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compare: 64-BitBrainstorm_2026:main-upstream
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3 Commits
oneapi-leg ... main-upstr

Author SHA1 Message Date
ianchb
17109fde9b [TEST]UPSTREAM: Pick some source changes from 48080d0a97 
* Sync new folder structure
 2026-04-23 20:55:40 +08:00
ianchb
c185f99ee3 UPSTREAM: Pick source changes from a5b2dd9e3c 
Original message: fix bug
 2026-04-23 20:18:44 +08:00
ianchb
4a13a9d37a UPSTREAM: Pick some source changes from 57ec145e59 2026-04-23 20:10:12 +08:00
231 changed files with 186677 additions and 192808 deletions
Expand all files Collapse all files

4
.gitignore vendored
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@@ -1,6 +1,6 @@
__pycache__
GW150914
GW150914*
GW150914-origin
docs
*.tmp
.codex

6
.idea/vcs.xml generated Normal file
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@@ -0,0 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="VcsDirectoryMappings">
<mapping directory="" vcs="Git" />
</component>
</project>

14
AMSS_NCKU_Program.py
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@@ -126,11 +126,6 @@ setup.generate_AMSSNCKU_input()
#inputvalue = input() ## Wait for user input (press Enter) to proceed
#print()
setup.print_puncture_information()
##################################################################
## Generate AMSS-NCKU program input files based on the configured parameters
print( )
@@ -177,9 +172,6 @@ print( " AMSS-NCKU macro file macrodef.h has been generated. " )
generate_macrodef.generate_macrodef_fh()
print( " AMSS-NCKU macro file macrodef.fh has been generated. " )
generate_macrodef.generate_build_config()
print( " AMSS-NCKU build config AMSS_NCKU_build.mk has been generated. " )
##################################################################
@@ -222,11 +214,9 @@ shutil.copytree(AMSS_NCKU_source_path, AMSS_NCKU_source_copy)
macrodef_h_path = os.path.join(File_directory, "macrodef.h")
macrodef_fh_path = os.path.join(File_directory, "macrodef.fh")
build_config_path = os.path.join(File_directory, "AMSS_NCKU_build.mk")
shutil.copy2(macrodef_h_path, AMSS_NCKU_source_copy)
shutil.copy2(macrodef_fh_path, AMSS_NCKU_source_copy)
shutil.copy2(build_config_path, AMSS_NCKU_source_copy)
# Notes on copying files:
# shutil.copy2 preserves file metadata such as modification time.
@@ -317,7 +307,7 @@ if (input_data.Initial_Data_Method == "Ansorg-TwoPuncture" ):
import generate_TwoPuncture_input
generate_TwoPuncture_input.generate_AMSSNCKU_TwoPuncture_input()
generate_TwoPuncture_input.generate_AMSSNCKU_TwoPuncture_input(numerical_grid.puncture_data)
print( )
print( " The input parfile for the TwoPunctureABE executable has been generated. " )
@@ -359,7 +349,7 @@ if (input_data.Initial_Data_Method == "Ansorg-TwoPuncture" ):
import renew_puncture_parameter
renew_puncture_parameter.append_AMSSNCKU_BSSN_input(File_directory, output_directory)
renew_puncture_parameter.append_AMSSNCKU_BSSN_input(File_directory, output_directory, numerical_grid.puncture_data)
## Generated AMSS-NCKU input filename

100
AMSS_NCKU_Program_Plot.py
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@@ -1,100 +0,0 @@
##################################################################
##
## AMSS-NCKU Plot-Only Restart Script
## Author: Xiaoqu / Claude
## 2026/05/12
##
## This script checks for existing output data from AMSS_NCKU_Program.py.
## If data exists, it skips all computation and goes directly to plotting,
## saving time when plotting was interrupted.
## If no data is found, it exits with a message.
##
##################################################################
## Guard against re-execution by multiprocessing child processes.
if __name__ != '__main__':
import sys as _sys
_sys.exit(0)
import os
import sys
import AMSS_NCKU_Input as input_data
##################################################################
## Construct paths from input configuration
File_directory = os.path.join(input_data.File_directory)
output_directory = os.path.join(File_directory, "AMSS_NCKU_output")
binary_results_directory = os.path.join(output_directory, input_data.Output_directory)
figure_directory = os.path.join(File_directory, "figure")
##################################################################
## Check whether the required output data files exist
required_files = [
os.path.join(binary_results_directory, "bssn_BH.dat"),
os.path.join(binary_results_directory, "bssn_ADMQs.dat"),
os.path.join(binary_results_directory, "bssn_psi4.dat"),
os.path.join(binary_results_directory, "bssn_constraint.dat"),
]
missing_files = [f for f in required_files if not os.path.exists(f)]
if missing_files:
print(" No existing AMSS_NCKU_Program.py output data found. ")
print(" The following required files are missing: ")
for f in missing_files:
print(f" {f}")
print()
print(" Please run AMSS_NCKU_Program.py first to generate the simulation data. ")
print(" Exiting. ")
sys.exit(1)
print(" Found existing AMSS_NCKU_Program.py output data. " )
print(" Skipping all computation and going directly to plotting. " )
print()
## Ensure the figure directory exists (it should, but be safe)
os.makedirs(figure_directory, exist_ok=True)
##################################################################
## Plot the AMSS-NCKU program results
import plot_xiaoqu
import plot_GW_strain_amplitude_xiaoqu
from parallel_plot_helper import run_plot_tasks_parallel
plot_tasks = []
## Plot black hole trajectory
plot_tasks.append((plot_xiaoqu.generate_puncture_orbit_plot, (binary_results_directory, figure_directory)))
plot_tasks.append((plot_xiaoqu.generate_puncture_orbit_plot3D, (binary_results_directory, figure_directory)))
## Plot black hole separation vs. time
plot_tasks.append((plot_xiaoqu.generate_puncture_distence_plot, (binary_results_directory, figure_directory)))
## Plot gravitational waveforms (psi4 and strain amplitude)
for i in range(input_data.Detector_Number):
plot_tasks.append((plot_xiaoqu.generate_gravitational_wave_psi4_plot, (binary_results_directory, figure_directory, i)))
plot_tasks.append((plot_GW_strain_amplitude_xiaoqu.generate_gravitational_wave_amplitude_plot, (binary_results_directory, figure_directory, i)))
## Plot ADM mass evolution
for i in range(input_data.Detector_Number):
plot_tasks.append((plot_xiaoqu.generate_ADMmass_plot, (binary_results_directory, figure_directory, i)))
## Plot Hamiltonian constraint violation over time
for i in range(input_data.grid_level):
plot_tasks.append((plot_xiaoqu.generate_constraint_check_plot, (binary_results_directory, figure_directory, i)))
run_plot_tasks_parallel(plot_tasks)
## Plot stored binary data (runs serially, not in the parallel pool)
plot_xiaoqu.generate_binary_data_plot(binary_results_directory, figure_directory)
print()
print(" Plotting completed successfully. ")
print()

0
AMSS_NCKU_source/BH_diagnostics.C → AMSS_NCKU_source/AHF_Direct/BH_diagnostics.C
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0
AMSS_NCKU_source/BH_diagnostics.h → AMSS_NCKU_source/AHF_Direct/BH_diagnostics.h
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0
AMSS_NCKU_source/FFT.f90 → AMSS_NCKU_source/AHF_Direct/FFT.f90
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0
AMSS_NCKU_source/IntPnts.C → AMSS_NCKU_source/AHF_Direct/IntPnts.C
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0
AMSS_NCKU_source/IntPnts0.C → AMSS_NCKU_source/AHF_Direct/IntPnts0.C
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0
AMSS_NCKU_source/Jacobian.C → AMSS_NCKU_source/AHF_Direct/Jacobian.C
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0
AMSS_NCKU_source/Jacobian.h → AMSS_NCKU_source/AHF_Direct/Jacobian.h
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0
AMSS_NCKU_source/Newton.C → AMSS_NCKU_source/AHF_Direct/Newton.C
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AMSS_NCKU_source/array.C → AMSS_NCKU_source/AHF_Direct/array.C
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AMSS_NCKU_source/array.h → AMSS_NCKU_source/AHF_Direct/array.h
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0
AMSS_NCKU_source/cctk.h → AMSS_NCKU_source/AHF_Direct/cctk.h
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0
AMSS_NCKU_source/cctk_Config.h → AMSS_NCKU_source/AHF_Direct/cctk_Config.h
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0
AMSS_NCKU_source/cctk_Constants.h → AMSS_NCKU_source/AHF_Direct/cctk_Constants.h
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0
AMSS_NCKU_source/cctk_Types.h → AMSS_NCKU_source/AHF_Direct/cctk_Types.h
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0
AMSS_NCKU_source/config.h → AMSS_NCKU_source/AHF_Direct/config.h
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0
AMSS_NCKU_source/coords.C → AMSS_NCKU_source/AHF_Direct/coords.C
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0
AMSS_NCKU_source/coords.h → AMSS_NCKU_source/AHF_Direct/coords.h
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0
AMSS_NCKU_source/cpm_map.C → AMSS_NCKU_source/AHF_Direct/cpm_map.C
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0
AMSS_NCKU_source/cpm_map.h → AMSS_NCKU_source/AHF_Direct/cpm_map.h
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0
AMSS_NCKU_source/driver.h → AMSS_NCKU_source/AHF_Direct/driver.h
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0
AMSS_NCKU_source/error_exit.C → AMSS_NCKU_source/AHF_Direct/error_exit.C
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0
AMSS_NCKU_source/expansion.C → AMSS_NCKU_source/AHF_Direct/expansion.C
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0
AMSS_NCKU_source/expansion_Jacobian.C → AMSS_NCKU_source/AHF_Direct/expansion_Jacobian.C
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0
AMSS_NCKU_source/fd_grid.C → AMSS_NCKU_source/AHF_Direct/fd_grid.C
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0
AMSS_NCKU_source/fd_grid.h → AMSS_NCKU_source/AHF_Direct/fd_grid.h
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0
AMSS_NCKU_source/find_horizons.C → AMSS_NCKU_source/AHF_Direct/find_horizons.C
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0
AMSS_NCKU_source/fuzzy.C → AMSS_NCKU_source/AHF_Direct/fuzzy.C
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0
AMSS_NCKU_source/gfns.h → AMSS_NCKU_source/AHF_Direct/gfns.h
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0
AMSS_NCKU_source/ghost_zone.C → AMSS_NCKU_source/AHF_Direct/ghost_zone.C
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0
AMSS_NCKU_source/ghost_zone.h → AMSS_NCKU_source/AHF_Direct/ghost_zone.h
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0
AMSS_NCKU_source/gr.h → AMSS_NCKU_source/AHF_Direct/gr.h
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0
AMSS_NCKU_source/horizon_sequence.C → AMSS_NCKU_source/AHF_Direct/horizon_sequence.C
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0
AMSS_NCKU_source/horizon_sequence.h → AMSS_NCKU_source/AHF_Direct/horizon_sequence.h
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0
AMSS_NCKU_source/ilucg.f90 → AMSS_NCKU_source/AHF_Direct/ilucg.f90
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0
AMSS_NCKU_source/ilucg.h → AMSS_NCKU_source/AHF_Direct/ilucg.h
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0
AMSS_NCKU_source/initial_guess.C → AMSS_NCKU_source/AHF_Direct/initial_guess.C
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0
AMSS_NCKU_source/linear_map.C → AMSS_NCKU_source/AHF_Direct/linear_map.C
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0
AMSS_NCKU_source/linear_map.h → AMSS_NCKU_source/AHF_Direct/linear_map.h
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0
AMSS_NCKU_source/miscfp.C → AMSS_NCKU_source/AHF_Direct/miscfp.C
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0
AMSS_NCKU_source/myglobal.h → AMSS_NCKU_source/AHF_Direct/myglobal.h
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0
AMSS_NCKU_source/norm.C → AMSS_NCKU_source/AHF_Direct/norm.C
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0
AMSS_NCKU_source/patch.C → AMSS_NCKU_source/AHF_Direct/patch.C
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0
AMSS_NCKU_source/patch.h → AMSS_NCKU_source/AHF_Direct/patch.h
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0
AMSS_NCKU_source/patch_edge.h → AMSS_NCKU_source/AHF_Direct/patch_edge.h
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0
AMSS_NCKU_source/patch_info.C → AMSS_NCKU_source/AHF_Direct/patch_info.C
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AMSS_NCKU_source/patch_info.h → AMSS_NCKU_source/AHF_Direct/patch_info.h
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AMSS_NCKU_source/patch_interp.C → AMSS_NCKU_source/AHF_Direct/patch_interp.C
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0
AMSS_NCKU_source/patch_interp.h → AMSS_NCKU_source/AHF_Direct/patch_interp.h
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AMSS_NCKU_source/patch_system.C → AMSS_NCKU_source/AHF_Direct/patch_system.C
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0
AMSS_NCKU_source/patch_system.h → AMSS_NCKU_source/AHF_Direct/patch_system.h
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0
AMSS_NCKU_source/patch_system_info.h → AMSS_NCKU_source/AHF_Direct/patch_system_info.h
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0
AMSS_NCKU_source/round.C → AMSS_NCKU_source/AHF_Direct/round.C
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AMSS_NCKU_source/setup.C → AMSS_NCKU_source/AHF_Direct/setup.C
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0
AMSS_NCKU_source/stdc.h → AMSS_NCKU_source/AHF_Direct/stdc.h
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0
AMSS_NCKU_source/tgrid.C → AMSS_NCKU_source/AHF_Direct/tgrid.C
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0
AMSS_NCKU_source/tgrid.h → AMSS_NCKU_source/AHF_Direct/tgrid.h
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0
AMSS_NCKU_source/util.h → AMSS_NCKU_source/AHF_Direct/util.h
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AMSS_NCKU_source/util_String.h → AMSS_NCKU_source/AHF_Direct/util_String.h
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0
AMSS_NCKU_source/util_Table.h → AMSS_NCKU_source/AHF_Direct/util_Table.h
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0
AMSS_NCKU_source/adm_constraint.f90 → AMSS_NCKU_source/BSSN/adm_constraint.f90
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0
AMSS_NCKU_source/bssn2adm.f90 → AMSS_NCKU_source/BSSN/bssn2adm.f90
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2
AMSS_NCKU_source/bssnEM_class.C → AMSS_NCKU_source/BSSN/bssnEM_class.C
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@@ -258,8 +258,6 @@ void bssnEM_class::Initialize()
PhysTime = StartTime;
Setup_Black_Hole_position();
}
setup_transfer_caches();
}
//================================================================================================

