Module voxelfuse.utils.onelab
ONELAB - Copyright (C) 2011-2020 Universite de Liege - Universite catholique de Louvain
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, provided that the above copyright notice(s) and this permission notice appear in all copies of the Software and that both the above copyright notice(s) and this permission notice appear in supporting documentation.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF THIRD PARTY RIGHTS. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR HOLDERS INCLUDED IN THIS NOTICE BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
Expand source code
"""
ONELAB - Copyright (C) 2011-2020 Universite de Liege - Universite catholique
de Louvain
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, and/or sell copies of the
Software, and to permit persons to whom the Software is furnished to do so,
provided that the above copyright notice(s) and this permission notice appear in
all copies of the Software and that both the above copyright notice(s) and this
permission notice appear in supporting documentation.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF THIRD PARTY RIGHTS. IN NO EVENT
SHALL THE COPYRIGHT HOLDER OR HOLDERS INCLUDED IN THIS NOTICE BE LIABLE FOR ANY
CLAIM, OR ANY SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF
CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
"""
#!/usr/bin/env python
import socket, struct, os, sys, subprocess, time
_VERSION = '1.3'
def path(dirname, inp):
# dirname is a directory, can be empty
# inp is an optional file or subdirectory name
# returns the path to 'inp' in the same directory as 'ref'
if dirname:
dirname = os.path.dirname(dirname + os.sep)
if not inp:
return dirname
if inp[0] == '/' or inp[0] == '\\' or (len(inp) > 2 and inp[1] == '\:'):
return inp # do nothing, inp is an absolute path
if inp[0] == '.' :
inp = inp[2:] # cut off heading './' or '.\'
if dirname:
return dirname + os.sep + inp # append inp to the path of the reference file
else:
return inp
class _parameter() :
_membersbase = [
('name', 'string'), ('label', 'string', ''), ('help', 'string', ''),
('changedValue', 'int', 31), ('visible', 'int', 1), ('readOnly', 'int', 0),
('attributes', ('dict', 'string', 'string'), {}),
('clients', ('dict', 'string', 'int'), {})
]
_members = {
'string' : _membersbase + [
('values', ('list', 'string'), ['']), ('kind', 'string', 'generic'),
('choices', ('list', 'string'), [])
],
'number' : _membersbase + [
('values', ('list', 'float'), [0.]),
('min', 'float', -sys.float_info.max), ('max', 'float', sys.float_info.max),
('step', 'float', 0.), ('index', 'int', -1), ('choices', ('list', 'float'), []),
('labels', ('dict', 'float', 'string'), {})
]
}
def __init__(self, type, **values) :
self.type = type
for i in _parameter._members[self.type] :
setattr(self, i[0], values[i[0]] if i[0] in values else i[2])
def tochar(self) :
def tocharitem(l, t, v) :
if t == 'string' : l.append(v)
elif t =='int': l.append(str(v))
elif t == 'float' : l.append('%.16g' % v)
elif t[0] == 'list' :
l.append(str(len(v)))
for i in v : tocharitem(l, t[1], i)
elif t[0] == 'dict' :
l.append(str(len(v)))
for i, j in v.items() :
tocharitem(l, t[1], i)
tocharitem(l, t[2], j)
msg = [_VERSION, self.type]
for i in _parameter._members[self.type] :
tocharitem(msg, i[1], getattr(self, i[0]))
return '\0'.join(msg)
def fromchar(self, msg) :
def fromcharitem(l, t) :
if t == 'string' : return l.pop()
elif t =='int': return int(l.pop())
elif t == 'float' : return float(l.pop())
elif t[0] == 'list' : return [fromcharitem(l, t[1]) for i in range(int(l.pop()))]
elif t[0] == 'dict' : return dict([(fromcharitem(l, t[1]),fromcharitem(l, t[2]))
for i in range(int(l.pop()))])
l = msg.split('\0')
l.reverse()
if l.pop() != _VERSION :
print('onelab version mismatch')
if l.pop() != self.type :
print('onelab parameter type mismatch')
for p in _parameter._members[self.type]:
setattr(self, p[0], fromcharitem(l, p[1]))
return self
def modify(self, **param) :
## updates the parameter with the content of param, attributes are merged
for i in _parameter._members[self.type] :
if i[0] in param :
if i[0] == 'attributes' :
self.attributes.update(param['attributes'])
else :
setattr(self, i[0], param[i[0]])
class client :
_GMSH_START = 1
_GMSH_STOP = 2
_GMSH_INFO = 10
_GMSH_WARNING = 11
_GMSH_ERROR = 12
_GMSH_PROGRESS = 13
_GMSH_MERGE_FILE = 20
_GMSH_PARSE_STRING = 21
_GMSH_PARAMETER = 23
_GMSH_PARAMETER_QUERY = 24
_GMSH_CONNECT = 27
_GMSH_OLPARSE = 28
_GMSH_PARAMETER_NOT_FOUND = 29
_GMSH_PARAMETER_CLEAR = 31
_GMSH_PARAMETER_UPDATE = 32
_GMSH_OPEN_PROJECT = 33
_GMSH_CLIENT_CHANGED = 34
def _createSocket(self) :
addr = self.addr
if '/' in addr or '\\' in addr or ':' not in addr :
self.socket = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
self.socket.connect(addr)
else :
self.socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s = addr.split(':')
self.socket.connect((s[0], int(s[1])))
def _receive(self) :
def buffered_receive(l) :
msg = b''
while len(msg) < l:
chunk = self.socket.recv(l - len(msg))
if not chunk :
RuntimeError('onelab socket closed')
msg += chunk
return msg
msg = buffered_receive(struct.calcsize('ii'))
t, l = struct.unpack('ii', msg)
msg = buffered_receive(l).decode('utf-8')
if t == self._GMSH_INFO :
print('onelab info : %s' % msg)
return t, msg
def _send(self, t, msg) :
if not self.socket :
return
m = msg.encode('utf-8')
try:
if self.socket.send(struct.pack('ii%is' %len(m), t, len(m), m)) == 0 :
RuntimeError('onelab socket closed')
except socket.error:
self.socket.close()
self._createSocket()
self.socket.send(struct.pack('ii%is' %len(m), t, len(m), m))
