def getComLineArgs():
parser = UserInput.getDefaultParser()
parser.add_argument("-s",
"--selection",
type=str,
required=True,
help="Specificy selection level to run over")
parser.add_argument("--latex",
action='store_true',
help='table in latex format')
parser.add_argument("-r",
"--object_restrict",
type=str,
default="",
help="Use modified object file")
parser.add_argument("-b",
"--branches",
type=str,
default="all",
help="List (separate by commas) of names of branches "
"in root and config file to plot")
parser.add_argument("-m",
"--make_cut",
type=str,
default="",
help="Enter a valid root cut string to apply")
parser.add_argument(
"--blinding",
type=list,
default=[
"Mass < 400", "Pt < 200", "mjj < 500", "dEtajj < 2.5", "MTWZ < 400"
],
help="Blinding cuts to apply (only to that distribution)")
return parser.parse_args()
def getComLineArgs():
parser = UserInput.getDefaultParser()
parser.add_argument("-s", "--selection", type=str, required=True, help="Specificy selection level to run over")
parser.add_argument("-r", "--object_restrict", type=str, default="", help="Use modified object file")
parser.add_argument(
"-b",
"--branches",
type=str,
default="all",
help="List (separate by commas) of names of branches " "in root and config file to plot",
)
parser.add_argument("-m", "--make_cut", type=str, default="", help="Enter a valid root cut string to apply")
parser.add_argument("--ratio_text", default="", type=str, help="Ratio text")
parser.add_argument(
"-t", "--extra_text", type=str, default="", help="Extra text to be added below (above) the legend"
)
parser.add_argument("--extra_text_above", action="store_true", help="Position extra text above the legend")
parser.add_argument(
"--folder_name", type=str, default="", help="Folder name to save plots in (default is current time)"
)
parser.add_argument("--simulation", action="store_true", help="Write 'Simulation' in CMS style text")
parser.add_argument("--no_overflow", action="store_true", help="No overflow bin")
parser.add_argument("--no_scalefactors", action="store_true", help="No scale factors")
parser.add_argument("--scaleymax", type=float, default=1.0, help="Scale default ymax by this amount")
parser.add_argument("--scaleymin", type=float, default=1.0, help="Scale default ymin by this amount")
parser.add_argument("--scalelegy", type=float, default=1.0, help="Scale default legend entry size by this amount")
parser.add_argument("--ratio_range", nargs=2, default=[0.5, 1.5], help="Ratio min ratio max (default 0.5 1.5)")
parser.add_argument("--scalexmax", type=float, default=1.0, help="Scale default xmax by this amount")
return parser.parse_args()
def getComLineArgs():
parser = UserInput.getDefaultParser()
parser.add_argument("-s",
"--selection",
type=str,
required=True,
help="Specificy selection level to run over")
parser.add_argument("-b",
"--branches",
type=str,
default="all",
help="List (separate by commas) of names of branches "
"in root and config file to plot")
parser.add_argument("--systematics",
type=str,
required=True,
help="Specificy systematics to plot")
return parser.parse_args()
def getComLineArgs():
parser = UserInput.getDefaultParser()
parser.add_argument("-s",
"--selection",
type=str,
required=True,
help="Specificy selection level to run over")
parser.add_argument("--backgroundOnly",
action='store_true',
help="Use background only fit rather than s+b")
parser.add_argument("--noCR",
action='store_true',
help="Remove control region from fit distribution")