0
AMSS_NCKU_source/bssnEM_class.h → AMSS_NCKU_source/BSSN/bssnEM_class.h
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570
AMSS_NCKU_source/bssn_class.C → AMSS_NCKU_source/BSSN/bssn_class.C
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@@ -299,28 +299,6 @@ bssn_class::bssn_class(double Couranti, double StartTimei, double TotalTimei,
MPI_Comm_size(MPI_COMM_WORLD, &nprocs);
MPI_Comm_rank(MPI_COMM_WORLD, &myrank);
// Derived classes override Initialize(), so ownership-sensitive members must
// be in a known state before any specialized setup path runs.
GH = 0;
SH = 0;
PhysTime = 0.0;
BH_num = 0;
BH_num_input = 0;
Porg0 = 0;
Porgbr = 0;
Porg = 0;
Porg1 = 0;
Porg_rhs = 0;
Mass = 0;
Pmom = 0;
Spin = 0;
sync_cache_pre = 0;
sync_cache_cor = 0;
sync_cache_rp_coarse = 0;
sync_cache_rp_fine = 0;
sync_cache_restrict = 0;
sync_cache_outbd = 0;
// setup Monitors
{
stringstream a_stream;
@@ -1008,7 +986,13 @@ void bssn_class::Initialize()
Setup_Black_Hole_position();
}
setup_transfer_caches();
// Initialize sync caches (per-level, for predictor and corrector)
sync_cache_pre = new Parallel::SyncCache[GH->levels];
sync_cache_cor = new Parallel::SyncCache[GH->levels];
sync_cache_rp_coarse = new Parallel::SyncCache[GH->levels];
sync_cache_rp_fine = new Parallel::SyncCache[GH->levels];
sync_cache_restrict = new Parallel::SyncCache[GH->levels];
sync_cache_outbd = new Parallel::SyncCache[GH->levels];
}
//================================================================================================
@@ -1263,7 +1247,30 @@ bssn_class::~bssn_class()
#endif
// Destroy sync caches before GH
destroy_transfer_caches();
if (sync_cache_pre)
{
for (int i = 0; i < GH->levels; i++)
sync_cache_pre[i].destroy();
delete[] sync_cache_pre;
}
if (sync_cache_cor)
{
for (int i = 0; i < GH->levels; i++)
sync_cache_cor[i].destroy();
delete[] sync_cache_cor;
}
if (sync_cache_rp_coarse)
{
for (int i = 0; i < GH->levels; i++)
sync_cache_rp_coarse[i].destroy();
delete[] sync_cache_rp_coarse;
}
if (sync_cache_rp_fine)
{
for (int i = 0; i < GH->levels; i++)
sync_cache_rp_fine[i].destroy();
delete[] sync_cache_rp_fine;
}
delete GH;
#ifdef WithShell
@@ -2482,7 +2489,7 @@ void bssn_class::Evolve(int Steps)
GH->Regrid(Symmetry, BH_num, Porgbr, Porg0,
SynchList_cor, OldStateList, StateList, SynchList_pre,
fgt(PhysTime - dT_mon, StartTime, dT_mon / 2), ErrorMonitor);
invalidate_transfer_caches();
for (int il = 0; il < GH->levels; il++) { sync_cache_pre[il].invalidate(); sync_cache_cor[il].invalidate(); sync_cache_rp_coarse[il].invalidate(); sync_cache_rp_fine[il].invalidate(); sync_cache_restrict[il].invalidate(); sync_cache_outbd[il].invalidate(); }
STEP_TIMER_ADD(TB_REGRID, timer_regrid);
#endif
@@ -2723,7 +2730,7 @@ void bssn_class::RecursiveStep(int lev)
{
if (ConstraintRefreshLevels)
ConstraintRefreshLevels[lev] = 1;
invalidate_transfer_caches();
for (int il = 0; il < GH->levels; il++) { sync_cache_pre[il].invalidate(); sync_cache_cor[il].invalidate(); sync_cache_rp_coarse[il].invalidate(); sync_cache_rp_fine[il].invalidate(); sync_cache_restrict[il].invalidate(); sync_cache_outbd[il].invalidate(); }
}
STEP_TIMER_ADD(TB_REGRID, timer_regrid_onelevel);
#endif
@@ -2904,7 +2911,7 @@ void bssn_class::ParallelStep()
if (GH->Regrid_Onelevel(GH->mylev, Symmetry, BH_num, Porgbr, Porg0,
SynchList_cor, OldStateList, StateList, SynchList_pre,
fgt(PhysTime - dT_lev, StartTime, dT_lev / 2), ErrorMonitor))
invalidate_transfer_caches();
for (int il = 0; il < GH->levels; il++) { sync_cache_pre[il].invalidate(); sync_cache_cor[il].invalidate(); sync_cache_rp_coarse[il].invalidate(); sync_cache_rp_fine[il].invalidate(); sync_cache_restrict[il].invalidate(); sync_cache_outbd[il].invalidate(); }
#endif
}
@@ -3068,10 +3075,10 @@ void bssn_class::ParallelStep()
if (lev + 1 >= GH->movls)
{
// GH->Regrid_Onelevel_aux(lev,Symmetry,BH_num,Porgbr,Porg0,
if (GH->Regrid_Onelevel(lev + 1, Symmetry, BH_num, Porgbr, Porg0,
SynchList_cor, OldStateList, StateList, SynchList_pre,
fgt(PhysTime - dT_levp1, StartTime, dT_levp1 / 2), ErrorMonitor))
invalidate_transfer_caches();
if (GH->Regrid_Onelevel(lev + 1, Symmetry, BH_num, Porgbr, Porg0,
SynchList_cor, OldStateList, StateList, SynchList_pre,
fgt(PhysTime - dT_levp1, StartTime, dT_levp1 / 2), ErrorMonitor))
for (int il = 0; il < GH->levels; il++) { sync_cache_pre[il].invalidate(); sync_cache_cor[il].invalidate(); sync_cache_rp_coarse[il].invalidate(); sync_cache_rp_fine[il].invalidate(); sync_cache_restrict[il].invalidate(); sync_cache_outbd[il].invalidate(); }
// a_stream.clear();
// a_stream.str("");
@@ -3086,7 +3093,7 @@ void bssn_class::ParallelStep()
if (GH->Regrid_Onelevel(lev, Symmetry, BH_num, Porgbr, Porg0,
SynchList_cor, OldStateList, StateList, SynchList_pre,
fgt(PhysTime - dT_lev, StartTime, dT_lev / 2), ErrorMonitor))
invalidate_transfer_caches();
for (int il = 0; il < GH->levels; il++) { sync_cache_pre[il].invalidate(); sync_cache_cor[il].invalidate(); sync_cache_rp_coarse[il].invalidate(); sync_cache_rp_fine[il].invalidate(); sync_cache_restrict[il].invalidate(); sync_cache_outbd[il].invalidate(); }
// a_stream.clear();
// a_stream.str("");
@@ -3105,7 +3112,7 @@ void bssn_class::ParallelStep()
if (GH->Regrid_Onelevel(lev - 1, Symmetry, BH_num, Porgbr, Porg0,
SynchList_cor, OldStateList, StateList, SynchList_pre,
fgt(PhysTime - dT_lev, StartTime, dT_levm1 / 2), ErrorMonitor))
invalidate_transfer_caches();
for (int il = 0; il < GH->levels; il++) { sync_cache_pre[il].invalidate(); sync_cache_cor[il].invalidate(); sync_cache_rp_coarse[il].invalidate(); sync_cache_rp_fine[il].invalidate(); sync_cache_restrict[il].invalidate(); sync_cache_outbd[il].invalidate(); }
// a_stream.clear();
// a_stream.str("");
@@ -3121,7 +3128,7 @@ void bssn_class::ParallelStep()
if (GH->Regrid_Onelevel(lev - 1, Symmetry, BH_num, Porgbr, Porg0,
SynchList_cor, OldStateList, StateList, SynchList_pre,
fgt(PhysTime - dT_lev, StartTime, dT_levm1 / 2), ErrorMonitor))
invalidate_transfer_caches();
for (int il = 0; il < GH->levels; il++) { sync_cache_pre[il].invalidate(); sync_cache_cor[il].invalidate(); sync_cache_rp_coarse[il].invalidate(); sync_cache_rp_fine[il].invalidate(); sync_cache_restrict[il].invalidate(); sync_cache_outbd[il].invalidate(); }
// a_stream.clear();
// a_stream.str("");
@@ -3652,7 +3659,7 @@ void bssn_class::Step(int lev, int YN)
STEP_TIMER_DECL(timer_predictor_sync);
Parallel::AsyncSyncState async_pre;
sync_predictor_start(lev, SynchList_pre, async_pre);
Parallel::Sync_start(GH->PatL[lev], SynchList_pre, Symmetry, sync_cache_pre[lev], async_pre);
#ifdef WithShell
if (lev == 0)
@@ -3671,7 +3678,7 @@ void bssn_class::Step(int lev, int YN)
}
}
#endif
sync_predictor_finish(lev, async_pre, SynchList_pre);
Parallel::Sync_finish(sync_cache_pre[lev], async_pre, SynchList_pre, Symmetry);
#ifdef WithShell
// Complete non-blocking error reduction and check
@@ -4017,7 +4024,7 @@ void bssn_class::Step(int lev, int YN)
STEP_TIMER_DECL(timer_corrector_sync);
Parallel::AsyncSyncState async_cor;
sync_corrector_start(lev, SynchList_cor, async_cor);
Parallel::Sync_start(GH->PatL[lev], SynchList_cor, Symmetry, sync_cache_cor[lev], async_cor);
#ifdef WithShell
if (lev == 0)
@@ -4036,7 +4043,7 @@ void bssn_class::Step(int lev, int YN)
}
}
#endif
sync_corrector_finish(lev, async_cor, SynchList_cor);
Parallel::Sync_finish(sync_cache_cor[lev], async_cor, SynchList_cor, Symmetry);
#ifdef WithShell
// Complete non-blocking error reduction and check
@@ -4525,7 +4532,7 @@ void bssn_class::Step(int lev, int YN)
#endif
Parallel::AsyncSyncState async_pre;
sync_predictor_start(lev, SynchList_pre, async_pre);
Parallel::Sync_start(GH->PatL[lev], SynchList_pre, Symmetry, sync_cache_pre[lev], async_pre);
#ifdef WithShell
if (lev == 0)
@@ -4544,7 +4551,7 @@ void bssn_class::Step(int lev, int YN)
}
}
#endif
sync_predictor_finish(lev, async_pre, SynchList_pre);
Parallel::Sync_finish(sync_cache_pre[lev], async_pre, SynchList_pre, Symmetry);
#ifdef WithShell
// Complete non-blocking error reduction and check
@@ -4873,7 +4880,7 @@ void bssn_class::Step(int lev, int YN)
#endif
Parallel::AsyncSyncState async_cor;
sync_corrector_start(lev, SynchList_cor, async_cor);
Parallel::Sync_start(GH->PatL[lev], SynchList_cor, Symmetry, sync_cache_cor[lev], async_cor);
#ifdef WithShell
if (lev == 0)
@@ -4892,7 +4899,7 @@ void bssn_class::Step(int lev, int YN)
}
}
#endif
sync_corrector_finish(lev, async_cor, SynchList_cor);
Parallel::Sync_finish(sync_cache_cor[lev], async_cor, SynchList_cor, Symmetry);
#ifdef WithShell
// Complete non-blocking error reduction and check
@@ -5284,7 +5291,7 @@ void bssn_class::Step(int lev, int YN)
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"before Predictor sync");
sync_evolution(lev, SynchList_pre, sync_cache_pre);
Parallel::Sync_cached(GH->PatL[lev], SynchList_pre, Symmetry, sync_cache_pre[lev]);
// Complete non-blocking error reduction and check
MPI_Wait(&err_req, MPI_STATUS_IGNORE);
@@ -5485,7 +5492,7 @@ void bssn_class::Step(int lev, int YN)
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"before Corrector sync");
sync_evolution(lev, SynchList_cor, sync_cache_cor);
Parallel::Sync_cached(GH->PatL[lev], SynchList_cor, Symmetry, sync_cache_cor[lev]);
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"after Corrector sync");
@@ -6074,92 +6081,6 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB,
//
// SynchList_cor old -----------
{
#if (ABEtype == 1 || ABEtype == 2)
#if (PSTR == 1 || PSTR == 2)
// stringstream a_stream;
// a_stream.setf(ios::left);
#endif
if (lev > 0)
{
MyList<Patch> *Pp, *Ppc;
if (lev > trfls && YN == 0)
{
Pp = GH->PatL[lev - 1];
while (Pp)
{
if (BB)
