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import sys
import copy
import time
from Alignment.OfflineValidation.TkAlMap import TkAlMap
'''
Script for plotting TkAlMaps
How to run:
python runGCPTkAlMap.py -b inFile=<file_path> compAl=<c_alignment_name> refAl=<r_alignment_name> TkVersion=<phase> outDir=<out_dir> colPal=<col_int> defRanges=<range_str> TkautoVersion= <tk_version_bool> savePNG=<png_bool> savePDF=<pdf_bool> do4sigCap=<4sig_bool> doDefRange=<drange_bool> doFullRange=<frange_bool> doFull=<full_bool> doPixel=<pixel_bool> doStrips=<strips_bool>
Explanation:
- Mandatory arguments:
inFile=<file_path> path to root file containing geometry comparison tree "alignTree"
compAl=<c_alignment_name> name of alignment beeing compared (for title)
refAl=<r_alignment_name> name of reference alignment (for title)
- Optional arguments:
TkVersion=<phase> tracker version valid options: phase0, phase1
outDir=<out_dir> directory where to store the images
colPal=<col_int> color palette: 1 is rainbow palette, 2 is diverging color palette (blue to red)
defRanges=<range_str> string containing changes to default range in format "<var>_range=[<min>,<max>];<var2>_..." example: "dr_range=[-10,10];rdphi_range=[-2.02,120];"
TkautoVersion=<tk_version_bool> string boolean telling wheter or not to auto detect TkVersion (will override the TkVersion=<phase> selection)
savePNG=<png_bool> string boolean to save or not save as png
savePDF=<pdf_bool> string boolean to save or not save as pdf
do4sigCap=<4sig_bool> string boolean to plot 4sigma capped plots or not
doDefRange=<drange_bool> string boolean to plot default range capped plots or not
doFullRange=<frange_bool> string boolean to plot un-capped plots or not
doFull=<full_bool> string boolean to plot full detector or not
doPixel=<pixel_bool> string boolean to plot separate pixel detector or not
doStrips=<strips_bool> string boolean to plot separate strips detector or not
'''
print('*---------------------------------------*')
print('| GCP TkAlMap |')
print('*---------------------------------------*')
#var_list = ['dr']
#var_list = ['dx', 'dy', 'dz']
var_list = ['dr', 'dx', 'dy', 'dz', 'rdphi', 'dphi', 'dalpha', 'dbeta', 'dgamma', 'du', 'dv', 'dw', 'da', 'db', 'dg']
var_ranges = {}
for var in var_list:
var_ranges[var] = [None, None]
# Our own parser
print('Reading arguments')
arguments = sys.argv
al_ref = 'Reference Alignment'
al_comp = 'Compared Alignment'
out_dir = '.'
phase_str = ''
auto_tk_str = ''
palette_str = ''
range_str = ''
save_png = False
save_pdf = True
do_4scap = False
do_drange = False
do_frange = True
do_full = True
do_pixel = False
do_strips = False
save_png_str = ''
save_pdf_str = ''
do_4scap_str = ''
do_drange_str = ''
do_frange_str = ''
do_full_str = ''
do_pixel_str = ''
do_strips_str = ''
for arg in arguments:
if 'inFile=' in arg : in_file = arg.replace('inFile=', '')
if 'refAl=' in arg : al_ref = arg.replace('refAl=', '')
if 'compAl=' in arg : al_comp = arg.replace('compAl=', '')
if 'outDir=' in arg : out_dir = arg.replace('outDir=', '')
if 'TkVersion='in arg : phase_str = arg.replace('TkVersion=', '')
if 'TkautoVersion='in arg: auto_tk_str = arg.replace('TkautoVersion=', '')
if 'colPal='in arg : palette_str = arg.replace('colPal=', '')
if 'defRanges=' in arg : range_str = arg.replace('defRanges=', '')
# Limit outputs
if 'savePNG=' in arg : save_png_str = arg.replace('savePNG=', '')
if 'savePDF=' in arg : save_pdf_str = arg.replace('savePDF=', '')
if 'do4sigCap=' in arg : do_4scap_str = arg.replace('do4sigCap=', '')
if 'doDefRange=' in arg : do_drange_str = arg.replace('doDefRange=', '')
if 'doFullRange=' in arg : do_frange_str = arg.replace('doFullRange=', '')
