adapt_step | Adaptive stepper [abstract base] |
akima_interp | Akima spline interpolation (GSL) |
akima_peri_interp | Akima spline interpolation with periodic boundary conditions (GSL) |
anneal_mt | Multidimensional minimization by simulated annealing (Boost multi-threaded version) |
array_2d_alloc | A simple class to provide an allocate() function for 2-dimensional arrays |
array_2d_col | Column of a 2d array |
array_2d_row | Row of a 2d array |
array_alloc | A simple class to provide an allocate() function for arrays |
array_const_reverse | A simple class which reverses the order of an array |
array_const_subvector | A simple subvector class for a const array (without error checking) |
array_const_subvector_reverse | Reverse a subvector of a const array |
array_interp | A specialization of o2scl_interp for C-style double arrays |
array_interp_vec | A specialization of o2scl_interp_vec for C-style arrays |
array_reverse | A simple class which reverses the order of an array |
array_subvector | A simple subvector class for an array (without error checking) |
array_subvector_reverse | Reverse a subvector of an array |
base_interp | Base low-level interpolation class [abstract base] |
base_interp_mgr | A base interpolation object manager [abstract base] |
base_ioc | Setup I/O objects for base library classes |
bin_size | Determine bin size (CERNLIB) |
binary_in_file | Binary input file |
binary_out_file | Binary output file |
bool_io_type | I/O object for bool variables |
cern_adapt | Adaptive integration (CERNLIB) |
cern_cauchy | Cauchy principal value integration (CERNLIB) |
cern_cubic_real_coeff | Solve a cubic with real coefficients and complex roots (CERNLIB) |
cern_deriv | Numerical differentiation routine (CERNLIB) |
cern_gauss | Gaussian quadrature (CERNLIB) |
cern_gauss56 | 5,6-point Gaussian quadrature (CERNLIB) |
cern_minimize | One-dimensional minimization (CERNLIB) |
cern_mroot | Multi-dimensional mroot-finding routine (CERNLIB) |
cern_mroot_root | One-dimensional version of cern_mroot |
cern_quartic_real_coeff | Solve a quartic with real coefficients and complex roots (CERNLIB) |
cern_root | One-dimensional root-finding routine (CERNLIB) |
char_io_type | I/O object for char variables |
cinput | Class to control object input |
cli | Configurable command-line interface |
cli_readline | An extension to cli which uses readline |
cmd_line_arg | A command-line argument for cli |
collection | Collection of objects |
collection::iterator | An iterator for stepping through a collection |
collection::type_iterator | An iterator for stepping through the entries in a collection of a particular type |
collection_entry | |
columnify | Create nicely formatted columns from a table of strings |
comm_option_funct | Base for cli command function |
comm_option_mfptr | Member function pointer for cli command function |
comm_option_s | Command for interactive mode in cli |
comp_gen_inte | Naive generalized multi-dimensional integration |
composite_inte | Naive multi-dimensional integration over a hypercube |
contour | Calculate contour lines from a two-dimensional data set |
contour_line | A contour line |
convert_units | Convert units |
convert_units::unit_t | The type for caching unit conversions |
coutput | Class to control object output |
coutput::ltptr | Order the pointers by numeric value |
cspline_interp | Cubic spline interpolation (GSL) |
cspline_peri_interp | Cubic spline interpolation with periodic boundary conditions (GSL) |
cubic_complex | Solve a cubic polynomial with complex coefficients and complex roots [abstract base] |
cubic_real | Solve a cubic polynomial with real coefficients and real roots [abstract base] |
cubic_real_coeff | Solve a cubic polynomial with real coefficients and complex roots [abstract base] |
cubic_std_complex | Solve a cubic with complex coefficients and complex roots |
def_interp_mgr | A base interpolation object manager template |
deriv | Numerical differentiation base [abstract base] |
deriv::dpars | A structure for passing the function to second and third derivatives |
double_io_type | I/O object for double variables |
edge_crossings | Edges for the contour class |
