print(colors.OKBLUE + "Will run on grid: %s" % data['grid'] + colors.ENDC)
print("Optimisation mode: %s" % data['mode'])
print("Using the following points: %s" % ", ".join(data['points']))
if args.force:
print("")
print(colors.WARNING +
"USING --force COULD POLLUTE YOUR OUTPUT DIRECTORY" + colors.ENDC)
print("")
if not args.local and args.site == "default":
inputConfig = InputConfig()
args.site = inputConfig.site
print(colors.OKGREEN + "Running %d commands" % len(data['commands']) +
colors.ENDC)
# We can either do this locally, or on a grid
if args.local:
runLocalCommands(args, dirname, data['commands'])
else:
# TODO: here we initialise a class based on a pass grid name, which loads settings
# from batch.cfg and can run all of it
runBatchCommands(args, dirname, data['commands'])
# Keep a copy of the optimisation used in the output dir
copiedFilename = os.path.join(dirname, os.path.basename(args.filename))
if not args.dry_run and os.path.abspath(
args.filename) != os.path.abspath(copiedFilename):
shutil.copyfile(args.filename, os.path.join(copiedFilename))
if not args.local and args.site == "default":
inputConfig = InputConfig()
args.site = inputConfig.site
print(colors.OKGREEN + "Running %d commands" % len(data['commands']) + colors.ENDC)
# We can either do this locally, or on a grid
if args.local:
runLocalCommands(args, dirname, data['commands'])
else:
commandsToRun = data['commands']
if runMissing: # clean the non-needed commands
uniqueCutStrings = []
for r in missingCutStrings:
uniqueCutStrings.append(missingCutStrings[r])
uniqueCutStrings = set(uniqueCutStrings)
missingCommands = []
for c in commandsToRun:
print c[0]
if c[0] not in uniqueCutStrings: continue
missingCommands.append(c)
commandsToRun = missingCommands
runBatchCommands(args, dirname, commandsToRun, runMissing)
# Keep a copy of the optimisation used in the output dir
copiedFilename = os.path.join(dirname, os.path.basename(args.filename))
if not args.dry_run and os.path.abspath(args.filename) != os.path.abspath(copiedFilename):
shutil.copyfile(args.filename, os.path.join(copiedFilename))
print("Loaded SRs generated with %s" % data['argv'])
print("Generated at: %s" % datetime.datetime.fromtimestamp(data['timestamp']).strftime("%d/%m/%Y, %H:%M:%S"))
print("")
print(colors.OKBLUE + "Will run on grid: %s" % data['grid'] + colors.ENDC)
print("Optimisation mode: %s" % data['mode'])
print("Using the following points: %s" % ", ".join(data['points']))
if args.force:
print("")
print(colors.WARNING + "USING --force COULD POLLUTE YOUR OUTPUT DIRECTORY" + colors.ENDC)
print("")
if not args.local and args.site == "default":
inputConfig = InputConfig()
args.site = inputConfig.site
print(colors.OKGREEN + "Running %d commands" % len(data['commands']) + colors.ENDC)
# We can either do this locally, or on a grid
if args.local:
runLocalCommands(args, dirname, data['commands'])
else:
# TODO: here we initialise a class based on a pass grid name, which loads settings
# from batch.cfg and can run all of it
runBatchCommands(args, dirname, data['commands'])
# Keep a copy of the optimisation used in the output dir
copiedFilename = os.path.join(dirname, os.path.basename(args.filename))
if not args.dry_run and os.path.abspath(args.filename) != os.path.abspath(copiedFilename):
shutil.copyfile(args.filename, os.path.join(copiedFilename))
args.site = inputConfig.site
print(colors.OKGREEN + "Running %d commands" % len(data['commands']) +
colors.ENDC)
# We can either do this locally, or on a grid
if args.local:
runLocalCommands(args, dirname, data['commands'])
else:
commandsToRun = data['commands']
if runMissing: # clean the non-needed commands
uniqueCutStrings = []
for r in missingCutStrings:
uniqueCutStrings.append(missingCutStrings[r])
uniqueCutStrings = set(uniqueCutStrings)
missingCommands = []
for c in commandsToRun:
print c[0]
if c[0] not in uniqueCutStrings: continue
missingCommands.append(c)
commandsToRun = missingCommands
runBatchCommands(args, dirname, commandsToRun, runMissing)
# Keep a copy of the optimisation used in the output dir
copiedFilename = os.path.join(dirname, os.path.basename(args.filename))
if not args.dry_run and os.path.abspath(
args.filename) != os.path.abspath(copiedFilename):
shutil.copyfile(args.filename, os.path.join(copiedFilename))
args.site = inputConfig.site
print(colors.OKGREEN + "Running %d commands" % len(data['commands']) +
colors.ENDC)
# We can either do this locally, or on a grid
if args.local:
runLocalCommands(args, dirname, data['commands'])
else:
commandsToRun = data['commands']
if runMissing: # clean the non-needed commands
uniqueCutStrings = []
for r in missingCutStrings:
uniqueCutStrings.append(missingCutStrings[r])
uniqueCutStrings = set(uniqueCutStrings)
missingCommands = []
for c in commandsToRun:
print c[0]
if c[0] not in uniqueCutStrings: continue
missingCommands.append(c)
commandsToRun = missingCommands
runBatchCommands(args, outputname, commandsToRun, runMissing)
# Keep a copy of the optimisation used in the output dir
copiedFilename = os.path.join(dirname, os.path.basename(args.filename))
if not args.dry_run and os.path.abspath(
args.filename) != os.path.abspath(copiedFilename):
shutil.copyfile(args.filename, os.path.join(copiedFilename))