int64_t montecarlo_one_packet_loop(storage_model_t *storage, rpacket_t *packet, int64_t virtual_packet)
{
rpacket_set_tau_event(packet, 0.0);
rpacket_set_nu_line(packet, 0.0);
rpacket_set_virtual_packet(packet, virtual_packet);
rpacket_set_status(packet, TARDIS_PACKET_STATUS_IN_PROCESS);
// Initializing tau_event if it's a real packet.
if (virtual_packet == 0)
{
rpacket_reset_tau_event(packet);
}
// For a virtual packet tau_event is the sum of all the tau's that the packet passes.
while (rpacket_get_status(packet) == TARDIS_PACKET_STATUS_IN_PROCESS)
{
// Check if we are at the end of line list.
if (!rpacket_get_last_line(packet))
{
rpacket_set_nu_line(packet, storage->line_list_nu[rpacket_get_next_line_id(packet)]);
}
double distance;
get_event_handler(packet, storage, &distance)(packet, storage, distance);
if (virtual_packet > 0 && rpacket_get_tau_event(packet) > 10.0)
{
rpacket_set_tau_event(packet, 100.0);
rpacket_set_status(packet, TARDIS_PACKET_STATUS_EMITTED);
}
}
if (virtual_packet > 0)
{
rpacket_set_energy(packet, rpacket_get_energy(packet) * exp(-1.0 * rpacket_get_tau_event(packet)));
}
return rpacket_get_status(packet) == TARDIS_PACKET_STATUS_REABSORBED ? 1 : 0;
}
void
move_packet (rpacket_t * packet, storage_model_t * storage, double distance)
{
double doppler_factor = rpacket_doppler_factor (packet, storage);
if (distance > 0.0)
{
double r = rpacket_get_r (packet);
double new_r =
sqrt (r * r + distance * distance +
2.0 * r * distance * rpacket_get_mu (packet));
rpacket_set_mu (packet,
(rpacket_get_mu (packet) * r + distance) / new_r);
rpacket_set_r (packet, new_r);
if (rpacket_get_virtual_packet (packet) <= 0)
{
double comov_energy = rpacket_get_energy (packet) * doppler_factor;
double comov_nu = rpacket_get_nu (packet) * doppler_factor;
#ifdef WITHOPENMP
#pragma omp atomic
#endif
storage->js[rpacket_get_current_shell_id (packet)] +=
comov_energy * distance;
#ifdef WITHOPENMP
#pragma omp atomic
#endif
storage->nubars[rpacket_get_current_shell_id (packet)] +=
comov_energy * distance * comov_nu;
}
}
}
int64_t montecarlo_one_packet(storage_model_t *storage, rpacket_t *packet, int64_t virtual_mode)
{
int64_t i;
rpacket_t virt_packet;
double mu_bin;
double mu_min;
double doppler_factor_ratio;
double weight;
int64_t virt_id_nu;
if (virtual_mode == 0)
{
montecarlo_one_packet_loop(storage, packet, 0);
}
else
{
for (i = 0; i < rpacket_get_virtual_packet_flag(packet); i++)
{
memcpy((void *)&virt_packet, (void *)packet, sizeof(rpacket_t));
if (virt_packet.r > storage->r_inner[0])
{
mu_min = -1.0 * sqrt(1.0 - (storage->r_inner[0] / virt_packet.r) *
(storage->r_inner[0] / virt_packet.r));
}
else
{
mu_min = 0.0;
}
mu_bin = (1.0 - mu_min) / rpacket_get_virtual_packet_flag(packet);
virt_packet.mu = mu_min + (i + rk_double(&mt_state)) * mu_bin;
switch(virtual_mode)
{
case -2:
weight = 1.0 / rpacket_get_virtual_packet_flag(packet);
break;
case -1:
weight = 2.0 * virt_packet.mu / rpacket_get_virtual_packet_flag(packet);
break;
case 1:
weight = (1.0 - mu_min) / 2.0 / rpacket_get_virtual_packet_flag(packet);
break;
default:
fprintf(stderr, "Something has gone horribly wrong!\n");
}
doppler_factor_ratio =
rpacket_doppler_factor(packet, storage) /
rpacket_doppler_factor(&virt_packet, storage);
virt_packet.energy = rpacket_get_energy(packet) * doppler_factor_ratio;
virt_packet.nu = rpacket_get_nu(packet) * doppler_factor_ratio;