Parallel::prepare_inter_time_level(Pp->data, SL, OL, corL,
SynchList_pre, 0);
else
Parallel::prepare_inter_time_level(Pp->data, SL, OL,
SynchList_pre, 0);
Pp = Pp->next;
}
#if (RPB == 0)
Parallel::Restrict(GH->PatL[lev - 1], GH->PatL[lev], SL, SynchList_pre, Symmetry);
#elif (RPB == 1)
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SynchList_pre, GH->rsul[lev], Symmetry);
#endif
Parallel::Sync(GH->PatL[lev - 1], SynchList_pre, Symmetry);
#if (RPB == 0)
Ppc = GH->PatL[lev - 1];
while (Ppc)
{
Pp = GH->PatL[lev];
while (Pp)
{
#if (MIXOUTB == 0)
Parallel::OutBdLow2Hi(Ppc->data, Pp->data, SynchList_pre, SL, Symmetry);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(Ppc->data, Pp->data, SynchList_pre, SL, Symmetry);
#endif
Pp = Pp->next;
}
Ppc = Ppc->next;
}
#elif (RPB == 1)
Parallel::OutBdLow2Hi_bam(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SL, GH->bdsul[lev], Symmetry);
#endif
}
else
{
#if (RPB == 0)
Parallel::Restrict(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, Symmetry);
#elif (RPB == 1)
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, GH->rsul[lev], Symmetry);
#endif
Parallel::Sync(GH->PatL[lev - 1], SL, Symmetry);
#if (RPB == 0)
Ppc = GH->PatL[lev - 1];
while (Ppc)
{
Pp = GH->PatL[lev];
while (Pp)
{
#if (MIXOUTB == 0)
Parallel::OutBdLow2Hi(Ppc->data, Pp->data, SL, SL, Symmetry);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(Ppc->data, Pp->data, SL, SL, Symmetry);
#endif
Pp = Pp->next;
}
Ppc = Ppc->next;
}
#elif (RPB == 1)
Parallel::OutBdLow2Hi_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, GH->bdsul[lev], Symmetry);
#endif
}
Parallel::Sync(GH->PatL[lev], SL, Symmetry);
}
return;
#endif
STEP_TIMER_DECL(timer_restrict_prolong);
#if (PSTR == 1 || PSTR == 2)
// stringstream a_stream;
@@ -6202,7 +6123,7 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB,
#endif
#if (RPB == 0)
restrict_evolution(lev, SL, SynchList_pre);
Parallel::Restrict_cached(GH->PatL[lev - 1], GH->PatL[lev], SL, SynchList_pre, Symmetry, sync_cache_restrict[lev]);
#elif (RPB == 1)
// Parallel::Restrict_bam(GH->PatL[lev-1],GH->PatL[lev],SL,SynchList_pre,Symmetry);
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SynchList_pre, GH->rsul[lev], Symmetry);
@@ -6215,7 +6136,7 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB,
// misc::tillherecheck(GH->Commlev[GH->mylev],GH->start_rank[GH->mylev],a_stream.str());
#endif
sync_evolution(lev - 1, SynchList_pre, sync_cache_rp_coarse);
Parallel::Sync_cached(GH->PatL[lev - 1], SynchList_pre, Symmetry, sync_cache_rp_coarse[lev]);
#if (PSTR == 1 || PSTR == 2)
// a_stream.clear();
@@ -6226,7 +6147,7 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB,
#if (RPB == 0)
#if (MIXOUTB == 0)
outbdlow2hi_evolution(lev, SynchList_pre, SL);
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SL, Symmetry, sync_cache_outbd[lev]);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SL, Symmetry);
#endif
@@ -6253,7 +6174,7 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB,
#endif
#if (RPB == 0)
restrict_evolution(lev, SL, SL);
Parallel::Restrict_cached(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, Symmetry, sync_cache_restrict[lev]);
#elif (RPB == 1)
// Parallel::Restrict_bam(GH->PatL[lev-1],GH->PatL[lev],SL,SL,Symmetry);
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, GH->rsul[lev], Symmetry);
@@ -6266,7 +6187,7 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB,
// misc::tillherecheck(GH->Commlev[GH->mylev],GH->start_rank[GH->mylev],a_stream.str());
#endif
sync_evolution(lev - 1, SL, sync_cache_rp_coarse);
Parallel::Sync_cached(GH->PatL[lev - 1], SL, Symmetry, sync_cache_rp_coarse[lev]);
#if (PSTR == 1 || PSTR == 2)
// a_stream.clear();
@@ -6277,7 +6198,7 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB,
#if (RPB == 0)
#if (MIXOUTB == 0)
outbdlow2hi_evolution(lev, SL, SL);
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, Symmetry, sync_cache_outbd[lev]);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, Symmetry);
#endif
@@ -6294,7 +6215,7 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB,
#endif
}
sync_evolution(lev, SL, sync_cache_rp_fine);
Parallel::Sync_cached(GH->PatL[lev], SL, Symmetry, sync_cache_rp_fine[lev]);
#if (PSTR == 1 || PSTR == 2)
// a_stream.clear();
@@ -6323,91 +6244,6 @@ void bssn_class::RestrictProlong_aux(int lev, int YN, bool BB,
//
// SynchList_cor old -----------
{
#if (ABEtype == 1 || ABEtype == 2)
if (lev >= GH->levels - 1)
return;
lev = lev + 1;
if (lev > 0)
{
MyList<Patch> *Pp, *Ppc;
if (lev > trfls && YN == 0)
{
Pp = GH->PatL[lev - 1];
while (Pp)
{
if (BB)
Parallel::prepare_inter_time_level(Pp->data, SL, OL, corL,
SynchList_pre, 0);
else
Parallel::prepare_inter_time_level(Pp->data, SL, OL,
SynchList_pre, 0);
Pp = Pp->next;
}
#if (RPB == 0)
Parallel::Restrict(GH->PatL[lev - 1], GH->PatL[lev], SL, SynchList_pre, Symmetry);
#elif (RPB == 1)
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SynchList_pre, GH->rsul[lev], Symmetry);
#endif
Parallel::Sync(GH->PatL[lev - 1], SynchList_pre, Symmetry);
#if (RPB == 0)
Ppc = GH->PatL[lev - 1];
while (Ppc)
{
Pp = GH->PatL[lev];
while (Pp)
{
#if (MIXOUTB == 0)
Parallel::OutBdLow2Hi(Ppc->data, Pp->data, SynchList_pre, SL, Symmetry);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(Ppc->data, Pp->data, SynchList_pre, SL, Symmetry);
#endif
Pp = Pp->next;
}
Ppc = Ppc->next;
}
#elif (RPB == 1)
Parallel::OutBdLow2Hi_bam(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SL, GH->bdsul[lev], Symmetry);
#endif
}
else
{
#if (RPB == 0)
Parallel::Restrict(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, Symmetry);
#elif (RPB == 1)
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, GH->rsul[lev], Symmetry);
#endif
Parallel::Sync(GH->PatL[lev - 1], SL, Symmetry);
#if (RPB == 0)
Ppc = GH->PatL[lev - 1];
while (Ppc)
{
Pp = GH->PatL[lev];
while (Pp)
{
#if (MIXOUTB == 0)
Parallel::OutBdLow2Hi(Ppc->data, Pp->data, SL, SL, Symmetry);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(Ppc->data, Pp->data, SL, SL, Symmetry);
#endif
Pp = Pp->next;
}
Ppc = Ppc->next;
}
#elif (RPB == 1)
Parallel::OutBdLow2Hi_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, GH->bdsul[lev], Symmetry);
#endif
}
Parallel::Sync(GH->PatL[lev], SL, Symmetry);
}
return;
#endif
STEP_TIMER_DECL(timer_restrict_prolong);
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"starting RestrictProlong_aux");
@@ -6433,17 +6269,17 @@ void bssn_class::RestrictProlong_aux(int lev, int YN, bool BB,
}
#if (RPB == 0)
restrict_evolution(lev, SL, SynchList_pre);
Parallel::Restrict_cached(GH->PatL[lev - 1], GH->PatL[lev], SL, SynchList_pre, Symmetry, sync_cache_restrict[lev]);
#elif (RPB == 1)
// Parallel::Restrict_bam(GH->PatL[lev-1],GH->PatL[lev],SL,SynchList_pre,Symmetry);
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SynchList_pre, GH->rsul[lev], Symmetry);
#endif
sync_evolution(lev - 1, SynchList_pre, sync_cache_rp_coarse);
Parallel::Sync_cached(GH->PatL[lev - 1], SynchList_pre, Symmetry, sync_cache_rp_coarse[lev]);
#if (RPB == 0)
#if (MIXOUTB == 0)
outbdlow2hi_evolution(lev, SynchList_pre, SL);
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SL, Symmetry, sync_cache_outbd[lev]);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SL, Symmetry);
#endif
@@ -6455,17 +6291,17 @@ void bssn_class::RestrictProlong_aux(int lev, int YN, bool BB,
else // no time refinement levels and for all same time levels
{
#if (RPB == 0)
restrict_evolution(lev, SL, SL);
Parallel::Restrict_cached(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, Symmetry, sync_cache_restrict[lev]);
#elif (RPB == 1)
// Parallel::Restrict_bam(GH->PatL[lev-1],GH->PatL[lev],SL,SL,Symmetry);
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, GH->rsul[lev], Symmetry);
#endif
sync_evolution(lev - 1, SL, sync_cache_rp_coarse);
Parallel::Sync_cached(GH->PatL[lev - 1], SL, Symmetry, sync_cache_rp_coarse[lev]);
#if (RPB == 0)
#if (MIXOUTB == 0)
outbdlow2hi_evolution(lev, SL, SL);
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, Symmetry, sync_cache_outbd[lev]);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(GH->PatL[lev - 1], GH->PatL[lev], SL, SL, Symmetry);
#endif
@@ -6475,11 +6311,7 @@ void bssn_class::RestrictProlong_aux(int lev, int YN, bool BB,
#endif
}
#if (ABEtype == 1 || ABEtype == 2)
Parallel::Sync(GH->PatL[lev], SL, Symmetry);
#else
sync_evolution(lev, SL, sync_cache_rp_fine);
#endif
Parallel::Sync_cached(GH->PatL[lev], SL, Symmetry, sync_cache_rp_fine[lev]);
}
STEP_TIMER_ADD(TB_RESTRICT_PROLONG, timer_restrict_prolong);
}
@@ -6492,93 +6324,8 @@ void bssn_class::RestrictProlong_aux(int lev, int YN, bool BB,
void bssn_class::RestrictProlong(int lev, int YN, bool BB)
{
double dT_lev = dT * pow(0.5, Mymax(lev, trfls));
#if (ABEtype == 1 || ABEtype == 2)
if (lev > 0)
{
MyList<Patch> *Pp, *Ppc;
if (lev > trfls && YN == 0)
{
if (myrank == 0)
cout << "/=: " << GH->Lt[lev - 1] << "," << GH->Lt[lev] + dT_lev << endl;
Pp = GH->PatL[lev - 1];
while (Pp)
{
if (BB)
Parallel::prepare_inter_time_level(Pp->data, StateList, OldStateList, SynchList_cor,
SynchList_pre, 0);
else
Parallel::prepare_inter_time_level(Pp->data, StateList, OldStateList,
SynchList_pre, 0);
Pp = Pp->next;
}
#if (RPB == 0)
Parallel::Restrict(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, SynchList_pre, Symmetry);
#elif (RPB == 1)
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, SynchList_pre, GH->rsul[lev], Symmetry);
#endif
Parallel::Sync(GH->PatL[lev - 1], SynchList_pre, Symmetry);
#if (RPB == 0)
Ppc = GH->PatL[lev - 1];
while (Ppc)
{
Pp = GH->PatL[lev];
while (Pp)
{
#if (MIXOUTB == 0)