def _defineParameter(self, p) :
if not self.socket :
return p.values
self._send(self._GMSH_PARAMETER_QUERY, p.tochar())
(t, msg) = self._receive()
if t == self._GMSH_PARAMETER :
self._send(self._GMSH_PARAMETER_UPDATE, p.tochar())
return p.fromchar(msg).values
elif t == self._GMSH_PARAMETER_NOT_FOUND :
self._send(self._GMSH_PARAMETER, p.tochar())
return p.values
def _getParameter(self, param, warn_if_not_found=True) :
if not self.socket :
return
self._send(self._GMSH_PARAMETER_QUERY, param.tochar())
(t, msg) = self._receive()
if t == self._GMSH_PARAMETER :
param.fromchar(msg)
elif t == self._GMSH_PARAMETER_NOT_FOUND and warn_if_not_found :
print ('Unknown parameter %s' %(param.name))
def defineNumber(self, name, **param):
if 'value' in param :
param["values"] = [param["value"]]
del param["value"]
if 'labels' in param :
param["choices"] = param["labels"].keys()
p = _parameter('number', name=name, **param)
values = self._defineParameter(p)
return values[0] if len(values) else 0
def defineString(self, name, **param):
if 'value' in param :
param["values"] = [param["value"]]
del param["value"]
p = _parameter('string', name=name, **param)
values = self._defineParameter(p)
return values[0] if len(values) else ''
def setNumber(self, name, **param):
if not self.socket :
return
if 'value' in param :
param["values"] = [param["value"]]
del param["value"]
p = _parameter('number', name=name)
self._send(self._GMSH_PARAMETER_QUERY, p.tochar())
(t, msg) = self._receive()
if t == self._GMSH_PARAMETER :
p.fromchar(msg).modify(**param)
elif t == self._GMSH_PARAMETER_NOT_FOUND :
p.modify(**param)
self._send(self._GMSH_PARAMETER, p.tochar())
def setString(self, name, **param):
if not self.socket :
return
if 'value' in param :
param["values"] = [param["value"]]
del param["value"]
p = _parameter('string', name=name)
self._send(self._GMSH_PARAMETER_QUERY, p.tochar())
(t, msg) = self._receive()
if t == self._GMSH_PARAMETER : #modify an existing parameter
p.fromchar(msg).modify(**param)
elif t == self._GMSH_PARAMETER_NOT_FOUND : #create a new parameter
p.modify(**param)
self._send(self._GMSH_PARAMETER, p.tochar())
def clear(self, name) :
if not self.socket :
return
self._send(self._GMSH_PARAMETER_CLEAR, str(name))
def _setNumberChoices(self, name, val):
if not self.socket :
return
p = _parameter('number', name=name)
self._send(self._GMSH_PARAMETER_QUERY, p.tochar())
(t, msg) = self._receive()
if t == self._GMSH_PARAMETER :
if len(val) : # add new choices
p.fromchar(msg).values = val
p.choices.extend(val)
else : # reset choices list
p.fromchar(msg).choices = ()
elif t == self._GMSH_PARAMETER_NOT_FOUND :
print ('Unknown parameter %s' %(param.name))
self._send(self._GMSH_PARAMETER, p.tochar())
def resetNumberChoices(self, name):
self._setNumberChoices(name,[])
def addNumberChoice(self, name, value):
self._setNumberChoices(name,[value])
def getNumber(self, name, warn_if_not_found=True):
param = _parameter('number', name=name)
self._getParameter(param, warn_if_not_found)
return param.values[0] if len(param.values) else 0
def getNumbers(self, name, warn_if_not_found=True):
param = _parameter('number', name=name)
self._getParameter(param, warn_if_not_found)
return param.values
def getString(self, name, warn_if_not_found=True):
param = _parameter('string', name=name)
self._getParameter(param, warn_if_not_found)
return param.values[0] if len(param.values) else ''
def getStrings(self, name, warn_if_not_found=True):
param = _parameter('string', name=name)
self._getParameter(param, warn_if_not_found)
return param.values
def getNumberChoices(self, name, warn_if_not_found=True):
param = _parameter('number', name=name)
self._getParameter(param, warn_if_not_found)
return param.choices
def getStringChoices(self, name, warn_if_not_found=True):
param = _parameter('string', name=name)
self._getParameter(param, warn_if_not_found)
return param.choices
def getNumberRange(self, name, warn_if_not_found=True):
param = _parameter('number', name=name)
self._getParameter(param, warn_if_not_found)
return [param.values[0] if len(param.values) else 0, param.min, param.max]
def show(self, name) :
if not self.socket or not name:
return
param = _parameter('number', name=name)
self._send(self._GMSH_PARAMETER_QUERY, param.tochar())
(t, msg) = self._receive()
if t == self._GMSH_PARAMETER :
print (msg.replace('\0','|'))
elif t == self._GMSH_PARAMETER_NOT_FOUND :
param = _parameter('string', name=name)
self._send(self._GMSH_PARAMETER_QUERY, param.tochar())
(t, msg) = self._receive()
if t == self._GMSH_PARAMETER :
print (msg.replace('\0','|'))
elif t == self._GMSH_PARAMETER_NOT_FOUND :
print('Unknown parameter %s' %(name))
def sendCommand(self, command) :
if not self.socket :
return
self._send(self._GMSH_PARSE_STRING, command)
def mergeFile(self, filename) :
if not self.socket or not filename :
return
self._send(self._GMSH_MERGE_FILE, filename)
def openProject(self, filename) :
if not self.socket or not filename :
return
self._send(self._GMSH_OPEN_PROJECT, filename)
def sendInfo(self, msg) :
if not self.socket :
print (msg)
return
self._send(self._GMSH_INFO, str(msg))
def sendWarning(self, msg) :
if not self.socket :
print (msg)
return
self._send(self._GMSH_WARNING, str(msg))
def sendError(self, msg) :
if not self.socket :
print (msg)
return
self._send(self._GMSH_ERROR, str(msg))
def preProcess(self, name, filename) :
if not self.socket :
return
msg = [name, filename]
self._send(self._GMSH_OLPARSE, '\0'.join(msg))
(t, msg) = self._receive()
if t == self._GMSH_OLPARSE :
if msg == "true" :
return True
return False
def isChanged(self, name) :
if not self.socket :
return
msg = ["get", name]
