// DO NOT EDIT! // Generated automatically from DASRT-opts.in. #if !defined (octave_DASRT_options_h) #define octave_DASRT_options_h 1 #include #include #include class DASRT_options { public: DASRT_options (void) { init (); } DASRT_options (const DASRT_options& opt) { copy (opt); } DASRT_options& operator = (const DASRT_options& opt) { if (this != &opt) copy (opt); return *this; } ~DASRT_options (void) { } void init (void) { x_absolute_tolerance.resize (1); x_absolute_tolerance(0) = ::sqrt (DBL_EPSILON); x_relative_tolerance.resize (1); x_relative_tolerance(0) = ::sqrt (DBL_EPSILON); x_initial_step_size = -1.0; x_maximum_order = -1; x_maximum_step_size = -1.0; x_step_limit = -1; reset = true; } void copy (const DASRT_options& opt) { x_absolute_tolerance = opt.x_absolute_tolerance; x_relative_tolerance = opt.x_relative_tolerance; x_initial_step_size = opt.x_initial_step_size; x_maximum_order = opt.x_maximum_order; x_maximum_step_size = opt.x_maximum_step_size; x_step_limit = opt.x_step_limit; reset = opt.reset; } void set_options (const DASRT_options& opt) { copy (opt); } void set_default_options (void) { init (); } void set_absolute_tolerance (double val) { x_absolute_tolerance.resize (1); x_absolute_tolerance(0) = (val > 0.0) ? val : ::sqrt (DBL_EPSILON); reset = true; } void set_absolute_tolerance (const Array& val) { x_absolute_tolerance = val; reset = true; } void set_relative_tolerance (double val) { x_relative_tolerance.resize (1); x_relative_tolerance(0) = (val > 0.0) ? val : ::sqrt (DBL_EPSILON); reset = true; } void set_relative_tolerance (const Array& val) { x_relative_tolerance = val; reset = true; } void set_initial_step_size (double val) { x_initial_step_size = (val >= 0.0) ? val : -1.0; reset = true; } void set_maximum_order (int val) { x_maximum_order = val; reset = true; } void set_maximum_step_size (double val) { x_maximum_step_size = (val >= 0.0) ? val : -1.0; reset = true; } void set_step_limit (int val) { x_step_limit = (val >= 0) ? val : -1; reset = true; } Array absolute_tolerance (void) const { return x_absolute_tolerance; } Array relative_tolerance (void) const { return x_relative_tolerance; } double initial_step_size (void) const { return x_initial_step_size; } int maximum_order (void) const { return x_maximum_order; } double maximum_step_size (void) const { return x_maximum_step_size; } int step_limit (void) const { return x_step_limit; } private: Array x_absolute_tolerance; Array x_relative_tolerance; double x_initial_step_size; int x_maximum_order; double x_maximum_step_size; int x_step_limit; protected: bool reset; }; #endif