montecarlo_one_packet_loop(storage, &virt_packet, 1);
if ((virt_packet.nu < storage->spectrum_end_nu) &&
(virt_packet.nu > storage->spectrum_start_nu))
{
virt_id_nu = floor((virt_packet.nu - storage->spectrum_start_nu) /
storage->spectrum_delta_nu);
storage->spectrum_virt_nu[virt_id_nu] += virt_packet.energy * weight;
}
}
}
}
void
increment_Edotlu_estimator (const rpacket_t * packet, storage_model_t * storage, int64_t line_idx)
{
if (storage->line_lists_Edotlu != NULL)
{
#ifdef WITHOPENMP
#pragma omp atomic
#endif
storage->line_lists_Edotlu[line_idx] += rpacket_get_energy (packet);
}
}
inline void increment_j_blue_estimator(rpacket_t *packet, storage_model_t *storage,
double d_line, int64_t j_blue_idx)
{
double comov_energy, r_interaction, mu_interaction, doppler_factor;
double r = rpacket_get_r(packet);
r_interaction = sqrt(r * r + d_line * d_line + 2.0 * r * d_line * rpacket_get_mu(packet));
mu_interaction = (rpacket_get_mu(packet) * r + d_line) / r_interaction;
doppler_factor = 1.0 - mu_interaction * r_interaction *
storage->inverse_time_explosion * INVERSE_C;
comov_energy = rpacket_get_energy(packet) * doppler_factor;
storage->line_lists_j_blues[j_blue_idx] += comov_energy / rpacket_get_nu(packet);
}
void
move_packet_across_shell_boundary (rpacket_t * packet,
storage_model_t * storage, double distance, rk_state *mt_state)
{
move_packet (packet, storage, distance);
if (rpacket_get_virtual_packet (packet) > 0)
{
double delta_tau_event = rpacket_get_chi_continuum(packet) * distance;
rpacket_set_tau_event (packet,
rpacket_get_tau_event (packet) +
delta_tau_event);
}
else
{
rpacket_reset_tau_event (packet, mt_state);
}
if ((rpacket_get_current_shell_id (packet) < storage->no_of_shells - 1
&& rpacket_get_next_shell_id (packet) == 1)
|| (rpacket_get_current_shell_id (packet) > 0
&& rpacket_get_next_shell_id (packet) == -1))
{
rpacket_set_current_shell_id (packet,
rpacket_get_current_shell_id (packet) +
rpacket_get_next_shell_id (packet));
}
else if (rpacket_get_next_shell_id (packet) == 1)
{
rpacket_set_status (packet, TARDIS_PACKET_STATUS_EMITTED);
}
else if ((storage->reflective_inner_boundary == 0) ||
(rk_double (mt_state) > storage->inner_boundary_albedo))
{
rpacket_set_status (packet, TARDIS_PACKET_STATUS_REABSORBED);
}
else
{
double doppler_factor = rpacket_doppler_factor (packet, storage);
double comov_nu = rpacket_get_nu (packet) * doppler_factor;
double comov_energy = rpacket_get_energy (packet) * doppler_factor;
rpacket_set_mu (packet, rk_double (mt_state));
double inverse_doppler_factor = 1.0 / rpacket_doppler_factor (packet, storage);
rpacket_set_nu (packet, comov_nu * inverse_doppler_factor);
rpacket_set_energy (packet, comov_energy * inverse_doppler_factor);
if (rpacket_get_virtual_packet_flag (packet) > 0)
{
montecarlo_one_packet (storage, packet, -2, mt_state);
}
}
}
void move_packet_across_shell_boundary(rpacket_t *packet, storage_model_t *storage, double distance)
{
double comov_energy, doppler_factor, comov_nu, inverse_doppler_factor;
move_packet(packet, storage, distance);
if (rpacket_get_virtual_packet(packet) > 0)
{
double delta_tau_event = distance *
storage->electron_densities[rpacket_get_current_shell_id(packet)] *
storage->sigma_thomson;
rpacket_set_tau_event(packet, rpacket_get_tau_event(packet) + delta_tau_event);
}
else
{
rpacket_reset_tau_event(packet);
}