self._send(self._GMSH_CLIENT_CHANGED, '\0'.join(msg))
(t, msg) = self._receive()
if t == self._GMSH_CLIENT_CHANGED :
if msg == "true" :
return True
return False
def setChanged(self, name, changed) :
if not self.socket :
return
msg = ["set", name, 'true' if changed else 'false']
self._send(self._GMSH_CLIENT_CHANGED, '\0'.join(msg))
def waitOnSubClients(self):
if not self.socket :
return
while self._numSubClients > 0:
(t, msg) = self._receive()
if t == self._GMSH_STOP :
self._numSubClients -= 1
def runNonBlockingSubClient(self, name, command, arguments=''):
if self.action == 'check':
cmd = command
else:
cmd = command + ' ' + arguments
if not self.socket :
return os.system(cmd);
msg = [name, cmd]
self._send(self._GMSH_CONNECT, '\0'.join(msg))
self._numSubClients +=1
def runSubClient(self, name, command, arguments=''):
self.runNonBlockingSubClient(name, command, arguments)
self.waitOnSubClients() # makes the subclient blocking
if self.action == 'compute':
self.setChanged(name, False)
def run(self, name, command, arguments=''):
self.runSubClient(name, command, arguments)
def __init__(self, ref=''):
self.socket = None
self.name = ""
self.addr = ""
self.wdir = os.path.dirname(ref)
self._numSubClients = 0
for i, v in enumerate(sys.argv) :
if v == '-onelab':
self.name = sys.argv[i + 1]
self.addr = sys.argv[i + 2]
self._createSocket()
self._send(self._GMSH_START, str(os.getpid()))
self.action = self.getString(self.name + '/Action', False)
self.setNumber('IsPyMetamodel',values=[1],visible=0)
self.loop = self.getNumber('0Metamodel/Loop', warn_if_not_found=False)
self.batch = self.getNumber('0Metamodel/Batch', warn_if_not_found=False)
self.sendInfo("Performing OneLab '" + self.action + "'")
if self.action == "initialize":
self.finalize()
exit(0)
def finalize(self):
# code aster python interpreter does not call the destructor at exit, it is
# necessary to call finalize() epxlicitely
if self.socket :
self.waitOnSubClients()
self._send(self._GMSH_STOP, 'Goodbye!')
self.socket.close()
self.socket = None
def __del__(self):
self.finalize()
def call(self, name, cmdline, remote='', rundir='', logfile='', poll=0):
cwd = None
if not remote :
argv = cmdline.rsplit(' ')
if rundir :
cwd = rundir
else :
argv=['ssh', remote , "cd %s ; %s" %(rundir,cmdline) ]
if poll and not logfile :
logfile = os.devnull
if logfile:
call = subprocess.Popen(argv, bufsize=1, cwd=cwd,
stdout=open(logfile,"w"),
stderr=subprocess.STDOUT)
while call.poll() == None :
self.action = self.getString(self.name + '/Action', False)
if self.action == 'stop':
call.terminate()
self._send(self._GMSH_WARNING, 'client killed')
sys.exit(1)
time.sleep(1) # check every second for the stop signal from Gmsh
else:
call = subprocess.Popen(argv, bufsize=1, cwd=cwd,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
count = 0
for line in iter(call.stdout.readline, b''):
print(line.rstrip())
count += 1
if count == 50 : # check every 50 lines for the stop signal from Gmsh
count = 0
self.action = self.getString(self.name + '/Action', False)
if self.action == 'stop':
call.terminate()
self._send(self._GMSH_WARNING, 'client killed')
sys.exit(1)
result = call.wait()
if result == 0 :
self._send(self._GMSH_INFO, 'done \"' + ' '.join(argv) + '\"')
if self.action == 'compute':
self.setChanged(name, False)
else :
self._send(self._GMSH_ERROR, 'error \"' + ' '.join(argv) + '\"')
sys.exit(1)
def copy(self, here, there):
os.system('cp '+ here + ' ' + there)
def upload(self, here, there, remote='') :
if not here or not there :
return
if remote :
argv=['rsync','-e','ssh','-auv', here, remote + ':' + there]
else :
argv=['cp','-f', here, there]
call = subprocess.Popen(argv, stderr=subprocess.PIPE, stdout=subprocess.PIPE)
result = call.wait()
if result == 0 :
self._send(self._GMSH_INFO, 'upload: ' + ' '.join(argv))
else :
print(call.stderr.read())
def download(self, there, here, remote='') :
if not here or not there :
return
if remote :
argv=['rsync','-e','ssh','-auv', remote + ':' + there, here]
else :
argv=['cp','-f', there, here]
call = subprocess.Popen(argv, stderr=subprocess.PIPE, stdout=subprocess.PIPE)
result = call.wait()
if result == 0 :
self._send(self._GMSH_INFO, 'download: ' + ' '.join(argv))
else :
print(call.stderr.read())
def getPath(self, inp='') :
return path(self.wdir, inp)
def fileExists(self, p) :
return os.path.exists(p)
def checkFile(self, p) :
if not self.fileExists(p):
self.sendError('path error: %s' %(p))
exit(0)
return True
def checkPath(self, inp='') :
p = path(self.wdir,inp)
self.checkFile(p)
return p
def solutionFiles(self, client, list) :
self.defineNumber('0Metamodel/9Use restored solution', values=[0], choices=[0,1])
self.defineString('0Metamodel/9Tag', values=[''])
if list :
if self.getNumber('0Metamodel/9Use restored solution') :
solFiles = self.getStringChoices('0Metamodel/9Solution files')
for i in solFiles:
self.checkFile(i)
else :
solFiles = list
self.setString('0Metamodel/9Solution files', values=[solFiles[0]],
choices=solFiles, readOnly=1)
for i in solFiles:
if not self.fileExists(i) :
self.setChanged(client, 'true')
return solFiles
def needsCompute(self, client) :
# Avoid recomputation when a database with restored solutions has just been loaded
# Otherwise, stop using restored solutions when the client elmer has changed
if self.useRestoredSolution() == 2: # we have just loaded a database
self.setRestoredSolution(1)
self.setChanged(client, 'false') # do not compute
else :
if self.isChanged(client):
self.setRestoredSolution(0)
return True
return False
def willCompute(self, client) : # Inform user about the value of needsCompute
if self.useRestoredSolution() == 2: # special value