Parallel::OutBdLow2Hi(Ppc->data, Pp->data, SynchList_pre, SynchList_cor, Symmetry);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(Ppc->data, Pp->data, SynchList_pre, SynchList_cor, Symmetry);
#endif
Pp = Pp->next;
}
Ppc = Ppc->next;
}
#elif (RPB == 1)
Parallel::OutBdLow2Hi_bam(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SynchList_cor, GH->bdsul[lev], Symmetry);
#endif
}
else
{
if (myrank == 0)
cout << "===: " << GH->Lt[lev - 1] << "," << GH->Lt[lev] + dT_lev << endl;
#if (RPB == 0)
Parallel::Restrict(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, StateList, Symmetry);
#elif (RPB == 1)
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, StateList, GH->rsul[lev], Symmetry);
#endif
Parallel::Sync(GH->PatL[lev - 1], StateList, Symmetry);
#if (RPB == 0)
Ppc = GH->PatL[lev - 1];
while (Ppc)
{
Pp = GH->PatL[lev];
while (Pp)
{
#if (MIXOUTB == 0)
Parallel::OutBdLow2Hi(Ppc->data, Pp->data, StateList, SynchList_cor, Symmetry);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(Ppc->data, Pp->data, StateList, SynchList_cor, Symmetry);
#endif
Pp = Pp->next;
}
Ppc = Ppc->next;
}
#elif (RPB == 1)
Parallel::OutBdLow2Hi_bam(GH->PatL[lev - 1], GH->PatL[lev], StateList, SynchList_cor, GH->bdsul[lev], Symmetry);
#endif
}
Parallel::Sync(GH->PatL[lev], SynchList_cor, Symmetry);
}
return;
#endif
STEP_TIMER_DECL(timer_restrict_prolong);
double dT_lev = dT * pow(0.5, Mymax(lev, trfls));
// we assume for fine
// SynchList_cor 1 -----------
//
@@ -6611,17 +6358,17 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB)
}
#if (RPB == 0)
restrict_evolution(lev, SynchList_cor, SynchList_pre);
Parallel::Restrict_cached(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, SynchList_pre, Symmetry, sync_cache_restrict[lev]);
#elif (RPB == 1)
// Parallel::Restrict_bam(GH->PatL[lev-1],GH->PatL[lev],SynchList_cor,SynchList_pre,Symmetry);
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, SynchList_pre, GH->rsul[lev], Symmetry);
#endif
sync_evolution(lev - 1, SynchList_pre, sync_cache_rp_coarse);
Parallel::Sync_cached(GH->PatL[lev - 1], SynchList_pre, Symmetry, sync_cache_rp_coarse[lev]);
#if (RPB == 0)
#if (MIXOUTB == 0)
outbdlow2hi_evolution(lev, SynchList_pre, SynchList_cor);
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SynchList_cor, Symmetry, sync_cache_outbd[lev]);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SynchList_cor, Symmetry);
#endif
@@ -6635,17 +6382,17 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB)
if (myrank == 0)
cout << "===: " << GH->Lt[lev - 1] << "," << GH->Lt[lev] + dT_lev << endl;
#if (RPB == 0)
restrict_evolution(lev, SynchList_cor, StateList);
Parallel::Restrict_cached(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, StateList, Symmetry, sync_cache_restrict[lev]);
#elif (RPB == 1)
// Parallel::Restrict_bam(GH->PatL[lev-1],GH->PatL[lev],SynchList_cor,StateList,Symmetry);
Parallel::Restrict_bam(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, StateList, GH->rsul[lev], Symmetry);
#endif
sync_evolution(lev - 1, StateList, sync_cache_rp_coarse);
Parallel::Sync_cached(GH->PatL[lev - 1], StateList, Symmetry, sync_cache_rp_coarse[lev]);
#if (RPB == 0)
#if (MIXOUTB == 0)
outbdlow2hi_evolution(lev, StateList, SynchList_cor);
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], StateList, SynchList_cor, Symmetry, sync_cache_outbd[lev]);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(GH->PatL[lev - 1], GH->PatL[lev], StateList, SynchList_cor, Symmetry);
#endif
@@ -6655,7 +6402,7 @@ void bssn_class::RestrictProlong(int lev, int YN, bool BB)
#endif
}
sync_evolution(lev, SynchList_cor, sync_cache_rp_fine);
Parallel::Sync_cached(GH->PatL[lev], SynchList_cor, Symmetry, sync_cache_rp_fine[lev]);
}
STEP_TIMER_ADD(TB_RESTRICT_PROLONG, timer_restrict_prolong);
}
@@ -6687,7 +6434,7 @@ void bssn_class::ProlongRestrict(int lev, int YN, bool BB)
#if (RPB == 0)
#if (MIXOUTB == 0)
outbdlow2hi_evolution(lev, SynchList_pre, SynchList_cor);
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SynchList_cor, Symmetry, sync_cache_outbd[lev]);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(GH->PatL[lev - 1], GH->PatL[lev], SynchList_pre, SynchList_cor, Symmetry);
#endif
@@ -6700,7 +6447,7 @@ void bssn_class::ProlongRestrict(int lev, int YN, bool BB)
{
#if (RPB == 0)
#if (MIXOUTB == 0)
outbdlow2hi_evolution(lev, StateList, SynchList_cor);
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], StateList, SynchList_cor, Symmetry, sync_cache_outbd[lev]);
#elif (MIXOUTB == 1)
Parallel::OutBdLow2Himix(GH->PatL[lev - 1], GH->PatL[lev], StateList, SynchList_cor, Symmetry);
#endif
@@ -6719,10 +6466,10 @@ void bssn_class::ProlongRestrict(int lev, int YN, bool BB)
#else
Parallel::Restrict_after(GH->PatL[lev - 1], GH->PatL[lev], SynchList_cor, StateList, Symmetry);
#endif
sync_evolution(lev - 1, StateList, sync_cache_rp_coarse);
Parallel::Sync_cached(GH->PatL[lev - 1], StateList, Symmetry, sync_cache_rp_coarse[lev]);
}
sync_evolution(lev, SynchList_cor, sync_cache_rp_fine);
Parallel::Sync_cached(GH->PatL[lev], SynchList_cor, Symmetry, sync_cache_rp_fine[lev]);
}
}
#undef MIXOUTB
@@ -7452,169 +7199,6 @@ void bssn_class::compute_Porg_rhs(double **BH_PS, double **BH_RHS, var *forx, va
}
}
}
bool bssn_class::use_transfer_cache() const
{
#if BSSN_USE_TRANSFER_CACHE
return true;
#else
return false;
#endif
}
void bssn_class::setup_transfer_caches()
{
sync_cache_pre = 0;
sync_cache_cor = 0;
sync_cache_rp_coarse = 0;
sync_cache_rp_fine = 0;
sync_cache_restrict = 0;
sync_cache_outbd = 0;
if (!use_transfer_cache() || !GH)
return;
sync_cache_pre = new Parallel::SyncCache[GH->levels];
sync_cache_cor = new Parallel::SyncCache[GH->levels];
sync_cache_rp_coarse = new Parallel::SyncCache[GH->levels];
sync_cache_rp_fine = new Parallel::SyncCache[GH->levels];
sync_cache_restrict = new Parallel::SyncCache[GH->levels];
sync_cache_outbd = new Parallel::SyncCache[GH->levels];
}
void bssn_class::invalidate_transfer_caches()
{
if (!use_transfer_cache() || !GH || !sync_cache_pre || !sync_cache_cor ||
!sync_cache_rp_coarse || !sync_cache_rp_fine || !sync_cache_restrict || !sync_cache_outbd)
return;
for (int il = 0; il < GH->levels; il++)
{
sync_cache_pre[il].invalidate();
sync_cache_cor[il].invalidate();
sync_cache_rp_coarse[il].invalidate();
sync_cache_rp_fine[il].invalidate();
sync_cache_restrict[il].invalidate();
sync_cache_outbd[il].invalidate();
}
}
void bssn_class::destroy_transfer_caches()
{
if (sync_cache_pre)
{
if (use_transfer_cache() && GH)
for (int i = 0; i < GH->levels; i++)
sync_cache_pre[i].destroy();
delete[] sync_cache_pre;
sync_cache_pre = 0;
}
if (sync_cache_cor)
{
if (use_transfer_cache() && GH)
for (int i = 0; i < GH->levels; i++)
sync_cache_cor[i].destroy();
delete[] sync_cache_cor;
sync_cache_cor = 0;
}
if (sync_cache_rp_coarse)
{
if (use_transfer_cache() && GH)
for (int i = 0; i < GH->levels; i++)
sync_cache_rp_coarse[i].destroy();
delete[] sync_cache_rp_coarse;
sync_cache_rp_coarse = 0;
}
if (sync_cache_rp_fine)
{
if (use_transfer_cache() && GH)
for (int i = 0; i < GH->levels; i++)
sync_cache_rp_fine[i].destroy();
delete[] sync_cache_rp_fine;
sync_cache_rp_fine = 0;
}
if (sync_cache_restrict)
{
if (use_transfer_cache() && GH)
for (int i = 0; i < GH->levels; i++)
sync_cache_restrict[i].destroy();
delete[] sync_cache_restrict;
sync_cache_restrict = 0;
}
if (sync_cache_outbd)
{
if (use_transfer_cache() && GH)
for (int i = 0; i < GH->levels; i++)
sync_cache_outbd[i].destroy();
delete[] sync_cache_outbd;
sync_cache_outbd = 0;
}
}
void bssn_class::sync_predictor_start(int lev, MyList<var> *VarList, Parallel::AsyncSyncState &async_state)
{
if (use_transfer_cache())
Parallel::Sync_start(GH->PatL[lev], VarList, Symmetry, sync_cache_pre[lev], async_state);
else
Parallel::Sync(GH->PatL[lev], VarList, Symmetry);
}
void bssn_class::sync_predictor_finish(int lev, Parallel::AsyncSyncState &async_state, MyList<var> *VarList)
{
if (use_transfer_cache())
Parallel::Sync_finish(sync_cache_pre[lev], async_state, VarList, Symmetry);
}
void bssn_class::sync_corrector_start(int lev, MyList<var> *VarList, Parallel::AsyncSyncState &async_state)
{
if (use_transfer_cache())
Parallel::Sync_start(GH->PatL[lev], VarList, Symmetry, sync_cache_cor[lev], async_state);
else
Parallel::Sync(GH->PatL[lev], VarList, Symmetry);
}
void bssn_class::sync_corrector_finish(int lev, Parallel::AsyncSyncState &async_state, MyList<var> *VarList)
{
if (use_transfer_cache())
Parallel::Sync_finish(sync_cache_cor[lev], async_state, VarList, Symmetry);
}
void bssn_class::sync_evolution(int lev, MyList<var> *VarList, Parallel::SyncCache *cache_array)
{
if (use_transfer_cache() && cache_array)
Parallel::Sync_cached(GH->PatL[lev], VarList, Symmetry, cache_array[lev]);
else
Parallel::Sync(GH->PatL[lev], VarList, Symmetry);
}
void bssn_class::restrict_evolution(int lev, MyList<var> *src_var_list, MyList<var> *dst_var_list)
{
if (use_transfer_cache())
Parallel::Restrict_cached(GH->PatL[lev - 1], GH->PatL[lev], src_var_list, dst_var_list, Symmetry, sync_cache_restrict[lev]);
else
Parallel::Restrict(GH->PatL[lev - 1], GH->PatL[lev], src_var_list, dst_var_list, Symmetry);
}
void bssn_class::outbdlow2hi_evolution(int lev, MyList<var> *src_var_list, MyList<var> *dst_var_list)
{
if (use_transfer_cache())
{
Parallel::OutBdLow2Hi_cached(GH->PatL[lev - 1], GH->PatL[lev], src_var_list, dst_var_list, Symmetry, sync_cache_outbd[lev]);
return;
}
MyList<Patch> *Ppc = GH->PatL[lev - 1];
while (Ppc)
{
MyList<Patch> *Pp = GH->PatL[lev];
while (Pp)
{
Parallel::OutBdLow2Hi(Ppc->data, Pp->data, src_var_list, dst_var_list, Symmetry);
Pp = Pp->next;
}
Ppc = Ppc->next;
}
}
#endif
//================================================================================================

