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CLASS_rename.py
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CLASS_rename.py
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# Script to change the names of CLASS modules (by Nils Schöneberg & Julien Lesgourgues)
#
# Can be used to:
# - rename module files, module prefixes, module structures, module structure acronyms
# - undo renaming
# - clean the generated log and backup files
#
# usage: CLASS_rename.py [-h] --method {rename,undo,clean} [-v | -q]
#
# optional arguments:
# -h, --help show this help message and exit
# --method {rename,undo,clean} rename / undo renaming / clean
# -v, --verbose Increase the verbosity of the program for more detailed output
# -q, --quiet Make the program entirely quiet, setting the verbosity to 0.
# Also disables the user confirmation, so use it carefully
#
# The actual renaming to be performed has to be set beforehand in the section below.
# Currently this is set for the transformation
# of CLASS v2.10.8 into CLASS v3.0.0 and backwards.
### EDIT ONLY BELOW ###
### EDIT ONLY BELOW ###
module_filename = ["thermodynamics","perturbations","nonlinear","transfer","spectra"]
module_prefix = ["thermodynamics","perturb","nonlinear","transfer","spectra"]
structure_longname = ["thermo","perturbs","nonlinear","transfers","spectra"]
structure_shortname = ["th","pt","nl","tr","sp"]
newmodule_filename = ["thermodynamics","perturbations","fourier","transfer","harmonic"]
newmodule_prefix = ["thermodynamics","perturbations","fourier","transfer","harmonic"]
newstructure_longname = ["thermodynamics","perturbations","fourier","transfer","harmonic"]
newstructure_shortname= ["th","pt","fo","tr","hr"]
# Potential problem: structure short names are just two
# letters. Combinations of the same two letters may
# appear casually. Thus in some sub-cases we first
# check for exceptions.
# to identify these exception, for each short name (e.g. 'nl'), run:
#
# > grep "nl\." */*.c */*.h */*.py */*.pyx */*.pxd */*.ipynb */*.ini *.ini
#
# > grep "\&nl" */*.c */*.h */*.py */*.pyx */*.pxd */*.ipynb */*.ini *.ini
#
# and check whether some of the lines feature an nl that has nothing
# to do with the stucture short name. If yes, write the exception in
# the dictionary below.
exceptions = {"th":[],
"pt":[],
"nl":["nl_corr","R_nl"],
"tr":[],
"sp":["osp.","resp"]}
prefix_exceptions = {"thermodynamics":[],
"perturbations":[],
"nonlinear":["nonlinear_method","nonlinear_scale","nonlinear_min_k_max"],
"transfer":[],
"spectra":[]}
src_folder = "source"
incl_folder = "include"
test_folder = "test"
### EDIT ONLY ABOVE ###
### EDIT ONLY ABOVE ###
import os
import argparse
# parse the arguments of the command line
parser = argparse.ArgumentParser(description='Change the names of CLASS modules')
parser.add_argument("--method",choices=["rename","undo","clean"], required=True,help="Do you want to rename / undo renaming / clean the generated log and backup files? Type 'rename','undo', or 'clean'")
# default verbosity is 1, can be increased with -v or decreased with -q
group = parser.add_mutually_exclusive_group()
group.add_argument("-v", "--verbose", action="count",default=1,help="Increase the verbosity of the program for more detailed output")
group.add_argument("-q", "--quiet", action="store_true",help="Make the program entirely quiet, setting the verbosity to 0. This also disables the confirmation required by the user, so use it carefully")
parse_dict = parser.parse_args()
if parse_dict.quiet:
parse_dict.verbose = 0
# Inform the user about the starting of the actual routine
if parse_dict.verbose>0:
print("START RENAMING ROUTINE v.0.3 (credits Nils Schöneberg & Julien Lesgourgues)")
print("CHECKING ALL FILES IN DIRECTORY : "+os.path.abspath("."))
# Find the list of all the directories that we will parse and in which we will do changes in some files
#
# Get the list of all folders and subfolders in the local folder
# After this step, each element x is such that x[0] contains a folder name 'folder/subfolder/.../'
folder_list = [x for x in os.walk(".")]