eqi_deriv | Derivatives for equally-spaced abscissas |
err_hnd_cpp | Error handler to throw C++ exceptions |
err_hnd_gsl | The error handler |
err_hnd_type | Class defining an error handler [abstract base] |
exact_jacobian | A direct calculation of the jacobian using a deriv object |
exact_jacobian::ej_parms | Parameter structure for passing information |
exc_exception | Generic exception |
exc_invalid_argument | Invalid argument exception |
exc_ios_failure | I/O failure error exception |
exc_logic_error | Logic error exception |
exc_overflow_error | Overflow error runtime exception |
exc_range_error | Range error runtime exception |
exc_runtime_error | Generic runtime error exception |
file_detect | Read a (possibly compressed) file and automatically detect the file format |
fit_base | Non-linear least-squares fitting [abstract base] |
fit_fix_pars | Multidimensional fitting fixing some parameters and varying others |
fit_funct | Fitting function [abstract base] |
fit_funct_cmfptr | Const member function pointer fitting function |
fit_funct_fptr | Function pointer fitting function |
fit_funct_mfptr | Member function pointer fitting function |
fit_vfunct | Fitting function with arrays [abstract base] |
fit_vfunct_cmfptr | Const member function pointer fitting function with arrays |
fit_vfunct_fptr | Function pointer fitting function with arrays |
fit_vfunct_mfptr | Member function pointer fitting function with arrays |
format_float | Format a floating point number into a Latex or HTML string |
funct | One-dimensional function [abstract base] |
funct_cmfptr | Const member function pointer to a one-dimensional function |
funct_cmfptr_noerr | Const member function pointer to a one-dimensional function returning the function value |
funct_cmfptr_nopar | Const member function pointer to a one-dimensional function with no parameters |
funct_fptr | Function pointer to a function |
funct_fptr_noerr | Function pointer to a function returning the function value |
funct_fptr_nopar | Function pointer to a function with no parameters |
funct_mfptr | Member function pointer to a one-dimensional function |
funct_mfptr_noerr | Member function pointer to a one-dimensional function returning the function value |
funct_mfptr_nopar | Member function pointer to a one-dimensional function with no parameters |
gen_inte | Generalized multi-dimensional integration [abstract base] |
gen_test_number | Generate number sequence for testing |
grad_funct | Gradient function [abstract base] |
grad_funct_cmfptr | Const member function pointer to a gradient |
grad_funct_fptr | Function pointer to a gradient |
grad_funct_mfptr | Member function pointer to a gradient |
grad_vfunct | Base class for a gradient function using arrays [abstract base] |
grad_vfunct_cmfptr | Const member function pointer to a gradient |
grad_vfunct_fptr | Function pointer to a gradient |
grad_vfunct_mfptr | Member function pointer to a gradient |
gradient | Class for automatically computing gradients [abstract base] |
gradient_array | Base class for automatically computing gradients with arrays [abstract base] |
gsl_anneal | Multidimensional minimization by simulated annealing (GSL) |
gsl_astep | Adaptive ODE stepper (GSL) |
gsl_bsimp | Bulirsch-Stoer implicit ODE stepper (GSL) |
gsl_chebapp | Chebyshev approximation (GSL) |
gsl_cubic_real_coeff | Solve a cubic with real coefficients and complex roots (GSL) |
gsl_deriv | Numerical differentiation (GSL) |
gsl_fft | Real mixed-radix fast Fourier transform |
gsl_fit | Non-linear least-squares fitting class (GSL) |
gsl_fit::func_par | A structure for passing to the functions func(), dfunc(), and fdfunc() |
gsl_inte | GSL integration base |
gsl_inte_cheb | Chebyshev integration base class (GSL) |
gsl_inte_kronrod | Basic Gauss-Kronrod integration class (GSL) |
gsl_inte_qag | Adaptive integration a function with finite limits of integration (GSL) |
gsl_inte_qagi | Integrate a function from ![]() ![]() |
gsl_inte_qagil | Integrate a function from ![]() ![]() |
gsl_inte_qagiu | Integrate a function from ![]() ![]() |
gsl_inte_qags | Integrate a function with a singularity (GSL) |
gsl_inte_qawc | Adaptive Cauchy principal value integration (GSL) |
