def regulateDiffVnData(dir_path, piece=1, reg_path="spectra/thermal_211_vn.dat", diff_vn_path="spectra/v2data.dat"):
"""
Regulate the file specified by diff_vn_path by extracting only the n-th particle data
and write it to a separated file specified by reg_path. The variable n is specified
by "piece".
"""
piece = int(piece);
data = range(number_of_pts); # resulting list place holder
#data = map(lambda x:[], range(number_of_moments+1)); # build an empty list for results. data[i] holds results for moment i (thus index 0 is not used)
for sub_dir in listSubDirectories(dir_path):
if (not path.exists(path.join(sub_dir, diff_vn_path))):
print("Missing data files in subdirectory "+sub_dir);
continue;
# declare data buffer
tmp_data = [];
# read and add v_n file:
diff_vn_data = readData(path.join(sub_dir, diff_vn_path));
# get the n-th piece of data
diff_vn_data_piece = map(lambda ii: diff_vn_data[ii], lines_to_read(piece));
for aLine in diff_vn_data_piece: # loop through indices
tmp_data.append(aLine[:]); # add desired v_n data
# tmp_data.append(map(lambda ii: aLine[ii], cols_to_read)); # add desired v_n data
# write to file
reg_full = reg_path;
writeData(path.join(sub_dir, reg_full), tmp_data);
print("Finished.")
def regulateVnData(dir_path, piece=2, reg_path="thermal_211_integrated_vn.dat", vn_path="v2data-inte.dat"):
"""
Regulate the file specified by vn_path by extracting only the n-th particle data
and write it to a separated file specified by reg_path. The variable n is specified
by "piece".
"""
piece = int(piece);
data = map(lambda x:[], range(number_of_moments+1)); # build an empty list for results. data[i] holds results for moment i (thus index 0 is not used)
if (not path.exists(path.join(dir_path, vn_path))):
print("Missing data files in directory "+dir_path);
return;
# declare data buffer
tmp_data = [];
# read and add v_n file:
vn_data = readData(path.join(dir_path, vn_path), "!");
# the data in the n-th piece starts from line (format_vn[-1][1]+1)*(n-1)
vn_data_piece = vn_data[(format_vn[-1][1]+1)*(piece-1):(format_vn[-1][1]+1)*piece];
order = 0;
for idx in format_vn: # loop through indices
tmp_line = map(lambda ii: vn_data_piece[idx[1]][ii], data_indices_vn); # v_n data
tmp_line.insert(0, order);
# tmp_line.append(vn_data_piece[format_vn[0][1]-1][1]); # add number of particles for this species
tmp_data.append(tmp_line); # add desired v_n data
order += 1;
# write to file
reg_full = reg_path;
writeData(path.join(dir_path, reg_full), tmp_data);
print("Finished.")
def restrictToFirstQuadrant(file_path=getcwd()):
""" Generate surface and decoupling data files in the first quadrant
based on the data files on the whole transverse plane. """
surf_from_full = path.join(file_path, surf_from)
dec_from_full = path.join(file_path, dec_from)
print("Read surface data file from " + surf_from_full)
print("Read decoupling data file from " + dec_from_full)
if not path.exists(surf_from_full) or not path.exists(dec_from_full):
print("Surface or decoupling data files not found at " + file_path)
return
else:
surf_to_full = path.join(file_path, surf_to)
dec_to_full = path.join(file_path, dec_to)
print("Write surface data file to " + surf_to_full)
print("Write decoupling data file to " + dec_to_full)
surf_buffer_read = readData(surf_from_full)
dec_buffer_read = readData(dec_from_full)
surf_buffer_write = []
dec_buffer_write = []
if len(2 * surf_buffer_read) != len(dec_buffer_read):
print("Number of data unmatch:" + "surface data file has " +
str(len(surf_buffer_read)) + "entries; " +
"decoupling data file has " + str(len(dec_buffer_read)) +
"entries.")
return
else:
record = 0
for i in range(len(surf_buffer_read)):
if surf_buffer_read[i][2] >= 0 and surf_buffer_read[i][3] >= 0:
surf_buffer_write.append(surf_buffer_read[i])
dec_buffer_write.append(dec_buffer_read[2 * i])
dec_buffer_write.append(dec_buffer_read[2 * i + 1])
record = record + 1
writeData(surf_to_full, surf_buffer_write)
writeData(dec_to_full, dec_buffer_write)
print("Number of entries written: " + str(record))
def regulateDiffVnData(dir_path,
piece=1,
reg_path="spectra/thermal_211_vn.dat",
diff_vn_path="spectra/v2data.dat"):
"""
Regulate the file specified by diff_vn_path by extracting only the n-th particle data
and write it to a separated file specified by reg_path. The variable n is specified
by "piece".
"""
piece = int(piece)
data = range(number_of_pts)
# resulting list place holder
#data = map(lambda x:[], range(number_of_moments+1)); # build an empty list for results. data[i] holds results for moment i (thus index 0 is not used)
for sub_dir in listSubDirectories(dir_path):
if (not path.exists(path.join(sub_dir, diff_vn_path))):
print("Missing data files in subdirectory " + sub_dir)
continue
# declare data buffer
tmp_data = []
# read and add v_n file:
diff_vn_data = readData(path.join(sub_dir, diff_vn_path))
# get the n-th piece of data
diff_vn_data_piece = map(lambda ii: diff_vn_data[ii],
lines_to_read(piece))
for aLine in diff_vn_data_piece: # loop through indices
tmp_data.append(aLine[:])
# add desired v_n data
# tmp_data.append(map(lambda ii: aLine[ii], cols_to_read)); # add desired v_n data
# write to file
reg_full = reg_path
writeData(path.join(sub_dir, reg_full), tmp_data)
print("Finished.")