if ((rpacket_get_current_shell_id(packet) < storage->no_of_shells - 1 && rpacket_get_next_shell_id(packet) == 1) ||
(rpacket_get_current_shell_id(packet) > 0 && rpacket_get_next_shell_id(packet) == -1))
{
rpacket_set_current_shell_id(packet, rpacket_get_current_shell_id(packet) + rpacket_get_next_shell_id(packet));
rpacket_set_recently_crossed_boundary(packet, rpacket_get_next_shell_id(packet));
}
else if (rpacket_get_next_shell_id(packet) == 1)
{
rpacket_set_status(packet, TARDIS_PACKET_STATUS_EMITTED);
}
else if ((storage->reflective_inner_boundary == 0) ||
(rk_double(&mt_state) > storage->inner_boundary_albedo))
{
rpacket_set_status(packet, TARDIS_PACKET_STATUS_REABSORBED);
}
else
{
doppler_factor = rpacket_doppler_factor(packet, storage);
comov_nu = rpacket_get_nu(packet) * doppler_factor;
comov_energy = rpacket_get_energy(packet) * doppler_factor;
rpacket_set_mu(packet, rk_double(&mt_state));
inverse_doppler_factor = 1.0 / rpacket_doppler_factor(packet, storage);
rpacket_set_nu(packet, comov_nu * inverse_doppler_factor);
rpacket_set_energy(packet, comov_energy * inverse_doppler_factor);
rpacket_set_recently_crossed_boundary(packet, 1);
if (rpacket_get_virtual_packet_flag(packet) > 0)
{
montecarlo_one_packet(storage, packet, -2);
}
}
}
void montecarlo_thomson_scatter(rpacket_t *packet, storage_model_t *storage, double distance)
{
double comov_energy, doppler_factor, comov_nu, inverse_doppler_factor;
doppler_factor = move_packet(packet, storage, distance);
comov_nu = rpacket_get_nu(packet) * doppler_factor;
comov_energy = rpacket_get_energy(packet) * doppler_factor;
rpacket_set_mu(packet, 2.0 * rk_double(&mt_state) - 1.0);
inverse_doppler_factor = 1.0 / rpacket_doppler_factor(packet, storage);
rpacket_set_nu(packet, comov_nu * inverse_doppler_factor);
rpacket_set_energy(packet, comov_energy * inverse_doppler_factor);
rpacket_reset_tau_event(packet);
rpacket_set_recently_crossed_boundary(packet, 0);
storage->last_interaction_type[storage->current_packet_id] = 1;
if (rpacket_get_virtual_packet_flag(packet) > 0)
{
montecarlo_one_packet(storage, packet, 1);
}
}
void
montecarlo_thomson_scatter (rpacket_t * packet, storage_model_t * storage,
double distance, rk_state *mt_state)
{
move_packet (packet, storage, distance);
double doppler_factor = rpacket_doppler_factor (packet, storage);
double comov_nu = rpacket_get_nu (packet) * doppler_factor;
double comov_energy = rpacket_get_energy (packet) * doppler_factor;
rpacket_set_mu (packet, 2.0 * rk_double (mt_state) - 1.0);
double inverse_doppler_factor = 1.0 / rpacket_doppler_factor (packet, storage);
rpacket_set_nu (packet, comov_nu * inverse_doppler_factor);
rpacket_set_energy (packet, comov_energy * inverse_doppler_factor);
rpacket_reset_tau_event (packet, mt_state);
storage->last_interaction_type[rpacket_get_id (packet)] = 1;
if (rpacket_get_virtual_packet_flag (packet) > 0)
{
montecarlo_one_packet (storage, packet, 1, mt_state);
}
}
inline double move_packet(rpacket_t *packet, storage_model_t *storage, double distance)
{
double new_r, doppler_factor, comov_energy, comov_nu;
doppler_factor = rpacket_doppler_factor(packet, storage);
if (distance > 0.0)
{
double r = rpacket_get_r(packet);
new_r = sqrt(r * r + distance * distance + 2.0 * r * distance * rpacket_get_mu(packet));
rpacket_set_mu(packet, (rpacket_get_mu(packet) * r + distance) / new_r);
rpacket_set_r(packet, new_r);