gsl_inte_qawf_cos | Adaptive integration a function with finite limits of integration (GSL) |
gsl_inte_qawf_sin | Adaptive integration for oscillatory integrals (GSL) |
gsl_inte_qawo_cos | Adaptive integration a function with finite limits of integration (GSL) |
gsl_inte_qawo_sin | Adaptive integration for oscillatory integrals (GSL) |
gsl_inte_qaws | QAWS integration (GSL) |
gsl_inte_qng | Non-adaptive integration from a to b (GSL) |
gsl_inte_singular | Base class for integrating a function with a singularity (GSL) |
gsl_inte_singular::extrapolation_table | A structure for extrapolation for gsl_inte_qags |
gsl_inte_table | Base routines for the GSL adaptive integration classes |
gsl_inte_transform | Integrate a function with a singularity (GSL) [abstract base] |
gsl_inte_workspace | A GSL integration workspace |
gsl_min_brent | One-dimensional minimization using Brent's method (GSL) |
gsl_miser | Multidimensional integration using Miser Monte Carlo (GSL) |
gsl_mmin_base | Base minimization routines for gsl_mmin_conf and gsl_mmin_conp |
gsl_mmin_bfgs2 | Multidimensional minimization by the BFGS algorithm (GSL) |
gsl_mmin_bfgs2_array | An array version of gsl_mmin_bfgs2 |
gsl_mmin_conf | Multidimensional minimization by the Fletcher-Reeves conjugate gradient algorithm (GSL) |
gsl_mmin_conf_array | An array version of gsl_mmin_conf |
gsl_mmin_conp | Multidimensional minimization by the Polak-Ribiere conjugate gradient algorithm (GSL) |
gsl_mmin_conp_array | An array version of gsl_mmin_conp |
gsl_mmin_linmin | The line minimizer for gsl_mmin_bfgs2 |
gsl_mmin_simp | Multidimensional minimization by the Simplex method (GSL) |
gsl_mmin_simp2 | Multidimensional minimization by the Simplex method (v2) (GSL) |
gsl_mmin_wrap_base | Virtual base for the gsl_mmin_bfgs2 wrapper |
gsl_mmin_wrapper | Wrapper class for the gsl_mmin_bfgs2 minimizer |
gsl_monte | Multidimensional integration using plain Monte Carlo (GSL) |
gsl_mroot_hybrids | Multidimensional root-finding algorithm using Powell's Hybrid method (GSL) |
gsl_ode_control | Control structure for gsl_astep |
gsl_poly_real_coeff | Solve a general polynomial with real coefficients (GSL) |
gsl_quadratic_real_coeff | Solve a quadratic with real coefficients and complex roots (GSL) |
gsl_quartic_real | Solve a quartic with real coefficients and real roots (GSL) |
gsl_quartic_real2 | Solve a quartic with real coefficients and real roots (GSL) |
gsl_rk8pd | Embedded Runge-Kutta Prince-Dormand ODE stepper (GSL) |
gsl_rk8pd_fast | Faster embedded Runge-Kutta Prince-Dormand ODE stepper (GSL) |
gsl_rkck | Cash-Karp embedded Runge-Kutta ODE stepper (GSL) |
gsl_rkck_fast | Faster Cash-Karp embedded Runge-Kutta ODE stepper (GSL) |
gsl_rkf45 | Runge-Kutta-Fehlberg embedded Runge-Kutta ODE stepper (GSL) |
gsl_rkf45_fast | Faster Runge-Kutta-Fehlberg embedded Runge-Kutta ODE stepper (GSL) |
gsl_rnga | Random number generator (GSL) |
gsl_root_brent | One-dimensional root-finding (GSL) |
gsl_root_stef | Steffenson equation solver (GSL) |
gsl_series | Series acceleration by Levin u-transform (GSL) |
gsl_smooth | Smooth a GSL vector using GSL bsplines |
gsl_solver_HH | GSL Householder solver |
gsl_solver_LU | GSL solver by LU decomposition |
gsl_solver_QR | GSL solver by QR decomposition |
gsl_vector_norm | Norm object for gsl vectors |
gsl_vegas | Multidimensional integration using Vegas Monte Carlo (GSL) |
in_file_format | Class for input file formats [abstract base] |
int_io_type | I/O object for int variables |
inte | Base integration class [abstract base] |
io_base | I/O base class |
io_manager | Manage I/O type information |
io_tlate | A template for adding I/O classes |
io_type_info | User interface to provide I/O type information |
io_vtlate | A template for adding I/O classes |
jac_funct | Base for a square Jacobian where J is computed at x given y=f(x) [abstract base] |
jac_funct_cmfptr | Const member function pointer to a Jacobian |
jac_funct_fptr | Function pointer to jacobian |
jac_funct_mfptr | Member function pointer to a Jacobian |
jac_vfunct | Base for a square Jacobian where J is computed at x given y=f(x) with arrays [abstract base] |