return False
else :
return True if self.isChanged(client) else False
def useRestoredSolution(self) :
return self.getNumber('0Metamodel/9Use restored solution')
def setRestoredSolution(self, val) :
self.setNumber('0Metamodel/9Use restored solution', values=[val])
def outputFiles(self, list) :
if list :
self.setString('0Metamodel/9Output files', values=[list[0]],
choices=list, visible=1)
# tool to extract the (i, j)th element in an array file
# from rlcompleter import readline
def extract(filename,i,j):
input = open(filename,'r')
all_lines = input.readlines()
input.close()
if i == -1:
i = len(all_lines) # last line
items = all_lines[i-1].split()
return float(items[j-1])Functions
def extract(filename, i, j)-
Expand source code
def extract(filename,i,j): input = open(filename,'r') all_lines = input.readlines() input.close() if i == -1: i = len(all_lines) # last line items = all_lines[i-1].split() return float(items[j-1]) def path(dirname, inp)-
Expand source code
def path(dirname, inp): # dirname is a directory, can be empty # inp is an optional file or subdirectory name # returns the path to 'inp' in the same directory as 'ref' if dirname: dirname = os.path.dirname(dirname + os.sep) if not inp: return dirname if inp[0] == '/' or inp[0] == '\\' or (len(inp) > 2 and inp[1] == '\:'): return inp # do nothing, inp is an absolute path if inp[0] == '.' : inp = inp[2:] # cut off heading './' or '.\' if dirname: return dirname + os.sep + inp # append inp to the path of the reference file else: return inp
Classes
class client (ref='')-
Expand source code
class client : _GMSH_START = 1 _GMSH_STOP = 2 _GMSH_INFO = 10 _GMSH_WARNING = 11 _GMSH_ERROR = 12 _GMSH_PROGRESS = 13 _GMSH_MERGE_FILE = 20 _GMSH_PARSE_STRING = 21 _GMSH_PARAMETER = 23 _GMSH_PARAMETER_QUERY = 24 _GMSH_CONNECT = 27 _GMSH_OLPARSE = 28 _GMSH_PARAMETER_NOT_FOUND = 29 _GMSH_PARAMETER_CLEAR = 31 _GMSH_PARAMETER_UPDATE = 32 _GMSH_OPEN_PROJECT = 33 _GMSH_CLIENT_CHANGED = 34 def _createSocket(self) : addr = self.addr if '/' in addr or '\\' in addr or ':' not in addr : self.socket = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) self.socket.connect(addr) else : self.socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s = addr.split(':') self.socket.connect((s[0], int(s[1]))) def _receive(self) : def buffered_receive(l) : msg = b'' while len(msg) < l: chunk = self.socket.recv(l - len(msg)) if not chunk : RuntimeError('onelab socket closed') msg += chunk return msg msg = buffered_receive(struct.calcsize('ii')) t, l = struct.unpack('ii', msg) msg = buffered_receive(l).decode('utf-8') if t == self._GMSH_INFO : print('onelab info : %s' % msg) return t, msg def _send(self, t, msg) : if not self.socket : return m = msg.encode('utf-8') try: if self.socket.send(struct.pack('ii%is' %len(m), t, len(m), m)) == 0 : RuntimeError('onelab socket closed') except socket.error: self.socket.close() self._createSocket() self.socket.send(struct.pack('ii%is' %len(m), t, len(m), m)) def _defineParameter(self, p) : if not self.socket : return p.values self._send(self._GMSH_PARAMETER_QUERY, p.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : self._send(self._GMSH_PARAMETER_UPDATE, p.tochar()) return p.fromchar(msg).values elif t == self._GMSH_PARAMETER_NOT_FOUND : self._send(self._GMSH_PARAMETER, p.tochar()) return p.values def _getParameter(self, param, warn_if_not_found=True) : if not self.socket : return self._send(self._GMSH_PARAMETER_QUERY, param.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : param.fromchar(msg) elif t == self._GMSH_PARAMETER_NOT_FOUND and warn_if_not_found : print ('Unknown parameter %s' %(param.name)) def defineNumber(self, name, **param): if 'value' in param : param["values"] = [param["value"]] del param["value"] if 'labels' in param : param["choices"] = param["labels"].keys() p = _parameter('number', name=name, **param) values = self._defineParameter(p) return values[0] if len(values) else 0 def defineString(self, name, **param): if 'value' in param : param["values"] = [param["value"]] del param["value"] p = _parameter('string', name=name, **param) values = self._defineParameter(p) return values[0] if len(values) else '' def setNumber(self, name, **param): if not self.socket : return if 'value' in param : param["values"] = [param["value"]] del param["value"] p = _parameter('number', name=name) self._send(self._GMSH_PARAMETER_QUERY, p.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : p.fromchar(msg).modify(**param) elif t == self._GMSH_PARAMETER_NOT_FOUND : p.modify(**param) self._send(self._GMSH_PARAMETER, p.tochar()) def setString(self, name, **param): if not self.socket : return if 'value' in param : param["values"] = [param["value"]] del param["value"] p = _parameter('string', name=name) self._send(self._GMSH_PARAMETER_QUERY, p.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : #modify an existing parameter p.fromchar(msg).modify(**param) elif t == self._GMSH_PARAMETER_NOT_FOUND : #create a new parameter p.modify(**param) self._send(self._GMSH_PARAMETER, p.tochar()) def clear(self, name) : if not self.socket : return self._send(self._GMSH_PARAMETER_CLEAR, str(name)) def _setNumberChoices(self, name, val): if not self.socket : return p = _parameter('number', name=name) self._send(self._GMSH_PARAMETER_QUERY, p.