector elements. (line 46) * gsl_vector_set_all: Initializing vector elements. (line 7) * gsl_vector_set_basis: Initializing vector elements. (line 13) * gsl_vector_set_zero: Initializing vector elements. (line 10) * gsl_vector_sub: Vector operations. (line 12) * gsl_vector_subvector: Vector views. (line 29) * gsl_vector_subvector_with_stride: Vector views. (line 59) * gsl_vector_swap: Copying vectors. (line 18) * gsl_vector_swap_elements: Exchanging elements. (line 11) * gsl_vector_view_array: Vector views. (line 119) * gsl_vector_view_array_with_stride: Vector views. (line 142) * gsl_wavelet2d_nstransform: DWT in two dimension. (line 66) * gsl_wavelet2d_nstransform_forward: DWT in two dimension. (line 69) * gsl_wavelet2d_nstransform_inverse: DWT in two dimension. (line 72) * gsl_wavelet2d_nstransform_matrix: DWT in two dimension. (line 78) * gsl_wavelet2d_nstransform_matrix_forward: DWT in two dimension. (line 80) * gsl_wavelet2d_nstransform_matrix_inverse: DWT in two dimension. (line 82) * gsl_wavelet2d_transform: DWT in two dimension. (line 32) * gsl_wavelet2d_transform_forward: DWT in two dimension. (line 35) * gsl_wavelet2d_transform_inverse: DWT in two dimension. (line 38) * gsl_wavelet2d_transform_matrix: DWT in two dimension. (line 56) * gsl_wavelet2d_transform_matrix_forward: DWT in two dimension. (line 58) * gsl_wavelet2d_transform_matrix_inverse: DWT in two dimension. (line 60) * gsl_wavelet_alloc: DWT Initialization. (line 11) * gsl_wavelet_bspline: DWT Initialization. (line 30) * gsl_wavelet_bspline_centered: DWT Initialization. (line 31) * gsl_wavelet_daubechies: DWT Initialization. (line 19) * gsl_wavelet_daubechies_centered: DWT Initialization. (line 20) * gsl_wavelet_free: DWT Initialization. (line 45) * gsl_wavelet_haar: DWT Initialization. (line 25) * gsl_wavelet_haar_centered: DWT Initialization. (line 26) * gsl_wavelet_name: DWT Initialization. (line 41) * gsl_wavelet_transform: DWT in one dimension. (line 9) * gsl_wavelet_transform_forward: DWT in one dimension. (line 12) * gsl_wavelet_transform_inverse: DWT in one dimension. (line 15) * gsl_wavelet_workspace_alloc: DWT Initialization. (line 53) * gsl_wavelet_workspace_free: DWT Initialization. (line 63)  File: gsl-ref.info, Node: Variable Index, Next: Type Index, Prev: Function Index, Up: Top Variable Index ************** [index] * Menu: * alpha <1>: VEGAS. (line 146) * alpha: MISER. (line 115) * dither: MISER. (line 131) * estimate_frac: MISER. (line 94) * GSL_C99_INLINE <1>: Accessing vector elements. (line 26) * GSL_C99_INLINE: Inline functions. (line 6) * gsl_check_range: Accessing vector elements. (line 31) * GSL_EDOM: Error Codes. (line 14) * GSL_EINVAL: Error Codes. (line 30) * GSL_ENOMEM: Error Codes. (line 24) * GSL_ERANGE: Error Codes. (line 19) * GSL_IEEE_MODE: Setting up your IEEE environment. (line 24) * GSL_NAN: Infinities and Not-a-number. (line 15) * GSL_NEGINF: Infinities and Not-a-number. (line 11) * GSL_POSINF: Infinities and Not-a-number. (line 7) * GSL_RANGE_CHECK_OFF: Accessing vector elements. (line 17) * gsl_rng_default: Random number environment variables. (line 12) * gsl_rng_default_seed <1>: Random number environment variables. (line 12) * gsl_rng_default_seed: Random number generator initialization. (line 17) * GSL_RNG_SEED <1>: Random number environment variables. (line 12) * GSL_RNG_SEED: Random number generator initialization. (line 17) * GSL_RNG_TYPE: Random number environment variables. (line 12) * HAVE_INLINE: Inline functions. (line 6) * iterations: VEGAS. (line 151) * min_calls: MISER. (line 99) * min_calls_per_bisection: MISER. (line 107) * mode: VEGAS. (line 169) * ostream: VEGAS. (line 179) * stage: VEGAS. (line 155) * verbose: VEGAS. (line 178)  File: gsl-ref.info, Node: Type Index, Next: Concept Index, Prev: Variable Index, Up: Top Type Index ********** [index] * Menu: * gsl_block: Blocks. (line 6) * gsl_bspline_deriv_workspace: Initializing the B-splines solver. (line 22) * gsl_bspline_workspace: Initializing the B-splines solver. (line 12) * gsl_cheb_series: Chebyshev Definitions. (line 6) * gsl_combination: The Combination struct. (line 6) * gsl_complex: Representation of complex numbers. (line 6) * gsl_dht: Discrete Hankel Transform Functions. (line 7) * gsl_eigen_gen_workspace: Real Generalized Nonsymmetric Eigensystems. (line 43) * gsl_eigen_genherm_workspace: Complex Generalized Hermitian-Definite Eigensystems. (line 19) * gsl_eigen_genhermv_workspace: Complex Generalized Hermitian-Definite Eigensystems. (line 37) * gsl_eigen_gensymm_workspace: Real Generalized Symmetric-Definite Eigensystems. (line 24) * gsl_eigen_gensymmv_workspace: Real Generalized Symmetric-Definite Eigensystems. (line 41) * gsl_eigen_genv_workspace: Real Generalized Nonsymmetric Eigensystems. (line 98) * gsl_eigen_herm_workspace: Complex Hermitian Matrices. (line 11) * gsl_eigen_hermv_workspace: Complex Hermitian Matrices. (line 30) * gsl_eigen_nonsymm_workspace: Real Nonsymmetric Matrices. (line 19) * gsl_eigen_nonsymmv_workspace: Real Nonsymmetric Matrices. (line 80) * gsl_eigen_symm_workspace: Real Symmetric Matrices. (line 14) * gsl_eigen_symmv_workspace: Real Symmetric Matrices. (line 32) * gsl_error_handler_t: Error Handlers. (line 24) * gsl_fft_complex_wavetable: Mixed-radix FFT routines for complex data. (line 79) * gsl_fft_complex_workspace: Mixed-radix FFT routines for complex data. (line 107) * gsl_fft_halfcomplex_wavetable: Mixed-radix FFT routines for real data. (line 76) * gsl_fft_real_wavetable: Mixed-radix FFT routines for real data. (line 76) * gsl_fft_real_workspace: Mixed-radix FFT routines for real data. (line 106) * gsl_function: Providing the function to solve. (line 12) * gsl_function_fdf: Providing the function to solve. (line 51) * gsl_histogram: The histogram struct. (line 9) * gsl_histogram2d: The 2D histogram struct. (line 9) * gsl_histogram2d_pdf: Resampling from 2D histograms. (line 21) * gsl_histogram_pdf: The histogram probability distribution struct. (line 19) * gsl_integration_cquad_workspace: CQUAD doubly-adaptive integration. (line 22) * gsl_integration_glfixed_table: Fixed order Gauss-Legendre integration. (line 16) * gsl_integration_qawo_table: QAWO adaptive integration for oscillatory functions. (line 14) * gsl_integration_qaws_table: QAWS adaptive integration for singular functions. (line 14) * gsl_integration_workspace: QAG adaptive integration. (line 17) * gsl_interp: Interpolation Functions. (line 11) * gsl_interp_accel: Index Look-up and Acceleration. (line 20) * gsl_interp_type: Interpolation Types. (line 6) * gsl_matrix: Matrices. (line 10) * gsl_matrix_const_view: Matrix views. (line 6) * gsl_matrix_view: Matrix views. (line 6) * gsl_min_fminimizer: Initializing the Minimizer. (line 8) * gsl_min_fminimizer_type: Initializing the Minimizer. (line 8) * gsl_monte_function: Monte Carlo Interface. (line 28) * gsl_monte_miser_state: MISER. (line 47) * gsl_monte_plain_state: PLAIN Monte Carlo. (line 30) * gsl_monte_vegas_state: VEGAS. (line 51) * gsl_multifit_fdfsolver: Initializing the Nonlinear Least-Squares Solver. (line 18) * gsl_multifit_fdfsolver_type: Initializing the Nonlinear Least-Squares Solver. (line 18) * gsl_multifit_fsolver: Initializing the Nonlinear Least-Squares Solver. (line 8) * gsl_multifit_fsolver_type: Initializing