jac_vfunct_cmfptr | Const member function pointer to a Jacobian with arrays |
jac_vfunct_fptr | Function pointer to jacobian with arrays |
jac_vfunct_mfptr | Member function pointer to a Jacobian with arrays |
jacobian | Base for providing a numerical jacobian [abstract base] |
lanczos | Lanczos diagonalization |
lib_settings_class | A class to manage global library settings |
linear_interp | Linear interpolation (GSL) |
linear_solver | A generic solver for the linear system ![]() |
linear_solver_hh | Generic Householder linear solver |
linear_solver_lu | Generic linear solver using LU decomposition |
linear_solver_qr | Generic linear solver using QR decomposition |
long_io_type | I/O object for long variables |
matrix_row | Create a vector-like class from a row of a matrix |
mcarlo_inte | Monte-Carlo integration [abstract base] |
min_fit | Non-linear least-squares fitting class with generic minimizer |
min_fit::func_par | A structure for passing information to the GSL functions for the min_fit class |
minimize | One-dimensional minimization [abstract base] |
minimize_bkt | One-dimensional bracketing minimization [abstract base] |
minimize_de | One-dimensional minimization using derivatives [abstract base] |
mm_funct | Array of multi-dimensional functions [abstract base] |
mm_funct_cmfptr | Const member function pointer to an array of multi-dimensional functions |
mm_funct_cmfptr_nopar | Const member function pointer to an array of multi-dimensional functions with no parameters |
mm_funct_fptr | Function pointer to array of multi-dimensional functions |
mm_funct_fptr_nopar | Function pointer to array of multi-dimensional functions with no parameters |
mm_funct_gsl | Function pointer to a gsl_multiroot_function |
mm_funct_mfptr | Member function pointer to an array of multi-dimensional functions |
mm_funct_mfptr_nopar | Member function pointer to an array of multi-dimensional functions with no parameters |
mm_vfunct | Array of multi-dimensional functions with arrays [abstract base] |
mm_vfunct_cmfptr | Const member function pointer to an array of multi-dimensional functions with arrays |
mm_vfunct_cmfptr_nopar | Member function pointer to an array of multi-dimensional functions with arrays with no parameters |
mm_vfunct_fptr | Function pointer to array of multi-dimensional functions with arrays |
mm_vfunct_fptr_nopar | Function pointer to array of multi-dimensional functions with arrays and no parameters |
mm_vfunct_gsl | Function pointer to a gsl_multiroot_function with arrays |
mm_vfunct_mfptr | Member function pointer to an array of multi-dimensional functions with arrays |
mm_vfunct_mfptr_nopar | Const member function pointer to an array of multi-dimensional functions with arrays with no parameters |
mroot | Multidimensional root-finding [abstract base] |
mroot_hybrid_state_t | State class for gsl_mroot_hybrids |
mroot_hybrids_base | Base functionality for the GSL hybrids solver used in gsl_mroot_hybrids |
multi_funct | Multi-dimensional function [abstract base] |
multi_funct_cmfptr | Const member function pointer to a multi-dimensional function |
multi_funct_cmfptr_noerr | Const member function pointer to a multi-dimensional function |
multi_funct_fptr | Function pointer to a multi-dimensional function |
multi_funct_fptr_noerr | Function pointer to a multi-dimensional function without error control |
multi_funct_gsl | Function pointer to a gsl_multimin_function |
multi_funct_mfptr | Member function pointer to a multi-dimensional function |
multi_funct_mfptr_noerr | Member function pointer to a multi-dimensional function |
multi_inte | Multi-dimensional integration over a hypercube [abstract base] |
multi_min | Multidimensional minimization [abstract base] |
multi_min_fix | Multidimensional minimizer fixing some variables and varying others |
multi_vfunct | Multi-dimensional function base with arrays [abstract base] |
multi_vfunct_cmfptr | Member function pointer to a multi-dimensional function with arrays |
multi_vfunct_cmfptr_noerr | Member function pointer to a multi-dimensional function with arrays |
multi_vfunct_fptr | Function pointer to a multi-dimensional function with arrays |