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : if len(val) : # add new choices p.fromchar(msg).values = val p.choices.extend(val) else : # reset choices list p.fromchar(msg).choices = () elif t == self._GMSH_PARAMETER_NOT_FOUND : print ('Unknown parameter %s' %(param.name)) self._send(self._GMSH_PARAMETER, p.tochar()) def resetNumberChoices(self, name): self._setNumberChoices(name,[]) def addNumberChoice(self, name, value): self._setNumberChoices(name,[value]) def getNumber(self, name, warn_if_not_found=True): param = _parameter('number', name=name) self._getParameter(param, warn_if_not_found) return param.values[0] if len(param.values) else 0 def getNumbers(self, name, warn_if_not_found=True): param = _parameter('number', name=name) self._getParameter(param, warn_if_not_found) return param.values def getString(self, name, warn_if_not_found=True): param = _parameter('string', name=name) self._getParameter(param, warn_if_not_found) return param.values[0] if len(param.values) else '' def getStrings(self, name, warn_if_not_found=True): param = _parameter('string', name=name) self._getParameter(param, warn_if_not_found) return param.values def getNumberChoices(self, name, warn_if_not_found=True): param = _parameter('number', name=name) self._getParameter(param, warn_if_not_found) return param.choices def getStringChoices(self, name, warn_if_not_found=True): param = _parameter('string', name=name) self._getParameter(param, warn_if_not_found) return param.choices def getNumberRange(self, name, warn_if_not_found=True): param = _parameter('number', name=name) self._getParameter(param, warn_if_not_found) return [param.values[0] if len(param.values) else 0, param.min, param.max] def show(self, name) : if not self.socket or not name: return param = _parameter('number', name=name) self._send(self._GMSH_PARAMETER_QUERY, param.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : print (msg.replace('\0','|')) elif t == self._GMSH_PARAMETER_NOT_FOUND : param = _parameter('string', name=name) self._send(self._GMSH_PARAMETER_QUERY, param.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : print (msg.replace('\0','|')) elif t == self._GMSH_PARAMETER_NOT_FOUND : print('Unknown parameter %s' %(name)) def sendCommand(self, command) : if not self.socket : return self._send(self._GMSH_PARSE_STRING, command) def mergeFile(self, filename) : if not self.socket or not filename : return self._send(self._GMSH_MERGE_FILE, filename) def openProject(self, filename) : if not self.socket or not filename : return self._send(self._GMSH_OPEN_PROJECT, filename) def sendInfo(self, msg) : if not self.socket : print (msg) return self._send(self._GMSH_INFO, str(msg)) def sendWarning(self, msg) : if not self.socket : print (msg) return self._send(self._GMSH_WARNING, str(msg)) def sendError(self, msg) : if not self.socket : print (msg) return self._send(self._GMSH_ERROR, str(msg)) def preProcess(self, name, filename) : if not self.socket : return msg = [name, filename] self._send(self._GMSH_OLPARSE, '\0'.join(msg)) (t, msg) = self._receive() if t == self._GMSH_OLPARSE : if msg == "true" : return True return False def isChanged(self, name) : if not self.socket : return msg = ["get", name] self._send(self._GMSH_CLIENT_CHANGED, '\0'.join(msg)) (t, msg) = self._receive() if t == self._GMSH_CLIENT_CHANGED : if msg == "true" : return True return False def setChanged(self, name, changed) : if not self.socket : return msg = ["set", name, 'true' if changed else 'false'] self._send(self._GMSH_CLIENT_CHANGED, '\0'.join(msg)) def waitOnSubClients(self): if not self.socket : return while self._numSubClients > 0: (t, msg) = self._receive() if t == self._GMSH_STOP : self._numSubClients -= 1 def runNonBlockingSubClient(self, name, command, arguments=''): if self.action == 'check': cmd = command else: cmd = command + ' ' + arguments if not self.socket : return os.system(cmd); msg = [name, cmd] self._send(self._GMSH_CONNECT, '\0'.join(msg)) self._numSubClients +=1 def runSubClient(self, name, command, arguments=''): self.runNonBlockingSubClient(name, command, arguments) self.waitOnSubClients() # makes the subclient blocking if self.action == 'compute': self.setChanged(name, False) def run(self, name, command, arguments=''): self.runSubClient(name, command, arguments) def __init__(self, ref=''): self.socket = None self.name = "" self.addr = "" self.wdir = os.path.dirname(ref) self._numSubClients = 0 for i, v in enumerate(sys.argv) : if v == '-onelab': self.name = sys.argv[i + 1] self.addr = sys.argv[i + 2] self._createSocket() self._send(self._GMSH_START, str(os.getpid())) self.action = self.getString(self.name + '/Action', False) self.setNumber('IsPyMetamodel',values=[1],visible=0) self.loop = self.getNumber('0Metamodel/Loop', warn_if_not_found=False) self.batch = self.getNumber('0Metamodel/Batch', warn_if_not_found=False) self.sendInfo("Performing OneLab '" + self.action + "'") if self.action == "initialize": self.finalize() exit(0) def finalize(self): # code aster python interpreter does not call the destructor at exit, it is # necessary to call finalize() epxlicitely if self.socket : self.waitOnSubClients() self._send(self._GMSH_STOP, 'Goodbye!') self.socket.close() self.socket = None def __del__(self): self.finalize() def call(self, name, cmdline, remote='', rundir='', logfile='', poll=0): cwd = None if not remote : argv = cmdline.rsplit(' ') if rundir : cwd = rundir else : argv=['ssh', remote , "cd %s ; %s" %(rundir,cmdline) ] if poll and not logfile : logfile = os.devnull if logfile: call = subprocess.Popen(argv, bufsize=1, cwd=cwd, stdout=open(logfile,"w"), stderr=subprocess.STDOUT) while call.poll() == None : self.action = self.getString(self.name + '/Action', False) if self.action == 'stop': call.terminate() self._send(self._GMSH_WARNING, 'client killed') sys.exit(1) time.sleep(1) # check every second for the stop signal from Gmsh else: call = subprocess.Popen(argv, bufsize=1, cwd=cwd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) count = 0 for line in iter(call.stdout.readline, b''): print(line.rstrip()) count += 1 if count == 50 : # check every 50 lines for the stop signal from Gmsh count = 0 self.action = self.getString(self.name + '/Action', False) if self.action == 'stop': call.terminate() self._send(self._GMSH_WARNING, 'client killed') sys.exit(1) result = call.wait() if result == 0 : self._send(self._GMSH_INFO, 'done \"' + ' '.join(argv) + '\"') if self.action == 'compute': self.setChanged(name, False) else : self._send(self._GMSH_ERROR, 'error \"' + ' '.join(argv) + '\"') sys.exit(1) def copy(self, here, there): os.system('cp '+ here + ' ' + there) def upload(self, here, there, remote='') : if not here or not there : return if remote : argv=['rsync','-e','ssh','-auv', here, remote + ':' + there] else : argv=['cp','-f', here, there] call = subprocess.Popen(argv, stderr=subprocess.PIPE, stdout=subprocess.PIPE) result = call.wait() if result == 0 : self._send(self._GMSH_INFO, 'upload: ' + ' '.join(argv)) else : print(call.stderr.read()) def download(self, there, here, remote='') : if not here or not there : return if remote : argv=['rsync','-e','ssh','-auv', remote + ':' + there, here] else : argv=['cp','-f', there, here] call = subprocess.Popen(argv, stderr=subprocess.PIPE, stdout=subprocess.PIPE) result = call.wait() if result == 0 : self._send(self._GMSH_INFO, 'download: ' + ' '.join(argv)) else : print(call.stderr.read()) def getPath(self, inp='') : return path(self.wdir, inp) def fileExists(self, p) : return os.path.exists(p) def checkFile(self, p) : if not self.fileExists(p): self.sendError('path error: %s' %(p)) exit(0) return True def checkPath(self, inp='') : p = path(self.wdir,inp) self.checkFile(p) return p def solutionFiles(self, client, list) : self.defineNumber('0Metamodel/9Use restored solution', values=[0], choices=[0,1]) self.defineString('0Metamodel/9Tag', values=['']) if list : if self.getNumber('0Metamodel/9Use restored solution') : solFiles = self.getStringChoices('0Metamodel/9Solution files') for i in solFiles: self.checkFile(i) else : solFiles = list self.setString('0Metamodel/9Solution files', values=[solFiles[0]], choices=solFiles, readOnly=1) for i in solFiles: if not self.fileExists(i) : self.setChanged(client, 'true') return solFiles def needsCompute(self, client) : # Avoid recomputation when a database with restored solutions has just been loaded # Otherwise, stop using restored solutions when the client elmer has changed if self.useRestoredSolution() == 2: # we have just loaded a database self.setRestoredSolution(1) self.setChanged(client, 'false') # do not compute else : if self.isChanged(client): self.setRestoredSolution(0) return True return False def willCompute(self, client) : # Inform user about the value of needsCompute if self.useRestoredSolution() == 2: # special value return False else : return True if self.isChanged(client) else False def useRestoredSolution(self) : return self.getNumber('0Metamodel/9Use restored solution') def setRestoredSolution(self, val) : self.setNumber('0Metamodel/9Use restored solution', values=[val]) def outputFiles(self, list) : if list : self.setString('0Metamodel/9Output files', values=[list[0]], choices=list, visible=1)Methods
def addNumberChoice(self, name, value)-
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def addNumberChoice(self, name, value): self._setNumberChoices(name,[value]) def call(self, name, cmdline, remote='', rundir='', logfile='', poll=0)-
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def call(self, name, cmdline, remote='', rundir='', logfile='', poll=0): cwd = None if not remote : argv = cmdline.rsplit(' ') if rundir : cwd = rundir else : argv=['ssh', remote , "cd %s ; %s" %(rundir,cmdline) ] if poll and not logfile : logfile = os.devnull if logfile: call = subprocess.Popen(argv, bufsize=1, cwd=cwd, stdout=open(logfile,"w"), stderr=subprocess.STDOUT) while call.poll() == None : self.action = self.getString(self.name + '/Action', False) if self.action == 'stop': call.terminate() self._send(self._GMSH_WARNING, 'client killed') sys.exit(1) time.sleep(1) # check every second for the stop signal from Gmsh else: call = subprocess.Popen(argv, bufsize=1, cwd=cwd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) count = 0 for line in iter(call.stdout.readline, b''): print(line.rstrip()) count += 1 if count == 50 : # check every 50 lines for the stop signal from Gmsh count = 0 self.action = self.getString(self.name + '/Action', False) if self.action == 'stop': call.terminate() self._send(self._GMSH_WARNING, 'client killed') sys.exit(1) result = call.wait() if result == 0 : self._send(self._GMSH_INFO, 'done \"' + ' '.join(argv) + '\"') if self.action == 'compute': self.setChanged(name, False) else : self._send(self._GMSH_ERROR, 'error \"' + ' '.join(argv) + '\"') sys.exit(1) def checkFile(self, p)-
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def checkFile(self, p) : if not self.fileExists(p): self.sendError('path error: %s' %(p)) exit(0) return True def checkPath(self, inp='')-
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def checkPath(self, inp='') : p = path(self.wdir,inp) self.checkFile(p) return p def clear(self, name)-
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def clear(self, name) : if not self.socket : return self._send(self._GMSH_PARAMETER_CLEAR, str(name)) def copy(self, here, there)-
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def copy(self, here, there): os.system('cp '+ here + ' ' + there) def defineNumber(self, name, **param)-