if (rpacket_get_virtual_packet(packet) <= 0)
{
comov_energy = rpacket_get_energy(packet) * doppler_factor;
comov_nu = rpacket_get_nu(packet) * doppler_factor;
storage->js[rpacket_get_current_shell_id(packet)] += comov_energy * distance;
storage->nubars[rpacket_get_current_shell_id(packet)] += comov_energy * distance * comov_nu;
}
}
return doppler_factor;
}
void
increment_j_blue_estimator (const rpacket_t * packet, storage_model_t * storage,
double d_line, int64_t j_blue_idx)
{
if (storage->line_lists_j_blues != NULL)
{
double r = rpacket_get_r (packet);
double r_interaction =
sqrt (r * r + d_line * d_line +
2.0 * r * d_line * rpacket_get_mu (packet));
double mu_interaction = (rpacket_get_mu (packet) * r + d_line) / r_interaction;
double doppler_factor = 1.0 - mu_interaction * r_interaction *
storage->inverse_time_explosion * INVERSE_C;
double comov_energy = rpacket_get_energy (packet) * doppler_factor;
#ifdef WITHOPENMP
#pragma omp atomic
#endif
storage->line_lists_j_blues[j_blue_idx] +=
comov_energy / rpacket_get_nu (packet);
}
}
void
montecarlo_main_loop(storage_model_t * storage, int64_t virtual_packet_flag, int nthreads, unsigned long seed)
{
int64_t finished_packets = 0;
storage->virt_packet_count = 0;
#ifdef WITH_VPACKET_LOGGING
storage->virt_packet_nus = (double *)safe_malloc(sizeof(double) * storage->no_of_packets);
storage->virt_packet_energies = (double *)safe_malloc(sizeof(double) * storage->no_of_packets);
storage->virt_packet_last_interaction_in_nu = (double *)safe_malloc(sizeof(double) * storage->no_of_packets);
storage->virt_packet_last_interaction_type = (int64_t *)safe_malloc(sizeof(int64_t) * storage->no_of_packets);
storage->virt_packet_last_line_interaction_in_id = (int64_t *)safe_malloc(sizeof(int64_t) * storage->no_of_packets);
storage->virt_packet_last_line_interaction_out_id = (int64_t *)safe_malloc(sizeof(int64_t) * storage->no_of_packets);
storage->virt_array_size = storage->no_of_packets;
#endif // WITH_VPACKET_LOGGING
#ifdef WITHOPENMP
omp_set_dynamic(0);
if (nthreads > 0)
{
omp_set_num_threads(nthreads);
}
#pragma omp parallel firstprivate(finished_packets)
{
rk_state mt_state;
rk_seed (seed + omp_get_thread_num(), &mt_state);
#pragma omp master
{
fprintf(stderr, "Running with OpenMP - %d threads\n", omp_get_num_threads());
print_progress(0, storage->no_of_packets);
}
#pragma omp for
#else
rk_state mt_state;
rk_seed (seed, &mt_state);
fprintf(stderr, "Running without OpenMP\n");
#endif
for (int64_t packet_index = 0; packet_index < storage->no_of_packets; ++packet_index)
{
int reabsorbed = 0;
rpacket_t packet;
rpacket_set_id(&packet, packet_index);
rpacket_init(&packet, storage, packet_index, virtual_packet_flag);
if (virtual_packet_flag > 0)
{
reabsorbed = montecarlo_one_packet(storage, &packet, -1, &mt_state);
}
reabsorbed = montecarlo_one_packet(storage, &packet, 0, &mt_state);
storage->output_nus[packet_index] = rpacket_get_nu(&packet);
if (reabsorbed == 1)
{
storage->output_energies[packet_index] = -rpacket_get_energy(&packet);
}
else
{
storage->output_energies[packet_index] = rpacket_get_energy(&packet);
}
if ( ++finished_packets%100 == 0 )
{
#ifdef WITHOPENMP
// WARNING: This only works with a static sheduler and gives an approximation of progress.
// The alternative would be to have a shared variable but that could potentially decrease performance when using many threads.