parser.add_argument("-b",
"--branches",
type=str,
default="all",
help="List (separate by commas) of names of branches "
"in root and config file to plot")
return parser.parse_args()
# Channels should be ordered the same way as passed to the histogram
# Thus bin 0 is the underflow, bin 1 is total, and bin 2
# is the first bin with channel content (mmm/emm/eem/eee by default)
yield_info[chan] = getFormattedYieldAndError(hist, i + 2, sigfigs)
yield_info["Total Yield"] = getFormattedYieldAndError(hist, 1, sigfigs)
yield_table.add_row(
[formatted_names[hist.GetName().replace("_standalone", "")]] +
yield_info.values())
with open("temp.txt", "a") as log_file:
log_file.write(yield_table.get_latex_string())
ROOT.gROOT.SetBatch(True)
path = "/cms/kdlong" if "hep.wisc.edu" in os.environ['HOSTNAME'] else \
"/afs/cern.ch/user/k/kelong/work"
parser = UserInput.getDefaultParser()
parser.add_argument("-s",
"--selection",
type=str,
required=True,
help="Specificy selection level to run over")
parser.add_argument("-m",
"--make_cut",
type=str,
default="",
help="Enter a valid root cut string to apply")
args = parser.parse_args()
if args.hist_file == "":
ROOT.TProof.Open('workers=12')
dataset_manager = "%s/AnalysisDatasetManager" % path
def main():
args = getComLineArgs()
logging.basicConfig(level=(logging.DEBUG if args.debug else (logging.ERROR if args.quiet else logging.INFO)))
ROOT.gROOT.SetBatch(True)
ROOT.gStyle.SetOptDate(0)
if args.hist_file == "":
ROOT.TProof.Open('workers=12')
filelist = UserInput.getListOfFiles(args.files_to_plot, args.selection)
path = "/cms/kdlong" if "hep.wisc.edu" in os.environ['HOSTNAME'] else \
"/afs/cern.ch/work/m/mumuhamm/WBoson/CMSSW_11_0_0/src/Data_Manager"
config_factory = ConfigHistFactory(
"%s/AnalysisDatasetManager" % path,
#args.selection.split("_")[0],
args.selection,
args.object_restrict
)
branches = config_factory.getListOfPlotObjects() if args.branches == "all" \
else [x.strip() for x in args.branches.split(",")]
cut_string = args.make_cut
(plot_path, html_path) = helper.getPlotPaths(args.selection, args.folder_name, True)
meta_info = '-'*80 + '\n' + \
'Script called at %s\n' % datetime.datetime.now() + \
'The command was: %s\n' % ' '.join(sys.argv) + \
'-'*80 + '\n'
for branch in branches:
hist_stacks = []
signal_stacks = []
data_hists = []
for branch_name in branch.split("+"):
with open("temp.txt", "w") as mc_file:
mc_file.write(meta_info)
mc_file.write("Selection: %s" % args.selection)
mc_file.write("\nAdditional cut: %s" % ("None" if cut_string == "" else cut_string))
mc_file.write("\nLuminosity: %0.2f fb^{-1}" % (args.luminosity))
mc_file.write("\nPlotting branch: %s\n" % branch_name)
try:
hist_stack = getStacked("stack_"+branch_name, config_factory, args.selection, filelist,
branch_name, args.channels, args.blinding, not args.no_overflow, args.latex, cut_string,
args.luminosity, args.rebin, args.uncertainties, args.hist_file, args.scale)
except ValueError as e:
logging.warning('\033[91m'+ str(e)+'\033[0m')
continue
if args.data != 'none':
if args.hist_file == "":
data_hist = helper.getConfigHistFromTree(config_factory, args.data, args.selection,
branch_name, args.channels, args.blinding, 1, not args.no_overflow, args.rebin,
cut_string)
else:
data_hist = helper.getConfigHistFromFile(args.hist_file, config_factory, args.data,
args.selection, branch_name, args.channels,addOverflow=(not args.no_overflow), rebin=args.rebin)
with open("temp.txt", "a") as events_log_file:
events_log_file.write("\nNumber of events in data: %i\n" % data_hist.Integral())
else:
data_hist = 0
signal_stack = 0
if len(args.signal_files) > 0:
signal_filelist = UserInput.getListOfFiles(args.signal_files, args.selection)
signal_stack = getStacked("signal_stack_"+branch_name, config_factory, args.selection, signal_filelist,
branch_name, args.channels, args.blinding, not args.no_overflow, args.latex, cut_string,
args.luminosity, args.rebin, args.uncertainties, args.hist_file)
hist_stacks.append(hist_stack)
signal_stacks.append(signal_stack)
data_hists.append(data_hist)
if not hist_stacks:
continue
name = branch.replace("+","_")
plot_name = name if args.append_to_name == "" else "_".join([name, args.append_to_name])
#embed()
canvas = helper.makePlots(hist_stacks, data_hists, name, args, signal_stacks)
#ratioPad = canvas.GetListOfPrimitives().FindObject("ratioPad")
#stackPad = canvas.GetListOfPrimitives().FindObject("stackPad")
#ratiohist = ratioPad.GetListOfPrimitives().FindObject('%s_canvas_central_ratioHist' % name)
#for i in ratioPad.GetListOfPrimitives(): print i
#xaxis = hist.GetXaxis()
#xaxis.SetLabelOffset(1.2)
helper.savePlot(canvas, plot_path, html_path, plot_name, True, args)
makeSimpleHtml.writeHTML(html_path.replace("/plots",""), args.selection)
def main():
#pdb.set_trace()
args = getComLineArgs()
with open('varsFile.json') as var_json_file:
myvar_dict = json.load(var_json_file)
for key in myvar_dict.keys():
if args.branches==str(key):
args.rebin = myvar_dict[key]['_binning']
ROOT.gROOT.SetBatch(True)
ROOT.gStyle.SetOptDate(0)
if args.hist_file == "":
ROOT.TProof.Open('workers=12')
filelist = UserInput.getListOfFiles(args.files_to_plot, args.selection)
print filelist
path = "/cms/uhussain" if "hep.wisc.edu" in os.environ['HOSTNAME'] else \
"/afs/cern.ch/user/h/hehe/new_ZZ_test_Sep9/CMSSW_10_3_1/src/Data_manager"
config_factory = ConfigHistFactory(
"%s/ZZ4lRun2DatasetManager" % path,
args.selection.split("_")[0],
args.object_restrict
)
#print args.selection, args.selection.split("_")[0]
#print args.rebin
branches = config_factory.getListOfPlotObjects() if args.branches == "all" \
else [x.strip() for x in args.branches.split(",")]
print branches
cut_string = args.make_cut
(plot_path, html_path) = helper.getPlotPaths(args.selection, args.folder_name, True)
meta_info = '-'*80 + '\n' + \
'Script called at %s\n' % datetime.datetime.now() + \
'The command was: %s\n' % ' '.join(sys.argv) + \
'-'*80 + '\n'
for branch in branches:
hist_stacks = []
signal_stacks = []
data_hists = []
for branch_name in branch.split("+"):
with open("temp.txt", "w") as mc_file:
mc_file.write(meta_info)
mc_file.write("Selection: %s" % args.selection)
mc_file.write("\nAdditional cut: %s" % ("None" if cut_string == "" else cut_string))
mc_file.write("\nLuminosity: %0.2f fb^{-1}" % (args.luminosity))
mc_file.write("\nPlotting branch: %s\n" % branch_name)
try:
#pdb.set_trace()
hist_stack = getStacked("stack_"+branch_name, config_factory, args.selection, filelist,
branch_name, args.channels, args.blinding, not args.no_overflow, args.latex, cut_string,
args.luminosity, args.rebin, args.uncertainties, args.hist_file)
except ValueError as e:
logging.warning('\033[91m'+ str(e)+'\033[0m')
continue
if not args.no_data:
#pdb.set_trace()
if args.hist_file == "":
#data_hist = helper.getConfigHistFromTree(config_factory, "data_all", args.selection,
data_hist = helper.getConfigHistFromTree(config_factory, "data_all", args.selection,
branch_name, args.channels, args.blinding, 1, not args.no_overflow, args.rebin,