multi_vfunct_fptr_noerr | Function pointer to a multi-dimensional function with arrays and without error control |
multi_vfunct_gsl | Function pointer to a gsl_multimin_function with arrays |
multi_vfunct_mfptr | Member function pointer to a multi-dimensional function with arrays |
multi_vfunct_mfptr_noerr | Member function pointer to a multi-dimensional function with arrays |
nonadapt_step | An non-adaptive stepper implementation of adapt_step |
o2scl_interp | Interpolation class |
o2scl_interp_vec | Interpolation class for pre-specified vector |
ode_bv_multishoot | Multishooting |
ode_bv_shoot | Solve boundary-value ODE problems by shooting |
ode_bv_solve | Solve boundary-value ODE problems with constant boundary conditions [abstract base] |
ode_funct | Ordinary differential equation function [abstract base] |
ode_funct_cmfptr | Provide ODE functions in the form of const member function pointers |
ode_funct_fptr | Provide ODE functions in the form of function pointers |
ode_funct_mfptr | Provide ODE functions in the form of member function pointers |
ode_it_funct | Function class for ode_it_solve |
ode_it_funct_fptr | Function pointer for ode_it_solve |
ode_it_funct_mfptr | Member function pointer for ode_it_solve |
ode_it_solve | ODE solver using a generic linear solver to solve finite-difference equations |
ode_iv_solve | Solve an initial-value ODE problems given an adaptive ODE stepper |
ode_jac_funct | Ordinary differential equation Jacobian [abstract base] |
ode_jac_funct_cmfptr | Provide ODE Jacobian in the form of const member function pointers |
ode_jac_funct_fptr | Provide ODE Jacobian in the form of function pointers |
ode_jac_funct_mfptr | Provide ODE Jacobian in the form of member function pointers |
ode_jac_vfunct | Ordinary differential equation Jacobian with arrays [abstract base] |
ode_jac_vfunct_cmfptr | Provide ODE Jacobian in the form of const member function pointers |
ode_jac_vfunct_fptr | Function pointer to a function |
ode_jac_vfunct_mfptr | Provide ODE Jacobian in the form of member function pointers |
ode_vfunct | Ordinary differential equation function with arrays [abstract base] |
ode_vfunct_cmfptr | Provide ODE functions in the form of const member function pointers |
ode_vfunct_fptr | Function pointer to a function |
ode_vfunct_mfptr | Provide ODE functions in the form of member function pointers |
odestep | ODE stepper base [abstract base] |
ofvector | A vector where the memory allocation is performed in the constructor |
ofvector_cx | A complex vector where the memory allocation is performed in the constructor |
omatrix_alloc | A simple class to provide an allocate() function for omatrix |
omatrix_array_tlate | Create a matrix from an array |
omatrix_base_tlate | A base class for omatrix and omatrix_view |
omatrix_col_tlate | Create a vector from a column of a matrix |
omatrix_const_col_tlate | Create a const vector from a column of a matrix |
omatrix_const_diag_tlate | Create a vector from the main diagonal |
omatrix_const_row_tlate | Create a const vector from a row of a matrix |
omatrix_const_view_tlate | A const matrix view of omatrix objects |
omatrix_cx_col_tlate | Create a vector from a column of a matrix |
omatrix_cx_const_col_tlate | Create a vector from a column of a matrix |
omatrix_cx_const_row_tlate | Create a vector from a row of a matrix |
omatrix_cx_row_tlate | Create a vector from a row of a matrix |
omatrix_cx_tlate | A matrix of double-precision numbers |
omatrix_cx_view_tlate | A matrix view of double-precision numbers |
omatrix_diag_tlate | Create a vector from the main diagonal |
omatrix_row_tlate | Create a vector from a row of a matrix |
omatrix_tlate | A matrix of double-precision numbers |
omatrix_view_tlate | A matrix view of double-precision numbers |
ool_constr_mmin | Constrained multidimensional minimization (OOL) [abstract base] |
ool_hfunct | Hessian product function for ool_constr_mmin [abstract base] |
ool_hfunct_fptr | A hessian product supplied by a function pointer |
ool_hfunct_mfptr | A hessian product supplied by a member function pointer |
ool_hvfunct | Hessian product function base for ool_constr_mmin using arrays |
ool_hvfunct_fptr | A hessian product supplied by a function pointer using arrays |
