class ActionRationalArg rat_heavy = {
class ActionBilinearArg bi_arg = {
FclassType fermion = F_CLASS_ASQTAD
Array bilinears[1] = { 
class BilinearDescr bilinears[0] = {
double mass =   0.05
int max_num_iter = 5000
}
}
class ActionArg action_arg = {
ForceMeasure force_measure = FORCE_MEASURE_YES
string force_label = "Rational(3strange)"
}
}
int remez_generate = 0
string rat_poles_file = ""
Array rationals[1] = { 
class RationalDescr rationals[0] = {
FieldType field_type = FERMION
int power_num = 3
int power_den = 4
long precision = 50
class ApproxDescr md_approx = {
RationalApproxType approx_type = RATIONAL_APPROX_POWER
RationalBoundsType bounds_type = RATIONAL_BOUNDS_AUTOMATIC
double lambda_low =   0
double lambda_high =   0
Array stop_rsd[6] = { 
double stop_rsd[0] =   1e-6
double stop_rsd[1] =   1e-6
double stop_rsd[2] =   1e-6
double stop_rsd[3] =   1e-6
double stop_rsd[4] =   1e-6
double stop_rsd[5] =   1e-6
}
}
class ApproxDescr mc_approx = {
RationalApproxType approx_type = RATIONAL_APPROX_POWER
RationalBoundsType bounds_type = RATIONAL_BOUNDS_AUTOMATIC
double lambda_low =   0
double lambda_high =   0
Array stop_rsd[11] = { 
double stop_rsd[0] =   1e-10
double stop_rsd[1] =   1e-10
double stop_rsd[2] =   1e-10
double stop_rsd[3] =   1e-10
double stop_rsd[4] =   1e-10
double stop_rsd[5] =   1e-10
double stop_rsd[6] =   1e-10
double stop_rsd[7] =   1e-10
double stop_rsd[8] =   1e-10
double stop_rsd[9] =   1e-10
double stop_rsd[10] =   1e-10
}
}
double stag_bsn_mass = 0.0;
}
}
class EigenDescr eigen = {
EigenMeasure eigen_measure = EIGEN_MEASURE_NO
double stop_rsd =   1e-3
int max_num_iter = 5000
string eig_lo_stem = "eig_low"
string eig_hi_stem = "eig_high"
}
}