cut_string)
else:
#data_hist = helper.getConfigHistFromFile(args.hist_file, config_factory, "data_all",
data_hist = helper.getConfigHistFromFile(args.hist_file, config_factory, "data_all",
args.selection, branch_name, args.channels,addOverflow=(not args.no_overflow), rebin=args.rebin)
with open("temp.txt", "a") as events_log_file:
events_log_file.write("\nNumber of events in data: %i\n" % data_hist.Integral())
else:
data_hist = 0
signal_stack = 0
if len(args.signal_files) > 0:
signal_filelist = UserInput.getListOfFiles(args.signal_files, args.selection)
signal_stack = getStacked("signal_stack_"+branch_name, config_factory, args.selection, signal_filelist,
branch_name, args.channels, args.blinding, not args.no_overflow, args.latex, cut_string,
args.luminosity, args.rebin, args.uncertainties, args.hist_file)
hist_stacks.append(hist_stack)
signal_stacks.append(signal_stack)
data_hists.append(data_hist)
if not hist_stacks:
continue
name = branch.replace("+","_")
plot_name = name if args.append_to_name == "" else "_".join([name, args.append_to_name])
#embed()
canvas = helper.makePlots(hist_stacks, data_hists, name, args, signal_stacks)
helper.savePlot(canvas, plot_path, html_path, plot_name, True, args)
makeSimpleHtml.writeHTML(html_path.replace("/plots",""), args.selection)
import Utilities.helper_functions as helper
from Utilities import CutFlowDefinitions
import os
def getMonteCarloStack(cutflow_maker, filelist):
hist_stack = ROOT.THStack("cutflow", "")
for plot_set in filelist:
hist = cutflow_maker.getHist(plot_set)
hist_stack.Add(hist)
return hist_stack
ROOT.gROOT.SetBatch(True)
ROOT.TProof.Open('workers=12')
path = "/cms/kdlong" if "hep.wisc.edu" in os.environ['HOSTNAME'] else \
"/afs/cern.ch/user/k/kelong/work"
parser = UserInput.getDefaultParser()
args = parser.parse_args()
cutflow_maker = CutFlowDefinitions.getWZCutFlow(
"%s/AnalysisDatasetManager" % path,
"full"
)
cutflow_maker.setLuminosity(1340)
cutflow_maker.setStates(["eee", "mmm", "emm", "eem"])
filelist = ["ttbar", "st", "ttv", "vvv", "ww", "zz", "dy-filt", "zg-filt",
"wz"] if args.files_to_plot == "all" else \
[x.strip() for x in args.files_to_plot.split(",")]
data_hist = cutflow_maker.getHist("data")
hist_stack = getMonteCarloStack(cutflow_maker, filelist)
hist_stack.Draw()
hist_stack.GetXaxis().SetLabelSize(0.4*8/9)
print "Now stack is %s" % hist_stack
import os
def getMonteCarloStack(cutflow_maker, filelist, unc, scale_facs):
hist_stack = ROOT.THStack("stack", "")
for plot_set in filelist:
hist = cutflow_maker.getHist(plot_set, unc, "", scale_facs)
hist_stack.Add(hist)
return hist_stack
ROOT.gROOT.SetBatch(True)
ROOT.TProof.Open('workers=12')
path = "/cms/kdlong" if "hep.wisc.edu" in os.environ['HOSTNAME'] else \
"/afs/cern.ch/work/m/mumuhamm/WBoson/CMSSW_11_0_0/src/Data_Manager"
parser = UserInput.getDefaultParser()
args = parser.parse_args()
cutflow_maker = CutFlowDefinitions.getWZCutFlow(
"%s/AnalysisDatasetManager" % path, "full")
cutflow_maker.setLuminosity(args.luminosity)
cutflow_maker.setStates(args.channels)
filelist = UserInput.getListOfFiles(args.files_to_plot, "Wselection")
if not args.no_data:
data_hist = cutflow_maker.getHist("data_2016", "stat", "")
else:
data_hist = 0
hist_stack = getMonteCarloStack(cutflow_maker, filelist, args.uncertainties,
not args.no_scalefactors)
hist_stack.Draw()
hist_stack.GetXaxis().SetLabelSize(0.4 * 8 / 9)
canvas = helper.makePlot(hist_stack, data_hist, "CutFlow", args)