# remove .git, doc, build folders
folder_list = [x for x in folder_list if not (".git" in x[0])]
#folder_list = [x for x in folder_list if not ("doc" in x[0])]
folder_list = [x for x in folder_list if not ("doc/manual" in x[0])]
folder_list = [x for x in folder_list if not ("doc/input/latex" in x[0])]
folder_list = [x for x in folder_list if not ("build" in x[0])]
# remove the folder of the RealSpaceInterface containing cached data
folder_list = [x for x in folder_list if not ("RealSpaceInterface/static" in x[0])]
# keep only the list of all folders, not the files they contain
folder_list = [x[0] for x in folder_list]
if parse_dict.verbose > 0:
# show the list of 'folder/subfolder/.../'
print("FOLDER LIST : "+" ".join(folder_list))
# let the user confirm or abort
read = input("Continue? (y/n)")
if not read.startswith("y"):
quit()
###############
# 'undo' mode #
###############
if parse_dict.method == "undo":
# For each changed module/file name, go back to old file names (e.g. 'fourier.c' -> 'nonlinear.c') such that they can be overwritten by the corresponding .old files
for i in range(len(module_filename)):
xf = module_filename[i]
yf = newmodule_filename[i]
os.rename(os.path.join(src_folder,yf+".c"),os.path.join(src_folder,xf+".c"))
os.rename(os.path.join(incl_folder,yf+".h"),os.path.join(incl_folder,xf+".h"))
os.rename(os.path.join(test_folder,"test_"+yf+".c"),os.path.join(test_folder,"test_"+xf+".c"))
if parse_dict.verbose > 0:
print("REVERTED TO MODULE NAME "+xf)
# find all folders containing .old and/or .unchanged files
for fldername in folder_list:
# First, get name of all files and subfolders in this folder
filelist_all = os.listdir(fldername)
filelist = []
for fname in filelist_all:
tmp_name = os.path.join(fldername, fname)
# remove subfolder names, keep only file names
if os.path.isdir(tmp_name):
continue
if tmp_name.endswith(".old"):
filelist.append(fname)
elif tmp_name.endswith(".unchanged"):
filelist.append(fname)
if parse_dict.verbose > 2:
print (fldername, filelist)
for filename in filelist:
# remove the log files *.unchanged
# (this can be done safely, as all relevant information is in the .old files)
if(".unchanged" in filename):
os.remove(os.path.join(fldername,filename))
# remove the .old extensions, thus overwriting the changed files with the old files
if(".old" in filename):
os.rename(os.path.join(fldername,filename),os.path.join(fldername,filename.replace(".old","")))
if parse_dict.verbose > 1:
print ("mv "+os.path.join(fldername,filename)+" "+os.path.join(fldername,filename.replace(".old",""))+"!")
if parse_dict.verbose > 0:
print ("IN "+fname+", DELETED .unchanged AND RESTORED ORIGINAL FROM .old FILES")
################
# 'clean' mode #
################
elif parse_dict.method == "clean":
# find all folders containing .old and/or .unchanged files
for fldername in folder_list:
# First, get name of all files and subfolders in this folder
filelist_all = os.listdir(fldername)
filelist = []
for fname in filelist_all:
tmp_name = os.path.join(fldername, fname)
# remove subfolder names, keep only file names
if os.path.isdir(tmp_name):
continue
if tmp_name.endswith(".old"):
filelist.append(fname)
elif tmp_name.endswith(".unchanged"):
filelist.append(fname)
if parse_dict.verbose > 2:
print (fldername,filelist)
for filename in filelist:
# just remove any .unchanged or .old files
if(".unchanged" in filename or ".old" in filename):
os.remove(os.path.join(fldername,filename))
if parse_dict.verbose > 0:
print ("IN "+fname+", DELETED .unchanged AND .old FILES")
try:
# remove log files Makefile.old and possibly autostep.py
os.remove("Makefile.old")
if parse_dict.verbose > 0:
print ("REMOVED Makefile.old")
os.remove(os.path.join("python","autosetup.py"))
if parse_dict.verbose > 0:
print ("REMOVED python/autosetup.py")
except:
pass
#################
# 'rename' mode #
#################
elif parse_dict.method == "rename":
# Some operations only have to be done for the first iteration over all files
# One example of this is the generation of the backup .old files
# Thus, we keep track if this is our first iteration
first_loop = True
# loop over each module to be renamed/modified
for i in range(len(module_filename)):
xf = module_filename[i]
xp = module_prefix[i]
xsl = structure_longname[i]
xss = structure_shortname[i]
yf = newmodule_filename[i]
yp = newmodule_prefix[i]
ysl = newstructure_longname[i]
yss = newstructure_shortname[i]
if parse_dict.verbose > 0:
print("BEGIN RENAMING {} -> {}".format(xsl,ysl))
# Parse and possibly do changes in each file of the folder fldername
for fldername in folder_list:
# Establish the list of file to be parsed and possibly modified in this folder
# First, get name of all files and subfolders in this folder
filelist_all = os.listdir(fldername)
filelist = []
for fname in filelist_all:
tmp_name = os.path.join(fldername, fname)
# remove subfolder names, keep only file names
if os.path.isdir(tmp_name):
continue
# ignore the automatically generated python setup file
if "autosetup.py" in tmp_name:
continue
# take into account other files with extension .c, .py, .pyx, .pxd, .ipynb, .h, .ini
# but not the .py of the local (root) folder (and thus e.g. not this script!)
if tmp_name.endswith(".c"):
filelist.append(fname)
elif tmp_name.endswith(".py"):
if fldername != '.':
filelist.append(fname)
elif tmp_name.endswith(".pyx"):
filelist.append(fname)
elif tmp_name.endswith(".pxd"):
filelist.append(fname)
elif tmp_name.endswith(".ipynb"):
filelist.append(fname)
elif tmp_name.endswith(".h"):
filelist.append(fname)
elif tmp_name.endswith(".ini"):
filelist.append(fname)
elif tmp_name.endswith(".md"):
filelist.append(fname)
# show the list of file to be parsed and possibly modified in this folder
if parse_dict.verbose > 1:
print("WILL MODIFY ALL FILES IN FOLDER '{}': [".format(fldername)+",".join(filelist)+"]")
# iterate over all files in the current folder
for filename in filelist:
# open input file (with old names)
with open(os.path.join(fldername,filename),"r") as inf:
# open temporary output file (where we will subsititue the new names)
with open(os.path.join(fldername,filename+".tmp"),"w") as outf:
# open a log file with extension .unchanged where we will store lines that were not changed but should have, potentially (for visual inspection)
with open(os.path.join(fldername,filename+".unchanged"),"a") as unchf:
# iterate over each line in the input file
line = inf.readline()
while line:
# I. Treat lines where the full structure name appears, e.g. 'nonlinear'
if "struct "+xsl in line:
if "struct "+xsl+" "+xss in line:
# replace each structure declaration (e.g. 'struct nonlinear nl' -> 'struct fourier fo')
# we isolate this case because it is very useful to catch many occurences of the structure short name (e.g. 'nl') already here
line = line.replace("struct "+xsl+" "+xss,"struct "+ysl+" "+yss)
else:
# replace other occurences (e.g. 'struct nonlinear' -> 'struct fourier')
# Special care is needed here! Check that the next character is not a letter
# Thus we only allow for a small selection of relevant possibilities
for char in ['\t','\n',' ','*','`',';',':']:
line = line.replace("struct "+xsl+char,"struct "+ysl+char)
if "cdef "+xsl in line:
if "cdef "+xsl+" "+xss in line:
# replace each structure declaration (e.g. 'cdef nonlinear nl' -> 'cdef fourier fo')
# we isolate this case because it is very useful to catch many occurences of the structure short name (e.g. 'nl') already here
line = line.replace("cdef "+xsl+" "+xss,"cdef "+ysl+" "+yss)
else:
# replace other occurences (e.g. 'cdef nonlinear' -> 'cdef fourier')
line = line.replace("cdef "+xsl,"cdef "+ysl)
if xsl+" structure" in line:
line = line.replace(xsl+" structure",ysl+" structure")
# II. Treat lines where the module (= file) name appears
if xf.upper() in line:
# replace capitalized module name (e.g. '__NONLINEAR__' -> '__FOURIER__')
line = line.replace(xf.upper(),yf.upper())
if xf+".c" in line:
# replace full filename in the comments (e.g. 'nonlinear.c' --> 'fourier.c')
line = line.replace(xf+".c",yf+".c")
if xf+".h" in line:
# replace full filename in the comments (e.g. 'nonlinear.h' --> 'fourier.h')
line = line.replace(xf+".h",yf+".h")
if xf+" module" in line:
# replace full filename in the comments (e.g. 'nonlinear module' --> 'fourier module')
line = line.replace(xf+" module",yf+" module")
if "\""+xf+"\"" in line:
# replace full filename in quotation marks (e.g. '"nonlinear"' --> '"fourier"')
line = line.replace("\""+xf+"\"","\""+yf+"\"")
# III. Treat lines where the prefix appears
if xp+"_" in line:
# replace all prefix names (e.g. 'nonlinear' -> 'fourier')
# For all prefix exceptions, substitute the problematic string with 'xx'
for i,x in enumerate(prefix_exceptions[xp]):