if (omp_get_thread_num() == 0 )
print_progress(finished_packets * omp_get_num_threads(), storage->no_of_packets);
#else
print_progress(finished_packets, storage->no_of_packets);
#endif
}
}
#ifdef WITHOPENMP
}
#endif
print_progress(storage->no_of_packets, storage->no_of_packets);
fprintf(stderr,"\n");
}
void
montecarlo_line_scatter (rpacket_t * packet, storage_model_t * storage,
double distance, rk_state *mt_state)
{
uint64_t next_line_id = rpacket_get_next_line_id (packet);
uint64_t line2d_idx = next_line_id +
storage->no_of_lines * rpacket_get_current_shell_id (packet);
if (rpacket_get_virtual_packet (packet) == 0)
{
increment_j_blue_estimator (packet, storage, distance, line2d_idx);
increment_Edotlu_estimator (packet, storage, line2d_idx);
}
double tau_line =
storage->line_lists_tau_sobolevs[line2d_idx];
double tau_continuum = rpacket_get_chi_continuum(packet) * distance;
double tau_combined = tau_line + tau_continuum;
//rpacket_set_next_line_id (packet, rpacket_get_next_line_id (packet) + 1);
if (next_line_id + 1 == storage->no_of_lines)
{
rpacket_set_last_line (packet, true);
}
if (rpacket_get_virtual_packet (packet) > 0)
{
rpacket_set_tau_event (packet,
rpacket_get_tau_event (packet) + tau_line);
rpacket_set_next_line_id (packet, next_line_id + 1);
}
else if (rpacket_get_tau_event (packet) < tau_combined)
{
move_packet (packet, storage, distance);
double old_doppler_factor = rpacket_doppler_factor (packet, storage);
rpacket_set_mu (packet, 2.0 * rk_double (mt_state) - 1.0);
double inverse_doppler_factor = 1.0 / rpacket_doppler_factor (packet, storage);
double comov_energy = rpacket_get_energy (packet) * old_doppler_factor;
rpacket_set_energy (packet, comov_energy * inverse_doppler_factor);
storage->last_interaction_in_nu[rpacket_get_id (packet)] =
rpacket_get_nu (packet);
storage->last_line_interaction_in_id[rpacket_get_id (packet)] =
next_line_id;
storage->last_line_interaction_shell_id[rpacket_get_id (packet)] =
rpacket_get_current_shell_id (packet);
storage->last_interaction_type[rpacket_get_id (packet)] = 2;
int64_t emission_line_id = 0;
if (storage->line_interaction_id == 0)
{
emission_line_id = next_line_id;
}
else if (storage->line_interaction_id >= 1)
{
emission_line_id = macro_atom (packet, storage, mt_state);
}
storage->last_line_interaction_out_id[rpacket_get_id (packet)] =
emission_line_id;
rpacket_set_nu (packet,
storage->line_list_nu[emission_line_id] *
inverse_doppler_factor);
rpacket_set_nu_line (packet, storage->line_list_nu[emission_line_id]);
rpacket_set_next_line_id (packet, emission_line_id + 1);
rpacket_reset_tau_event (packet, mt_state);
if (rpacket_get_virtual_packet_flag (packet) > 0)
{
bool virtual_close_line = false;
if (!rpacket_get_last_line (packet) &&
fabs (storage->line_list_nu[rpacket_get_next_line_id (packet)] -
rpacket_get_nu_line (packet)) <
(rpacket_get_nu_line (packet)* 1e-7))
{
virtual_close_line = true;
}
// QUESTIONABLE!!!
bool old_close_line = rpacket_get_close_line (packet);
rpacket_set_close_line (packet, virtual_close_line);
montecarlo_one_packet (storage, packet, 1, mt_state);
rpacket_set_close_line (packet, old_close_line);
virtual_close_line = false;
}
}
else
{
rpacket_set_tau_event (packet,
rpacket_get_tau_event (packet) - tau_line);
rpacket_set_next_line_id (packet, next_line_id + 1);
}
if (!rpacket_get_last_line (packet) &&
fabs (storage->line_list_nu[rpacket_get_next_line_id (packet)] -
rpacket_get_nu_line (packet)) < (rpacket_get_nu_line (packet)*
1e-7))
{
rpacket_set_close_line (packet, true);
}
}
int64_t
montecarlo_one_packet (storage_model_t * storage, rpacket_t * packet,
int64_t virtual_mode, rk_state *mt_state)
{
int64_t reabsorbed=-1;