the Nonlinear Least-Squares Solver. (line 8) * gsl_multifit_function: Providing the Function to be Minimized. (line 11) * gsl_multifit_function_fdf: Providing the Function to be Minimized. (line 31) * gsl_multifit_linear_workspace: Multi-parameter fitting. (line 43) * gsl_multimin_fdfminimizer: Initializing the Multidimensional Minimizer. (line 15) * gsl_multimin_fdfminimizer_type: Initializing the Multidimensional Minimizer. (line 15) * gsl_multimin_fminimizer: Initializing the Multidimensional Minimizer. (line 15) * gsl_multimin_fminimizer_type: Initializing the Multidimensional Minimizer. (line 15) * gsl_multimin_function: Providing a function to minimize. (line 43) * gsl_multimin_function_fdf: Providing a function to minimize. (line 14) * gsl_multiroot_fdfsolver: Initializing the Multidimensional Solver. (line 29) * gsl_multiroot_fdfsolver_type: Initializing the Multidimensional Solver. (line 29) * gsl_multiroot_fsolver: Initializing the Multidimensional Solver. (line 13) * gsl_multiroot_fsolver_type: Initializing the Multidimensional Solver. (line 13) * gsl_multiroot_function: Providing the multidimensional system of equations to solve. (line 11) * gsl_multiroot_function_fdf: Providing the multidimensional system of equations to solve. (line 58) * gsl_multiset: The Multiset struct. (line 6) * gsl_ntuple: The ntuple struct. (line 6) * gsl_ntuple_select_fn: Histogramming ntuple values. (line 13) * gsl_ntuple_value_fn: Histogramming ntuple values. (line 24) * gsl_odeiv2_control: Adaptive Step-size Control. (line 12) * gsl_odeiv2_control_type: Adaptive Step-size Control. (line 12) * gsl_odeiv2_evolve: Evolution. (line 11) * gsl_odeiv2_step: Stepping Functions. (line 12) * gsl_odeiv2_step_type: Stepping Functions. (line 12) * gsl_odeiv2_system: Defining the ODE System. (line 15) * gsl_permutation: The Permutation struct. (line 6) * gsl_poly_complex_workspace: General Polynomial Equations. (line 13) * gsl_qrng: Quasi-random number generator initialization. (line 8) * gsl_qrng_type: Quasi-random number generator initialization. (line 8) * gsl_ran_discrete_t: General Discrete Distributions. (line 52) * gsl_rng: Random number generator initialization. (line 7) * gsl_rng_type: The Random Number Generator Interface. (line 18) * gsl_root_fdfsolver: Initializing the Solver. (line 23) * gsl_root_fdfsolver_type: Initializing the Solver. (line 23) * gsl_root_fsolver: Initializing the Solver. (line 8) * gsl_root_fsolver_type: Initializing the Solver. (line 8) * gsl_sf_mathieu_workspace: Mathieu Function Workspace. (line 12) * gsl_sf_result: The gsl_sf_result struct. (line 6) * gsl_sf_result_e10: The gsl_sf_result struct. (line 6) * gsl_siman_copy_construct_t: Simulated Annealing functions. (line 82) * gsl_siman_copy_t: Simulated Annealing functions. (line 77) * gsl_siman_destroy_t: Simulated Annealing functions. (line 88) * gsl_siman_Efunc_t: Simulated Annealing functions. (line 52) * gsl_siman_metric_t: Simulated Annealing functions. (line 65) * gsl_siman_params_t: Simulated Annealing functions. (line 94) * gsl_siman_print_t: Simulated Annealing functions. (line 71) * gsl_siman_step_t: Simulated Annealing functions. (line 57) * gsl_spline: Higher-level Interface. (line 16) * gsl_sum_levin_u_workspace: Acceleration functions. (line 25) * gsl_sum_levin_utrunc_workspace: Acceleration functions without error estimation. (line 24) * gsl_vector: Vectors. (line 11) * gsl_vector_const_view: Vector views. (line 12) * gsl_vector_view: Vector views. (line 12) * gsl_wavelet: DWT Initialization. (line 11) * gsl_wavelet_type: DWT Initialization. (line 6) * gsl_wavelet_workspace: DWT Initialization. (line 53)