19
AMSS_NCKU_source/bssn_class.h → AMSS_NCKU_source/BSSN/bssn_class.h
View File

@@ -33,14 +33,6 @@ using namespace std;
extern void setpbh(int iBHN, double **iPBH, double *iMass, int rBHN);
#ifndef BSSN_USE_TRANSFER_CACHE
#define BSSN_USE_TRANSFER_CACHE 1
#endif
#ifndef BSSN_USE_ESCALAR_C_KERNEL
#define BSSN_USE_ESCALAR_C_KERNEL 1
#endif
class bssn_class
{
public:
@@ -179,17 +171,6 @@ public:
void testOutBd();
bool check_Stdin_Abort();
bool use_transfer_cache() const;
void setup_transfer_caches();
void invalidate_transfer_caches();
void destroy_transfer_caches();
void sync_predictor_start(int lev, MyList<var> *VarList, Parallel::AsyncSyncState &async_state);
void sync_predictor_finish(int lev, Parallel::AsyncSyncState &async_state, MyList<var> *VarList);
void sync_corrector_start(int lev, MyList<var> *VarList, Parallel::AsyncSyncState &async_state);
void sync_corrector_finish(int lev, Parallel::AsyncSyncState &async_state, MyList<var> *VarList);
void sync_evolution(int lev, MyList<var> *VarList, Parallel::SyncCache *cache_array = 0);
void restrict_evolution(int lev, MyList<var> *src_var_list, MyList<var> *dst_var_list);
void outbdlow2hi_evolution(int lev, MyList<var> *src_var_list, MyList<var> *dst_var_list);
virtual void Setup_Initial_Data_Cao();
virtual void Setup_Initial_Data_Lousto();

0
AMSS_NCKU_source/bssn_constraint.f90 → AMSS_NCKU_source/BSSN/bssn_constraint.f90
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0
AMSS_NCKU_source/bssn_rhs.f90 → AMSS_NCKU_source/BSSN/bssn_rhs.f90
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48
AMSS_NCKU_source/bssn_rhs.h → AMSS_NCKU_source/BSSN/bssn_rhs.h
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@@ -67,27 +67,6 @@ extern "C"
int &, int &, double &, int &);
}
int f_compute_rhs_bssn_escalar_c(int *, double &, double *, double *, double *, // ex,T,X,Y,Z
double *, double *, // chi, trK
double *, double *, double *, double *, double *, double *, // gij
double *, double *, double *, double *, double *, double *, // Aij
double *, double *, double *, // Gam
double *, double *, double *, double *, double *, double *, double *, // Gauge
double *, double *, // Sphi, Spi
double *, double *, // chi, trK
double *, double *, double *, double *, double *, double *, // gij
double *, double *, double *, double *, double *, double *, // Aij
double *, double *, double *, // Gam
double *, double *, double *, double *, double *, double *, double *, // Gauge
double *, double *, // Sphi, Spi
double *, double *, double *, double *, double *, double *, double *, double *, double *, double *, // stress-energy
double *, double *, double *, double *, double *, double *, // Christoffel
double *, double *, double *, double *, double *, double *, // Christoffel
double *, double *, double *, double *, double *, double *, // Christoffel
double *, double *, double *, double *, double *, double *, // Ricci
double *, double *, double *, double *, double *, double *, double *, // constraint violation
int &, int &, double &, int &);
extern "C"
{
int f_compute_rhs_bssn_ss(int *, double &, double *, double *, double *, // ex,T,rho,sigma,R
@@ -262,31 +241,4 @@ extern "C"
double *);
} // FR_cons
// BSSN-EM C kernel (replaces empart.f90 + bssn_rhs.f90 for BSSN+Maxwell)
int f_compute_rhs_bssn_em_c(int *, double &, double *, double *, double *,
double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *,
double *, double *, double *, double *, double *, double *, double *,
double *, double *, double *,
double *, double *, double *, double *, double *, double *, double *, double *,
double *, double *, double *,
double *, double *,
double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *,
double *, double *, double *, double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *, double *, double *,
double *, double *, double *,
double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *,
double *, double *, double *, double *, double *, double *,
int &, int &, double &, int &);
#endif /* BSSN_H */