if (virtual_mode == 0)
{
reabsorbed = montecarlo_one_packet_loop (storage, packet, 0, mt_state);
}
else
{
if ((rpacket_get_nu (packet) > storage->spectrum_virt_start_nu) && (rpacket_get_nu(packet) < storage->spectrum_virt_end_nu))
{
for (int64_t i = 0; i < rpacket_get_virtual_packet_flag (packet); i++)
{
double weight;
rpacket_t virt_packet = *packet;
double mu_min;
if (rpacket_get_r(&virt_packet) > storage->r_inner[0])
{
mu_min =
-1.0 * sqrt (1.0 -
(storage->r_inner[0] / rpacket_get_r(&virt_packet)) *
(storage->r_inner[0] / rpacket_get_r(&virt_packet)));
}
else
{
mu_min = 0.0;
}
double mu_bin = (1.0 - mu_min) / rpacket_get_virtual_packet_flag (packet);
rpacket_set_mu(&virt_packet,mu_min + (i + rk_double (mt_state)) * mu_bin);
switch (virtual_mode)
{
case -2:
weight = 1.0 / rpacket_get_virtual_packet_flag (packet);
break;
case -1:
weight =
2.0 * rpacket_get_mu(&virt_packet) /
rpacket_get_virtual_packet_flag (packet);
break;
case 1:
weight =
(1.0 -
mu_min) / 2.0 / rpacket_get_virtual_packet_flag (packet);
break;
default:
fprintf (stderr, "Something has gone horribly wrong!\n");
// FIXME MR: we need to somehow signal an error here
// I'm adding an exit() here to inform the compiler about the impossible path
exit(1);
}
double doppler_factor_ratio =
rpacket_doppler_factor (packet, storage) /
rpacket_doppler_factor (&virt_packet, storage);
rpacket_set_energy(&virt_packet,
rpacket_get_energy (packet) * doppler_factor_ratio);
rpacket_set_nu(&virt_packet,rpacket_get_nu (packet) * doppler_factor_ratio);
reabsorbed = montecarlo_one_packet_loop (storage, &virt_packet, 1, mt_state);
#ifdef WITH_VPACKET_LOGGING
#ifdef WITHOPENMP
#pragma omp critical
{
#endif // WITHOPENMP
if (storage->virt_packet_count >= storage->virt_array_size)
{
storage->virt_array_size *= 2;
storage->virt_packet_nus = safe_realloc(storage->virt_packet_nus, sizeof(double) * storage->virt_array_size);
storage->virt_packet_energies = safe_realloc(storage->virt_packet_energies, sizeof(double) * storage->virt_array_size);
storage->virt_packet_last_interaction_in_nu = safe_realloc(storage->virt_packet_last_interaction_in_nu, sizeof(double) * storage->virt_array_size);
storage->virt_packet_last_interaction_type = safe_realloc(storage->virt_packet_last_interaction_type, sizeof(int64_t) * storage->virt_array_size);
storage->virt_packet_last_line_interaction_in_id = safe_realloc(storage->virt_packet_last_line_interaction_in_id, sizeof(int64_t) * storage->virt_array_size);
storage->virt_packet_last_line_interaction_out_id = safe_realloc(storage->virt_packet_last_line_interaction_out_id, sizeof(int64_t) * storage->virt_array_size);
}
storage->virt_packet_nus[storage->virt_packet_count] = rpacket_get_nu(&virt_packet);
storage->virt_packet_energies[storage->virt_packet_count] = rpacket_get_energy(&virt_packet) * weight;
storage->virt_packet_last_interaction_in_nu[storage->virt_packet_count] = storage->last_interaction_in_nu[rpacket_get_id (packet)];
storage->virt_packet_last_interaction_type[storage->virt_packet_count] = storage->last_interaction_type[rpacket_get_id (packet)];
storage->virt_packet_last_line_interaction_in_id[storage->virt_packet_count] = storage->last_line_interaction_in_id[rpacket_get_id (packet)];
storage->virt_packet_last_line_interaction_out_id[storage->virt_packet_count] = storage->last_line_interaction_out_id[rpacket_get_id (packet)];
storage->virt_packet_count += 1;
#ifdef WITHOPENMP
}
#endif // WITHOPENMP
#endif // WITH_VPACKET_LOGGING
if ((rpacket_get_nu(&virt_packet) < storage->spectrum_end_nu) &&
(rpacket_get_nu(&virt_packet) > storage->spectrum_start_nu))
{
#ifdef WITHOPENMP
#pragma omp critical
{
#endif // WITHOPENMP
int64_t virt_id_nu =