ool_hvfunct_mfptr | A hessian product supplied by a member function pointer using arrays |
ool_mmin_gencan | Constrained minimization by the "GENCAN" method (OOL) |
ool_mmin_pgrad | Constrained minimization by the projected gradient method (OOL) |
ool_mmin_spg | Constrained minimization by the spectral projected gradient method (OOL) |
other_todos_and_bugs | An empty class to add some items to the todo and bug lists |
out_file_format | Class for output file formats [abstract base] |
ovector_alloc | A simple class to provide an allocate() function for ovector |
ovector_array_stride_tlate | Create a vector from an array with a stride |
ovector_array_tlate | Create a vector from an array |
ovector_base_tlate | A base class for ovector and ovector_view |
ovector_const_array_stride_tlate | Create a const vector from an array with a stride |
ovector_const_array_tlate | Create a const vector from an array |
ovector_const_reverse_tlate | Reversed view of a vector |
ovector_const_subvector_reverse_tlate | Reversed view of a const subvector |
ovector_const_subvector_tlate | Create a const vector from a subvector of another vector |
ovector_const_view_tlate | A const vector view with finite stride |
ovector_const_view_tlate::const_iterator | A const iterator for ovectors |
ovector_const_view_tlate::iterator | An iterator for ovectors |
ovector_cx_array_stride_tlate | Create a vector from an array with a stride |
ovector_cx_array_tlate | Create a vector from an array |
ovector_cx_const_array_stride_tlate | Create a vector from an array_stride |
ovector_cx_const_array_tlate | Create a vector from an array |
ovector_cx_const_subvector_tlate | Create a vector from a subvector of another |
ovector_cx_imag_tlate | Create a imaginary vector from the imaginary parts of a complex vector |
ovector_cx_real_tlate | Create a real vector from the real parts of a complex vector |
ovector_cx_subvector_tlate | Create a vector from a subvector of another |
ovector_cx_tlate | A vector of double-precision numbers |
ovector_cx_view_tlate | A vector view of double-precision numbers |
ovector_int_alloc | A simple class to provide an allocate() function for ovector_int |
ovector_reverse_tlate | Reversed view of a vector |
ovector_subvector_reverse_tlate | Reversed view of a subvector |
ovector_subvector_tlate | Create a vector from a subvector of another |
ovector_tlate | A vector with finite stride |
ovector_view_tlate | A vector view with finite stride |
permutation | A class for representing permutations |
pinside | Test line intersection and point inside polygon |
pinside::line | Internal line definition for pinside |
pinside::point | Internal point definition for pinside |
planar_intp | Interpolate among two independent variables with planes |
pointer_2d_alloc | A simple class to provide an allocate() function for pointers |
pointer_alloc | A simple class to provide an allocate() function for pointers |
pointer_input | A pointer input structure |
pointer_output | A pointer output structure |
poly_complex | Solve a general polynomial with complex coefficients [abstract base] |
poly_real_coeff | Solve a general polynomial with real coefficients and complex roots [abstract base] |
polylog | Polylogarithms (approximate) ![]() |
quadratic_complex | Solve a quadratic polynomial with complex coefficients and complex roots [abstract base] |
quadratic_real | Solve a quadratic polynomial with real coefficients and real roots [abstract base] |
quadratic_real_coeff | Solve a quadratic polynomial with real coefficients and complex roots [abstract base] |
quadratic_std_complex | Solve a quadratic with complex coefficients and complex roots |
quartic_complex | Solve a quartic polynomial with complex coefficients and complex roots [abstract base] |
quartic_real | Solve a quartic polynomial with real coefficients and real roots [abstract base] |
quartic_real_coeff | Solve a quartic polynomial with real coefficients and complex roots [abstract base] |
rnga | Random number generator base |
root | 1-dimensional solver [abstract base] |
root_bkt | 1-dimensional bracketing solver [abstract base] |