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def defineNumber(self, name, **param): if 'value' in param : param["values"] = [param["value"]] del param["value"] if 'labels' in param : param["choices"] = param["labels"].keys() p = _parameter('number', name=name, **param) values = self._defineParameter(p) return values[0] if len(values) else 0 def defineString(self, name, **param)-
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def defineString(self, name, **param): if 'value' in param : param["values"] = [param["value"]] del param["value"] p = _parameter('string', name=name, **param) values = self._defineParameter(p) return values[0] if len(values) else '' def download(self, there, here, remote='')-
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def download(self, there, here, remote='') : if not here or not there : return if remote : argv=['rsync','-e','ssh','-auv', remote + ':' + there, here] else : argv=['cp','-f', there, here] call = subprocess.Popen(argv, stderr=subprocess.PIPE, stdout=subprocess.PIPE) result = call.wait() if result == 0 : self._send(self._GMSH_INFO, 'download: ' + ' '.join(argv)) else : print(call.stderr.read()) def fileExists(self, p)-
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def fileExists(self, p) : return os.path.exists(p) def finalize(self)-
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def finalize(self): # code aster python interpreter does not call the destructor at exit, it is # necessary to call finalize() epxlicitely if self.socket : self.waitOnSubClients() self._send(self._GMSH_STOP, 'Goodbye!') self.socket.close() self.socket = None def getNumber(self, name, warn_if_not_found=True)-
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def getNumber(self, name, warn_if_not_found=True): param = _parameter('number', name=name) self._getParameter(param, warn_if_not_found) return param.values[0] if len(param.values) else 0 def getNumberChoices(self, name, warn_if_not_found=True)-
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def getNumberChoices(self, name, warn_if_not_found=True): param = _parameter('number', name=name) self._getParameter(param, warn_if_not_found) return param.choices def getNumberRange(self, name, warn_if_not_found=True)-
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def getNumberRange(self, name, warn_if_not_found=True): param = _parameter('number', name=name) self._getParameter(param, warn_if_not_found) return [param.values[0] if len(param.values) else 0, param.min, param.max] def getNumbers(self, name, warn_if_not_found=True)-
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def getNumbers(self, name, warn_if_not_found=True): param = _parameter('number', name=name) self._getParameter(param, warn_if_not_found) return param.values def getPath(self, inp='')-
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def getPath(self, inp='') : return path(self.wdir, inp) def getString(self, name, warn_if_not_found=True)-
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def getString(self, name, warn_if_not_found=True): param = _parameter('string', name=name) self._getParameter(param, warn_if_not_found) return param.values[0] if len(param.values) else '' def getStringChoices(self, name, warn_if_not_found=True)-
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def getStringChoices(self, name, warn_if_not_found=True): param = _parameter('string', name=name) self._getParameter(param, warn_if_not_found) return param.choices def getStrings(self, name, warn_if_not_found=True)-
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def getStrings(self, name, warn_if_not_found=True): param = _parameter('string', name=name) self._getParameter(param, warn_if_not_found) return param.values def isChanged(self, name)-
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def isChanged(self, name) : if not self.socket : return msg = ["get", name] self._send(self._GMSH_CLIENT_CHANGED, '\0'.join(msg)) (t, msg) = self._receive() if t == self._GMSH_CLIENT_CHANGED : if msg == "true" : return True return False def mergeFile(self, filename)-
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def mergeFile(self, filename) : if not self.socket or not filename : return self._send(self._GMSH_MERGE_FILE, filename) def needsCompute(self, client)-
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def needsCompute(self, client) : # Avoid recomputation when a database with restored solutions has just been loaded # Otherwise, stop using restored solutions when the client elmer has changed if self.useRestoredSolution() == 2: # we have just loaded a database self.setRestoredSolution(1) self.setChanged(client, 'false') # do not compute else : if self.isChanged(client): self.setRestoredSolution(0) return True return False def openProject(self, filename)-
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def openProject(self, filename) : if not self.socket or not filename : return self._send(self._GMSH_OPEN_PROJECT, filename) def outputFiles(self, list)-
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def outputFiles(self, list) : if list : self.setString('0Metamodel/9Output files', values=[list[0]], choices=list, visible=1) def preProcess(self, name, filename)-
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def preProcess(self, name, filename) : if not self.socket : return msg = [name, filename] self._send(self._GMSH_OLPARSE, '\0'.join(msg)) (t, msg) = self._receive() if t == self._GMSH_OLPARSE : if msg == "true" : return True return False def resetNumberChoices(self, name)-
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def resetNumberChoices(self, name): self._setNumberChoices(name,[]) def run(self, name, command, arguments='')-