if x in line:
line = line.replace(x,prefix_exceptions[xp][i].replace(xp,'xx'))
# Now replace all the corresponding names where the prefix appears
line = line.replace(xp+"_",yp+"_")
# Finally, re-substitute the original exception string instead of the 'xx'
for i,x in enumerate(prefix_exceptions[xp]):
if x.replace(xp,'xx') in line:
line = line.replace(x.replace(xp,'xx'),prefix_exceptions[xp][i])
# IV. Treat line where short structure name appears, e.g. 'nl'
if xss in line:
# replace pointers towards structure (e.g. 'pnl' -> 'pfo')
if "p"+xss in line:
line = line.replace("p"+xss,"p"+yss)
# replace structure addresses (e.g. '&nl' -> '&fo') and structure short names before dots (e.g. 'nl.error_message' -> 'fo.error_message')
if "&"+xss in line or xss+"." in line:
# For all exceptions, substitute the problematic string with 'xx'
for i,x in enumerate(exceptions[xss]):
if x in line:
line = line.replace(x,exceptions[xss][i].replace(xss,'xx'))
# Now replace all structure short names before dots and addresses
line = line.replace("&"+xss,"&"+yss)
line = line.replace(xss+".",yss+".")
# Finally, re-substitute the original exception string instead of the 'xx'
for i,x in enumerate(exceptions[xss]):
if x.replace(xss,'xx') in line:
line = line.replace(x.replace(xss,'xx'),exceptions[xss][i])
# replace structures as fields of bigger structures in python (e.g. 'self.nl' -> 'self.fo')
if "self."+xss in line:
line = line.replace("self."+xss,"self."+yss)
# if the line did contain the short name in another circumstances, print it in the log file .unchanged
if xss in line:
# Mark the occurence of the short name by arrows (e.g. 'only' -> 'o-->nl<--y')
unchf.write(line.replace(xss,"-->"+xss+"<--"))
# write the line (changed or not) in the temporary output file
outf.write(line)
line = inf.readline()
# keep the input file but add to it an extension .old (so we keep it as a backup, if something goes wrong) e.g. nonlinear.c -> nonlinear.c.old
# This is done only in the first loop over modules.
if first_loop == True:
os.rename(os.path.join(fldername,filename),os.path.join(fldername,filename+".old"))
# give to the temporary output file name its final extension (e.g. 'nonlinear.c.tmp' -> 'nonlinear.c')
os.rename(os.path.join(fldername,filename+".tmp"),os.path.join(fldername,filename))
if parse_dict.verbose > 1:
print("SUCCESS IN FOLDER {}".format(fldername))
# work on the Makefile
if parse_dict.verbose>1:
print("MODIFY MAKEFILE")
with open("Makefile","r") as inf:
# implement the changes in Makefile.tmp
with open("Makefile.tmp","w") as outf:
line = inf.readline()
while line:
# replace long names (e.g. 'nonlinear' -> 'fourier')
if xf in line:
line = line.replace(xf,yf)
# replace long names when capitalized
if xf.upper() in line:
line = line.replace(xf.upper(),yf.upper())
outf.write(line)
line = inf.readline()
# keep old version with additional .old extension
if first_loop == True:
os.rename("Makefile","Makefile.old")
# rename Makefile.tmp -> Makefile
os.rename("Makefile.tmp","Makefile")
if parse_dict.verbose>1:
print("SUCCESS IN MODIFYING MAKEFILE")
# change actual file names (e.g. 'nonlinear.c' -> 'fourier.c')
if parse_dict.verbose>1:
print("RENAME MODULE "+yf)
os.rename(os.path.join(src_folder,xf+".c"),os.path.join(src_folder,yf+".c"))
os.rename(os.path.join(incl_folder,xf+".h"),os.path.join(incl_folder,yf+".h"))
os.rename(os.path.join(test_folder,"test_"+xf+".c"),os.path.join(test_folder,"test_"+yf+".c"))
if parse_dict.verbose>1:
print("SUCCESS IN RENAMING MODULE "+yf)
if parse_dict.verbose > 0:
print("SUCCESS FOR RENAMING {} -> {}".format(xf,yf))
# done for this particular module
first_loop = False
# end of loop over modulea
if parse_dict.verbose>0:
print("SUCCESS!")