root_de | 1-dimensional with solver with derivatives [abstract base] |
search_vec | Searching class for monotonic data with caching |
search_vec_ext | An extended search_vec which is allowed to return the last element |
sim_anneal | Simulated annealing base |
simple_grad | Simple automatic computation of gradient by finite differencing |
simple_grad_array | Simple automatic computation of gradient by finite differencing with arrays |
simple_jacobian | Simple automatic Jacobian |
simple_quartic_complex | Solve a quartic with complex coefficients and complex roots |
simple_quartic_real | Solve a quartic with real coefficients and real roots |
sma_interp | A specialization of smart_interp for C-style double arrays |
sma_interp_vec | A specialization of smart_interp_vec for C-style double arrays |
smart_interp | Smart interpolation class |
smart_interp_vec | Smart interpolation class with pre-specified vectors |
string_comp | Simple string comparison |
string_io_type | I/O object for string variables |
table | Data table class |
table3d | A data structure containing many slices of two-dimensional data points defined on a grid |
table::col_s | Column structure for table [protected] |
table::sortd_s | A structure for sorting in table [protected] |
table_units | Data table class with units |
tensor | Tensor class with arbitrary dimensions |
tensor1 | Rank 1 tensor |
tensor2 | Rank 2 tensor |
tensor3 | Rank 3 tensor |
tensor4 | Rank 4 tensor |
tensor_grid | Tensor class with arbitrary dimensions with a grid |
tensor_grid1 | Rank 2 tensor with a grid |
tensor_grid2 | Rank 2 tensor with a grid |
tensor_grid3 | Rank 3 tensor with a grid |
tensor_grid4 | Rank 4 tensor with a grid |
test_mgr | A class to manage testing and record success and failure |
text_in_file | An input text file |
text_out_file | An output text file |
twod_eqi_intp | Two-dimensional interpolation for equally-spaced intervals |
twod_intp | Two-dimensional interpolation class |
ufmatrix | A matrix where the memory allocation is performed in the constructor |
ufmatrix_cx | A matrix where the memory allocation is performed in the constructor |
ufvector | A vector with unit-stride where the memory allocation is performed in the constructor |
umatrix_alloc | A simple class to provide an allocate() function for umatrix |
umatrix_base_tlate | A matrix view of double-precision numbers |
umatrix_const_row_tlate | Create a const vector from a row of a matrix |
umatrix_const_view_tlate | A matrix view of double-precision numbers |
umatrix_cx_alloc | A simple class to provide an allocate() function for umatrix_cx |
umatrix_cx_const_row_tlate | Create a const vector from a row of a matrix |
umatrix_cx_row_tlate | Create a vector from a row of a matrix |
umatrix_cx_tlate | A matrix of double-precision numbers |
umatrix_cx_view_tlate | A matrix view of complex numbers |
umatrix_row_tlate | Create a vector from a row of a matrix |
umatrix_tlate | A matrix of double-precision numbers |
umatrix_view_tlate | A matrix view of double-precision numbers |
uvector_alloc | A simple class to provide an allocate() function for uvector |
uvector_array_tlate | Create a vector from an array |
uvector_base_tlate | Desc |
uvector_const_array_tlate | Create a vector from an const array |
uvector_const_subvector_tlate | Create a const vector from a subvector of another vector |
uvector_const_view_tlate | A const vector view with unit stride |
uvector_cx_array_tlate | Create a vector from an array |
uvector_cx_const_array_tlate | Create a vector from an array |
uvector_cx_const_subvector_tlate | Create a vector from a subvector of another |
uvector_cx_subvector_tlate | Create a vector from a subvector of another |
uvector_cx_tlate | A vector of double-precision numbers with unit stride |
uvector_cx_view_tlate | A vector view of complex numbers with unit stride |
uvector_int_alloc | A simple class to provide an allocate() function for uvector_int |
uvector_subvector_tlate | Create a vector from a subvector of another |
uvector_tlate | A vector with unit stride |
uvector_view_tlate | A base class for uvectors |
word_io_type | I/O object for words |
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