10
AMSS_NCKU_source/bssn_rhs_c.C → AMSS_NCKU_source/BSSN/bssn_rhs_c.C
View File

@@ -1075,10 +1075,6 @@ int f_compute_rhs_bssn(int *ex, double &T,
}
#endif
#if (GAUGE == 2 || GAUGE == 3 || GAUGE == 4 || GAUGE == 5)
fderivs(ex,chi,dtSfx_rhs,dtSfy_rhs,dtSfz_rhs,X,Y,Z,SYM,SYM,SYM,Symmetry,Lev);
#endif
for (int i = 0; i < all; i += 1) {
#if (GAUGE == 0)
betax_rhs[i] = FF * dtSfx[i];
@@ -1164,17 +1160,11 @@ int f_compute_rhs_bssn(int *ex, double &T,
lopsided_kodis(ex,X,Y,Z,gyz,gyz_rhs,betax,betay,betaz,Symmetry,SAA,eps);
lopsided_kodis(ex,X,Y,Z,betaz,betaz_rhs,betax,betay,betaz,Symmetry,SSA,eps);
lopsided_kodis(ex,X,Y,Z,dzz,gzz_rhs,betax,betay,betaz,Symmetry,SSS,eps);
#if (GAUGE == 0 || GAUGE == 2 || GAUGE == 3 || GAUGE == 6 || GAUGE == 7)
lopsided_kodis(ex,X,Y,Z,dtSfx,dtSfx_rhs,betax,betay,betaz,Symmetry,ASS,eps);
#endif
lopsided_kodis(ex,X,Y,Z,Axx,Axx_rhs,betax,betay,betaz,Symmetry,SSS,eps);
#if (GAUGE == 0 || GAUGE == 2 || GAUGE == 3 || GAUGE == 6 || GAUGE == 7)
lopsided_kodis(ex,X,Y,Z,dtSfy,dtSfy_rhs,betax,betay,betaz,Symmetry,SAS,eps);
#endif
lopsided_kodis(ex,X,Y,Z,Axy,Axy_rhs,betax,betay,betaz,Symmetry,AAS,eps);
#if (GAUGE == 0 || GAUGE == 2 || GAUGE == 3 || GAUGE == 6 || GAUGE == 7)
lopsided_kodis(ex,X,Y,Z,dtSfz,dtSfz_rhs,betax,betay,betaz,Symmetry,SSA,eps);
#endif
lopsided_kodis(ex,X,Y,Z,Axz,Axz_rhs,betax,betay,betaz,Symmetry,ASA,eps);
lopsided_kodis(ex,X,Y,Z,Ayy,Ayy_rhs,betax,betay,betaz,Symmetry,SSS,eps);
lopsided_kodis(ex,X,Y,Z,Ayz,Ayz_rhs,betax,betay,betaz,Symmetry,SAA,eps);

0
AMSS_NCKU_source/bssn_rhs_ss.f90 → AMSS_NCKU_source/BSSN/bssn_rhs_ss.f90
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0
AMSS_NCKU_source/empart.f90 → AMSS_NCKU_source/BSSN/empart.f90
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0
AMSS_NCKU_source/empart.h → AMSS_NCKU_source/BSSN/empart.h
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0
AMSS_NCKU_source/enforce_algebra.f90 → AMSS_NCKU_source/BSSN/enforce_algebra.f90
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0
AMSS_NCKU_source/enforce_algebra.h → AMSS_NCKU_source/BSSN/enforce_algebra.h
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0
AMSS_NCKU_source/fadmquantites_bssn.f90 → AMSS_NCKU_source/BSSN/fadmquantites_bssn.f90
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0
AMSS_NCKU_source/fadmquantites_bssn.h → AMSS_NCKU_source/BSSN/fadmquantites_bssn.h
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0
AMSS_NCKU_source/fourdcurvature.f90 → AMSS_NCKU_source/BSSN/fourdcurvature.f90
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255
AMSS_NCKU_source/BSSN/lopsided_c.C Normal file
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@@ -0,0 +1,255 @@
#include "tool.h"
/*
* 你需要提供 symmetry_bd 的 C 版本(或 Fortran 绑到 C 的接口)。
* Fortran: call symmetry_bd(3,ex,f,fh,SoA)
*
* 约定:
* nghost = 3
* ex[3] = {ex1,ex2,ex3}
* f = 原始网格 (ex1*ex2*ex3)
* fh = 扩展网格 ((ex1+3)*(ex2+3)*(ex3+3)),对应 Fortran 的 (-2:ex1, ...)
* SoA[3] = 输入参数
*/
void lopsided(const int ex[3],
const double *X, const double *Y, const double *Z,
const double *f, double *f_rhs,
const double *Sfx, const double *Sfy, const double *Sfz,
int Symmetry, const double SoA[3])
{
const double ZEO = 0.0, ONE = 1.0, F3 = 3.0;
const double TWO = 2.0, F6 = 6.0, F18 = 18.0;
const double F12 = 12.0, F10 = 10.0, EIT = 8.0;
const int NO_SYMM = 0, EQ_SYMM = 1, OCTANT = 2;
(void)OCTANT; // 这里和 Fortran 一样只是定义了不用也没关系
const int ex1 = ex[0], ex2 = ex[1], ex3 = ex[2];
// 对应 Fortran: dX = X(2)-X(1) Fortran 1-based
// C: X[1]-X[0]
const double dX = X[1] - X[0];
const double dY = Y[1] - Y[0];
const double dZ = Z[1] - Z[0];
const double d12dx = ONE / F12 / dX;
const double d12dy = ONE / F12 / dY;
const double d12dz = ONE / F12 / dZ;
// Fortran 里算了 d2dx/d2dy/d2dz 但本 subroutine 里没用到(保持一致也算出来)
const double d2dx = ONE / TWO / dX;
const double d2dy = ONE / TWO / dY;
const double d2dz = ONE / TWO / dZ;
(void)d2dx; (void)d2dy; (void)d2dz;
// Fortran:
// imax = ex(1); jmax = ex(2); kmax = ex(3)
const int imaxF = ex1;
const int jmaxF = ex2;
const int kmaxF = ex3;
// Fortran:
// imin=jmin=kmin=1; 若满足对称条件则设为 -2
int iminF = 1, jminF = 1, kminF = 1;
if (Symmetry > NO_SYMM && fabs(Z[0]) < dZ) kminF = -2;
if (Symmetry > EQ_SYMM && fabs(X[0]) < dX) iminF = -2;
if (Symmetry > EQ_SYMM && fabs(Y[0]) < dY) jminF = -2;
// 分配 fh大小 (ex1+3)*(ex2+3)*(ex3+3)
const size_t nx = (size_t)ex1 + 3;
const size_t ny = (size_t)ex2 + 3;
const size_t nz = (size_t)ex3 + 3;
const size_t fh_size = nx * ny * nz;
double *fh = (double*)malloc(fh_size * sizeof(double));
if (!fh) return; // 内存不足:直接返回(你也可以改成 abort/报错)
// Fortran: call symmetry_bd(3,ex,f,fh,SoA)
symmetry_bd(3, ex, f, fh, SoA);
/*
* Fortran 主循环:
* do k=1,ex(3)-1
* do j=1,ex(2)-1
* do i=1,ex(1)-1
*
* 转成 C 0-based
* k0 = 0..ex3-2, j0 = 0..ex2-2, i0 = 0..ex1-2
*
* 并且 Fortran 里的 i/j/k 在 fh 访问时,仍然是 Fortran 索引值:
* iF=i0+1, jF=j0+1, kF=k0+1
*/
for (int k0 = 0; k0 <= ex3 - 2; ++k0) {
const int kF = k0 + 1;
for (int j0 = 0; j0 <= ex2 - 2; ++j0) {
const int jF = j0 + 1;
for (int i0 = 0; i0 <= ex1 - 2; ++i0) {
const int iF = i0 + 1;
const size_t p = idx_ex(i0, j0, k0, ex);
// ---------------- x direction ----------------
const double sfx = Sfx[p];
if (sfx > ZEO) {
// Fortran: if(i+3 <= imax)
// iF+3 <= ex1 <=> i0+4 <= ex1 <=> i0 <= ex1-4
if (i0 <= ex1 - 4) {
f_rhs[p] += sfx * d12dx *
(-F3 * fh[idx_fh_F(iF - 1, jF, kF, ex)]
-F10 * fh[idx_fh_F(iF , jF, kF, ex)]
+F18 * fh[idx_fh_F(iF + 1, jF, kF, ex)]
-F6 * fh[idx_fh_F(iF + 2, jF, kF, ex)]
+ fh[idx_fh_F(iF + 3, jF, kF, ex)]);
}
// elseif(i+2 <= imax) <=> i0 <= ex1-3
else if (i0 <= ex1 - 3) {
f_rhs[p] += sfx * d12dx *
( fh[idx_fh_F(iF - 2, jF, kF, ex)]
-EIT * fh[idx_fh_F(iF - 1, jF, kF, ex)]
+EIT * fh[idx_fh_F(iF + 1, jF, kF, ex)]
- fh[idx_fh_F(iF + 2, jF, kF, ex)]);
}
// elseif(i+1 <= imax) <=> i0 <= ex1-2循环里总成立
else if (i0 <= ex1 - 2) {
f_rhs[p] -= sfx * d12dx *
(-F3 * fh[idx_fh_F(iF + 1, jF, kF, ex)]
-F10 * fh[idx_fh_F(iF , jF, kF, ex)]
+F18 * fh[idx_fh_F(iF - 1, jF, kF, ex)]
-F6 * fh[idx_fh_F(iF - 2, jF, kF, ex)]
+ fh[idx_fh_F(iF - 3, jF, kF, ex)]);
}
} else if (sfx < ZEO) {
// Fortran: if(i-3 >= imin)
// (iF-3) >= iminF <=> (i0-2) >= iminF
if ((i0 - 2) >= iminF) {
f_rhs[p] -= sfx * d12dx *
(-F3 * fh[idx_fh_F(iF + 1, jF, kF, ex)]
-F10 * fh[idx_fh_F(iF , jF, kF, ex)]
+F18 * fh[idx_fh_F(iF - 1, jF, kF, ex)]
-F6 * fh[idx_fh_F(iF - 2, jF, kF, ex)]
+ fh[idx_fh_F(iF - 3, jF, kF, ex)]);
}
// elseif(i-2 >= imin) <=> (i0-1) >= iminF
else if ((i0 - 1) >= iminF) {
f_rhs[p] += sfx * d12dx *
( fh[idx_fh_F(iF - 2, jF, kF, ex)]
-EIT * fh[idx_fh_F(iF - 1, jF, kF, ex)]
+EIT * fh[idx_fh_F(iF + 1, jF, kF, ex)]
- fh[idx_fh_F(iF + 2, jF, kF, ex)]);
}
// elseif(i-1 >= imin) <=> i0 >= iminF
else if (i0 >= iminF) {
f_rhs[p] += sfx * d12dx *
(-F3 * fh[idx_fh_F(iF - 1, jF, kF, ex)]
-F10 * fh[idx_fh_F(iF , jF, kF, ex)]
+F18 * fh[idx_fh_F(iF + 1, jF, kF, ex)]
-F6 * fh[idx_fh_F(iF + 2, jF, kF, ex)]
+ fh[idx_fh_F(iF + 3, jF, kF, ex)]);
}
}
// ---------------- y direction ----------------
const double sfy = Sfy[p];
if (sfy > ZEO) {
// jF+3 <= ex2 <=> j0+4 <= ex2 <=> j0 <= ex2-4
if (j0 <= ex2 - 4) {
f_rhs[p] += sfy * d12dy *
(-F3 * fh[idx_fh_F(iF, jF - 1, kF, ex)]
-F10 * fh[idx_fh_F(iF, jF , kF, ex)]
+F18 * fh[idx_fh_F(iF, jF + 1, kF, ex)]
-F6 * fh[idx_fh_F(iF, jF + 2, kF, ex)]
+ fh[idx_fh_F(iF, jF + 3, kF, ex)]);
} else if (j0 <= ex2 - 3) {
f_rhs[p] += sfy * d12dy *
( fh[idx_fh_F(iF, jF - 2, kF, ex)]
-EIT * fh[idx_fh_F(iF, jF - 1, kF, ex)]
+EIT * fh[idx_fh_F(iF, jF + 1, kF, ex)]
- fh[idx_fh_F(iF, jF + 2, kF, ex)]);
} else if (j0 <= ex2 - 2) {
f_rhs[p] -= sfy * d12dy *
(-F3 * fh[idx_fh_F(iF, jF + 1, kF, ex)]
-F10 * fh[idx_fh_F(iF, jF , kF, ex)]
+F18 * fh[idx_fh_F(iF, jF - 1, kF, ex)]
-F6 * fh[idx_fh_F(iF, jF - 2, kF, ex)]
+ fh[idx_fh_F(iF, jF - 3, kF, ex)]);
}
} else if (sfy < ZEO) {
if ((j0 - 2) >= jminF) {
f_rhs[p] -= sfy * d12dy *
(-F3 * fh[idx_fh_F(iF, jF + 1, kF, ex)]
-F10 * fh[idx_fh_F(iF, jF , kF, ex)]
+F18 * fh[idx_fh_F(iF, jF - 1, kF, ex)]
-F6 * fh[idx_fh_F(iF, jF - 2, kF, ex)]
+ fh[idx_fh_F(iF, jF - 3, kF, ex)]);
} else if ((j0 - 1) >= jminF) {
f_rhs[p] += sfy * d12dy *
( fh[idx_fh_F(iF, jF - 2, kF, ex)]
-EIT * fh[idx_fh_F(iF, jF - 1, kF, ex)]
+EIT * fh[idx_fh_F(iF, jF + 1, kF, ex)]
- fh[idx_fh_F(iF, jF + 2, kF, ex)]);
} else if (j0 >= jminF) {
f_rhs[p] += sfy * d12dy *
(-F3 * fh[idx_fh_F(iF, jF - 1, kF, ex)]
-F10 * fh[idx_fh_F(iF, jF , kF, ex)]
+F18 * fh[idx_fh_F(iF, jF + 1, kF, ex)]
-F6 * fh[idx_fh_F(iF, jF + 2, kF, ex)]
+ fh[idx_fh_F(iF, jF + 3, kF, ex)]);
}
}
// ---------------- z direction ----------------
const double sfz = Sfz[p];
if (sfz > ZEO) {
if (k0 <= ex3 - 4) {
f_rhs[p] += sfz * d12dz *
(-F3 * fh[idx_fh_F(iF, jF, kF - 1, ex)]
-F10 * fh[idx_fh_F(iF, jF, kF , ex)]
+F18 * fh[idx_fh_F(iF, jF, kF + 1, ex)]
-F6 * fh[idx_fh_F(iF, jF, kF + 2, ex)]
+ fh[idx_fh_F(iF, jF, kF + 3, ex)]);
} else if (k0 <= ex3 - 3) {
f_rhs[p] += sfz * d12dz *
( fh[idx_fh_F(iF, jF, kF - 2, ex)]
-EIT * fh[idx_fh_F(iF, jF, kF - 1, ex)]
+EIT * fh[idx_fh_F(iF, jF, kF + 1, ex)]
- fh[idx_fh_F(iF, jF, kF + 2, ex)]);
} else if (k0 <= ex3 - 2) {
f_rhs[p] -= sfz * d12dz *
(-F3 * fh[idx_fh_F(iF, jF, kF + 1, ex)]
-F10 * fh[idx_fh_F(iF, jF, kF , ex)]
+F18 * fh[idx_fh_F(iF, jF, kF - 1, ex)]
-F6 * fh[idx_fh_F(iF, jF, kF - 2, ex)]
+ fh[idx_fh_F(iF, jF, kF - 3, ex)]);
}
} else if (sfz < ZEO) {
if ((k0 - 2) >= kminF) {
f_rhs[p] -= sfz * d12dz *
(-F3 * fh[idx_fh_F(iF, jF, kF + 1, ex)]
-F10 * fh[idx_fh_F(iF, jF, kF , ex)]
+F18 * fh[idx_fh_F(iF, jF, kF - 1, ex)]
-F6 * fh[idx_fh_F(iF, jF, kF - 2, ex)]
+ fh[idx_fh_F(iF, jF, kF - 3, ex)]);
} else if ((k0 - 1) >= kminF) {
f_rhs[p] += sfz * d12dz *
( fh[idx_fh_F(iF, jF, kF - 2, ex)]
-EIT * fh[idx_fh_F(iF, jF, kF - 1, ex)]
+EIT * fh[idx_fh_F(iF, jF, kF + 1, ex)]
- fh[idx_fh_F(iF, jF, kF + 2, ex)]);
} else if (k0 >= kminF) {
f_rhs[p] += sfz * d12dz *
(-F3 * fh[idx_fh_F(iF, jF, kF - 1, ex)]
-F10 * fh[idx_fh_F(iF, jF, kF , ex)]
+F18 * fh[idx_fh_F(iF, jF, kF + 1, ex)]
-F6 * fh[idx_fh_F(iF, jF, kF + 2, ex)]
+ fh[idx_fh_F(iF, jF, kF + 3, ex)]);
}
}
}
}
}
free(fh);
}