if 'doFull=' in arg : do_full_str = arg.replace('doFull=', '')
if 'doPixel=' in arg : do_pixel_str = arg.replace('doPixel=', '')
if 'doStrips=' in arg : do_strips_str = arg.replace('doStrips=', '')
# Digest arguments
phase = 1
title = al_comp + ' - ' + al_ref
auto_tk = True
if 'FALSE' in auto_tk_str.upper(): auto_tk = False
if 'PHASE0' in phase_str.upper() : phase = 0
geometry_file = 'TkAlMapDesign_phase1_cfg.py'
if phase == 1: geometry_file = 'TkAlMapDesign_phase0_cfg.py'
palette = 2
if '1' in palette_str: palette = 1
if 'TRUE' in save_png_str .upper(): save_png = True
if 'TRUE' in save_pdf_str .upper(): save_pdf = True
if 'TRUE' in do_4scap_str .upper(): do_4scap = True
if 'TRUE' in do_drange_str.upper(): do_drange = True
if 'TRUE' in do_frange_str.upper(): do_frange = True
if 'TRUE' in do_full_str .upper(): do_full = True
if 'TRUE' in do_pixel_str .upper(): do_pixel = True
if 'TRUE' in do_strips_str.upper(): do_strips = True
if 'FALSE' in save_png_str .upper(): save_png = False
if 'FALSE' in save_pdf_str .upper(): save_pdf = False
if 'FALSE' in do_4scap_str .upper(): do_4scap = False
if 'FALSE' in do_drange_str.upper(): do_drange = False
if 'FALSE' in do_frange_str.upper(): do_frange = False
if 'FALSE' in do_full_str .upper(): do_full = False
if 'FALSE' in do_pixel_str .upper(): do_pixel = False
if 'FALSE' in do_strips_str.upper(): do_strips = False
range_str_splt = range_str.split(';')
for var_range_str in range_str_splt:
cur_var = var_range_str.split('=')[0]
if cur_var == '': continue
cur_range = eval(var_range_str.split('=')[1])
for var in var_ranges:
if var+'_range' == cur_var:
if cur_range[0] != -99999: var_ranges[var][0] = cur_range[0]
if cur_range[1] != -99999: var_ranges[var][1] = cur_range[1]
#max_val = float(var_range_str.split('=')[1].split(',')[0].replace('[', ''))
#min_val = float(var_range_str.split('=')[1].split(',')[1].replace(']', ''))
print('Current setup:')
print(' - reference alingment : '+al_ref)
print(' - compared alingment : '+al_comp)
print(' - tracker version : phase '+str(phase))
print(' - auto detect tracker version : '+str(auto_tk))
print(' - color palette : '+str(palette))
print(' - input root file : '+in_file)
print(' - output directory : '+out_dir)
print(' - saving as png : '+str(save_png))
print(' - saving as pdf : '+str(save_pdf))
print('')
print('Active plots:')
print(' - plot 4 sigma capped values : '+str(do_4scap))
print(' - plot default range capped values : '+str(do_drange))
print(' - plot un-capped values : '+str(do_frange))
print(' - plot full detector : '+str(do_full))
print(' - plot pixel detector : '+str(do_pixel))
print(' - plot strips detector : '+str(do_strips))
print('')
print('Changed default ranges:')
for var in var_ranges:
if var_ranges[var][0] is None and var_ranges[var][1] is None: continue
prt_srt = ' - '+var+'\t: [ '
if var_ranges[var][0] is None: prt_srt += 'default'
else: prt_srt += str(var_ranges[var][0])
prt_srt += '\t, '
if var_ranges[var][1] is None: prt_srt += 'default'
else: prt_srt += str(var_ranges[var][1])
prt_srt += '\t]'
print(prt_srt)
# Load maps for different configurations
print('Loading maps')
TkMap_full = TkAlMap('test', title, in_file, use_default_range=False, two_sigma_cap=False, GEO_file=geometry_file, tracker='full', palette=palette, check_tracker=auto_tk)
TkMap_pixel = TkAlMap('test', title, in_file, use_default_range=False, two_sigma_cap=False, GEO_file=geometry_file, tracker='pixel', palette=palette, check_tracker=auto_tk)
TkMap_strips = TkAlMap('test', title, in_file, use_default_range=False, two_sigma_cap=False, GEO_file=geometry_file, tracker='strips', palette=palette, check_tracker=auto_tk)