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def run(self, name, command, arguments=''): self.runSubClient(name, command, arguments) def runNonBlockingSubClient(self, name, command, arguments='')-
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def runNonBlockingSubClient(self, name, command, arguments=''): if self.action == 'check': cmd = command else: cmd = command + ' ' + arguments if not self.socket : return os.system(cmd); msg = [name, cmd] self._send(self._GMSH_CONNECT, '\0'.join(msg)) self._numSubClients +=1 def runSubClient(self, name, command, arguments='')-
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def runSubClient(self, name, command, arguments=''): self.runNonBlockingSubClient(name, command, arguments) self.waitOnSubClients() # makes the subclient blocking if self.action == 'compute': self.setChanged(name, False) def sendCommand(self, command)-
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def sendCommand(self, command) : if not self.socket : return self._send(self._GMSH_PARSE_STRING, command) def sendError(self, msg)-
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def sendError(self, msg) : if not self.socket : print (msg) return self._send(self._GMSH_ERROR, str(msg)) def sendInfo(self, msg)-
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def sendInfo(self, msg) : if not self.socket : print (msg) return self._send(self._GMSH_INFO, str(msg)) def sendWarning(self, msg)-
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def sendWarning(self, msg) : if not self.socket : print (msg) return self._send(self._GMSH_WARNING, str(msg)) def setChanged(self, name, changed)-
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def setChanged(self, name, changed) : if not self.socket : return msg = ["set", name, 'true' if changed else 'false'] self._send(self._GMSH_CLIENT_CHANGED, '\0'.join(msg)) def setNumber(self, name, **param)-
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def setNumber(self, name, **param): if not self.socket : return if 'value' in param : param["values"] = [param["value"]] del param["value"] p = _parameter('number', name=name) self._send(self._GMSH_PARAMETER_QUERY, p.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : p.fromchar(msg).modify(**param) elif t == self._GMSH_PARAMETER_NOT_FOUND : p.modify(**param) self._send(self._GMSH_PARAMETER, p.tochar()) def setRestoredSolution(self, val)-
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def setRestoredSolution(self, val) : self.setNumber('0Metamodel/9Use restored solution', values=[val]) def setString(self, name, **param)-
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def setString(self, name, **param): if not self.socket : return if 'value' in param : param["values"] = [param["value"]] del param["value"] p = _parameter('string', name=name) self._send(self._GMSH_PARAMETER_QUERY, p.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : #modify an existing parameter p.fromchar(msg).modify(**param) elif t == self._GMSH_PARAMETER_NOT_FOUND : #create a new parameter p.modify(**param) self._send(self._GMSH_PARAMETER, p.tochar()) def show(self, name)-
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def show(self, name) : if not self.socket or not name: return param = _parameter('number', name=name) self._send(self._GMSH_PARAMETER_QUERY, param.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : print (msg.replace('\0','|')) elif t == self._GMSH_PARAMETER_NOT_FOUND : param = _parameter('string', name=name) self._send(self._GMSH_PARAMETER_QUERY, param.tochar()) (t, msg) = self._receive() if t == self._GMSH_PARAMETER : print (msg.replace('\0','|')) elif t == self._GMSH_PARAMETER_NOT_FOUND : print('Unknown parameter %s' %(name)) def solutionFiles(self, client, list)-
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def solutionFiles(self, client, list) : self.defineNumber('0Metamodel/9Use restored solution', values=[0], choices=[0,1]) self.defineString('0Metamodel/9Tag', values=['']) if list : if self.getNumber('0Metamodel/9Use restored solution') : solFiles = self.getStringChoices('0Metamodel/9Solution files') for i in solFiles: self.checkFile(i) else : solFiles = list self.setString('0Metamodel/9Solution files', values=[solFiles[0]], choices=solFiles, readOnly=1) for i in solFiles: if not self.fileExists(i) : self.setChanged(client, 'true') return solFiles def upload(self, here, there, remote='')-
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def upload(self, here, there, remote='') : if not here or not there : return if remote : argv=['rsync','-e','ssh','-auv', here, remote + ':' + there] else : argv=['cp','-f', here, there] call = subprocess.Popen(argv, stderr=subprocess.PIPE, stdout=subprocess.PIPE) result = call.wait() if result == 0 : self._send(self._GMSH_INFO, 'upload: ' + ' '.join(argv)) else : print(call.stderr.read()) def useRestoredSolution(self)-
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def useRestoredSolution(self) : return self.getNumber('0Metamodel/9Use restored solution') def waitOnSubClients(self)-
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def waitOnSubClients(self): if not self.socket : return while self._numSubClients > 0: (t, msg) = self._receive() if t == self._GMSH_STOP : self._numSubClients -= 1 def willCompute(self, client)-
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def willCompute(self, client) : # Inform user about the value of needsCompute if self.useRestoredSolution() == 2: # special value return False else : return True if self.isChanged(client) else False