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mirror of https://github.com/QuantumPackage/qp2.git synced 2024-12-23 12:03:30 +01:00
qp2/scripts/module/module_handler.py
2022-01-28 20:50:10 +01:00

279 lines
7.7 KiB
Python
Executable File

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Module utilitary
Usage:
module_handler.py print_descendant [<module_name>...]
module_handler.py clean [ --all | <module_name>...]
module_handler.py tidy [ --all | <module_name>...]
module_handler.py create_git_ignore [ --all | <module_name>...]
Options:
print_descendant Print the genealogy of the needed modules
clean Used for ninja clean
tidy A light version of clean, where only the intermediate
files are removed
create_git_ignore deprecated
NEED The path of NEED file.
by default try to open the file in the current path
"""
import os
import sys
import os.path
from collections import namedtuple
import shutil
try:
from docopt import docopt
from qp_path import QP_SRC, QP_ROOT, QP_PLUGINS, QP_EZFIO
except ImportError:
print("source quantum_package.rc")
raise
def is_module(path_module_rel):
return os.path.isfile(os.path.join(QP_SRC, path_module_rel, "NEED"))
def is_plugin(path_module_rel):
return os.path.isfile(os.path.join(QP_PLUGINS, path_module_rel, "NEED"))
def get_binaries(path_module):
"""
Return the list of binaries
"""
import subprocess
try:
cmd = 'grep -l -i --regexp="^\\s*program\\s" {0}/*.irp.f'.format(path_module)
process = subprocess.Popen([cmd],
shell=True,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
stdout, stderr = process.communicate()
stdout = stdout.decode()
except OSError:
return []
else:
if not stdout:
return []
elif "No such file or directory" not in stdout:
l_bin = [i.replace(".irp.f", "", 1) for i in stdout.split()]
return [os.path.realpath(bin_) for bin_ in l_bin]
else:
return []
def get_dict_child(l_root_abs=None):
"""Loop over MODULE in QP_ROOT/src, open all the NEED
and create a dict[MODULE] = [sub module needed, ...]
"""
d_ref = dict()
if not l_root_abs:
l_root_abs = [QP_SRC]
for root_abs in l_root_abs:
for module_rel in os.listdir(root_abs):
module_abs = os.path.join(root_abs, module_rel)
try:
path_file = os.path.join(module_abs, "NEED")
with open(path_file, "r") as f:
l_children = f.read().split()
except IOError:
pass
else:
if module_rel not in d_ref:
d_ref[module_rel] = l_children
#else:
# print "Module {0} alredy defined"
# print "Abort"
# sys.exit(1)
return d_ref
def get_l_module_descendant(d_child, l_module):
"""
From a list of module return the module and descendant
"""
l = []
for module in l_module:
if module not in l:
l.append(module)
try:
l.extend(get_l_module_descendant(d_child, d_child[module]))
except KeyError:
print("Error: ", file=sys.stderr)
print("`{0}` is not a submodule".format(module), file=sys.stderr)
print("Check the typo (spelling, case, '/', etc.) ", file=sys.stderr)
# pass
sys.exit(1)
return list(set(l))
class ModuleHandler():
def __init__(self, l_root_abs=None):
self.dict_child = get_dict_child(l_root_abs)
@property
def l_module(self):
return list(self.dict_child.keys())
@property
def dict_parent(self):
"""
Get a dic of the first parent
"""
d_child = self.dict_child
d = {}
for module_name in d_child:
d[module_name] = [i for i in list(d_child.keys())
if module_name in d_child[i]]
return d
@property
def dict_descendant(self):
"""
Get a dic of all the genealogy desc (children and all_children)
"""
d = {}
d_child = self.dict_child
for module_name in d_child:
try:
d[module_name] = get_l_module_descendant(d_child,
d_child[module_name])
except KeyError:
print("Check NEED for {0}".format(
module_name))
sys.exit(1)
return d
@property
def dict_root(self):
"""
Return a dict(module_name) = module_boss
The top node in a tree.
"""
d_asc = self.dict_parent
d_desc = self.dict_descendant
l_all_module = self.l_module
dict_root = {}
for module in l_all_module:
dict_root[module] = [p for p in l_all_module
if module in [p] + d_desc[p] and not d_asc[p]
][0]
return dict_root
def l_descendant_unique(self, l_module):
d_desc = self.dict_descendant
d = {}
for module in l_module:
for e in d_desc[module]:
d[e] = 1
return list(d.keys())
def l_reduce_tree(self, l_module):
"""For a list of module in input return only the root"""
l_d_u = self.l_descendant_unique(l_module)
l_module_reduce = []
for module in l_module:
if module not in l_d_u:
l_module_reduce.append(module)
return l_module_reduce
if __name__ == '__main__':
arguments = docopt(__doc__)
if arguments['--all']:
l_module = [f for f in os.listdir(QP_SRC)
if os.path.isdir(os.path.join(QP_SRC, f))]
# Remove all produced ezfio_config files
for filename in os.listdir( os.path.join(QP_EZFIO, "config") ):
os.remove( os.path.join(QP_EZFIO, "config", filename) )
elif not arguments['<module_name>']:
dir_ = os.getcwd()
l_module = [os.path.basename(dir_)]
else:
l_module = arguments['<module_name>']
for module in l_module:
if not is_module(module):
print("{0} is not a valid module. Abort".format(module))
print("No NEED in it")
sys.exit(1)
m = ModuleHandler()
if arguments['print_descendant']:
for module in l_module:
print(" ".join(sorted(m.l_descendant_unique([module]))))
if arguments["clean"] or arguments["tidy"]:
l_dir = ['IRPF90_temp', 'IRPF90_man']
l_file = ["irpf90_entities", "tags", "irpf90.make", "Makefile",
"Makefile.depend", ".ninja_log", ".ninja_deps",
"ezfio_interface.irp.f"]
for module in l_module:
module_abs = os.path.realpath(os.path.join(QP_SRC, module))
l_symlink = m.l_descendant_unique([module])
l_exe = get_binaries(module_abs)
for f in l_dir:
try:
shutil.rmtree(os.path.join(module_abs, f))
except:
pass
for symlink in l_symlink:
try:
os.unlink(os.path.join(module_abs, symlink))
except:
pass
for f in l_file:
try:
os.remove(os.path.join(module_abs, f))
except:
pass
if arguments["clean"]:
for f in l_exe:
try:
os.remove(os.path.join(module_abs, f))
except:
pass