TkMap_cap_full = TkAlMap('test', title, in_file, use_default_range=False, two_sigma_cap=True, GEO_file=geometry_file, tracker='full', palette=palette, check_tracker=auto_tk)
TkMap_cap_pixel = TkAlMap('test', title, in_file, use_default_range=False, two_sigma_cap=True, GEO_file=geometry_file, tracker='pixel', palette=palette, check_tracker=auto_tk)
TkMap_cap_strips = TkAlMap('test', title, in_file, use_default_range=False, two_sigma_cap=True, GEO_file=geometry_file, tracker='strips', palette=palette, check_tracker=auto_tk)
TkMap_drange_full = TkAlMap('test', title, in_file, use_default_range=True, two_sigma_cap=False, GEO_file=geometry_file, tracker='full', palette=palette, check_tracker=auto_tk)
TkMap_drange_pixel = TkAlMap('test', title, in_file, use_default_range=True, two_sigma_cap=False, GEO_file=geometry_file, tracker='pixel', palette=palette, check_tracker=auto_tk)
TkMap_drange_strips = TkAlMap('test', title, in_file, use_default_range=True, two_sigma_cap=False, GEO_file=geometry_file, tracker='strips', palette=palette, check_tracker=auto_tk)
ts_start = time.time()
for var in var_list:
print('----- Evaluating variable: '+var)
# Usual setup
if do_frange:
if do_full:
tmp_full = TkMap_full
tmp_full.set_var(var)
tmp_full.analyse()
if save_pdf: tmp_full.save(out_dir=out_dir)
if save_png: tmp_full.save(out_dir=out_dir, extension='png')
tmp_full.plot_variable_distribution(out_dir=out_dir)
if do_pixel:
tmp_pixel = TkMap_pixel
tmp_pixel.set_var(var)
tmp_pixel.analyse()
if save_pdf: tmp_pixel.save(out_dir=out_dir)
if save_png: tmp_pixel.save(out_dir=out_dir, extension='png')
tmp_pixel.plot_variable_distribution(out_dir=out_dir)
if do_strips:
tmp_strips = TkMap_strips
tmp_strips.set_var(var)
tmp_strips.analyse()
if save_pdf: tmp_strips.save(out_dir=out_dir)
if save_png: tmp_strips.save(out_dir=out_dir, extension='png')
tmp_strips.plot_variable_distribution(out_dir=out_dir)
# 4 sigma capping
if do_4scap:
if do_full:
tmp_cap_full = TkMap_cap_full
tmp_cap_full.set_var(var)
tmp_cap_full.analyse()
if save_pdf: tmp_cap_full.save(out_dir=out_dir)
if save_png: tmp_cap_full.save(out_dir=out_dir, extension='png')
if do_pixel:
tmp_cap_pixel = TkMap_cap_pixel
tmp_cap_pixel.set_var(var)
tmp_cap_pixel.analyse()
if save_pdf: tmp_cap_pixel.save(out_dir=out_dir)
if save_png: tmp_cap_pixel.save(out_dir=out_dir, extension='png')
if do_strips:
tmp_cap_strips = TkMap_cap_strips
tmp_cap_strips.set_var(var)
tmp_cap_strips.analyse()
if save_pdf: tmp_cap_strips.save(out_dir=out_dir)
if save_png: tmp_cap_strips.save(out_dir=out_dir, extension='png')
# default ranges
if do_drange:
if do_full:
tmp_drange_full = TkMap_drange_full
tmp_drange_full.set_var(var, var_ranges[var])
tmp_drange_full.analyse()
if save_pdf: tmp_drange_full.save(out_dir=out_dir)
if save_png: tmp_drange_full.save(out_dir=out_dir, extension='png')
if do_pixel:
tmp_drange_pixel = TkMap_drange_pixel
tmp_drange_pixel.set_var(var, var_ranges[var])
tmp_drange_pixel.analyse()
if save_pdf: tmp_drange_pixel.save(out_dir=out_dir)
if save_png: tmp_drange_pixel.save(out_dir=out_dir, extension='png')
if do_strips:
tmp_drange_strips = TkMap_drange_strips
tmp_drange_strips.set_var(var, var_ranges[var])
tmp_drange_strips.analyse()
if save_pdf: tmp_drange_strips.save(out_dir=out_dir)
if save_png: tmp_drange_strips.save(out_dir=out_dir, extension='png')
TkMap_full.clean_up()
TkMap_pixel.clean_up()
TkMap_strips.clean_up()
TkMap_cap_full.clean_up()
TkMap_cap_pixel.clean_up()
TkMap_cap_strips.clean_up()
TkMap_drange_full.clean_up()
TkMap_drange_pixel.clean_up()
TkMap_drange_strips.clean_up()
print('TOOK: '+str(time.time()-ts_start)+' s')
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