248
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#include "tool.h"
/*
* Combined advection (lopsided) + KO dissipation (kodis).
* Uses one shared symmetry_bd buffer per call.
*/
void lopsided_kodis(const int ex[3],
const double *X, const double *Y, const double *Z,
const double *f, double *f_rhs,
const double *Sfx, const double *Sfy, const double *Sfz,
int Symmetry, const double SoA[3], double eps)
{
const double ZEO = 0.0, ONE = 1.0, F3 = 3.0;
const double F6 = 6.0, F18 = 18.0;
const double F12 = 12.0, F10 = 10.0, EIT = 8.0;
const double SIX = 6.0, FIT = 15.0, TWT = 20.0;
const double cof = 64.0; // 2^6
const int NO_SYMM = 0, EQ_SYMM = 1;
const int ex1 = ex[0], ex2 = ex[1], ex3 = ex[2];
const double dX = X[1] - X[0];
const double dY = Y[1] - Y[0];
const double dZ = Z[1] - Z[0];
const double d12dx = ONE / F12 / dX;
const double d12dy = ONE / F12 / dY;
const double d12dz = ONE / F12 / dZ;
const int imaxF = ex1;
const int jmaxF = ex2;
const int kmaxF = ex3;
int iminF = 1, jminF = 1, kminF = 1;
if (Symmetry > NO_SYMM && fabs(Z[0]) < dZ) kminF = -2;
if (Symmetry > EQ_SYMM && fabs(X[0]) < dX) iminF = -2;
if (Symmetry > EQ_SYMM && fabs(Y[0]) < dY) jminF = -2;
// fh for Fortran-style domain (-2:ex1,-2:ex2,-2:ex3)
const size_t nx = (size_t)ex1 + 3;
const size_t ny = (size_t)ex2 + 3;
const size_t nz = (size_t)ex3 + 3;
const size_t fh_size = nx * ny * nz;
double *fh = (double*)malloc(fh_size * sizeof(double));
if (!fh) return;
symmetry_bd(3, ex, f, fh, SoA);
// Advection (same stencil logic as lopsided_c.C)
for (int k0 = 0; k0 <= ex3 - 2; ++k0) {
const int kF = k0 + 1;
for (int j0 = 0; j0 <= ex2 - 2; ++j0) {
const int jF = j0 + 1;
for (int i0 = 0; i0 <= ex1 - 2; ++i0) {
const int iF = i0 + 1;
const size_t p = idx_ex(i0, j0, k0, ex);
const double sfx = Sfx[p];
if (sfx > ZEO) {
if (i0 <= ex1 - 4) {
f_rhs[p] += sfx * d12dx *
(-F3 * fh[idx_fh_F(iF - 1, jF, kF, ex)]
-F10 * fh[idx_fh_F(iF , jF, kF, ex)]
+F18 * fh[idx_fh_F(iF + 1, jF, kF, ex)]
-F6 * fh[idx_fh_F(iF + 2, jF, kF, ex)]
+ fh[idx_fh_F(iF + 3, jF, kF, ex)]);
} else if (i0 <= ex1 - 3) {
f_rhs[p] += sfx * d12dx *
( fh[idx_fh_F(iF - 2, jF, kF, ex)]
-EIT * fh[idx_fh_F(iF - 1, jF, kF, ex)]
+EIT * fh[idx_fh_F(iF + 1, jF, kF, ex)]
- fh[idx_fh_F(iF + 2, jF, kF, ex)]);
} else if (i0 <= ex1 - 2) {
f_rhs[p] -= sfx * d12dx *
(-F3 * fh[idx_fh_F(iF + 1, jF, kF, ex)]
-F10 * fh[idx_fh_F(iF , jF, kF, ex)]
+F18 * fh[idx_fh_F(iF - 1, jF, kF, ex)]
-F6 * fh[idx_fh_F(iF - 2, jF, kF, ex)]
+ fh[idx_fh_F(iF - 3, jF, kF, ex)]);
}
} else if (sfx < ZEO) {
if ((i0 - 2) >= iminF) {
f_rhs[p] -= sfx * d12dx *
(-F3 * fh[idx_fh_F(iF + 1, jF, kF, ex)]
-F10 * fh[idx_fh_F(iF , jF, kF, ex)]
+F18 * fh[idx_fh_F(iF - 1, jF, kF, ex)]
-F6 * fh[idx_fh_F(iF - 2, jF, kF, ex)]
+ fh[idx_fh_F(iF - 3, jF, kF, ex)]);
} else if ((i0 - 1) >= iminF) {
f_rhs[p] += sfx * d12dx *
( fh[idx_fh_F(iF - 2, jF, kF, ex)]
-EIT * fh[idx_fh_F(iF - 1, jF, kF, ex)]
+EIT * fh[idx_fh_F(iF + 1, jF, kF, ex)]
- fh[idx_fh_F(iF + 2, jF, kF, ex)]);
} else if (i0 >= iminF) {
f_rhs[p] += sfx * d12dx *
(-F3 * fh[idx_fh_F(iF - 1, jF, kF, ex)]
-F10 * fh[idx_fh_F(iF , jF, kF, ex)]
+F18 * fh[idx_fh_F(iF + 1, jF, kF, ex)]
-F6 * fh[idx_fh_F(iF + 2, jF, kF, ex)]
+ fh[idx_fh_F(iF + 3, jF, kF, ex)]);
}
}
const double sfy = Sfy[p];
if (sfy > ZEO) {
if (j0 <= ex2 - 4) {
f_rhs[p] += sfy * d12dy *
(-F3 * fh[idx_fh_F(iF, jF - 1, kF, ex)]
-F10 * fh[idx_fh_F(iF, jF , kF, ex)]
+F18 * fh[idx_fh_F(iF, jF + 1, kF, ex)]
-F6 * fh[idx_fh_F(iF, jF + 2, kF, ex)]
+ fh[idx_fh_F(iF, jF + 3, kF, ex)]);
} else if (j0 <= ex2 - 3) {
f_rhs[p] += sfy * d12dy *
( fh[idx_fh_F(iF, jF - 2, kF, ex)]
-EIT * fh[idx_fh_F(iF, jF - 1, kF, ex)]
+EIT * fh[idx_fh_F(iF, jF + 1, kF, ex)]
- fh[idx_fh_F(iF, jF + 2, kF, ex)]);
} else if (j0 <= ex2 - 2) {
f_rhs[p] -= sfy * d12dy *
(-F3 * fh[idx_fh_F(iF, jF + 1, kF, ex)]
-F10 * fh[idx_fh_F(iF, jF , kF, ex)]
+F18 * fh[idx_fh_F(iF, jF - 1, kF, ex)]
-F6 * fh[idx_fh_F(iF, jF - 2, kF, ex)]
+ fh[idx_fh_F(iF, jF - 3, kF, ex)]);
}
} else if (sfy < ZEO) {
if ((j0 - 2) >= jminF) {
f_rhs[p] -= sfy * d12dy *
(-F3 * fh[idx_fh_F(iF, jF + 1, kF, ex)]
-F10 * fh[idx_fh_F(iF, jF , kF, ex)]
+F18 * fh[idx_fh_F(iF, jF - 1, kF, ex)]
-F6 * fh[idx_fh_F(iF, jF - 2, kF, ex)]
+ fh[idx_fh_F(iF, jF - 3, kF, ex)]);
} else if ((j0 - 1) >= jminF) {
f_rhs[p] += sfy * d12dy *
( fh[idx_fh_F(iF, jF - 2, kF, ex)]
-EIT * fh[idx_fh_F(iF, jF - 1, kF, ex)]
+EIT * fh[idx_fh_F(iF, jF + 1, kF, ex)]
- fh[idx_fh_F(iF, jF + 2, kF, ex)]);
} else if (j0 >= jminF) {
f_rhs[p] += sfy * d12dy *
(-F3 * fh[idx_fh_F(iF, jF - 1, kF, ex)]
-F10 * fh[idx_fh_F(iF, jF , kF, ex)]
+F18 * fh[idx_fh_F(iF, jF + 1, kF, ex)]
-F6 * fh[idx_fh_F(iF, jF + 2, kF, ex)]
+ fh[idx_fh_F(iF, jF + 3, kF, ex)]);
}
}
const double sfz = Sfz[p];
if (sfz > ZEO) {
if (k0 <= ex3 - 4) {
f_rhs[p] += sfz * d12dz *
(-F3 * fh[idx_fh_F(iF, jF, kF - 1, ex)]
-F10 * fh[idx_fh_F(iF, jF, kF , ex)]
+F18 * fh[idx_fh_F(iF, jF, kF + 1, ex)]
-F6 * fh[idx_fh_F(iF, jF, kF + 2, ex)]
+ fh[idx_fh_F(iF, jF, kF + 3, ex)]);
} else if (k0 <= ex3 - 3) {
f_rhs[p] += sfz * d12dz *
( fh[idx_fh_F(iF, jF, kF - 2, ex)]
-EIT * fh[idx_fh_F(iF, jF, kF - 1, ex)]
+EIT * fh[idx_fh_F(iF, jF, kF + 1, ex)]
- fh[idx_fh_F(iF, jF, kF + 2, ex)]);
} else if (k0 <= ex3 - 2) {
f_rhs[p] -= sfz * d12dz *
(-F3 * fh[idx_fh_F(iF, jF, kF + 1, ex)]
-F10 * fh[idx_fh_F(iF, jF, kF , ex)]
+F18 * fh[idx_fh_F(iF, jF, kF - 1, ex)]
-F6 * fh[idx_fh_F(iF, jF, kF - 2, ex)]
+ fh[idx_fh_F(iF, jF, kF - 3, ex)]);
}
} else if (sfz < ZEO) {
if ((k0 - 2) >= kminF) {
f_rhs[p] -= sfz * d12dz *
(-F3 * fh[idx_fh_F(iF, jF, kF + 1, ex)]
-F10 * fh[idx_fh_F(iF, jF, kF , ex)]
+F18 * fh[idx_fh_F(iF, jF, kF - 1, ex)]
-F6 * fh[idx_fh_F(iF, jF, kF - 2, ex)]
+ fh[idx_fh_F(iF, jF, kF - 3, ex)]);
} else if ((k0 - 1) >= kminF) {
f_rhs[p] += sfz * d12dz *
( fh[idx_fh_F(iF, jF, kF - 2, ex)]
-EIT * fh[idx_fh_F(iF, jF, kF - 1, ex)]
+EIT * fh[idx_fh_F(iF, jF, kF + 1, ex)]
- fh[idx_fh_F(iF, jF, kF + 2, ex)]);
} else if (k0 >= kminF) {
f_rhs[p] += sfz * d12dz *
(-F3 * fh[idx_fh_F(iF, jF, kF - 1, ex)]
-F10 * fh[idx_fh_F(iF, jF, kF , ex)]
+F18 * fh[idx_fh_F(iF, jF, kF + 1, ex)]
-F6 * fh[idx_fh_F(iF, jF, kF + 2, ex)]
+ fh[idx_fh_F(iF, jF, kF + 3, ex)]);
}
}
}
}
}
// KO dissipation (same domain restriction as kodiss_c.C)
if (eps > ZEO) {
const int i0_lo = (iminF + 2 > 0) ? iminF + 2 : 0;
const int j0_lo = (jminF + 2 > 0) ? jminF + 2 : 0;
const int k0_lo = (kminF + 2 > 0) ? kminF + 2 : 0;
const int i0_hi = imaxF - 4; // inclusive
const int j0_hi = jmaxF - 4;
const int k0_hi = kmaxF - 4;
if (!(i0_lo > i0_hi || j0_lo > j0_hi || k0_lo > k0_hi)) {
for (int k0 = k0_lo; k0 <= k0_hi; ++k0) {
const int kF = k0 + 1;
for (int j0 = j0_lo; j0 <= j0_hi; ++j0) {
const int jF = j0 + 1;
for (int i0 = i0_lo; i0 <= i0_hi; ++i0) {
const int iF = i0 + 1;
const size_t p = idx_ex(i0, j0, k0, ex);
const double Dx_term =
((fh[idx_fh_F(iF - 3, jF, kF, ex)] + fh[idx_fh_F(iF + 3, jF, kF, ex)]) -
SIX * (fh[idx_fh_F(iF - 2, jF, kF, ex)] + fh[idx_fh_F(iF + 2, jF, kF, ex)]) +
FIT * (fh[idx_fh_F(iF - 1, jF, kF, ex)] + fh[idx_fh_F(iF + 1, jF, kF, ex)]) -
TWT * fh[idx_fh_F(iF, jF, kF, ex)]) / dX;
const double Dy_term =
((fh[idx_fh_F(iF, jF - 3, kF, ex)] + fh[idx_fh_F(iF, jF + 3, kF, ex)]) -
SIX * (fh[idx_fh_F(iF, jF - 2, kF, ex)] + fh[idx_fh_F(iF, jF + 2, kF, ex)]) +
FIT * (fh[idx_fh_F(iF, jF - 1, kF, ex)] + fh[idx_fh_F(iF, jF + 1, kF, ex)]) -
TWT * fh[idx_fh_F(iF, jF, kF, ex)]) / dY;
const double Dz_term =
((fh[idx_fh_F(iF, jF, kF - 3, ex)] + fh[idx_fh_F(iF, jF, kF + 3, ex)]) -
SIX * (fh[idx_fh_F(iF, jF, kF - 2, ex)] + fh[idx_fh_F(iF, jF, kF + 2, ex)]) +
FIT * (fh[idx_fh_F(iF, jF, kF - 1, ex)] + fh[idx_fh_F(iF, jF, kF + 1, ex)]) -
TWT * fh[idx_fh_F(iF, jF, kF, ex)]) / dZ;
f_rhs[p] += (eps / cof) * (Dx_term + Dy_term + Dz_term);
}
}
}
}
}
free(fh);
}

