void BeadParams::ApplyUpperBound (bound_params *bound, int flow_block_size)
{
for (int i=0;i<flow_block_size;i++)
{
MAX_BOUND_PAIR_CHECK (Ampl[i],Ampl);
MAX_BOUND_PAIR_CHECK (kmult[i],kmult);
}
MAX_BOUND_CHECK (Copies);
MAX_BOUND_CHECK (gain);
MAX_BOUND_CHECK (R);
MAX_BOUND_CHECK (dmult);
};
void params_ApplyUpperBound (bead_params *cur, bound_params *bound)
{
for (int i=0;i<NUMFB;i++)
{
MAX_BOUND_PAIR_CHECK (Ampl[i],Ampl);
MAX_BOUND_PAIR_CHECK (kmult[i],kmult);
}
MAX_BOUND_CHECK (Copies);
MAX_BOUND_CHECK (gain);
MAX_BOUND_CHECK (R);
MAX_BOUND_CHECK (dmult);
};
void reg_params_ApplyUpperBound(reg_params *cur, reg_params *bound)
{
for (int i=0;i<NUMFB;i++)
{
// MAX_BOUND_CHECK(nuc_shape.t_mid_nuc_shift_per_flow);
MAX_BOUND_CHECK(nuc_shape.t_mid_nuc[i]);
MAX_BOUND_CHECK(darkness[i]);
}
for (int i=0;i<NUMNUC;i++)
{
MAX_BOUND_CHECK(krate[i]);
MAX_BOUND_CHECK(d[i]);
MAX_BOUND_CHECK(kmax[i]);
MAX_BOUND_CHECK(NucModifyRatio[i]);
MAX_BOUND_CHECK(nuc_shape.t_mid_nuc_delay[i]);
MAX_BOUND_CHECK(nuc_shape.sigma_mult[i]);
}
MAX_BOUND_CHECK(sens);
MAX_BOUND_CHECK(tshift);
MAX_BOUND_CHECK(nuc_shape.sigma);
MAX_BOUND_CHECK(RatioDrift);
MAX_BOUND_CHECK(CopyDrift);
MAX_BOUND_CHECK(tau_R_m);
MAX_BOUND_CHECK(tau_R_o);
MAX_BOUND_CHECK(tauE);
}
void reg_params::ApplyUpperBound(const reg_params *bound, int flow_block_size)
{
for (int i=0;i<flow_block_size;i++)
{
// MAX_BOUND_CHECK(nuc_shape.t_mid_nuc_shift_per_flow);
MAX_BOUND_CHECK(nuc_shape.AccessTMidNuc()[i]);
MAX_BOUND_CHECK(darkness[i]);
}
for (int i=0;i<NUMNUC;i++)
{
MAX_BOUND_CHECK(krate[i]);
MAX_BOUND_CHECK(d[i]);
MAX_BOUND_CHECK(kmax[i]);
MAX_BOUND_CHECK(NucModifyRatio[i]);
MAX_BOUND_CHECK(nuc_shape.t_mid_nuc_delay[i]);
MAX_BOUND_CHECK(nuc_shape.sigma_mult[i]);
}
MAX_BOUND_CHECK(sens);
MAX_BOUND_CHECK(tshift);
MAX_BOUND_CHECK(nuc_shape.sigma);
MAX_BOUND_CHECK(RatioDrift);
MAX_BOUND_CHECK(CopyDrift);
MAX_BOUND_CHECK(tau_R_m);
MAX_BOUND_CHECK(tau_R_o);
MAX_BOUND_CHECK(tauE);
}