floor ((rpacket_get_nu(&virt_packet) -
storage->spectrum_start_nu) /
storage->spectrum_delta_nu);
storage->spectrum_virt_nu[virt_id_nu] +=
rpacket_get_energy(&virt_packet) * weight;
#ifdef WITHOPENMP
}
#endif // WITHOPENMP
}
}
}
else
{
return 1;
}
}
return reabsorbed;
}
void montecarlo_line_scatter(rpacket_t *packet, storage_model_t *storage, double distance)
{
double comov_energy = 0.0;
int64_t emission_line_id = 0;
double old_doppler_factor = 0.0;
double inverse_doppler_factor = 0.0;
double tau_line = 0.0;
double tau_electron = 0.0;
double tau_combined = 0.0;
bool virtual_close_line = false;
int64_t j_blue_idx = -1;
if (rpacket_get_virtual_packet(packet) == 0)
{
j_blue_idx = rpacket_get_current_shell_id(packet) * storage->line_lists_j_blues_nd + rpacket_get_next_line_id(packet);
increment_j_blue_estimator(packet, storage, distance, j_blue_idx);
}
tau_line = storage->line_lists_tau_sobolevs[rpacket_get_current_shell_id(packet) * storage->line_lists_tau_sobolevs_nd + rpacket_get_next_line_id(packet)];
tau_electron = storage->sigma_thomson * storage->electron_densities[rpacket_get_current_shell_id(packet)] * distance;
tau_combined = tau_line + tau_electron;
rpacket_set_next_line_id(packet, rpacket_get_next_line_id(packet) + 1);
if (rpacket_get_next_line_id(packet) == storage->no_of_lines)
{
rpacket_set_last_line(packet, true);
}
if (rpacket_get_virtual_packet(packet) > 0)
{
rpacket_set_tau_event(packet, rpacket_get_tau_event(packet) + tau_line);
}
else if (rpacket_get_tau_event(packet) < tau_combined)
{
old_doppler_factor = move_packet(packet, storage, distance);
rpacket_set_mu(packet, 2.0 * rk_double(&mt_state) - 1.0);
inverse_doppler_factor = 1.0 / rpacket_doppler_factor(packet, storage);
comov_energy = rpacket_get_energy(packet) * old_doppler_factor;
rpacket_set_energy(packet, comov_energy * inverse_doppler_factor);
storage->last_line_interaction_in_id[storage->current_packet_id] = rpacket_get_next_line_id(packet) - 1;
storage->last_line_interaction_shell_id[storage->current_packet_id] = rpacket_get_current_shell_id(packet);
storage->last_interaction_type[storage->current_packet_id] = 2;
if (storage->line_interaction_id == 0)
{
emission_line_id = rpacket_get_next_line_id(packet) - 1;
}
else if (storage->line_interaction_id >= 1)
{
emission_line_id = macro_atom(packet, storage);
}
storage->last_line_interaction_out_id[storage->current_packet_id] = emission_line_id;
rpacket_set_nu(packet, storage->line_list_nu[emission_line_id] * inverse_doppler_factor);
rpacket_set_nu_line(packet, storage->line_list_nu[emission_line_id]);
rpacket_set_next_line_id(packet, emission_line_id + 1);
rpacket_reset_tau_event(packet);
rpacket_set_recently_crossed_boundary(packet, 0);
if (rpacket_get_virtual_packet_flag(packet) > 0)
{
virtual_close_line = false;
if (!rpacket_get_last_line(packet) &&
fabs(storage->line_list_nu[rpacket_get_next_line_id(packet)] -
rpacket_get_nu_line(packet)) / rpacket_get_nu_line(packet) < 1e-7)
{
virtual_close_line = true;
}
// QUESTIONABLE!!!
bool old_close_line = rpacket_get_close_line(packet);
rpacket_set_close_line(packet, virtual_close_line);
montecarlo_one_packet(storage, packet, 1);
rpacket_set_close_line(packet, old_close_line);
virtual_close_line = false;
}
}
else
{
rpacket_set_tau_event(packet, rpacket_get_tau_event(packet) - tau_line);
}
if (!rpacket_get_last_line(packet) &&
fabs(storage->line_list_nu[rpacket_get_next_line_id(packet)] -
rpacket_get_nu_line(packet)) / rpacket_get_nu_line(packet) < 1e-7)
{
rpacket_set_close_line(packet, true);
}
}
bool
test_rpacket_get_energy(double value) {
rpacket_t rp;
rpacket_set_energy(&rp, value);
return value==rpacket_get_energy(&rp);
}