0
AMSS_NCKU_source/lopsidediff.f90 → AMSS_NCKU_source/BSSN/lopsidediff.f90
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AMSS_NCKU_source/prolongrestrict.f90 → AMSS_NCKU_source/BSSN/prolongrestrict.f90
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AMSS_NCKU_source/prolongrestrict.h → AMSS_NCKU_source/BSSN/prolongrestrict.h
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AMSS_NCKU_source/prolongrestrict_cell.f90 → AMSS_NCKU_source/BSSN/prolongrestrict_cell.f90
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AMSS_NCKU_source/prolongrestrict_vertex.f90 → AMSS_NCKU_source/BSSN/prolongrestrict_vertex.f90
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AMSS_NCKU_source/sommerfeld_rout.f90 → AMSS_NCKU_source/BSSN/sommerfeld_rout.f90
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AMSS_NCKU_source/sommerfeld_rout.h → AMSS_NCKU_source/BSSN/sommerfeld_rout.h
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AMSS_NCKU_source/transpbh.C → AMSS_NCKU_source/BSSN/transpbh.C
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AMSS_NCKU_source/bssn_gpu.cu → AMSS_NCKU_source/BSSN_GPU/bssn_gpu.cu
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AMSS_NCKU_source/bssn_gpu.h → AMSS_NCKU_source/BSSN_GPU/bssn_gpu.h
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AMSS_NCKU_source/bssn_gpu_class.C → AMSS_NCKU_source/BSSN_GPU/bssn_gpu_class.C
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AMSS_NCKU_source/bssn_gpu_class.h → AMSS_NCKU_source/BSSN_GPU/bssn_gpu_class.h
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AMSS_NCKU_source/bssn_gpu_rhs_ss.cu → AMSS_NCKU_source/BSSN_GPU/bssn_gpu_rhs_ss.cu
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AMSS_NCKU_source/bssn_macro.C → AMSS_NCKU_source/BSSN_GPU/bssn_macro.C
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AMSS_NCKU_source/bssn_macro.h → AMSS_NCKU_source/BSSN_GPU/bssn_macro.h
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AMSS_NCKU_source/bssn_step_gpu.C → AMSS_NCKU_source/BSSN_GPU/bssn_step_gpu.C
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AMSS_NCKU_source/gpu_mem.h → AMSS_NCKU_source/BSSN_GPU/gpu_mem.h
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