constants

Variables
real(c_double)	err = 1.0e-44_C_DOUBLE
	Small value threshold below this value, isotopics should be set to zero formerly block 4. More...
real(c_double), parameter	avogadro = 6.022140857e+23_C_DOUBLE
	Avogadro number (same as ScaleUtils/Math/Constants.h) More...
real(c_double), parameter	curie_to_becquerel = 3.7e+10_C_DOUBLE
	Curies to Becquerels (same as ScaleUtils/Math/Constants.h) More...
real(c_double), parameter	joule_to_mev = 6.24150647996e+12_C_DOUBLE
	Joules to MeV (same as ScaleUtils/Math/Constants.h) More...
real(c_double), parameter	pi = 3.14159265358979323846_C_DOUBLE
	Ludolf number. More...
integer(c_size_t), parameter	origen_bad_size_t =HUGE(1_C_SIZE_T)
	indicates an error in a size_t Because this is an index, and fortran indices add one to C++ indices, it must correspond to C++ Origen::BAD_SIZE_T+1 which has been set to std::numeric_limits<size_t>::max/2+1 More...
real(c_double), parameter	origen_bad_double =HUGE(1_C_DOUBLE)
	indicates an error in a double More...
real(c_float), parameter	origen_bad_float =HUGE(1_C_FLOAT)
	indicates an error in a float More...
integer(c_int), parameter	origen_bad_int =HUGE(1_C_INT)
	indicates an error in an int More...

Detailed Description

Variable Documentation

real(c_double) err = 1.0e-44_C_DOUBLE

Small value threshold below this value, isotopics should be set to zero formerly block 4.

Examples:

tstObiwan.cpp.

Referenced by kernel_matrex::decay(), depletion::depletion_step(), origen_beta::distea(), estrad(), estrav(), origen_output_class::evaluate_rates_and_balances(), origen_alpha_class::get_spectrum(), depletion::powerf(), depletion::powerflux(), origen_output::print_table(), radcor(), LibraryIO_s61::read(), ObiwanTester< T >::SetUp(), slvrad(), kernel_matrex::term(), TEST(), rksuite_90::truerr_r1(), and LibraryIO_s61::write().

real(c_double), parameter avogadro = 6.022140857e+23_C_DOUBLE

Avogadro number (same as ScaleUtils/Math/Constants.h)

Referenced by origen_output::convert_concentrations(), origen_beta::distea(), origen_output_class::evaluate_rates_and_balances(), origen_alpha_class::get_spectrum(), origen_neutron::totaln(), and tstmassconservation().

real(c_double), parameter curie_to_becquerel = 3.7e+10_C_DOUBLE

Curies to Becquerels (same as ScaleUtils/Math/Constants.h)

Referenced by origen_output::convert_concentrations().

real(c_double), parameter joule_to_mev = 6.24150647996e+12_C_DOUBLE

Joules to MeV (same as ScaleUtils/Math/Constants.h)

Referenced by origen_output::convert_concentrations().

real(c_double), parameter pi = 3.14159265358979323846_C_DOUBLE

Ludolf number.

Referenced by origen_neutron::totaln().

integer(c_size_t), parameter origen_bad_size_t =HUGE(1_C_SIZE_T)

indicates an error in a size_t Because this is an index, and fortran indices add one to C++ indices, it must correspond to C++ Origen::BAD_SIZE_T+1 which has been set to std::numeric_limits<size_t>::max/2+1

real(c_double), parameter origen_bad_double =HUGE(1_C_DOUBLE)

indicates an error in a double

real(c_float), parameter origen_bad_float =HUGE(1_C_FLOAT)

indicates an error in a float

integer(c_int), parameter origen_bad_int =HUGE(1_C_INT)

indicates an error in an int